source: trip-planner-front/node_modules/postcss-calc/dist/parser.js@ eed0bf8

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[6a3a178]1
2/* parser generated by jison 0.6.1-215 */
3
4/*
5 * Returns a Parser object of the following structure:
6 *
7 * Parser: {
8 * yy: {} The so-called "shared state" or rather the *source* of it;
9 * the real "shared state" `yy` passed around to
10 * the rule actions, etc. is a derivative/copy of this one,
11 * not a direct reference!
12 * }
13 *
14 * Parser.prototype: {
15 * yy: {},
16 * EOF: 1,
17 * TERROR: 2,
18 *
19 * trace: function(errorMessage, ...),
20 *
21 * JisonParserError: function(msg, hash),
22 *
23 * quoteName: function(name),
24 * Helper function which can be overridden by user code later on: put suitable
25 * quotes around literal IDs in a description string.
26 *
27 * originalQuoteName: function(name),
28 * The basic quoteName handler provided by JISON.
29 * `cleanupAfterParse()` will clean up and reset `quoteName()` to reference this function
30 * at the end of the `parse()`.
31 *
32 * describeSymbol: function(symbol),
33 * Return a more-or-less human-readable description of the given symbol, when
34 * available, or the symbol itself, serving as its own 'description' for lack
35 * of something better to serve up.
36 *
37 * Return NULL when the symbol is unknown to the parser.
38 *
39 * symbols_: {associative list: name ==> number},
40 * terminals_: {associative list: number ==> name},
41 * nonterminals: {associative list: rule-name ==> {associative list: number ==> rule-alt}},
42 * terminal_descriptions_: (if there are any) {associative list: number ==> description},
43 * productions_: [...],
44 *
45 * performAction: function parser__performAction(yytext, yyleng, yylineno, yyloc, yystate, yysp, yyvstack, yylstack, yystack, yysstack),
46 *
47 * The function parameters and `this` have the following value/meaning:
48 * - `this` : reference to the `yyval` internal object, which has members (`$` and `_$`)
49 * to store/reference the rule value `$$` and location info `@$`.
50 *
51 * One important thing to note about `this` a.k.a. `yyval`: every *reduce* action gets
52 * to see the same object via the `this` reference, i.e. if you wish to carry custom
53 * data from one reduce action through to the next within a single parse run, then you
54 * may get nasty and use `yyval` a.k.a. `this` for storing you own semi-permanent data.
55 *
56 * `this.yy` is a direct reference to the `yy` shared state object.
57 *
58 * `%parse-param`-specified additional `parse()` arguments have been added to this `yy`
59 * object at `parse()` start and are therefore available to the action code via the
60 * same named `yy.xxxx` attributes (where `xxxx` represents a identifier name from
61 * the %parse-param` list.
62 *
63 * - `yytext` : reference to the lexer value which belongs to the last lexer token used
64 * to match this rule. This is *not* the look-ahead token, but the last token
65 * that's actually part of this rule.
66 *
67 * Formulated another way, `yytext` is the value of the token immediately preceeding
68 * the current look-ahead token.
69 * Caveats apply for rules which don't require look-ahead, such as epsilon rules.
70 *
71 * - `yyleng` : ditto as `yytext`, only now for the lexer.yyleng value.
72 *
73 * - `yylineno`: ditto as `yytext`, only now for the lexer.yylineno value.
74 *
75 * - `yyloc` : ditto as `yytext`, only now for the lexer.yylloc lexer token location info.
76 *
77 * WARNING: since jison 0.4.18-186 this entry may be NULL/UNDEFINED instead
78 * of an empty object when no suitable location info can be provided.
79 *
80 * - `yystate` : the current parser state number, used internally for dispatching and
81 * executing the action code chunk matching the rule currently being reduced.
82 *
83 * - `yysp` : the current state stack position (a.k.a. 'stack pointer')
84 *
85 * This one comes in handy when you are going to do advanced things to the parser
86 * stacks, all of which are accessible from your action code (see the next entries below).
87 *
88 * Also note that you can access this and other stack index values using the new double-hash
89 * syntax, i.e. `##$ === ##0 === yysp`, while `##1` is the stack index for all things
90 * related to the first rule term, just like you have `$1`, `@1` and `#1`.
91 * This is made available to write very advanced grammar action rules, e.g. when you want
92 * to investigate the parse state stack in your action code, which would, for example,
93 * be relevant when you wish to implement error diagnostics and reporting schemes similar
94 * to the work described here:
95 *
96 * + Pottier, F., 2016. Reachability and error diagnosis in LR(1) automata.
97 * In Journées Francophones des Languages Applicatifs.
98 *
99 * + Jeffery, C.L., 2003. Generating LR syntax error messages from examples.
100 * ACM Transactions on Programming Languages and Systems (TOPLAS), 25(5), pp.631–640.
101 *
102 * - `yyrulelength`: the current rule's term count, i.e. the number of entries occupied on the stack.
103 *
104 * This one comes in handy when you are going to do advanced things to the parser
105 * stacks, all of which are accessible from your action code (see the next entries below).
106 *
107 * - `yyvstack`: reference to the parser value stack. Also accessed via the `$1` etc.
108 * constructs.
109 *
110 * - `yylstack`: reference to the parser token location stack. Also accessed via
111 * the `@1` etc. constructs.
112 *
113 * WARNING: since jison 0.4.18-186 this array MAY contain slots which are
114 * UNDEFINED rather than an empty (location) object, when the lexer/parser
115 * action code did not provide a suitable location info object when such a
116 * slot was filled!
117 *
118 * - `yystack` : reference to the parser token id stack. Also accessed via the
119 * `#1` etc. constructs.
120 *
121 * Note: this is a bit of a **white lie** as we can statically decode any `#n` reference to
122 * its numeric token id value, hence that code wouldn't need the `yystack` but *you* might
123 * want access this array for your own purposes, such as error analysis as mentioned above!
124 *
125 * Note that this stack stores the current stack of *tokens*, that is the sequence of
126 * already parsed=reduced *nonterminals* (tokens representing rules) and *terminals*
127 * (lexer tokens *shifted* onto the stack until the rule they belong to is found and
128 * *reduced*.
129 *
130 * - `yysstack`: reference to the parser state stack. This one carries the internal parser
131 * *states* such as the one in `yystate`, which are used to represent
132 * the parser state machine in the *parse table*. *Very* *internal* stuff,
133 * what can I say? If you access this one, you're clearly doing wicked things
134 *
135 * - `...` : the extra arguments you specified in the `%parse-param` statement in your
136 * grammar definition file.
137 *
138 * table: [...],
139 * State transition table
140 * ----------------------
141 *
142 * index levels are:
143 * - `state` --> hash table
144 * - `symbol` --> action (number or array)
145 *
146 * If the `action` is an array, these are the elements' meaning:
147 * - index [0]: 1 = shift, 2 = reduce, 3 = accept
148 * - index [1]: GOTO `state`
149 *
150 * If the `action` is a number, it is the GOTO `state`
151 *
152 * defaultActions: {...},
153 *
154 * parseError: function(str, hash, ExceptionClass),
155 * yyError: function(str, ...),
156 * yyRecovering: function(),
157 * yyErrOk: function(),
158 * yyClearIn: function(),
159 *
160 * constructParseErrorInfo: function(error_message, exception_object, expected_token_set, is_recoverable),
161 * Helper function **which will be set up during the first invocation of the `parse()` method**.
162 * Produces a new errorInfo 'hash object' which can be passed into `parseError()`.
163 * See it's use in this parser kernel in many places; example usage:
164 *
165 * var infoObj = parser.constructParseErrorInfo('fail!', null,
166 * parser.collect_expected_token_set(state), true);
167 * var retVal = parser.parseError(infoObj.errStr, infoObj, parser.JisonParserError);
168 *
169 * originalParseError: function(str, hash, ExceptionClass),
170 * The basic `parseError` handler provided by JISON.
171 * `cleanupAfterParse()` will clean up and reset `parseError()` to reference this function
172 * at the end of the `parse()`.
173 *
174 * options: { ... parser %options ... },
175 *
176 * parse: function(input[, args...]),
177 * Parse the given `input` and return the parsed value (or `true` when none was provided by
178 * the root action, in which case the parser is acting as a *matcher*).
179 * You MAY use the additional `args...` parameters as per `%parse-param` spec of this grammar:
180 * these extra `args...` are added verbatim to the `yy` object reference as member variables.
181 *
182 * WARNING:
183 * Parser's additional `args...` parameters (via `%parse-param`) MAY conflict with
184 * any attributes already added to `yy` by the jison run-time;
185 * when such a collision is detected an exception is thrown to prevent the generated run-time
186 * from silently accepting this confusing and potentially hazardous situation!
187 *
188 * The lexer MAY add its own set of additional parameters (via the `%parse-param` line in
189 * the lexer section of the grammar spec): these will be inserted in the `yy` shared state
190 * object and any collision with those will be reported by the lexer via a thrown exception.
191 *
192 * cleanupAfterParse: function(resultValue, invoke_post_methods, do_not_nuke_errorinfos),
193 * Helper function **which will be set up during the first invocation of the `parse()` method**.
194 * This helper API is invoked at the end of the `parse()` call, unless an exception was thrown
195 * and `%options no-try-catch` has been defined for this grammar: in that case this helper MAY
196 * be invoked by calling user code to ensure the `post_parse` callbacks are invoked and
197 * the internal parser gets properly garbage collected under these particular circumstances.
198 *
199 * yyMergeLocationInfo: function(first_index, last_index, first_yylloc, last_yylloc, dont_look_back),
200 * Helper function **which will be set up during the first invocation of the `parse()` method**.
201 * This helper API can be invoked to calculate a spanning `yylloc` location info object.
202 *
203 * Note: %epsilon rules MAY specify no `first_index` and `first_yylloc`, in which case
204 * this function will attempt to obtain a suitable location marker by inspecting the location stack
205 * backwards.
206 *
207 * For more info see the documentation comment further below, immediately above this function's
208 * implementation.
209 *
210 * lexer: {
211 * yy: {...}, A reference to the so-called "shared state" `yy` once
212 * received via a call to the `.setInput(input, yy)` lexer API.
213 * EOF: 1,
214 * ERROR: 2,
215 * JisonLexerError: function(msg, hash),
216 * parseError: function(str, hash, ExceptionClass),
217 * setInput: function(input, [yy]),
218 * input: function(),
219 * unput: function(str),
220 * more: function(),
221 * reject: function(),
222 * less: function(n),
223 * pastInput: function(n),
224 * upcomingInput: function(n),
225 * showPosition: function(),
226 * test_match: function(regex_match_array, rule_index, ...),
227 * next: function(...),
228 * lex: function(...),
229 * begin: function(condition),
230 * pushState: function(condition),
231 * popState: function(),
232 * topState: function(),
233 * _currentRules: function(),
234 * stateStackSize: function(),
235 * cleanupAfterLex: function()
236 *
237 * options: { ... lexer %options ... },
238 *
239 * performAction: function(yy, yy_, $avoiding_name_collisions, YY_START, ...),
240 * rules: [...],
241 * conditions: {associative list: name ==> set},
242 * }
243 * }
244 *
245 *
246 * token location info (@$, _$, etc.): {
247 * first_line: n,
248 * last_line: n,
249 * first_column: n,
250 * last_column: n,
251 * range: [start_number, end_number]
252 * (where the numbers are indexes into the input string, zero-based)
253 * }
254 *
255 * ---
256 *
257 * The `parseError` function receives a 'hash' object with these members for lexer and
258 * parser errors:
259 *
260 * {
261 * text: (matched text)
262 * token: (the produced terminal token, if any)
263 * token_id: (the produced terminal token numeric ID, if any)
264 * line: (yylineno)
265 * loc: (yylloc)
266 * }
267 *
268 * parser (grammar) errors will also provide these additional members:
269 *
270 * {
271 * expected: (array describing the set of expected tokens;
272 * may be UNDEFINED when we cannot easily produce such a set)
273 * state: (integer (or array when the table includes grammar collisions);
274 * represents the current internal state of the parser kernel.
275 * can, for example, be used to pass to the `collect_expected_token_set()`
276 * API to obtain the expected token set)
277 * action: (integer; represents the current internal action which will be executed)
278 * new_state: (integer; represents the next/planned internal state, once the current
279 * action has executed)
280 * recoverable: (boolean: TRUE when the parser MAY have an error recovery rule
281 * available for this particular error)
282 * state_stack: (array: the current parser LALR/LR internal state stack; this can be used,
283 * for instance, for advanced error analysis and reporting)
284 * value_stack: (array: the current parser LALR/LR internal `$$` value stack; this can be used,
285 * for instance, for advanced error analysis and reporting)
286 * location_stack: (array: the current parser LALR/LR internal location stack; this can be used,
287 * for instance, for advanced error analysis and reporting)
288 * yy: (object: the current parser internal "shared state" `yy`
289 * as is also available in the rule actions; this can be used,
290 * for instance, for advanced error analysis and reporting)
291 * lexer: (reference to the current lexer instance used by the parser)
292 * parser: (reference to the current parser instance)
293 * }
294 *
295 * while `this` will reference the current parser instance.
296 *
297 * When `parseError` is invoked by the lexer, `this` will still reference the related *parser*
298 * instance, while these additional `hash` fields will also be provided:
299 *
300 * {
301 * lexer: (reference to the current lexer instance which reported the error)
302 * }
303 *
304 * When `parseError` is invoked by the parser due to a **JavaScript exception** being fired
305 * from either the parser or lexer, `this` will still reference the related *parser*
306 * instance, while these additional `hash` fields will also be provided:
307 *
308 * {
309 * exception: (reference to the exception thrown)
310 * }
311 *
312 * Please do note that in the latter situation, the `expected` field will be omitted as
313 * this type of failure is assumed not to be due to *parse errors* but rather due to user
314 * action code in either parser or lexer failing unexpectedly.
315 *
316 * ---
317 *
318 * You can specify parser options by setting / modifying the `.yy` object of your Parser instance.
319 * These options are available:
320 *
321 * ### options which are global for all parser instances
322 *
323 * Parser.pre_parse: function(yy)
324 * optional: you can specify a pre_parse() function in the chunk following
325 * the grammar, i.e. after the last `%%`.
326 * Parser.post_parse: function(yy, retval, parseInfo) { return retval; }
327 * optional: you can specify a post_parse() function in the chunk following
328 * the grammar, i.e. after the last `%%`. When it does not return any value,
329 * the parser will return the original `retval`.
330 *
331 * ### options which can be set up per parser instance
332 *
333 * yy: {
334 * pre_parse: function(yy)
335 * optional: is invoked before the parse cycle starts (and before the first
336 * invocation of `lex()`) but immediately after the invocation of
337 * `parser.pre_parse()`).
338 * post_parse: function(yy, retval, parseInfo) { return retval; }
339 * optional: is invoked when the parse terminates due to success ('accept')
340 * or failure (even when exceptions are thrown).
341 * `retval` contains the return value to be produced by `Parser.parse()`;
342 * this function can override the return value by returning another.
343 * When it does not return any value, the parser will return the original
344 * `retval`.
345 * This function is invoked immediately before `parser.post_parse()`.
346 *
347 * parseError: function(str, hash, ExceptionClass)
348 * optional: overrides the default `parseError` function.
349 * quoteName: function(name),
350 * optional: overrides the default `quoteName` function.
351 * }
352 *
353 * parser.lexer.options: {
354 * pre_lex: function()
355 * optional: is invoked before the lexer is invoked to produce another token.
356 * `this` refers to the Lexer object.
357 * post_lex: function(token) { return token; }
358 * optional: is invoked when the lexer has produced a token `token`;
359 * this function can override the returned token value by returning another.
360 * When it does not return any (truthy) value, the lexer will return
361 * the original `token`.
362 * `this` refers to the Lexer object.
363 *
364 * ranges: boolean
365 * optional: `true` ==> token location info will include a .range[] member.
366 * flex: boolean
367 * optional: `true` ==> flex-like lexing behaviour where the rules are tested
368 * exhaustively to find the longest match.
369 * backtrack_lexer: boolean
370 * optional: `true` ==> lexer regexes are tested in order and for invoked;
371 * the lexer terminates the scan when a token is returned by the action code.
372 * xregexp: boolean
373 * optional: `true` ==> lexer rule regexes are "extended regex format" requiring the
374 * `XRegExp` library. When this `%option` has not been specified at compile time, all lexer
375 * rule regexes have been written as standard JavaScript RegExp expressions.
376 * }
377 */
378
379
380
381 var parser = (function () {
382
383
384// See also:
385// http://stackoverflow.com/questions/1382107/whats-a-good-way-to-extend-error-in-javascript/#35881508
386// but we keep the prototype.constructor and prototype.name assignment lines too for compatibility
387// with userland code which might access the derived class in a 'classic' way.
388function JisonParserError(msg, hash) {
389 Object.defineProperty(this, 'name', {
390 enumerable: false,
391 writable: false,
392 value: 'JisonParserError'
393 });
394
395 if (msg == null) msg = '???';
396
397 Object.defineProperty(this, 'message', {
398 enumerable: false,
399 writable: true,
400 value: msg
401 });
402
403 this.hash = hash;
404
405 var stacktrace;
406 if (hash && hash.exception instanceof Error) {
407 var ex2 = hash.exception;
408 this.message = ex2.message || msg;
409 stacktrace = ex2.stack;
410 }
411 if (!stacktrace) {
412 if (Error.hasOwnProperty('captureStackTrace')) { // V8/Chrome engine
413 Error.captureStackTrace(this, this.constructor);
414 } else {
415 stacktrace = (new Error(msg)).stack;
416 }
417 }
418 if (stacktrace) {
419 Object.defineProperty(this, 'stack', {
420 enumerable: false,
421 writable: false,
422 value: stacktrace
423 });
424 }
425}
426
427if (typeof Object.setPrototypeOf === 'function') {
428 Object.setPrototypeOf(JisonParserError.prototype, Error.prototype);
429} else {
430 JisonParserError.prototype = Object.create(Error.prototype);
431}
432JisonParserError.prototype.constructor = JisonParserError;
433JisonParserError.prototype.name = 'JisonParserError';
434
435
436
437
438 // helper: reconstruct the productions[] table
439 function bp(s) {
440 var rv = [];
441 var p = s.pop;
442 var r = s.rule;
443 for (var i = 0, l = p.length; i < l; i++) {
444 rv.push([
445 p[i],
446 r[i]
447 ]);
448 }
449 return rv;
450 }
451
452
453
454 // helper: reconstruct the defaultActions[] table
455 function bda(s) {
456 var rv = {};
457 var d = s.idx;
458 var g = s.goto;
459 for (var i = 0, l = d.length; i < l; i++) {
460 var j = d[i];
461 rv[j] = g[i];
462 }
463 return rv;
464 }
465
466
467
468 // helper: reconstruct the 'goto' table
469 function bt(s) {
470 var rv = [];
471 var d = s.len;
472 var y = s.symbol;
473 var t = s.type;
474 var a = s.state;
475 var m = s.mode;
476 var g = s.goto;
477 for (var i = 0, l = d.length; i < l; i++) {
478 var n = d[i];
479 var q = {};
480 for (var j = 0; j < n; j++) {
481 var z = y.shift();
482 switch (t.shift()) {
483 case 2:
484 q[z] = [
485 m.shift(),
486 g.shift()
487 ];
488 break;
489
490 case 0:
491 q[z] = a.shift();
492 break;
493
494 default:
495 // type === 1: accept
496 q[z] = [
497 3
498 ];
499 }
500 }
501 rv.push(q);
502 }
503 return rv;
504 }
505
506
507
508 // helper: runlength encoding with increment step: code, length: step (default step = 0)
509 // `this` references an array
510 function s(c, l, a) {
511 a = a || 0;
512 for (var i = 0; i < l; i++) {
513 this.push(c);
514 c += a;
515 }
516 }
517
518 // helper: duplicate sequence from *relative* offset and length.
519 // `this` references an array
520 function c(i, l) {
521 i = this.length - i;
522 for (l += i; i < l; i++) {
523 this.push(this[i]);
524 }
525 }
526
527 // helper: unpack an array using helpers and data, all passed in an array argument 'a'.
528 function u(a) {
529 var rv = [];
530 for (var i = 0, l = a.length; i < l; i++) {
531 var e = a[i];
532 // Is this entry a helper function?
533 if (typeof e === 'function') {
534 i++;
535 e.apply(rv, a[i]);
536 } else {
537 rv.push(e);
538 }
539 }
540 return rv;
541 }
542
543
544var parser = {
545 // Code Generator Information Report
546 // ---------------------------------
547 //
548 // Options:
549 //
550 // default action mode: ............. ["classic","merge"]
551 // test-compile action mode: ........ "parser:*,lexer:*"
552 // try..catch: ...................... true
553 // default resolve on conflict: ..... true
554 // on-demand look-ahead: ............ false
555 // error recovery token skip maximum: 3
556 // yyerror in parse actions is: ..... NOT recoverable,
557 // yyerror in lexer actions and other non-fatal lexer are:
558 // .................................. NOT recoverable,
559 // debug grammar/output: ............ false
560 // has partial LR conflict upgrade: true
561 // rudimentary token-stack support: false
562 // parser table compression mode: ... 2
563 // export debug tables: ............. false
564 // export *all* tables: ............. false
565 // module type: ..................... commonjs
566 // parser engine type: .............. lalr
567 // output main() in the module: ..... true
568 // has user-specified main(): ....... false
569 // has user-specified require()/import modules for main():
570 // .................................. false
571 // number of expected conflicts: .... 0
572 //
573 //
574 // Parser Analysis flags:
575 //
576 // no significant actions (parser is a language matcher only):
577 // .................................. false
578 // uses yyleng: ..................... false
579 // uses yylineno: ................... false
580 // uses yytext: ..................... false
581 // uses yylloc: ..................... false
582 // uses ParseError API: ............. false
583 // uses YYERROR: .................... false
584 // uses YYRECOVERING: ............... false
585 // uses YYERROK: .................... false
586 // uses YYCLEARIN: .................. false
587 // tracks rule values: .............. true
588 // assigns rule values: ............. true
589 // uses location tracking: .......... false
590 // assigns location: ................ false
591 // uses yystack: .................... false
592 // uses yysstack: ................... false
593 // uses yysp: ....................... true
594 // uses yyrulelength: ............... false
595 // uses yyMergeLocationInfo API: .... false
596 // has error recovery: .............. false
597 // has error reporting: ............. false
598 //
599 // --------- END OF REPORT -----------
600
601trace: function no_op_trace() { },
602JisonParserError: JisonParserError,
603yy: {},
604options: {
605 type: "lalr",
606 hasPartialLrUpgradeOnConflict: true,
607 errorRecoveryTokenDiscardCount: 3
608},
609symbols_: {
610 "$accept": 0,
611 "$end": 1,
612 "ADD": 6,
613 "ANGLE": 12,
614 "CALC": 3,
615 "CHS": 19,
616 "DIV": 9,
617 "EMS": 17,
618 "EOF": 1,
619 "EXS": 18,
620 "FREQ": 14,
621 "FUNCTION": 10,
622 "LENGTH": 11,
623 "LPAREN": 4,
624 "MUL": 8,
625 "NUMBER": 26,
626 "PERCENTAGE": 25,
627 "REMS": 20,
628 "RES": 15,
629 "RPAREN": 5,
630 "SUB": 7,
631 "TIME": 13,
632 "UNKNOWN_DIMENSION": 16,
633 "VHS": 21,
634 "VMAXS": 24,
635 "VMINS": 23,
636 "VWS": 22,
637 "dimension": 30,
638 "error": 2,
639 "expression": 27,
640 "function": 29,
641 "math_expression": 28,
642 "number": 31
643},
644terminals_: {
645 1: "EOF",
646 2: "error",
647 3: "CALC",
648 4: "LPAREN",
649 5: "RPAREN",
650 6: "ADD",
651 7: "SUB",
652 8: "MUL",
653 9: "DIV",
654 10: "FUNCTION",
655 11: "LENGTH",
656 12: "ANGLE",
657 13: "TIME",
658 14: "FREQ",
659 15: "RES",
660 16: "UNKNOWN_DIMENSION",
661 17: "EMS",
662 18: "EXS",
663 19: "CHS",
664 20: "REMS",
665 21: "VHS",
666 22: "VWS",
667 23: "VMINS",
668 24: "VMAXS",
669 25: "PERCENTAGE",
670 26: "NUMBER"
671},
672TERROR: 2,
673 EOF: 1,
674
675 // internals: defined here so the object *structure* doesn't get modified by parse() et al,
676 // thus helping JIT compilers like Chrome V8.
677 originalQuoteName: null,
678 originalParseError: null,
679 cleanupAfterParse: null,
680 constructParseErrorInfo: null,
681 yyMergeLocationInfo: null,
682
683 __reentrant_call_depth: 0, // INTERNAL USE ONLY
684 __error_infos: [], // INTERNAL USE ONLY: the set of parseErrorInfo objects created since the last cleanup
685 __error_recovery_infos: [], // INTERNAL USE ONLY: the set of parseErrorInfo objects created since the last cleanup
686
687 // APIs which will be set up depending on user action code analysis:
688 //yyRecovering: 0,
689 //yyErrOk: 0,
690 //yyClearIn: 0,
691
692 // Helper APIs
693 // -----------
694
695 // Helper function which can be overridden by user code later on: put suitable quotes around
696 // literal IDs in a description string.
697 quoteName: function parser_quoteName(id_str) {
698 return '"' + id_str + '"';
699 },
700
701 // Return the name of the given symbol (terminal or non-terminal) as a string, when available.
702 //
703 // Return NULL when the symbol is unknown to the parser.
704 getSymbolName: function parser_getSymbolName(symbol) {
705 if (this.terminals_[symbol]) {
706 return this.terminals_[symbol];
707 }
708
709 // Otherwise... this might refer to a RULE token i.e. a non-terminal: see if we can dig that one up.
710 //
711 // An example of this may be where a rule's action code contains a call like this:
712 //
713 // parser.getSymbolName(#$)
714 //
715 // to obtain a human-readable name of the current grammar rule.
716 var s = this.symbols_;
717 for (var key in s) {
718 if (s[key] === symbol) {
719 return key;
720 }
721 }
722 return null;
723 },
724
725 // Return a more-or-less human-readable description of the given symbol, when available,
726 // or the symbol itself, serving as its own 'description' for lack of something better to serve up.
727 //
728 // Return NULL when the symbol is unknown to the parser.
729 describeSymbol: function parser_describeSymbol(symbol) {
730 if (symbol !== this.EOF && this.terminal_descriptions_ && this.terminal_descriptions_[symbol]) {
731 return this.terminal_descriptions_[symbol];
732 }
733 else if (symbol === this.EOF) {
734 return 'end of input';
735 }
736 var id = this.getSymbolName(symbol);
737 if (id) {
738 return this.quoteName(id);
739 }
740 return null;
741 },
742
743 // Produce a (more or less) human-readable list of expected tokens at the point of failure.
744 //
745 // The produced list may contain token or token set descriptions instead of the tokens
746 // themselves to help turning this output into something that easier to read by humans
747 // unless `do_not_describe` parameter is set, in which case a list of the raw, *numeric*,
748 // expected terminals and nonterminals is produced.
749 //
750 // The returned list (array) will not contain any duplicate entries.
751 collect_expected_token_set: function parser_collect_expected_token_set(state, do_not_describe) {
752 var TERROR = this.TERROR;
753 var tokenset = [];
754 var check = {};
755 // Has this (error?) state been outfitted with a custom expectations description text for human consumption?
756 // If so, use that one instead of the less palatable token set.
757 if (!do_not_describe && this.state_descriptions_ && this.state_descriptions_[state]) {
758 return [
759 this.state_descriptions_[state]
760 ];
761 }
762 for (var p in this.table[state]) {
763 p = +p;
764 if (p !== TERROR) {
765 var d = do_not_describe ? p : this.describeSymbol(p);
766 if (d && !check[d]) {
767 tokenset.push(d);
768 check[d] = true; // Mark this token description as already mentioned to prevent outputting duplicate entries.
769 }
770 }
771 }
772 return tokenset;
773 },
774productions_: bp({
775 pop: u([
776 27,
777 s,
778 [28, 9],
779 29,
780 s,
781 [30, 17],
782 s,
783 [31, 3]
784]),
785 rule: u([
786 2,
787 4,
788 s,
789 [3, 5],
790 s,
791 [1, 19],
792 2,
793 2,
794 c,
795 [3, 3]
796])
797}),
798performAction: function parser__PerformAction(yystate /* action[1] */, yysp, yyvstack) {
799
800 /* this == yyval */
801
802 // the JS engine itself can go and remove these statements when `yy` turns out to be unused in any action code!
803 var yy = this.yy;
804 var yyparser = yy.parser;
805 var yylexer = yy.lexer;
806
807
808
809 switch (yystate) {
810case 0:
811 /*! Production:: $accept : expression $end */
812
813 // default action (generated by JISON mode classic/merge :: 1,VT,VA,-,-,-,-,-,-):
814 this.$ = yyvstack[yysp - 1];
815 // END of default action (generated by JISON mode classic/merge :: 1,VT,VA,-,-,-,-,-,-)
816 break;
817
818case 1:
819 /*! Production:: expression : math_expression EOF */
820
821 // default action (generated by JISON mode classic/merge :: 2,VT,VA,-,-,-,-,-,-):
822 this.$ = yyvstack[yysp - 1];
823 // END of default action (generated by JISON mode classic/merge :: 2,VT,VA,-,-,-,-,-,-)
824
825
826 return yyvstack[yysp - 1];
827 break;
828
829case 2:
830 /*! Production:: math_expression : CALC LPAREN math_expression RPAREN */
831case 7:
832 /*! Production:: math_expression : LPAREN math_expression RPAREN */
833
834 this.$ = yyvstack[yysp - 1];
835 break;
836
837case 3:
838 /*! Production:: math_expression : math_expression ADD math_expression */
839case 4:
840 /*! Production:: math_expression : math_expression SUB math_expression */
841case 5:
842 /*! Production:: math_expression : math_expression MUL math_expression */
843case 6:
844 /*! Production:: math_expression : math_expression DIV math_expression */
845
846 this.$ = { type: 'MathExpression', operator: yyvstack[yysp - 1], left: yyvstack[yysp - 2], right: yyvstack[yysp] };
847 break;
848
849case 8:
850 /*! Production:: math_expression : function */
851case 9:
852 /*! Production:: math_expression : dimension */
853case 10:
854 /*! Production:: math_expression : number */
855
856 this.$ = yyvstack[yysp];
857 break;
858
859case 11:
860 /*! Production:: function : FUNCTION */
861
862 this.$ = { type: 'Function', value: yyvstack[yysp] };
863 break;
864
865case 12:
866 /*! Production:: dimension : LENGTH */
867
868 this.$ = { type: 'LengthValue', value: parseFloat(yyvstack[yysp]), unit: /[a-z]+$/i.exec(yyvstack[yysp])[0] };
869 break;
870
871case 13:
872 /*! Production:: dimension : ANGLE */
873
874 this.$ = { type: 'AngleValue', value: parseFloat(yyvstack[yysp]), unit: /[a-z]+$/i.exec(yyvstack[yysp])[0] };
875 break;
876
877case 14:
878 /*! Production:: dimension : TIME */
879
880 this.$ = { type: 'TimeValue', value: parseFloat(yyvstack[yysp]), unit: /[a-z]+$/i.exec(yyvstack[yysp])[0] };
881 break;
882
883case 15:
884 /*! Production:: dimension : FREQ */
885
886 this.$ = { type: 'FrequencyValue', value: parseFloat(yyvstack[yysp]), unit: /[a-z]+$/i.exec(yyvstack[yysp])[0] };
887 break;
888
889case 16:
890 /*! Production:: dimension : RES */
891
892 this.$ = { type: 'ResolutionValue', value: parseFloat(yyvstack[yysp]), unit: /[a-z]+$/i.exec(yyvstack[yysp])[0] };
893 break;
894
895case 17:
896 /*! Production:: dimension : UNKNOWN_DIMENSION */
897
898 this.$ = { type: 'UnknownDimension', value: parseFloat(yyvstack[yysp]), unit: /[a-z]+$/i.exec(yyvstack[yysp])[0] };
899 break;
900
901case 18:
902 /*! Production:: dimension : EMS */
903
904 this.$ = { type: 'EmValue', value: parseFloat(yyvstack[yysp]), unit: 'em' };
905 break;
906
907case 19:
908 /*! Production:: dimension : EXS */
909
910 this.$ = { type: 'ExValue', value: parseFloat(yyvstack[yysp]), unit: 'ex' };
911 break;
912
913case 20:
914 /*! Production:: dimension : CHS */
915
916 this.$ = { type: 'ChValue', value: parseFloat(yyvstack[yysp]), unit: 'ch' };
917 break;
918
919case 21:
920 /*! Production:: dimension : REMS */
921
922 this.$ = { type: 'RemValue', value: parseFloat(yyvstack[yysp]), unit: 'rem' };
923 break;
924
925case 22:
926 /*! Production:: dimension : VHS */
927
928 this.$ = { type: 'VhValue', value: parseFloat(yyvstack[yysp]), unit: 'vh' };
929 break;
930
931case 23:
932 /*! Production:: dimension : VWS */
933
934 this.$ = { type: 'VwValue', value: parseFloat(yyvstack[yysp]), unit: 'vw' };
935 break;
936
937case 24:
938 /*! Production:: dimension : VMINS */
939
940 this.$ = { type: 'VminValue', value: parseFloat(yyvstack[yysp]), unit: 'vmin' };
941 break;
942
943case 25:
944 /*! Production:: dimension : VMAXS */
945
946 this.$ = { type: 'VmaxValue', value: parseFloat(yyvstack[yysp]), unit: 'vmax' };
947 break;
948
949case 26:
950 /*! Production:: dimension : PERCENTAGE */
951
952 this.$ = { type: 'PercentageValue', value: parseFloat(yyvstack[yysp]), unit: '%' };
953 break;
954
955case 27:
956 /*! Production:: dimension : ADD dimension */
957
958 var prev = yyvstack[yysp]; this.$ = prev;
959 break;
960
961case 28:
962 /*! Production:: dimension : SUB dimension */
963
964 var prev = yyvstack[yysp]; prev.value *= -1; this.$ = prev;
965 break;
966
967case 29:
968 /*! Production:: number : NUMBER */
969case 30:
970 /*! Production:: number : ADD NUMBER */
971
972 this.$ = { type: 'Number', value: parseFloat(yyvstack[yysp]) };
973 break;
974
975case 31:
976 /*! Production:: number : SUB NUMBER */
977
978 this.$ = { type: 'Number', value: parseFloat(yyvstack[yysp]) * -1 };
979 break;
980
981}
982},
983table: bt({
984 len: u([
985 26,
986 1,
987 5,
988 1,
989 25,
990 s,
991 [0, 19],
992 19,
993 19,
994 0,
995 0,
996 s,
997 [25, 5],
998 5,
999 0,
1000 0,
1001 18,
1002 18,
1003 0,
1004 0,
1005 6,
1006 6,
1007 0,
1008 0,
1009 c,
1010 [11, 3]
1011]),
1012 symbol: u([
1013 3,
1014 4,
1015 6,
1016 7,
1017 s,
1018 [10, 22, 1],
1019 1,
1020 1,
1021 s,
1022 [6, 4, 1],
1023 4,
1024 c,
1025 [33, 21],
1026 c,
1027 [32, 4],
1028 6,
1029 7,
1030 c,
1031 [22, 16],
1032 30,
1033 c,
1034 [19, 19],
1035 c,
1036 [63, 25],
1037 c,
1038 [25, 100],
1039 s,
1040 [5, 5, 1],
1041 c,
1042 [149, 17],
1043 c,
1044 [167, 18],
1045 30,
1046 1,
1047 c,
1048 [42, 5],
1049 c,
1050 [6, 6],
1051 c,
1052 [5, 5]
1053]),
1054 type: u([
1055 s,
1056 [2, 21],
1057 s,
1058 [0, 5],
1059 1,
1060 s,
1061 [2, 27],
1062 s,
1063 [0, 4],
1064 c,
1065 [22, 19],
1066 c,
1067 [19, 37],
1068 c,
1069 [63, 25],
1070 c,
1071 [25, 103],
1072 c,
1073 [148, 19],
1074 c,
1075 [18, 18]
1076]),
1077 state: u([
1078 1,
1079 2,
1080 5,
1081 6,
1082 7,
1083 33,
1084 c,
1085 [4, 3],
1086 34,
1087 38,
1088 40,
1089 c,
1090 [6, 3],
1091 41,
1092 c,
1093 [4, 3],
1094 42,
1095 c,
1096 [4, 3],
1097 43,
1098 c,
1099 [4, 3],
1100 44,
1101 c,
1102 [22, 5]
1103]),
1104 mode: u([
1105 s,
1106 [1, 228],
1107 s,
1108 [2, 4],
1109 c,
1110 [6, 8],
1111 s,
1112 [1, 5]
1113]),
1114 goto: u([
1115 3,
1116 4,
1117 24,
1118 25,
1119 s,
1120 [8, 16, 1],
1121 s,
1122 [26, 7, 1],
1123 c,
1124 [27, 21],
1125 36,
1126 37,
1127 c,
1128 [18, 15],
1129 35,
1130 c,
1131 [18, 17],
1132 39,
1133 c,
1134 [57, 21],
1135 c,
1136 [21, 84],
1137 45,
1138 c,
1139 [168, 4],
1140 c,
1141 [128, 17],
1142 c,
1143 [17, 17],
1144 s,
1145 [3, 4],
1146 30,
1147 31,
1148 s,
1149 [4, 4],
1150 30,
1151 31,
1152 46,
1153 c,
1154 [51, 4]
1155])
1156}),
1157defaultActions: bda({
1158 idx: u([
1159 s,
1160 [5, 19, 1],
1161 26,
1162 27,
1163 34,
1164 35,
1165 38,
1166 39,
1167 42,
1168 43,
1169 45,
1170 46
1171]),
1172 goto: u([
1173 s,
1174 [8, 19, 1],
1175 29,
1176 1,
1177 27,
1178 30,
1179 28,
1180 31,
1181 5,
1182 6,
1183 7,
1184 2
1185])
1186}),
1187parseError: function parseError(str, hash, ExceptionClass) {
1188 if (hash.recoverable) {
1189 if (typeof this.trace === 'function') {
1190 this.trace(str);
1191 }
1192 hash.destroy(); // destroy... well, *almost*!
1193 } else {
1194 if (typeof this.trace === 'function') {
1195 this.trace(str);
1196 }
1197 if (!ExceptionClass) {
1198 ExceptionClass = this.JisonParserError;
1199 }
1200 throw new ExceptionClass(str, hash);
1201 }
1202},
1203parse: function parse(input) {
1204 var self = this;
1205 var stack = new Array(128); // token stack: stores token which leads to state at the same index (column storage)
1206 var sstack = new Array(128); // state stack: stores states (column storage)
1207
1208 var vstack = new Array(128); // semantic value stack
1209
1210 var table = this.table;
1211 var sp = 0; // 'stack pointer': index into the stacks
1212
1213
1214
1215
1216
1217 var symbol = 0;
1218
1219
1220
1221 var TERROR = this.TERROR;
1222 var EOF = this.EOF;
1223 var ERROR_RECOVERY_TOKEN_DISCARD_COUNT = (this.options.errorRecoveryTokenDiscardCount | 0) || 3;
1224 var NO_ACTION = [0, 47 /* === table.length :: ensures that anyone using this new state will fail dramatically! */];
1225
1226 var lexer;
1227 if (this.__lexer__) {
1228 lexer = this.__lexer__;
1229 } else {
1230 lexer = this.__lexer__ = Object.create(this.lexer);
1231 }
1232
1233 var sharedState_yy = {
1234 parseError: undefined,
1235 quoteName: undefined,
1236 lexer: undefined,
1237 parser: undefined,
1238 pre_parse: undefined,
1239 post_parse: undefined,
1240 pre_lex: undefined,
1241 post_lex: undefined // WARNING: must be written this way for the code expanders to work correctly in both ES5 and ES6 modes!
1242 };
1243
1244 var ASSERT;
1245 if (typeof assert !== 'function') {
1246 ASSERT = function JisonAssert(cond, msg) {
1247 if (!cond) {
1248 throw new Error('assertion failed: ' + (msg || '***'));
1249 }
1250 };
1251 } else {
1252 ASSERT = assert;
1253 }
1254
1255 this.yyGetSharedState = function yyGetSharedState() {
1256 return sharedState_yy;
1257 };
1258
1259
1260
1261
1262
1263
1264
1265
1266 function shallow_copy_noclobber(dst, src) {
1267 for (var k in src) {
1268 if (typeof dst[k] === 'undefined' && Object.prototype.hasOwnProperty.call(src, k)) {
1269 dst[k] = src[k];
1270 }
1271 }
1272 }
1273
1274 // copy state
1275 shallow_copy_noclobber(sharedState_yy, this.yy);
1276
1277 sharedState_yy.lexer = lexer;
1278 sharedState_yy.parser = this;
1279
1280
1281
1282
1283
1284
1285 // Does the shared state override the default `parseError` that already comes with this instance?
1286 if (typeof sharedState_yy.parseError === 'function') {
1287 this.parseError = function parseErrorAlt(str, hash, ExceptionClass) {
1288 if (!ExceptionClass) {
1289 ExceptionClass = this.JisonParserError;
1290 }
1291 return sharedState_yy.parseError.call(this, str, hash, ExceptionClass);
1292 };
1293 } else {
1294 this.parseError = this.originalParseError;
1295 }
1296
1297 // Does the shared state override the default `quoteName` that already comes with this instance?
1298 if (typeof sharedState_yy.quoteName === 'function') {
1299 this.quoteName = function quoteNameAlt(id_str) {
1300 return sharedState_yy.quoteName.call(this, id_str);
1301 };
1302 } else {
1303 this.quoteName = this.originalQuoteName;
1304 }
1305
1306 // set up the cleanup function; make it an API so that external code can re-use this one in case of
1307 // calamities or when the `%options no-try-catch` option has been specified for the grammar, in which
1308 // case this parse() API method doesn't come with a `finally { ... }` block any more!
1309 //
1310 // NOTE: as this API uses parse() as a closure, it MUST be set again on every parse() invocation,
1311 // or else your `sharedState`, etc. references will be *wrong*!
1312 this.cleanupAfterParse = function parser_cleanupAfterParse(resultValue, invoke_post_methods, do_not_nuke_errorinfos) {
1313 var rv;
1314
1315 if (invoke_post_methods) {
1316 var hash;
1317
1318 if (sharedState_yy.post_parse || this.post_parse) {
1319 // create an error hash info instance: we re-use this API in a **non-error situation**
1320 // as this one delivers all parser internals ready for access by userland code.
1321 hash = this.constructParseErrorInfo(null /* no error! */, null /* no exception! */, null, false);
1322 }
1323
1324 if (sharedState_yy.post_parse) {
1325 rv = sharedState_yy.post_parse.call(this, sharedState_yy, resultValue, hash);
1326 if (typeof rv !== 'undefined') resultValue = rv;
1327 }
1328 if (this.post_parse) {
1329 rv = this.post_parse.call(this, sharedState_yy, resultValue, hash);
1330 if (typeof rv !== 'undefined') resultValue = rv;
1331 }
1332
1333 // cleanup:
1334 if (hash && hash.destroy) {
1335 hash.destroy();
1336 }
1337 }
1338
1339 if (this.__reentrant_call_depth > 1) return resultValue; // do not (yet) kill the sharedState when this is a reentrant run.
1340
1341 // clean up the lingering lexer structures as well:
1342 if (lexer.cleanupAfterLex) {
1343 lexer.cleanupAfterLex(do_not_nuke_errorinfos);
1344 }
1345
1346 // prevent lingering circular references from causing memory leaks:
1347 if (sharedState_yy) {
1348 sharedState_yy.lexer = undefined;
1349 sharedState_yy.parser = undefined;
1350 if (lexer.yy === sharedState_yy) {
1351 lexer.yy = undefined;
1352 }
1353 }
1354 sharedState_yy = undefined;
1355 this.parseError = this.originalParseError;
1356 this.quoteName = this.originalQuoteName;
1357
1358 // nuke the vstack[] array at least as that one will still reference obsoleted user values.
1359 // To be safe, we nuke the other internal stack columns as well...
1360 stack.length = 0; // fastest way to nuke an array without overly bothering the GC
1361 sstack.length = 0;
1362
1363 vstack.length = 0;
1364 sp = 0;
1365
1366 // nuke the error hash info instances created during this run.
1367 // Userland code must COPY any data/references
1368 // in the error hash instance(s) it is more permanently interested in.
1369 if (!do_not_nuke_errorinfos) {
1370 for (var i = this.__error_infos.length - 1; i >= 0; i--) {
1371 var el = this.__error_infos[i];
1372 if (el && typeof el.destroy === 'function') {
1373 el.destroy();
1374 }
1375 }
1376 this.__error_infos.length = 0;
1377
1378
1379 }
1380
1381 return resultValue;
1382 };
1383
1384
1385
1386
1387
1388
1389
1390
1391
1392
1393
1394
1395
1396
1397
1398
1399
1400
1401
1402
1403
1404
1405
1406
1407
1408
1409
1410
1411
1412
1413
1414
1415
1416
1417
1418
1419
1420
1421
1422
1423
1424
1425
1426
1427
1428
1429
1430
1431
1432
1433
1434
1435
1436
1437
1438
1439
1440
1441
1442
1443
1444
1445
1446
1447
1448
1449
1450
1451
1452
1453
1454
1455
1456
1457
1458
1459
1460
1461
1462
1463
1464
1465
1466
1467
1468
1469
1470
1471
1472
1473
1474
1475
1476
1477
1478
1479
1480
1481
1482
1483
1484
1485
1486
1487
1488
1489
1490
1491
1492
1493
1494
1495
1496
1497
1498
1499
1500
1501
1502
1503
1504
1505
1506
1507
1508
1509
1510
1511
1512
1513
1514
1515
1516
1517 // NOTE: as this API uses parse() as a closure, it MUST be set again on every parse() invocation,
1518 // or else your `lexer`, `sharedState`, etc. references will be *wrong*!
1519 this.constructParseErrorInfo = function parser_constructParseErrorInfo(msg, ex, expected, recoverable) {
1520 var pei = {
1521 errStr: msg,
1522 exception: ex,
1523 text: lexer.match,
1524 value: lexer.yytext,
1525 token: this.describeSymbol(symbol) || symbol,
1526 token_id: symbol,
1527 line: lexer.yylineno,
1528
1529 expected: expected,
1530 recoverable: recoverable,
1531 state: state,
1532 action: action,
1533 new_state: newState,
1534 symbol_stack: stack,
1535 state_stack: sstack,
1536 value_stack: vstack,
1537
1538 stack_pointer: sp,
1539 yy: sharedState_yy,
1540 lexer: lexer,
1541 parser: this,
1542
1543 // and make sure the error info doesn't stay due to potential
1544 // ref cycle via userland code manipulations.
1545 // These would otherwise all be memory leak opportunities!
1546 //
1547 // Note that only array and object references are nuked as those
1548 // constitute the set of elements which can produce a cyclic ref.
1549 // The rest of the members is kept intact as they are harmless.
1550 destroy: function destructParseErrorInfo() {
1551 // remove cyclic references added to error info:
1552 // info.yy = null;
1553 // info.lexer = null;
1554 // info.value = null;
1555 // info.value_stack = null;
1556 // ...
1557 var rec = !!this.recoverable;
1558 for (var key in this) {
1559 if (this.hasOwnProperty(key) && typeof key === 'object') {
1560 this[key] = undefined;
1561 }
1562 }
1563 this.recoverable = rec;
1564 }
1565 };
1566 // track this instance so we can `destroy()` it once we deem it superfluous and ready for garbage collection!
1567 this.__error_infos.push(pei);
1568 return pei;
1569 };
1570
1571
1572
1573
1574
1575
1576
1577
1578
1579
1580
1581
1582
1583 function getNonTerminalFromCode(symbol) {
1584 var tokenName = self.getSymbolName(symbol);
1585 if (!tokenName) {
1586 tokenName = symbol;
1587 }
1588 return tokenName;
1589 }
1590
1591
1592 function stdLex() {
1593 var token = lexer.lex();
1594 // if token isn't its numeric value, convert
1595 if (typeof token !== 'number') {
1596 token = self.symbols_[token] || token;
1597 }
1598
1599 return token || EOF;
1600 }
1601
1602 function fastLex() {
1603 var token = lexer.fastLex();
1604 // if token isn't its numeric value, convert
1605 if (typeof token !== 'number') {
1606 token = self.symbols_[token] || token;
1607 }
1608
1609 return token || EOF;
1610 }
1611
1612 var lex = stdLex;
1613
1614
1615 var state, action, r, t;
1616 var yyval = {
1617 $: true,
1618 _$: undefined,
1619 yy: sharedState_yy
1620 };
1621 var p;
1622 var yyrulelen;
1623 var this_production;
1624 var newState;
1625 var retval = false;
1626
1627
1628 try {
1629 this.__reentrant_call_depth++;
1630
1631 lexer.setInput(input, sharedState_yy);
1632
1633 // NOTE: we *assume* no lexer pre/post handlers are set up *after*
1634 // this initial `setInput()` call: hence we can now check and decide
1635 // whether we'll go with the standard, slower, lex() API or the
1636 // `fast_lex()` one:
1637 if (typeof lexer.canIUse === 'function') {
1638 var lexerInfo = lexer.canIUse();
1639 if (lexerInfo.fastLex && typeof fastLex === 'function') {
1640 lex = fastLex;
1641 }
1642 }
1643
1644
1645
1646 vstack[sp] = null;
1647 sstack[sp] = 0;
1648 stack[sp] = 0;
1649 ++sp;
1650
1651
1652
1653
1654
1655 if (this.pre_parse) {
1656 this.pre_parse.call(this, sharedState_yy);
1657 }
1658 if (sharedState_yy.pre_parse) {
1659 sharedState_yy.pre_parse.call(this, sharedState_yy);
1660 }
1661
1662 newState = sstack[sp - 1];
1663 for (;;) {
1664 // retrieve state number from top of stack
1665 state = newState; // sstack[sp - 1];
1666
1667 // use default actions if available
1668 if (this.defaultActions[state]) {
1669 action = 2;
1670 newState = this.defaultActions[state];
1671 } else {
1672 // The single `==` condition below covers both these `===` comparisons in a single
1673 // operation:
1674 //
1675 // if (symbol === null || typeof symbol === 'undefined') ...
1676 if (!symbol) {
1677 symbol = lex();
1678 }
1679 // read action for current state and first input
1680 t = (table[state] && table[state][symbol]) || NO_ACTION;
1681 newState = t[1];
1682 action = t[0];
1683
1684
1685
1686
1687
1688
1689
1690
1691
1692
1693
1694 // handle parse error
1695 if (!action) {
1696 var errStr;
1697 var errSymbolDescr = (this.describeSymbol(symbol) || symbol);
1698 var expected = this.collect_expected_token_set(state);
1699
1700 // Report error
1701 if (typeof lexer.yylineno === 'number') {
1702 errStr = 'Parse error on line ' + (lexer.yylineno + 1) + ': ';
1703 } else {
1704 errStr = 'Parse error: ';
1705 }
1706 if (typeof lexer.showPosition === 'function') {
1707 errStr += '\n' + lexer.showPosition(79 - 10, 10) + '\n';
1708 }
1709 if (expected.length) {
1710 errStr += 'Expecting ' + expected.join(', ') + ', got unexpected ' + errSymbolDescr;
1711 } else {
1712 errStr += 'Unexpected ' + errSymbolDescr;
1713 }
1714 // we cannot recover from the error!
1715 p = this.constructParseErrorInfo(errStr, null, expected, false);
1716 r = this.parseError(p.errStr, p, this.JisonParserError);
1717 if (typeof r !== 'undefined') {
1718 retval = r;
1719 }
1720 break;
1721 }
1722
1723
1724 }
1725
1726
1727
1728
1729
1730
1731
1732
1733
1734
1735 switch (action) {
1736 // catch misc. parse failures:
1737 default:
1738 // this shouldn't happen, unless resolve defaults are off
1739 if (action instanceof Array) {
1740 p = this.constructParseErrorInfo('Parse Error: multiple actions possible at state: ' + state + ', token: ' + symbol, null, null, false);
1741 r = this.parseError(p.errStr, p, this.JisonParserError);
1742 if (typeof r !== 'undefined') {
1743 retval = r;
1744 }
1745 break;
1746 }
1747 // Another case of better safe than sorry: in case state transitions come out of another error recovery process
1748 // or a buggy LUT (LookUp Table):
1749 p = this.constructParseErrorInfo('Parsing halted. No viable error recovery approach available due to internal system failure.', null, null, false);
1750 r = this.parseError(p.errStr, p, this.JisonParserError);
1751 if (typeof r !== 'undefined') {
1752 retval = r;
1753 }
1754 break;
1755
1756 // shift:
1757 case 1:
1758 stack[sp] = symbol;
1759 vstack[sp] = lexer.yytext;
1760
1761 sstack[sp] = newState; // push state
1762
1763 ++sp;
1764 symbol = 0;
1765
1766
1767
1768
1769 // Pick up the lexer details for the current symbol as that one is not 'look-ahead' any more:
1770
1771
1772
1773
1774 continue;
1775
1776 // reduce:
1777 case 2:
1778
1779
1780
1781 this_production = this.productions_[newState - 1]; // `this.productions_[]` is zero-based indexed while states start from 1 upwards...
1782 yyrulelen = this_production[1];
1783
1784
1785
1786
1787
1788
1789
1790
1791
1792
1793 r = this.performAction.call(yyval, newState, sp - 1, vstack);
1794
1795 if (typeof r !== 'undefined') {
1796 retval = r;
1797 break;
1798 }
1799
1800 // pop off stack
1801 sp -= yyrulelen;
1802
1803 // don't overwrite the `symbol` variable: use a local var to speed things up:
1804 var ntsymbol = this_production[0]; // push nonterminal (reduce)
1805 stack[sp] = ntsymbol;
1806 vstack[sp] = yyval.$;
1807
1808 // goto new state = table[STATE][NONTERMINAL]
1809 newState = table[sstack[sp - 1]][ntsymbol];
1810 sstack[sp] = newState;
1811 ++sp;
1812
1813
1814
1815
1816
1817
1818
1819
1820
1821 continue;
1822
1823 // accept:
1824 case 3:
1825 if (sp !== -2) {
1826 retval = true;
1827 // Return the `$accept` rule's `$$` result, if available.
1828 //
1829 // Also note that JISON always adds this top-most `$accept` rule (with implicit,
1830 // default, action):
1831 //
1832 // $accept: <startSymbol> $end
1833 // %{ $$ = $1; @$ = @1; %}
1834 //
1835 // which, combined with the parse kernel's `$accept` state behaviour coded below,
1836 // will produce the `$$` value output of the <startSymbol> rule as the parse result,
1837 // IFF that result is *not* `undefined`. (See also the parser kernel code.)
1838 //
1839 // In code:
1840 //
1841 // %{
1842 // @$ = @1; // if location tracking support is included
1843 // if (typeof $1 !== 'undefined')
1844 // return $1;
1845 // else
1846 // return true; // the default parse result if the rule actions don't produce anything
1847 // %}
1848 sp--;
1849 if (typeof vstack[sp] !== 'undefined') {
1850 retval = vstack[sp];
1851 }
1852 }
1853 break;
1854 }
1855
1856 // break out of loop: we accept or fail with error
1857 break;
1858 }
1859 } catch (ex) {
1860 // report exceptions through the parseError callback too, but keep the exception intact
1861 // if it is a known parser or lexer error which has been thrown by parseError() already:
1862 if (ex instanceof this.JisonParserError) {
1863 throw ex;
1864 }
1865 else if (lexer && typeof lexer.JisonLexerError === 'function' && ex instanceof lexer.JisonLexerError) {
1866 throw ex;
1867 }
1868
1869 p = this.constructParseErrorInfo('Parsing aborted due to exception.', ex, null, false);
1870 retval = false;
1871 r = this.parseError(p.errStr, p, this.JisonParserError);
1872 if (typeof r !== 'undefined') {
1873 retval = r;
1874 }
1875 } finally {
1876 retval = this.cleanupAfterParse(retval, true, true);
1877 this.__reentrant_call_depth--;
1878 } // /finally
1879
1880 return retval;
1881}
1882};
1883parser.originalParseError = parser.parseError;
1884parser.originalQuoteName = parser.quoteName;
1885/* lexer generated by jison-lex 0.6.1-215 */
1886
1887/*
1888 * Returns a Lexer object of the following structure:
1889 *
1890 * Lexer: {
1891 * yy: {} The so-called "shared state" or rather the *source* of it;
1892 * the real "shared state" `yy` passed around to
1893 * the rule actions, etc. is a direct reference!
1894 *
1895 * This "shared context" object was passed to the lexer by way of
1896 * the `lexer.setInput(str, yy)` API before you may use it.
1897 *
1898 * This "shared context" object is passed to the lexer action code in `performAction()`
1899 * so userland code in the lexer actions may communicate with the outside world
1900 * and/or other lexer rules' actions in more or less complex ways.
1901 *
1902 * }
1903 *
1904 * Lexer.prototype: {
1905 * EOF: 1,
1906 * ERROR: 2,
1907 *
1908 * yy: The overall "shared context" object reference.
1909 *
1910 * JisonLexerError: function(msg, hash),
1911 *
1912 * performAction: function lexer__performAction(yy, yyrulenumber, YY_START),
1913 *
1914 * The function parameters and `this` have the following value/meaning:
1915 * - `this` : reference to the `lexer` instance.
1916 * `yy_` is an alias for `this` lexer instance reference used internally.
1917 *
1918 * - `yy` : a reference to the `yy` "shared state" object which was passed to the lexer
1919 * by way of the `lexer.setInput(str, yy)` API before.
1920 *
1921 * Note:
1922 * The extra arguments you specified in the `%parse-param` statement in your
1923 * **parser** grammar definition file are passed to the lexer via this object
1924 * reference as member variables.
1925 *
1926 * - `yyrulenumber` : index of the matched lexer rule (regex), used internally.
1927 *
1928 * - `YY_START`: the current lexer "start condition" state.
1929 *
1930 * parseError: function(str, hash, ExceptionClass),
1931 *
1932 * constructLexErrorInfo: function(error_message, is_recoverable),
1933 * Helper function.
1934 * Produces a new errorInfo 'hash object' which can be passed into `parseError()`.
1935 * See it's use in this lexer kernel in many places; example usage:
1936 *
1937 * var infoObj = lexer.constructParseErrorInfo('fail!', true);
1938 * var retVal = lexer.parseError(infoObj.errStr, infoObj, lexer.JisonLexerError);
1939 *
1940 * options: { ... lexer %options ... },
1941 *
1942 * lex: function(),
1943 * Produce one token of lexed input, which was passed in earlier via the `lexer.setInput()` API.
1944 * You MAY use the additional `args...` parameters as per `%parse-param` spec of the **lexer** grammar:
1945 * these extra `args...` are added verbatim to the `yy` object reference as member variables.
1946 *
1947 * WARNING:
1948 * Lexer's additional `args...` parameters (via lexer's `%parse-param`) MAY conflict with
1949 * any attributes already added to `yy` by the **parser** or the jison run-time;
1950 * when such a collision is detected an exception is thrown to prevent the generated run-time
1951 * from silently accepting this confusing and potentially hazardous situation!
1952 *
1953 * cleanupAfterLex: function(do_not_nuke_errorinfos),
1954 * Helper function.
1955 *
1956 * This helper API is invoked when the **parse process** has completed: it is the responsibility
1957 * of the **parser** (or the calling userland code) to invoke this method once cleanup is desired.
1958 *
1959 * This helper may be invoked by user code to ensure the internal lexer gets properly garbage collected.
1960 *
1961 * setInput: function(input, [yy]),
1962 *
1963 *
1964 * input: function(),
1965 *
1966 *
1967 * unput: function(str),
1968 *
1969 *
1970 * more: function(),
1971 *
1972 *
1973 * reject: function(),
1974 *
1975 *
1976 * less: function(n),
1977 *
1978 *
1979 * pastInput: function(n),
1980 *
1981 *
1982 * upcomingInput: function(n),
1983 *
1984 *
1985 * showPosition: function(),
1986 *
1987 *
1988 * test_match: function(regex_match_array, rule_index),
1989 *
1990 *
1991 * next: function(),
1992 *
1993 *
1994 * begin: function(condition),
1995 *
1996 *
1997 * pushState: function(condition),
1998 *
1999 *
2000 * popState: function(),
2001 *
2002 *
2003 * topState: function(),
2004 *
2005 *
2006 * _currentRules: function(),
2007 *
2008 *
2009 * stateStackSize: function(),
2010 *
2011 *
2012 * performAction: function(yy, yy_, yyrulenumber, YY_START),
2013 *
2014 *
2015 * rules: [...],
2016 *
2017 *
2018 * conditions: {associative list: name ==> set},
2019 * }
2020 *
2021 *
2022 * token location info (`yylloc`): {
2023 * first_line: n,
2024 * last_line: n,
2025 * first_column: n,
2026 * last_column: n,
2027 * range: [start_number, end_number]
2028 * (where the numbers are indexes into the input string, zero-based)
2029 * }
2030 *
2031 * ---
2032 *
2033 * The `parseError` function receives a 'hash' object with these members for lexer errors:
2034 *
2035 * {
2036 * text: (matched text)
2037 * token: (the produced terminal token, if any)
2038 * token_id: (the produced terminal token numeric ID, if any)
2039 * line: (yylineno)
2040 * loc: (yylloc)
2041 * recoverable: (boolean: TRUE when the parser MAY have an error recovery rule
2042 * available for this particular error)
2043 * yy: (object: the current parser internal "shared state" `yy`
2044 * as is also available in the rule actions; this can be used,
2045 * for instance, for advanced error analysis and reporting)
2046 * lexer: (reference to the current lexer instance used by the parser)
2047 * }
2048 *
2049 * while `this` will reference the current lexer instance.
2050 *
2051 * When `parseError` is invoked by the lexer, the default implementation will
2052 * attempt to invoke `yy.parser.parseError()`; when this callback is not provided
2053 * it will try to invoke `yy.parseError()` instead. When that callback is also not
2054 * provided, a `JisonLexerError` exception will be thrown containing the error
2055 * message and `hash`, as constructed by the `constructLexErrorInfo()` API.
2056 *
2057 * Note that the lexer's `JisonLexerError` error class is passed via the
2058 * `ExceptionClass` argument, which is invoked to construct the exception
2059 * instance to be thrown, so technically `parseError` will throw the object
2060 * produced by the `new ExceptionClass(str, hash)` JavaScript expression.
2061 *
2062 * ---
2063 *
2064 * You can specify lexer options by setting / modifying the `.options` object of your Lexer instance.
2065 * These options are available:
2066 *
2067 * (Options are permanent.)
2068 *
2069 * yy: {
2070 * parseError: function(str, hash, ExceptionClass)
2071 * optional: overrides the default `parseError` function.
2072 * }
2073 *
2074 * lexer.options: {
2075 * pre_lex: function()
2076 * optional: is invoked before the lexer is invoked to produce another token.
2077 * `this` refers to the Lexer object.
2078 * post_lex: function(token) { return token; }
2079 * optional: is invoked when the lexer has produced a token `token`;
2080 * this function can override the returned token value by returning another.
2081 * When it does not return any (truthy) value, the lexer will return
2082 * the original `token`.
2083 * `this` refers to the Lexer object.
2084 *
2085 * WARNING: the next set of options are not meant to be changed. They echo the abilities of
2086 * the lexer as per when it was compiled!
2087 *
2088 * ranges: boolean
2089 * optional: `true` ==> token location info will include a .range[] member.
2090 * flex: boolean
2091 * optional: `true` ==> flex-like lexing behaviour where the rules are tested
2092 * exhaustively to find the longest match.
2093 * backtrack_lexer: boolean
2094 * optional: `true` ==> lexer regexes are tested in order and for invoked;
2095 * the lexer terminates the scan when a token is returned by the action code.
2096 * xregexp: boolean
2097 * optional: `true` ==> lexer rule regexes are "extended regex format" requiring the
2098 * `XRegExp` library. When this %option has not been specified at compile time, all lexer
2099 * rule regexes have been written as standard JavaScript RegExp expressions.
2100 * }
2101 */
2102
2103
2104var lexer = function() {
2105 /**
2106 * See also:
2107 * http://stackoverflow.com/questions/1382107/whats-a-good-way-to-extend-error-in-javascript/#35881508
2108 * but we keep the prototype.constructor and prototype.name assignment lines too for compatibility
2109 * with userland code which might access the derived class in a 'classic' way.
2110 *
2111 * @public
2112 * @constructor
2113 * @nocollapse
2114 */
2115 function JisonLexerError(msg, hash) {
2116 Object.defineProperty(this, 'name', {
2117 enumerable: false,
2118 writable: false,
2119 value: 'JisonLexerError'
2120 });
2121
2122 if (msg == null)
2123 msg = '???';
2124
2125 Object.defineProperty(this, 'message', {
2126 enumerable: false,
2127 writable: true,
2128 value: msg
2129 });
2130
2131 this.hash = hash;
2132 var stacktrace;
2133
2134 if (hash && hash.exception instanceof Error) {
2135 var ex2 = hash.exception;
2136 this.message = ex2.message || msg;
2137 stacktrace = ex2.stack;
2138 }
2139
2140 if (!stacktrace) {
2141 if (Error.hasOwnProperty('captureStackTrace')) {
2142 // V8
2143 Error.captureStackTrace(this, this.constructor);
2144 } else {
2145 stacktrace = new Error(msg).stack;
2146 }
2147 }
2148
2149 if (stacktrace) {
2150 Object.defineProperty(this, 'stack', {
2151 enumerable: false,
2152 writable: false,
2153 value: stacktrace
2154 });
2155 }
2156 }
2157
2158 if (typeof Object.setPrototypeOf === 'function') {
2159 Object.setPrototypeOf(JisonLexerError.prototype, Error.prototype);
2160 } else {
2161 JisonLexerError.prototype = Object.create(Error.prototype);
2162 }
2163
2164 JisonLexerError.prototype.constructor = JisonLexerError;
2165 JisonLexerError.prototype.name = 'JisonLexerError';
2166
2167 var lexer = {
2168
2169// Code Generator Information Report
2170// ---------------------------------
2171//
2172// Options:
2173//
2174// backtracking: .................... false
2175// location.ranges: ................. false
2176// location line+column tracking: ... true
2177//
2178//
2179// Forwarded Parser Analysis flags:
2180//
2181// uses yyleng: ..................... false
2182// uses yylineno: ................... false
2183// uses yytext: ..................... false
2184// uses yylloc: ..................... false
2185// uses lexer values: ............... true / true
2186// location tracking: ............... false
2187// location assignment: ............. false
2188//
2189//
2190// Lexer Analysis flags:
2191//
2192// uses yyleng: ..................... ???
2193// uses yylineno: ................... ???
2194// uses yytext: ..................... ???
2195// uses yylloc: ..................... ???
2196// uses ParseError API: ............. ???
2197// uses yyerror: .................... ???
2198// uses location tracking & editing: ???
2199// uses more() API: ................. ???
2200// uses unput() API: ................ ???
2201// uses reject() API: ............... ???
2202// uses less() API: ................. ???
2203// uses display APIs pastInput(), upcomingInput(), showPosition():
2204// ............................. ???
2205// uses describeYYLLOC() API: ....... ???
2206//
2207// --------- END OF REPORT -----------
2208
2209EOF: 1,
2210 ERROR: 2,
2211
2212 // JisonLexerError: JisonLexerError, /// <-- injected by the code generator
2213
2214 // options: {}, /// <-- injected by the code generator
2215
2216 // yy: ..., /// <-- injected by setInput()
2217
2218 __currentRuleSet__: null, /// INTERNAL USE ONLY: internal rule set cache for the current lexer state
2219
2220 __error_infos: [], /// INTERNAL USE ONLY: the set of lexErrorInfo objects created since the last cleanup
2221 __decompressed: false, /// INTERNAL USE ONLY: mark whether the lexer instance has been 'unfolded' completely and is now ready for use
2222 done: false, /// INTERNAL USE ONLY
2223 _backtrack: false, /// INTERNAL USE ONLY
2224 _input: '', /// INTERNAL USE ONLY
2225 _more: false, /// INTERNAL USE ONLY
2226 _signaled_error_token: false, /// INTERNAL USE ONLY
2227 conditionStack: [], /// INTERNAL USE ONLY; managed via `pushState()`, `popState()`, `topState()` and `stateStackSize()`
2228 match: '', /// READ-ONLY EXTERNAL ACCESS - ADVANCED USE ONLY: tracks input which has been matched so far for the lexer token under construction. `match` is identical to `yytext` except that this one still contains the matched input string after `lexer.performAction()` has been invoked, where userland code MAY have changed/replaced the `yytext` value entirely!
2229 matched: '', /// READ-ONLY EXTERNAL ACCESS - ADVANCED USE ONLY: tracks entire input which has been matched so far
2230 matches: false, /// READ-ONLY EXTERNAL ACCESS - ADVANCED USE ONLY: tracks RE match result for last (successful) match attempt
2231 yytext: '', /// ADVANCED USE ONLY: tracks input which has been matched so far for the lexer token under construction; this value is transferred to the parser as the 'token value' when the parser consumes the lexer token produced through a call to the `lex()` API.
2232 offset: 0, /// READ-ONLY EXTERNAL ACCESS - ADVANCED USE ONLY: tracks the 'cursor position' in the input string, i.e. the number of characters matched so far
2233 yyleng: 0, /// READ-ONLY EXTERNAL ACCESS - ADVANCED USE ONLY: length of matched input for the token under construction (`yytext`)
2234 yylineno: 0, /// READ-ONLY EXTERNAL ACCESS - ADVANCED USE ONLY: 'line number' at which the token under construction is located
2235 yylloc: null, /// READ-ONLY EXTERNAL ACCESS - ADVANCED USE ONLY: tracks location info (lines + columns) for the token under construction
2236
2237 /**
2238 * INTERNAL USE: construct a suitable error info hash object instance for `parseError`.
2239 *
2240 * @public
2241 * @this {RegExpLexer}
2242 */
2243 constructLexErrorInfo: function lexer_constructLexErrorInfo(msg, recoverable, show_input_position) {
2244 msg = '' + msg;
2245
2246 // heuristic to determine if the error message already contains a (partial) source code dump
2247 // as produced by either `showPosition()` or `prettyPrintRange()`:
2248 if (show_input_position == undefined) {
2249 show_input_position = !(msg.indexOf('\n') > 0 && msg.indexOf('^') > 0);
2250 }
2251
2252 if (this.yylloc && show_input_position) {
2253 if (typeof this.prettyPrintRange === 'function') {
2254 var pretty_src = this.prettyPrintRange(this.yylloc);
2255
2256 if (!/\n\s*$/.test(msg)) {
2257 msg += '\n';
2258 }
2259
2260 msg += '\n Erroneous area:\n' + this.prettyPrintRange(this.yylloc);
2261 } else if (typeof this.showPosition === 'function') {
2262 var pos_str = this.showPosition();
2263
2264 if (pos_str) {
2265 if (msg.length && msg[msg.length - 1] !== '\n' && pos_str[0] !== '\n') {
2266 msg += '\n' + pos_str;
2267 } else {
2268 msg += pos_str;
2269 }
2270 }
2271 }
2272 }
2273
2274 /** @constructor */
2275 var pei = {
2276 errStr: msg,
2277 recoverable: !!recoverable,
2278 text: this.match, // This one MAY be empty; userland code should use the `upcomingInput` API to obtain more text which follows the 'lexer cursor position'...
2279 token: null,
2280 line: this.yylineno,
2281 loc: this.yylloc,
2282 yy: this.yy,
2283 lexer: this,
2284
2285 /**
2286 * and make sure the error info doesn't stay due to potential
2287 * ref cycle via userland code manipulations.
2288 * These would otherwise all be memory leak opportunities!
2289 *
2290 * Note that only array and object references are nuked as those
2291 * constitute the set of elements which can produce a cyclic ref.
2292 * The rest of the members is kept intact as they are harmless.
2293 *
2294 * @public
2295 * @this {LexErrorInfo}
2296 */
2297 destroy: function destructLexErrorInfo() {
2298 // remove cyclic references added to error info:
2299 // info.yy = null;
2300 // info.lexer = null;
2301 // ...
2302 var rec = !!this.recoverable;
2303
2304 for (var key in this) {
2305 if (this.hasOwnProperty(key) && typeof key === 'object') {
2306 this[key] = undefined;
2307 }
2308 }
2309
2310 this.recoverable = rec;
2311 }
2312 };
2313
2314 // track this instance so we can `destroy()` it once we deem it superfluous and ready for garbage collection!
2315 this.__error_infos.push(pei);
2316
2317 return pei;
2318 },
2319
2320 /**
2321 * handler which is invoked when a lexer error occurs.
2322 *
2323 * @public
2324 * @this {RegExpLexer}
2325 */
2326 parseError: function lexer_parseError(str, hash, ExceptionClass) {
2327 if (!ExceptionClass) {
2328 ExceptionClass = this.JisonLexerError;
2329 }
2330
2331 if (this.yy) {
2332 if (this.yy.parser && typeof this.yy.parser.parseError === 'function') {
2333 return this.yy.parser.parseError.call(this, str, hash, ExceptionClass) || this.ERROR;
2334 } else if (typeof this.yy.parseError === 'function') {
2335 return this.yy.parseError.call(this, str, hash, ExceptionClass) || this.ERROR;
2336 }
2337 }
2338
2339 throw new ExceptionClass(str, hash);
2340 },
2341
2342 /**
2343 * method which implements `yyerror(str, ...args)` functionality for use inside lexer actions.
2344 *
2345 * @public
2346 * @this {RegExpLexer}
2347 */
2348 yyerror: function yyError(str /*, ...args */) {
2349 var lineno_msg = '';
2350
2351 if (this.yylloc) {
2352 lineno_msg = ' on line ' + (this.yylineno + 1);
2353 }
2354
2355 var p = this.constructLexErrorInfo(
2356 'Lexical error' + lineno_msg + ': ' + str,
2357 this.options.lexerErrorsAreRecoverable
2358 );
2359
2360 // Add any extra args to the hash under the name `extra_error_attributes`:
2361 var args = Array.prototype.slice.call(arguments, 1);
2362
2363 if (args.length) {
2364 p.extra_error_attributes = args;
2365 }
2366
2367 return this.parseError(p.errStr, p, this.JisonLexerError) || this.ERROR;
2368 },
2369
2370 /**
2371 * final cleanup function for when we have completed lexing the input;
2372 * make it an API so that external code can use this one once userland
2373 * code has decided it's time to destroy any lingering lexer error
2374 * hash object instances and the like: this function helps to clean
2375 * up these constructs, which *may* carry cyclic references which would
2376 * otherwise prevent the instances from being properly and timely
2377 * garbage-collected, i.e. this function helps prevent memory leaks!
2378 *
2379 * @public
2380 * @this {RegExpLexer}
2381 */
2382 cleanupAfterLex: function lexer_cleanupAfterLex(do_not_nuke_errorinfos) {
2383 // prevent lingering circular references from causing memory leaks:
2384 this.setInput('', {});
2385
2386 // nuke the error hash info instances created during this run.
2387 // Userland code must COPY any data/references
2388 // in the error hash instance(s) it is more permanently interested in.
2389 if (!do_not_nuke_errorinfos) {
2390 for (var i = this.__error_infos.length - 1; i >= 0; i--) {
2391 var el = this.__error_infos[i];
2392
2393 if (el && typeof el.destroy === 'function') {
2394 el.destroy();
2395 }
2396 }
2397
2398 this.__error_infos.length = 0;
2399 }
2400
2401 return this;
2402 },
2403
2404 /**
2405 * clear the lexer token context; intended for internal use only
2406 *
2407 * @public
2408 * @this {RegExpLexer}
2409 */
2410 clear: function lexer_clear() {
2411 this.yytext = '';
2412 this.yyleng = 0;
2413 this.match = '';
2414
2415 // - DO NOT reset `this.matched`
2416 this.matches = false;
2417
2418 this._more = false;
2419 this._backtrack = false;
2420 var col = (this.yylloc ? this.yylloc.last_column : 0);
2421
2422 this.yylloc = {
2423 first_line: this.yylineno + 1,
2424 first_column: col,
2425 last_line: this.yylineno + 1,
2426 last_column: col,
2427 range: [this.offset, this.offset]
2428 };
2429 },
2430
2431 /**
2432 * resets the lexer, sets new input
2433 *
2434 * @public
2435 * @this {RegExpLexer}
2436 */
2437 setInput: function lexer_setInput(input, yy) {
2438 this.yy = yy || this.yy || {};
2439
2440 // also check if we've fully initialized the lexer instance,
2441 // including expansion work to be done to go from a loaded
2442 // lexer to a usable lexer:
2443 if (!this.__decompressed) {
2444 // step 1: decompress the regex list:
2445 var rules = this.rules;
2446
2447 for (var i = 0, len = rules.length; i < len; i++) {
2448 var rule_re = rules[i];
2449
2450 // compression: is the RE an xref to another RE slot in the rules[] table?
2451 if (typeof rule_re === 'number') {
2452 rules[i] = rules[rule_re];
2453 }
2454 }
2455
2456 // step 2: unfold the conditions[] set to make these ready for use:
2457 var conditions = this.conditions;
2458
2459 for (var k in conditions) {
2460 var spec = conditions[k];
2461 var rule_ids = spec.rules;
2462 var len = rule_ids.length;
2463 var rule_regexes = new Array(len + 1); // slot 0 is unused; we use a 1-based index approach here to keep the hottest code in `lexer_next()` fast and simple!
2464 var rule_new_ids = new Array(len + 1);
2465
2466 for (var i = 0; i < len; i++) {
2467 var idx = rule_ids[i];
2468 var rule_re = rules[idx];
2469 rule_regexes[i + 1] = rule_re;
2470 rule_new_ids[i + 1] = idx;
2471 }
2472
2473 spec.rules = rule_new_ids;
2474 spec.__rule_regexes = rule_regexes;
2475 spec.__rule_count = len;
2476 }
2477
2478 this.__decompressed = true;
2479 }
2480
2481 this._input = input || '';
2482 this.clear();
2483 this._signaled_error_token = false;
2484 this.done = false;
2485 this.yylineno = 0;
2486 this.matched = '';
2487 this.conditionStack = ['INITIAL'];
2488 this.__currentRuleSet__ = null;
2489
2490 this.yylloc = {
2491 first_line: 1,
2492 first_column: 0,
2493 last_line: 1,
2494 last_column: 0,
2495 range: [0, 0]
2496 };
2497
2498 this.offset = 0;
2499 return this;
2500 },
2501
2502 /**
2503 * edit the remaining input via user-specified callback.
2504 * This can be used to forward-adjust the input-to-parse,
2505 * e.g. inserting macro expansions and alike in the
2506 * input which has yet to be lexed.
2507 * The behaviour of this API contrasts the `unput()` et al
2508 * APIs as those act on the *consumed* input, while this
2509 * one allows one to manipulate the future, without impacting
2510 * the current `yyloc` cursor location or any history.
2511 *
2512 * Use this API to help implement C-preprocessor-like
2513 * `#include` statements, etc.
2514 *
2515 * The provided callback must be synchronous and is
2516 * expected to return the edited input (string).
2517 *
2518 * The `cpsArg` argument value is passed to the callback
2519 * as-is.
2520 *
2521 * `callback` interface:
2522 * `function callback(input, cpsArg)`
2523 *
2524 * - `input` will carry the remaining-input-to-lex string
2525 * from the lexer.
2526 * - `cpsArg` is `cpsArg` passed into this API.
2527 *
2528 * The `this` reference for the callback will be set to
2529 * reference this lexer instance so that userland code
2530 * in the callback can easily and quickly access any lexer
2531 * API.
2532 *
2533 * When the callback returns a non-string-type falsey value,
2534 * we assume the callback did not edit the input and we
2535 * will using the input as-is.
2536 *
2537 * When the callback returns a non-string-type value, it
2538 * is converted to a string for lexing via the `"" + retval`
2539 * operation. (See also why: http://2ality.com/2012/03/converting-to-string.html
2540 * -- that way any returned object's `toValue()` and `toString()`
2541 * methods will be invoked in a proper/desirable order.)
2542 *
2543 * @public
2544 * @this {RegExpLexer}
2545 */
2546 editRemainingInput: function lexer_editRemainingInput(callback, cpsArg) {
2547 var rv = callback.call(this, this._input, cpsArg);
2548
2549 if (typeof rv !== 'string') {
2550 if (rv) {
2551 this._input = '' + rv;
2552 }
2553 // else: keep `this._input` as is.
2554 } else {
2555 this._input = rv;
2556 }
2557
2558 return this;
2559 },
2560
2561 /**
2562 * consumes and returns one char from the input
2563 *
2564 * @public
2565 * @this {RegExpLexer}
2566 */
2567 input: function lexer_input() {
2568 if (!this._input) {
2569 //this.done = true; -- don't set `done` as we want the lex()/next() API to be able to produce one custom EOF token match after this anyhow. (lexer can match special <<EOF>> tokens and perform user action code for a <<EOF>> match, but only does so *once*)
2570 return null;
2571 }
2572
2573 var ch = this._input[0];
2574 this.yytext += ch;
2575 this.yyleng++;
2576 this.offset++;
2577 this.match += ch;
2578 this.matched += ch;
2579
2580 // Count the linenumber up when we hit the LF (or a stand-alone CR).
2581 // On CRLF, the linenumber is incremented when you fetch the CR or the CRLF combo
2582 // and we advance immediately past the LF as well, returning both together as if
2583 // it was all a single 'character' only.
2584 var slice_len = 1;
2585
2586 var lines = false;
2587
2588 if (ch === '\n') {
2589 lines = true;
2590 } else if (ch === '\r') {
2591 lines = true;
2592 var ch2 = this._input[1];
2593
2594 if (ch2 === '\n') {
2595 slice_len++;
2596 ch += ch2;
2597 this.yytext += ch2;
2598 this.yyleng++;
2599 this.offset++;
2600 this.match += ch2;
2601 this.matched += ch2;
2602 this.yylloc.range[1]++;
2603 }
2604 }
2605
2606 if (lines) {
2607 this.yylineno++;
2608 this.yylloc.last_line++;
2609 this.yylloc.last_column = 0;
2610 } else {
2611 this.yylloc.last_column++;
2612 }
2613
2614 this.yylloc.range[1]++;
2615 this._input = this._input.slice(slice_len);
2616 return ch;
2617 },
2618
2619 /**
2620 * unshifts one char (or an entire string) into the input
2621 *
2622 * @public
2623 * @this {RegExpLexer}
2624 */
2625 unput: function lexer_unput(ch) {
2626 var len = ch.length;
2627 var lines = ch.split(/(?:\r\n?|\n)/g);
2628 this._input = ch + this._input;
2629 this.yytext = this.yytext.substr(0, this.yytext.length - len);
2630 this.yyleng = this.yytext.length;
2631 this.offset -= len;
2632 this.match = this.match.substr(0, this.match.length - len);
2633 this.matched = this.matched.substr(0, this.matched.length - len);
2634
2635 if (lines.length > 1) {
2636 this.yylineno -= lines.length - 1;
2637 this.yylloc.last_line = this.yylineno + 1;
2638
2639 // Get last entirely matched line into the `pre_lines[]` array's
2640 // last index slot; we don't mind when other previously
2641 // matched lines end up in the array too.
2642 var pre = this.match;
2643
2644 var pre_lines = pre.split(/(?:\r\n?|\n)/g);
2645
2646 if (pre_lines.length === 1) {
2647 pre = this.matched;
2648 pre_lines = pre.split(/(?:\r\n?|\n)/g);
2649 }
2650
2651 this.yylloc.last_column = pre_lines[pre_lines.length - 1].length;
2652 } else {
2653 this.yylloc.last_column -= len;
2654 }
2655
2656 this.yylloc.range[1] = this.yylloc.range[0] + this.yyleng;
2657 this.done = false;
2658 return this;
2659 },
2660
2661 /**
2662 * cache matched text and append it on next action
2663 *
2664 * @public
2665 * @this {RegExpLexer}
2666 */
2667 more: function lexer_more() {
2668 this._more = true;
2669 return this;
2670 },
2671
2672 /**
2673 * signal the lexer that this rule fails to match the input, so the
2674 * next matching rule (regex) should be tested instead.
2675 *
2676 * @public
2677 * @this {RegExpLexer}
2678 */
2679 reject: function lexer_reject() {
2680 if (this.options.backtrack_lexer) {
2681 this._backtrack = true;
2682 } else {
2683 // when the `parseError()` call returns, we MUST ensure that the error is registered.
2684 // We accomplish this by signaling an 'error' token to be produced for the current
2685 // `.lex()` run.
2686 var lineno_msg = '';
2687
2688 if (this.yylloc) {
2689 lineno_msg = ' on line ' + (this.yylineno + 1);
2690 }
2691
2692 var p = this.constructLexErrorInfo(
2693 'Lexical error' + lineno_msg + ': You can only invoke reject() in the lexer when the lexer is of the backtracking persuasion (options.backtrack_lexer = true).',
2694 false
2695 );
2696
2697 this._signaled_error_token = this.parseError(p.errStr, p, this.JisonLexerError) || this.ERROR;
2698 }
2699
2700 return this;
2701 },
2702
2703 /**
2704 * retain first n characters of the match
2705 *
2706 * @public
2707 * @this {RegExpLexer}
2708 */
2709 less: function lexer_less(n) {
2710 return this.unput(this.match.slice(n));
2711 },
2712
2713 /**
2714 * return (part of the) already matched input, i.e. for error
2715 * messages.
2716 *
2717 * Limit the returned string length to `maxSize` (default: 20).
2718 *
2719 * Limit the returned string to the `maxLines` number of lines of
2720 * input (default: 1).
2721 *
2722 * Negative limit values equal *unlimited*.
2723 *
2724 * @public
2725 * @this {RegExpLexer}
2726 */
2727 pastInput: function lexer_pastInput(maxSize, maxLines) {
2728 var past = this.matched.substring(0, this.matched.length - this.match.length);
2729
2730 if (maxSize < 0)
2731 maxSize = past.length;
2732 else if (!maxSize)
2733 maxSize = 20;
2734
2735 if (maxLines < 0)
2736 maxLines = past.length; // can't ever have more input lines than this!
2737 else if (!maxLines)
2738 maxLines = 1;
2739
2740 // `substr` anticipation: treat \r\n as a single character and take a little
2741 // more than necessary so that we can still properly check against maxSize
2742 // after we've transformed and limited the newLines in here:
2743 past = past.substr(-maxSize * 2 - 2);
2744
2745 // now that we have a significantly reduced string to process, transform the newlines
2746 // and chop them, then limit them:
2747 var a = past.replace(/\r\n|\r/g, '\n').split('\n');
2748
2749 a = a.slice(-maxLines);
2750 past = a.join('\n');
2751
2752 // When, after limiting to maxLines, we still have too much to return,
2753 // do add an ellipsis prefix...
2754 if (past.length > maxSize) {
2755 past = '...' + past.substr(-maxSize);
2756 }
2757
2758 return past;
2759 },
2760
2761 /**
2762 * return (part of the) upcoming input, i.e. for error messages.
2763 *
2764 * Limit the returned string length to `maxSize` (default: 20).
2765 *
2766 * Limit the returned string to the `maxLines` number of lines of input (default: 1).
2767 *
2768 * Negative limit values equal *unlimited*.
2769 *
2770 * > ### NOTE ###
2771 * >
2772 * > *"upcoming input"* is defined as the whole of the both
2773 * > the *currently lexed* input, together with any remaining input
2774 * > following that. *"currently lexed"* input is the input
2775 * > already recognized by the lexer but not yet returned with
2776 * > the lexer token. This happens when you are invoking this API
2777 * > from inside any lexer rule action code block.
2778 * >
2779 *
2780 * @public
2781 * @this {RegExpLexer}
2782 */
2783 upcomingInput: function lexer_upcomingInput(maxSize, maxLines) {
2784 var next = this.match;
2785
2786 if (maxSize < 0)
2787 maxSize = next.length + this._input.length;
2788 else if (!maxSize)
2789 maxSize = 20;
2790
2791 if (maxLines < 0)
2792 maxLines = maxSize; // can't ever have more input lines than this!
2793 else if (!maxLines)
2794 maxLines = 1;
2795
2796 // `substring` anticipation: treat \r\n as a single character and take a little
2797 // more than necessary so that we can still properly check against maxSize
2798 // after we've transformed and limited the newLines in here:
2799 if (next.length < maxSize * 2 + 2) {
2800 next += this._input.substring(0, maxSize * 2 + 2); // substring is faster on Chrome/V8
2801 }
2802
2803 // now that we have a significantly reduced string to process, transform the newlines
2804 // and chop them, then limit them:
2805 var a = next.replace(/\r\n|\r/g, '\n').split('\n');
2806
2807 a = a.slice(0, maxLines);
2808 next = a.join('\n');
2809
2810 // When, after limiting to maxLines, we still have too much to return,
2811 // do add an ellipsis postfix...
2812 if (next.length > maxSize) {
2813 next = next.substring(0, maxSize) + '...';
2814 }
2815
2816 return next;
2817 },
2818
2819 /**
2820 * return a string which displays the character position where the
2821 * lexing error occurred, i.e. for error messages
2822 *
2823 * @public
2824 * @this {RegExpLexer}
2825 */
2826 showPosition: function lexer_showPosition(maxPrefix, maxPostfix) {
2827 var pre = this.pastInput(maxPrefix).replace(/\s/g, ' ');
2828 var c = new Array(pre.length + 1).join('-');
2829 return pre + this.upcomingInput(maxPostfix).replace(/\s/g, ' ') + '\n' + c + '^';
2830 },
2831
2832 /**
2833 * return an YYLLOC info object derived off the given context (actual, preceding, following, current).
2834 * Use this method when the given `actual` location is not guaranteed to exist (i.e. when
2835 * it MAY be NULL) and you MUST have a valid location info object anyway:
2836 * then we take the given context of the `preceding` and `following` locations, IFF those are available,
2837 * and reconstruct the `actual` location info from those.
2838 * If this fails, the heuristic is to take the `current` location, IFF available.
2839 * If this fails as well, we assume the sought location is at/around the current lexer position
2840 * and then produce that one as a response. DO NOTE that these heuristic/derived location info
2841 * values MAY be inaccurate!
2842 *
2843 * NOTE: `deriveLocationInfo()` ALWAYS produces a location info object *copy* of `actual`, not just
2844 * a *reference* hence all input location objects can be assumed to be 'constant' (function has no side-effects).
2845 *
2846 * @public
2847 * @this {RegExpLexer}
2848 */
2849 deriveLocationInfo: function lexer_deriveYYLLOC(actual, preceding, following, current) {
2850 var loc = {
2851 first_line: 1,
2852 first_column: 0,
2853 last_line: 1,
2854 last_column: 0,
2855 range: [0, 0]
2856 };
2857
2858 if (actual) {
2859 loc.first_line = actual.first_line | 0;
2860 loc.last_line = actual.last_line | 0;
2861 loc.first_column = actual.first_column | 0;
2862 loc.last_column = actual.last_column | 0;
2863
2864 if (actual.range) {
2865 loc.range[0] = actual.range[0] | 0;
2866 loc.range[1] = actual.range[1] | 0;
2867 }
2868 }
2869
2870 if (loc.first_line <= 0 || loc.last_line < loc.first_line) {
2871 // plan B: heuristic using preceding and following:
2872 if (loc.first_line <= 0 && preceding) {
2873 loc.first_line = preceding.last_line | 0;
2874 loc.first_column = preceding.last_column | 0;
2875
2876 if (preceding.range) {
2877 loc.range[0] = actual.range[1] | 0;
2878 }
2879 }
2880
2881 if ((loc.last_line <= 0 || loc.last_line < loc.first_line) && following) {
2882 loc.last_line = following.first_line | 0;
2883 loc.last_column = following.first_column | 0;
2884
2885 if (following.range) {
2886 loc.range[1] = actual.range[0] | 0;
2887 }
2888 }
2889
2890 // plan C?: see if the 'current' location is useful/sane too:
2891 if (loc.first_line <= 0 && current && (loc.last_line <= 0 || current.last_line <= loc.last_line)) {
2892 loc.first_line = current.first_line | 0;
2893 loc.first_column = current.first_column | 0;
2894
2895 if (current.range) {
2896 loc.range[0] = current.range[0] | 0;
2897 }
2898 }
2899
2900 if (loc.last_line <= 0 && current && (loc.first_line <= 0 || current.first_line >= loc.first_line)) {
2901 loc.last_line = current.last_line | 0;
2902 loc.last_column = current.last_column | 0;
2903
2904 if (current.range) {
2905 loc.range[1] = current.range[1] | 0;
2906 }
2907 }
2908 }
2909
2910 // sanitize: fix last_line BEFORE we fix first_line as we use the 'raw' value of the latter
2911 // or plan D heuristics to produce a 'sensible' last_line value:
2912 if (loc.last_line <= 0) {
2913 if (loc.first_line <= 0) {
2914 loc.first_line = this.yylloc.first_line;
2915 loc.last_line = this.yylloc.last_line;
2916 loc.first_column = this.yylloc.first_column;
2917 loc.last_column = this.yylloc.last_column;
2918 loc.range[0] = this.yylloc.range[0];
2919 loc.range[1] = this.yylloc.range[1];
2920 } else {
2921 loc.last_line = this.yylloc.last_line;
2922 loc.last_column = this.yylloc.last_column;
2923 loc.range[1] = this.yylloc.range[1];
2924 }
2925 }
2926
2927 if (loc.first_line <= 0) {
2928 loc.first_line = loc.last_line;
2929 loc.first_column = 0; // loc.last_column;
2930 loc.range[1] = loc.range[0];
2931 }
2932
2933 if (loc.first_column < 0) {
2934 loc.first_column = 0;
2935 }
2936
2937 if (loc.last_column < 0) {
2938 loc.last_column = (loc.first_column > 0 ? loc.first_column : 80);
2939 }
2940
2941 return loc;
2942 },
2943
2944 /**
2945 * return a string which displays the lines & columns of input which are referenced
2946 * by the given location info range, plus a few lines of context.
2947 *
2948 * This function pretty-prints the indicated section of the input, with line numbers
2949 * and everything!
2950 *
2951 * This function is very useful to provide highly readable error reports, while
2952 * the location range may be specified in various flexible ways:
2953 *
2954 * - `loc` is the location info object which references the area which should be
2955 * displayed and 'marked up': these lines & columns of text are marked up by `^`
2956 * characters below each character in the entire input range.
2957 *
2958 * - `context_loc` is the *optional* location info object which instructs this
2959 * pretty-printer how much *leading* context should be displayed alongside
2960 * the area referenced by `loc`. This can help provide context for the displayed
2961 * error, etc.
2962 *
2963 * When this location info is not provided, a default context of 3 lines is
2964 * used.
2965 *
2966 * - `context_loc2` is another *optional* location info object, which serves
2967 * a similar purpose to `context_loc`: it specifies the amount of *trailing*
2968 * context lines to display in the pretty-print output.
2969 *
2970 * When this location info is not provided, a default context of 1 line only is
2971 * used.
2972 *
2973 * Special Notes:
2974 *
2975 * - when the `loc`-indicated range is very large (about 5 lines or more), then
2976 * only the first and last few lines of this block are printed while a
2977 * `...continued...` message will be printed between them.
2978 *
2979 * This serves the purpose of not printing a huge amount of text when the `loc`
2980 * range happens to be huge: this way a manageable & readable output results
2981 * for arbitrary large ranges.
2982 *
2983 * - this function can display lines of input which whave not yet been lexed.
2984 * `prettyPrintRange()` can access the entire input!
2985 *
2986 * @public
2987 * @this {RegExpLexer}
2988 */
2989 prettyPrintRange: function lexer_prettyPrintRange(loc, context_loc, context_loc2) {
2990 loc = this.deriveLocationInfo(loc, context_loc, context_loc2);
2991 const CONTEXT = 3;
2992 const CONTEXT_TAIL = 1;
2993 const MINIMUM_VISIBLE_NONEMPTY_LINE_COUNT = 2;
2994 var input = this.matched + this._input;
2995 var lines = input.split('\n');
2996 var l0 = Math.max(1, (context_loc ? context_loc.first_line : loc.first_line - CONTEXT));
2997 var l1 = Math.max(1, (context_loc2 ? context_loc2.last_line : loc.last_line + CONTEXT_TAIL));
2998 var lineno_display_width = 1 + Math.log10(l1 | 1) | 0;
2999 var ws_prefix = new Array(lineno_display_width).join(' ');
3000 var nonempty_line_indexes = [];
3001
3002 var rv = lines.slice(l0 - 1, l1 + 1).map(function injectLineNumber(line, index) {
3003 var lno = index + l0;
3004 var lno_pfx = (ws_prefix + lno).substr(-lineno_display_width);
3005 var rv = lno_pfx + ': ' + line;
3006 var errpfx = new Array(lineno_display_width + 1).join('^');
3007 var offset = 2 + 1;
3008 var len = 0;
3009
3010 if (lno === loc.first_line) {
3011 offset += loc.first_column;
3012
3013 len = Math.max(
3014 2,
3015 ((lno === loc.last_line ? loc.last_column : line.length)) - loc.first_column + 1
3016 );
3017 } else if (lno === loc.last_line) {
3018 len = Math.max(2, loc.last_column + 1);
3019 } else if (lno > loc.first_line && lno < loc.last_line) {
3020 len = Math.max(2, line.length + 1);
3021 }
3022
3023 if (len) {
3024 var lead = new Array(offset).join('.');
3025 var mark = new Array(len).join('^');
3026 rv += '\n' + errpfx + lead + mark;
3027
3028 if (line.trim().length > 0) {
3029 nonempty_line_indexes.push(index);
3030 }
3031 }
3032
3033 rv = rv.replace(/\t/g, ' ');
3034 return rv;
3035 });
3036
3037 // now make sure we don't print an overly large amount of error area: limit it
3038 // to the top and bottom line count:
3039 if (nonempty_line_indexes.length > 2 * MINIMUM_VISIBLE_NONEMPTY_LINE_COUNT) {
3040 var clip_start = nonempty_line_indexes[MINIMUM_VISIBLE_NONEMPTY_LINE_COUNT - 1] + 1;
3041 var clip_end = nonempty_line_indexes[nonempty_line_indexes.length - MINIMUM_VISIBLE_NONEMPTY_LINE_COUNT] - 1;
3042 var intermediate_line = new Array(lineno_display_width + 1).join(' ') + ' (...continued...)';
3043 intermediate_line += '\n' + new Array(lineno_display_width + 1).join('-') + ' (---------------)';
3044 rv.splice(clip_start, clip_end - clip_start + 1, intermediate_line);
3045 }
3046
3047 return rv.join('\n');
3048 },
3049
3050 /**
3051 * helper function, used to produce a human readable description as a string, given
3052 * the input `yylloc` location object.
3053 *
3054 * Set `display_range_too` to TRUE to include the string character index position(s)
3055 * in the description if the `yylloc.range` is available.
3056 *
3057 * @public
3058 * @this {RegExpLexer}
3059 */
3060 describeYYLLOC: function lexer_describe_yylloc(yylloc, display_range_too) {
3061 var l1 = yylloc.first_line;
3062 var l2 = yylloc.last_line;
3063 var c1 = yylloc.first_column;
3064 var c2 = yylloc.last_column;
3065 var dl = l2 - l1;
3066 var dc = c2 - c1;
3067 var rv;
3068
3069 if (dl === 0) {
3070 rv = 'line ' + l1 + ', ';
3071
3072 if (dc <= 1) {
3073 rv += 'column ' + c1;
3074 } else {
3075 rv += 'columns ' + c1 + ' .. ' + c2;
3076 }
3077 } else {
3078 rv = 'lines ' + l1 + '(column ' + c1 + ') .. ' + l2 + '(column ' + c2 + ')';
3079 }
3080
3081 if (yylloc.range && display_range_too) {
3082 var r1 = yylloc.range[0];
3083 var r2 = yylloc.range[1] - 1;
3084
3085 if (r2 <= r1) {
3086 rv += ' {String Offset: ' + r1 + '}';
3087 } else {
3088 rv += ' {String Offset range: ' + r1 + ' .. ' + r2 + '}';
3089 }
3090 }
3091
3092 return rv;
3093 },
3094
3095 /**
3096 * test the lexed token: return FALSE when not a match, otherwise return token.
3097 *
3098 * `match` is supposed to be an array coming out of a regex match, i.e. `match[0]`
3099 * contains the actually matched text string.
3100 *
3101 * Also move the input cursor forward and update the match collectors:
3102 *
3103 * - `yytext`
3104 * - `yyleng`
3105 * - `match`
3106 * - `matches`
3107 * - `yylloc`
3108 * - `offset`
3109 *
3110 * @public
3111 * @this {RegExpLexer}
3112 */
3113 test_match: function lexer_test_match(match, indexed_rule) {
3114 var token, lines, backup, match_str, match_str_len;
3115
3116 if (this.options.backtrack_lexer) {
3117 // save context
3118 backup = {
3119 yylineno: this.yylineno,
3120
3121 yylloc: {
3122 first_line: this.yylloc.first_line,
3123 last_line: this.yylloc.last_line,
3124 first_column: this.yylloc.first_column,
3125 last_column: this.yylloc.last_column,
3126 range: this.yylloc.range.slice(0)
3127 },
3128
3129 yytext: this.yytext,
3130 match: this.match,
3131 matches: this.matches,
3132 matched: this.matched,
3133 yyleng: this.yyleng,
3134 offset: this.offset,
3135 _more: this._more,
3136 _input: this._input,
3137
3138 //_signaled_error_token: this._signaled_error_token,
3139 yy: this.yy,
3140
3141 conditionStack: this.conditionStack.slice(0),
3142 done: this.done
3143 };
3144 }
3145
3146 match_str = match[0];
3147 match_str_len = match_str.length;
3148
3149 // if (match_str.indexOf('\n') !== -1 || match_str.indexOf('\r') !== -1) {
3150 lines = match_str.split(/(?:\r\n?|\n)/g);
3151
3152 if (lines.length > 1) {
3153 this.yylineno += lines.length - 1;
3154 this.yylloc.last_line = this.yylineno + 1;
3155 this.yylloc.last_column = lines[lines.length - 1].length;
3156 } else {
3157 this.yylloc.last_column += match_str_len;
3158 }
3159
3160 // }
3161 this.yytext += match_str;
3162
3163 this.match += match_str;
3164 this.matched += match_str;
3165 this.matches = match;
3166 this.yyleng = this.yytext.length;
3167 this.yylloc.range[1] += match_str_len;
3168
3169 // previous lex rules MAY have invoked the `more()` API rather than producing a token:
3170 // those rules will already have moved this `offset` forward matching their match lengths,
3171 // hence we must only add our own match length now:
3172 this.offset += match_str_len;
3173
3174 this._more = false;
3175 this._backtrack = false;
3176 this._input = this._input.slice(match_str_len);
3177
3178 // calling this method:
3179 //
3180 // function lexer__performAction(yy, yyrulenumber, YY_START) {...}
3181 token = this.performAction.call(
3182 this,
3183 this.yy,
3184 indexed_rule,
3185 this.conditionStack[this.conditionStack.length - 1] /* = YY_START */
3186 );
3187
3188 // otherwise, when the action codes are all simple return token statements:
3189 //token = this.simpleCaseActionClusters[indexed_rule];
3190
3191 if (this.done && this._input) {
3192 this.done = false;
3193 }
3194
3195 if (token) {
3196 return token;
3197 } else if (this._backtrack) {
3198 // recover context
3199 for (var k in backup) {
3200 this[k] = backup[k];
3201 }
3202
3203 this.__currentRuleSet__ = null;
3204 return false; // rule action called reject() implying the next rule should be tested instead.
3205 } else if (this._signaled_error_token) {
3206 // produce one 'error' token as `.parseError()` in `reject()`
3207 // did not guarantee a failure signal by throwing an exception!
3208 token = this._signaled_error_token;
3209
3210 this._signaled_error_token = false;
3211 return token;
3212 }
3213
3214 return false;
3215 },
3216
3217 /**
3218 * return next match in input
3219 *
3220 * @public
3221 * @this {RegExpLexer}
3222 */
3223 next: function lexer_next() {
3224 if (this.done) {
3225 this.clear();
3226 return this.EOF;
3227 }
3228
3229 if (!this._input) {
3230 this.done = true;
3231 }
3232
3233 var token, match, tempMatch, index;
3234
3235 if (!this._more) {
3236 this.clear();
3237 }
3238
3239 var spec = this.__currentRuleSet__;
3240
3241 if (!spec) {
3242 // Update the ruleset cache as we apparently encountered a state change or just started lexing.
3243 // The cache is set up for fast lookup -- we assume a lexer will switch states much less often than it will
3244 // invoke the `lex()` token-producing API and related APIs, hence caching the set for direct access helps
3245 // speed up those activities a tiny bit.
3246 spec = this.__currentRuleSet__ = this._currentRules();
3247
3248 // Check whether a *sane* condition has been pushed before: this makes the lexer robust against
3249 // user-programmer bugs such as https://github.com/zaach/jison-lex/issues/19
3250 if (!spec || !spec.rules) {
3251 var lineno_msg = '';
3252
3253 if (this.options.trackPosition) {
3254 lineno_msg = ' on line ' + (this.yylineno + 1);
3255 }
3256
3257 var p = this.constructLexErrorInfo(
3258 'Internal lexer engine error' + lineno_msg + ': The lex grammar programmer pushed a non-existing condition name "' + this.topState() + '"; this is a fatal error and should be reported to the application programmer team!',
3259 false
3260 );
3261
3262 // produce one 'error' token until this situation has been resolved, most probably by parse termination!
3263 return this.parseError(p.errStr, p, this.JisonLexerError) || this.ERROR;
3264 }
3265 }
3266
3267 var rule_ids = spec.rules;
3268 var regexes = spec.__rule_regexes;
3269 var len = spec.__rule_count;
3270
3271 // Note: the arrays are 1-based, while `len` itself is a valid index,
3272 // hence the non-standard less-or-equal check in the next loop condition!
3273 for (var i = 1; i <= len; i++) {
3274 tempMatch = this._input.match(regexes[i]);
3275
3276 if (tempMatch && (!match || tempMatch[0].length > match[0].length)) {
3277 match = tempMatch;
3278 index = i;
3279
3280 if (this.options.backtrack_lexer) {
3281 token = this.test_match(tempMatch, rule_ids[i]);
3282
3283 if (token !== false) {
3284 return token;
3285 } else if (this._backtrack) {
3286 match = undefined;
3287 continue; // rule action called reject() implying a rule MISmatch.
3288 } else {
3289 // else: this is a lexer rule which consumes input without producing a token (e.g. whitespace)
3290 return false;
3291 }
3292 } else if (!this.options.flex) {
3293 break;
3294 }
3295 }
3296 }
3297
3298 if (match) {
3299 token = this.test_match(match, rule_ids[index]);
3300
3301 if (token !== false) {
3302 return token;
3303 }
3304
3305 // else: this is a lexer rule which consumes input without producing a token (e.g. whitespace)
3306 return false;
3307 }
3308
3309 if (!this._input) {
3310 this.done = true;
3311 this.clear();
3312 return this.EOF;
3313 } else {
3314 var lineno_msg = '';
3315
3316 if (this.options.trackPosition) {
3317 lineno_msg = ' on line ' + (this.yylineno + 1);
3318 }
3319
3320 var p = this.constructLexErrorInfo(
3321 'Lexical error' + lineno_msg + ': Unrecognized text.',
3322 this.options.lexerErrorsAreRecoverable
3323 );
3324
3325 var pendingInput = this._input;
3326 var activeCondition = this.topState();
3327 var conditionStackDepth = this.conditionStack.length;
3328 token = this.parseError(p.errStr, p, this.JisonLexerError) || this.ERROR;
3329
3330 if (token === this.ERROR) {
3331 // we can try to recover from a lexer error that `parseError()` did not 'recover' for us
3332 // by moving forward at least one character at a time IFF the (user-specified?) `parseError()`
3333 // has not consumed/modified any pending input or changed state in the error handler:
3334 if (!this.matches && // and make sure the input has been modified/consumed ...
3335 pendingInput === this._input && // ...or the lexer state has been modified significantly enough
3336 // to merit a non-consuming error handling action right now.
3337 activeCondition === this.topState() && conditionStackDepth === this.conditionStack.length) {
3338 this.input();
3339 }
3340 }
3341
3342 return token;
3343 }
3344 },
3345
3346 /**
3347 * return next match that has a token
3348 *
3349 * @public
3350 * @this {RegExpLexer}
3351 */
3352 lex: function lexer_lex() {
3353 var r;
3354
3355 // allow the PRE/POST handlers set/modify the return token for maximum flexibility of the generated lexer:
3356 if (typeof this.pre_lex === 'function') {
3357 r = this.pre_lex.call(this, 0);
3358 }
3359
3360 if (typeof this.options.pre_lex === 'function') {
3361 // (also account for a userdef function which does not return any value: keep the token as is)
3362 r = this.options.pre_lex.call(this, r) || r;
3363 }
3364
3365 if (this.yy && typeof this.yy.pre_lex === 'function') {
3366 // (also account for a userdef function which does not return any value: keep the token as is)
3367 r = this.yy.pre_lex.call(this, r) || r;
3368 }
3369
3370 while (!r) {
3371 r = this.next();
3372 }
3373
3374 if (this.yy && typeof this.yy.post_lex === 'function') {
3375 // (also account for a userdef function which does not return any value: keep the token as is)
3376 r = this.yy.post_lex.call(this, r) || r;
3377 }
3378
3379 if (typeof this.options.post_lex === 'function') {
3380 // (also account for a userdef function which does not return any value: keep the token as is)
3381 r = this.options.post_lex.call(this, r) || r;
3382 }
3383
3384 if (typeof this.post_lex === 'function') {
3385 // (also account for a userdef function which does not return any value: keep the token as is)
3386 r = this.post_lex.call(this, r) || r;
3387 }
3388
3389 return r;
3390 },
3391
3392 /**
3393 * return next match that has a token. Identical to the `lex()` API but does not invoke any of the
3394 * `pre_lex()` nor any of the `post_lex()` callbacks.
3395 *
3396 * @public
3397 * @this {RegExpLexer}
3398 */
3399 fastLex: function lexer_fastLex() {
3400 var r;
3401
3402 while (!r) {
3403 r = this.next();
3404 }
3405
3406 return r;
3407 },
3408
3409 /**
3410 * return info about the lexer state that can help a parser or other lexer API user to use the
3411 * most efficient means available. This API is provided to aid run-time performance for larger
3412 * systems which employ this lexer.
3413 *
3414 * @public
3415 * @this {RegExpLexer}
3416 */
3417 canIUse: function lexer_canIUse() {
3418 var rv = {
3419 fastLex: !(typeof this.pre_lex === 'function' || typeof this.options.pre_lex === 'function' || this.yy && typeof this.yy.pre_lex === 'function' || this.yy && typeof this.yy.post_lex === 'function' || typeof this.options.post_lex === 'function' || typeof this.post_lex === 'function') && typeof this.fastLex === 'function'
3420 };
3421
3422 return rv;
3423 },
3424
3425 /**
3426 * backwards compatible alias for `pushState()`;
3427 * the latter is symmetrical with `popState()` and we advise to use
3428 * those APIs in any modern lexer code, rather than `begin()`.
3429 *
3430 * @public
3431 * @this {RegExpLexer}
3432 */
3433 begin: function lexer_begin(condition) {
3434 return this.pushState(condition);
3435 },
3436
3437 /**
3438 * activates a new lexer condition state (pushes the new lexer
3439 * condition state onto the condition stack)
3440 *
3441 * @public
3442 * @this {RegExpLexer}
3443 */
3444 pushState: function lexer_pushState(condition) {
3445 this.conditionStack.push(condition);
3446 this.__currentRuleSet__ = null;
3447 return this;
3448 },
3449
3450 /**
3451 * pop the previously active lexer condition state off the condition
3452 * stack
3453 *
3454 * @public
3455 * @this {RegExpLexer}
3456 */
3457 popState: function lexer_popState() {
3458 var n = this.conditionStack.length - 1;
3459
3460 if (n > 0) {
3461 this.__currentRuleSet__ = null;
3462 return this.conditionStack.pop();
3463 } else {
3464 return this.conditionStack[0];
3465 }
3466 },
3467
3468 /**
3469 * return the currently active lexer condition state; when an index
3470 * argument is provided it produces the N-th previous condition state,
3471 * if available
3472 *
3473 * @public
3474 * @this {RegExpLexer}
3475 */
3476 topState: function lexer_topState(n) {
3477 n = this.conditionStack.length - 1 - Math.abs(n || 0);
3478
3479 if (n >= 0) {
3480 return this.conditionStack[n];
3481 } else {
3482 return 'INITIAL';
3483 }
3484 },
3485
3486 /**
3487 * (internal) determine the lexer rule set which is active for the
3488 * currently active lexer condition state
3489 *
3490 * @public
3491 * @this {RegExpLexer}
3492 */
3493 _currentRules: function lexer__currentRules() {
3494 if (this.conditionStack.length && this.conditionStack[this.conditionStack.length - 1]) {
3495 return this.conditions[this.conditionStack[this.conditionStack.length - 1]];
3496 } else {
3497 return this.conditions['INITIAL'];
3498 }
3499 },
3500
3501 /**
3502 * return the number of states currently on the stack
3503 *
3504 * @public
3505 * @this {RegExpLexer}
3506 */
3507 stateStackSize: function lexer_stateStackSize() {
3508 return this.conditionStack.length;
3509 },
3510
3511 options: {
3512 trackPosition: true,
3513 caseInsensitive: true
3514 },
3515
3516 JisonLexerError: JisonLexerError,
3517
3518 performAction: function lexer__performAction(yy, yyrulenumber, YY_START) {
3519 var yy_ = this;
3520 var YYSTATE = YY_START;
3521
3522 switch (yyrulenumber) {
3523 case 0:
3524 /*! Conditions:: INITIAL */
3525 /*! Rule:: \s+ */
3526 /* skip whitespace */
3527 break;
3528
3529 default:
3530 return this.simpleCaseActionClusters[yyrulenumber];
3531 }
3532 },
3533
3534 simpleCaseActionClusters: {
3535 /*! Conditions:: INITIAL */
3536 /*! Rule:: (-(webkit|moz)-)?calc\b */
3537 1: 3,
3538
3539 /*! Conditions:: INITIAL */
3540 /*! Rule:: [a-z][a-z0-9-]*\s*\((?:(?:"(?:\\.|[^\"\\])*"|'(?:\\.|[^\'\\])*')|\([^)]*\)|[^\(\)]*)*\) */
3541 2: 10,
3542
3543 /*! Conditions:: INITIAL */
3544 /*! Rule:: \* */
3545 3: 8,
3546
3547 /*! Conditions:: INITIAL */
3548 /*! Rule:: \/ */
3549 4: 9,
3550
3551 /*! Conditions:: INITIAL */
3552 /*! Rule:: \+ */
3553 5: 6,
3554
3555 /*! Conditions:: INITIAL */
3556 /*! Rule:: - */
3557 6: 7,
3558
3559 /*! Conditions:: INITIAL */
3560 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)em\b */
3561 7: 17,
3562
3563 /*! Conditions:: INITIAL */
3564 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)ex\b */
3565 8: 18,
3566
3567 /*! Conditions:: INITIAL */
3568 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)ch\b */
3569 9: 19,
3570
3571 /*! Conditions:: INITIAL */
3572 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)rem\b */
3573 10: 20,
3574
3575 /*! Conditions:: INITIAL */
3576 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)vw\b */
3577 11: 22,
3578
3579 /*! Conditions:: INITIAL */
3580 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)vh\b */
3581 12: 21,
3582
3583 /*! Conditions:: INITIAL */
3584 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)vmin\b */
3585 13: 23,
3586
3587 /*! Conditions:: INITIAL */
3588 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)vmax\b */
3589 14: 24,
3590
3591 /*! Conditions:: INITIAL */
3592 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)cm\b */
3593 15: 11,
3594
3595 /*! Conditions:: INITIAL */
3596 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)mm\b */
3597 16: 11,
3598
3599 /*! Conditions:: INITIAL */
3600 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)Q\b */
3601 17: 11,
3602
3603 /*! Conditions:: INITIAL */
3604 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)in\b */
3605 18: 11,
3606
3607 /*! Conditions:: INITIAL */
3608 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)pt\b */
3609 19: 11,
3610
3611 /*! Conditions:: INITIAL */
3612 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)pc\b */
3613 20: 11,
3614
3615 /*! Conditions:: INITIAL */
3616 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)px\b */
3617 21: 11,
3618
3619 /*! Conditions:: INITIAL */
3620 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)deg\b */
3621 22: 12,
3622
3623 /*! Conditions:: INITIAL */
3624 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)grad\b */
3625 23: 12,
3626
3627 /*! Conditions:: INITIAL */
3628 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)rad\b */
3629 24: 12,
3630
3631 /*! Conditions:: INITIAL */
3632 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)turn\b */
3633 25: 12,
3634
3635 /*! Conditions:: INITIAL */
3636 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)s\b */
3637 26: 13,
3638
3639 /*! Conditions:: INITIAL */
3640 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)ms\b */
3641 27: 13,
3642
3643 /*! Conditions:: INITIAL */
3644 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)Hz\b */
3645 28: 14,
3646
3647 /*! Conditions:: INITIAL */
3648 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)kHz\b */
3649 29: 14,
3650
3651 /*! Conditions:: INITIAL */
3652 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)dpi\b */
3653 30: 15,
3654
3655 /*! Conditions:: INITIAL */
3656 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)dpcm\b */
3657 31: 15,
3658
3659 /*! Conditions:: INITIAL */
3660 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)dppx\b */
3661 32: 15,
3662
3663 /*! Conditions:: INITIAL */
3664 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)% */
3665 33: 25,
3666
3667 /*! Conditions:: INITIAL */
3668 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)\b */
3669 34: 26,
3670
3671 /*! Conditions:: INITIAL */
3672 /*! Rule:: (([0-9]+(\.[0-9]+)?|\.[0-9]+)(e(\+|-)[0-9]+)?)-?([a-zA-Z_]|[\240-\377]|(\\[0-9a-fA-F]{1,6}(\r\n|[ \t\r\n\f])?|\\[^\r\n\f0-9a-fA-F]))([a-zA-Z0-9_-]|[\240-\377]|(\\[0-9a-fA-F]{1,6}(\r\n|[ \t\r\n\f])?|\\[^\r\n\f0-9a-fA-F]))*\b */
3673 35: 16,
3674
3675 /*! Conditions:: INITIAL */
3676 /*! Rule:: \( */
3677 36: 4,
3678
3679 /*! Conditions:: INITIAL */
3680 /*! Rule:: \) */
3681 37: 5,
3682
3683 /*! Conditions:: INITIAL */
3684 /*! Rule:: $ */
3685 38: 1
3686 },
3687
3688 rules: [
3689 /* 0: */ /^(?:\s+)/i,
3690 /* 1: */ /^(?:(-(webkit|moz)-)?calc\b)/i,
3691 /* 2: */ /^(?:[a-z][\d\-a-z]*\s*\((?:(?:"(?:\\.|[^"\\])*"|'(?:\\.|[^'\\])*')|\([^)]*\)|[^()]*)*\))/i,
3692 /* 3: */ /^(?:\*)/i,
3693 /* 4: */ /^(?:\/)/i,
3694 /* 5: */ /^(?:\+)/i,
3695 /* 6: */ /^(?:-)/i,
3696 /* 7: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)em\b)/i,
3697 /* 8: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)ex\b)/i,
3698 /* 9: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)ch\b)/i,
3699 /* 10: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)rem\b)/i,
3700 /* 11: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)vw\b)/i,
3701 /* 12: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)vh\b)/i,
3702 /* 13: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)vmin\b)/i,
3703 /* 14: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)vmax\b)/i,
3704 /* 15: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)cm\b)/i,
3705 /* 16: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)mm\b)/i,
3706 /* 17: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)Q\b)/i,
3707 /* 18: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)in\b)/i,
3708 /* 19: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)pt\b)/i,
3709 /* 20: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)pc\b)/i,
3710 /* 21: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)px\b)/i,
3711 /* 22: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)deg\b)/i,
3712 /* 23: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)grad\b)/i,
3713 /* 24: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)rad\b)/i,
3714 /* 25: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)turn\b)/i,
3715 /* 26: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)s\b)/i,
3716 /* 27: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)ms\b)/i,
3717 /* 28: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)Hz\b)/i,
3718 /* 29: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)kHz\b)/i,
3719 /* 30: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)dpi\b)/i,
3720 /* 31: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)dpcm\b)/i,
3721 /* 32: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)dppx\b)/i,
3722 /* 33: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)%)/i,
3723 /* 34: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)\b)/i,
3724 /* 35: */ /^(?:((\d+(\.\d+)?|\.\d+)(e(\+|-)\d+)?)-?([^\W\d]|[ -ÿ]|(\\[\dA-Fa-f]{1,6}(\r\n|[\t\n\f\r ])?|\\[^\d\n\f\rA-Fa-f]))([\w\-]|[ -ÿ]|(\\[\dA-Fa-f]{1,6}(\r\n|[\t\n\f\r ])?|\\[^\d\n\f\rA-Fa-f]))*\b)/i,
3725 /* 36: */ /^(?:\()/i,
3726 /* 37: */ /^(?:\))/i,
3727 /* 38: */ /^(?:$)/i
3728 ],
3729
3730 conditions: {
3731 'INITIAL': {
3732 rules: [
3733 0,
3734 1,
3735 2,
3736 3,
3737 4,
3738 5,
3739 6,
3740 7,
3741 8,
3742 9,
3743 10,
3744 11,
3745 12,
3746 13,
3747 14,
3748 15,
3749 16,
3750 17,
3751 18,
3752 19,
3753 20,
3754 21,
3755 22,
3756 23,
3757 24,
3758 25,
3759 26,
3760 27,
3761 28,
3762 29,
3763 30,
3764 31,
3765 32,
3766 33,
3767 34,
3768 35,
3769 36,
3770 37,
3771 38
3772 ],
3773
3774 inclusive: true
3775 }
3776 }
3777 };
3778
3779 return lexer;
3780}();
3781parser.lexer = lexer;
3782
3783
3784
3785function Parser() {
3786 this.yy = {};
3787}
3788Parser.prototype = parser;
3789parser.Parser = Parser;
3790
3791return new Parser();
3792})();
3793
3794
3795
3796
3797if (typeof require !== 'undefined' && typeof exports !== 'undefined') {
3798 exports.parser = parser;
3799 exports.Parser = parser.Parser;
3800 exports.parse = function () {
3801 return parser.parse.apply(parser, arguments);
3802 };
3803
3804}
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