1 /*
2 * A n t l r T r a n s l a t i o n H e a d e r
3 *
4 * Terence Parr, Will Cohen, and Hank Dietz: 1989-2001
5 * Purdue University Electrical Engineering
6 * With AHPCRC, University of Minnesota
7 * ANTLR Version 1.33MR33
8 *
9 * ..\bin\antlr dlg_p.g -gh
10 *
11 */
12
13 #define ANTLR_VERSION 13333
14 #include "pcctscfg.h"
15 #include "pccts_stdio.h"
16
17 #include <ctype.h>
18 #include "dlg.h"
19 #define zzSET_SIZE 8
20 #include "antlr.h"
21 #include "tokens.h"
22 #include "dlgdef.h"
23 #include "mode.h"
24
25 /* MR23 In order to remove calls to PURIFY use the antlr -nopurify option */
26
27 #ifndef PCCTS_PURIFY
28 #define PCCTS_PURIFY(r,s) memset((char *) &(r),'\0',(s));
29 #endif
30
31 ANTLR_INFO
32
33
34 /* MR20 G. Hobbelt
35 Fix for Borland C++ 4.x & 5.x compiling with ALL warnings enabled
36 */
37
38 #ifdef __TURBOC__
39 #pragma warn -aus /* unused assignment of 'xxx' */
40 #endif
41
42 int action_no = 0; /* keep track of actions outputed */
43 int nfa_allocated = 0; /* keeps track of number of nfa nodes */
44 nfa_node **nfa_array = NULL;/* root of binary tree that stores nfa array */
45 nfa_node nfa_model_node; /* model to initialize new nodes */
46 set used_chars; /* used to label trans. arcs */
47 set used_classes; /* classes or chars used to label trans. arcs */
48 set normal_chars; /* mask to get rid elements that aren't used
49 in set */
50 int flag_paren = FALSE;
51 int flag_brace = FALSE;
52 int mode_counter = 0; /* keep track of number of %%names */
53
54
55
56 void
57 #ifdef __USE_PROTOS
grammar(void)58 grammar(void)
59 #else
60 grammar()
61 #endif
62 {
63 zzRULE;
64 zzBLOCK(zztasp1);
65 zzMake0;
66 {
67 p_head(); p_class_hdr(); func_action = FALSE;
68 {
69 zzBLOCK(zztasp2);
70 zzMake0;
71 {
72 while ( (setwd1[LA(1)]&0x1) ) {
73 {
74 zzBLOCK(zztasp3);
75 zzMake0;
76 {
77 if ( (LA(1)==LEXACTION) ) {
78 zzmatch(LEXACTION); zzCONSUME;
79 }
80 else {
81 if ( (LA(1)==LEXMEMBER) ) {
82 zzmatch(LEXMEMBER); zzCONSUME;
83 }
84 else {
85 if ( (LA(1)==LEXPREFIX) ) {
86 zzmatch(LEXPREFIX); zzCONSUME;
87 }
88 else {
89 if ( (LA(1)==PARSERCLASS) ) {
90 zzmatch(PARSERCLASS); zzCONSUME;
91 }
92 else {
93 if ( (LA(1)==ACTION) ) {
94 }
95 else {zzFAIL(1,zzerr1,&zzMissSet,&zzMissText,&zzBadTok,&zzBadText,&zzErrk); goto fail;}
96 }
97 }
98 }
99 }
100 zzEXIT(zztasp3);
101 }
102 }
103 zzmatch(ACTION); zzCONSUME;
104 zzLOOP(zztasp2);
105 }
106 zzEXIT(zztasp2);
107 }
108 }
109 if ( gen_cpp ) p_includes();
110 start_states();
111 func_action = FALSE; p_tables(); p_tail();
112 {
113 zzBLOCK(zztasp2);
114 zzMake0;
115 {
116 while ( (LA(1)==ACTION) ) {
117 zzmatch(ACTION); zzCONSUME;
118 zzLOOP(zztasp2);
119 }
120 zzEXIT(zztasp2);
121 }
122 }
123 zzmatch(1);
124 if (firstLexMember != 0) p_class_def1();
125 zzCONSUME;
126
127 zzEXIT(zztasp1);
128 return;
129 fail:
130 zzEXIT(zztasp1);
131 zzsyn(zzMissText, zzBadTok, (ANTLRChar *)"", zzMissSet, zzMissTok, zzErrk, zzBadText);
132 zzresynch(setwd1, 0x2);
133 }
134 }
135
136 void
137 #ifdef __USE_PROTOS
start_states(void)138 start_states(void)
139 #else
140 start_states()
141 #endif
142 {
143 zzRULE;
144 zzBLOCK(zztasp1);
145 zzMake0;
146 {
147 {
148 zzBLOCK(zztasp2);
149 zzMake0;
150 {
151 if ( (LA(1)==PER_PER) ) {
152 zzmatch(PER_PER); zzCONSUME;
153 do_conversion();
154 }
155 else {
156 if ( (LA(1)==NAME_PER_PER) ) {
157 zzmatch(NAME_PER_PER); zzCONSUME;
158 do_conversion();
159 {
160 zzBLOCK(zztasp3);
161 zzMake0;
162 {
163 while ( (LA(1)==NAME_PER_PER) ) {
164 zzmatch(NAME_PER_PER); zzCONSUME;
165 do_conversion();
166 zzLOOP(zztasp3);
167 }
168 zzEXIT(zztasp3);
169 }
170 }
171 }
172 else {zzFAIL(1,zzerr2,&zzMissSet,&zzMissText,&zzBadTok,&zzBadText,&zzErrk); goto fail;}
173 }
174 zzEXIT(zztasp2);
175 }
176 }
177 zzmatch(PER_PER); zzCONSUME;
178 zzEXIT(zztasp1);
179 return;
180 fail:
181 zzEXIT(zztasp1);
182 zzsyn(zzMissText, zzBadTok, (ANTLRChar *)"", zzMissSet, zzMissTok, zzErrk, zzBadText);
183 zzresynch(setwd1, 0x4);
184 }
185 }
186
187 void
188 #ifdef __USE_PROTOS
do_conversion(void)189 do_conversion(void)
190 #else
191 do_conversion()
192 #endif
193 {
194 zzRULE;
195 zzBLOCK(zztasp1);
196 zzMake0;
197 {
198 new_automaton_mode(); func_action = TRUE;
199 rule_list();
200
201 dfa_class_nop[mode_counter] =
202 relabel(zzaArg(zztasp1,1 ).l,comp_level);
203 if (comp_level)
204 p_shift_table(mode_counter);
205 dfa_basep[mode_counter] = dfa_allocated+1;
206 make_dfa_model_node(dfa_class_nop[mode_counter]);
207 nfa_to_dfa(zzaArg(zztasp1,1 ).l);
208 ++mode_counter;
209 func_action = FALSE;
210 #ifdef HASH_STAT
211 fprint_hash_stats(stderr);
212 #endif
213 zzEXIT(zztasp1);
214 return;
215 fail:
216 zzEXIT(zztasp1);
217 zzsyn(zzMissText, zzBadTok, (ANTLRChar *)"", zzMissSet, zzMissTok, zzErrk, zzBadText);
218 zzresynch(setwd1, 0x8);
219 }
220 }
221
222 void
223 #ifdef __USE_PROTOS
rule_list(void)224 rule_list(void)
225 #else
226 rule_list()
227 #endif
228 {
229 zzRULE;
230 zzBLOCK(zztasp1);
231 zzMake0;
232 {
233 if ( (setwd1[LA(1)]&0x10) ) {
234 rule();
235 zzaRet.l=zzaArg(zztasp1,1 ).l; zzaRet.r=zzaArg(zztasp1,1 ).r;
236 {
237 zzBLOCK(zztasp2);
238 zzMake0;
239 {
240 while ( (setwd1[LA(1)]&0x20) ) {
241 rule();
242 {nfa_node *t1;
243 t1 = new_nfa_node();
244 (t1)->trans[0]=zzaRet.l;
245 (t1)->trans[1]=zzaArg(zztasp2,1 ).l;
246 /* all accept nodes "dead ends" */
247 zzaRet.l=t1; zzaRet.r=NULL;
248 }
249 zzLOOP(zztasp2);
250 }
251 zzEXIT(zztasp2);
252 }
253 }
254 }
255 else {
256 if ( (setwd1[LA(1)]&0x40) ) {
257 zzaRet.l = new_nfa_node(); zzaRet.r = NULL;
258 warning("no regular expressions", zzline);
259 }
260 else {zzFAIL(1,zzerr3,&zzMissSet,&zzMissText,&zzBadTok,&zzBadText,&zzErrk); goto fail;}
261 }
262 zzEXIT(zztasp1);
263 return;
264 fail:
265 zzEXIT(zztasp1);
266 zzsyn(zzMissText, zzBadTok, (ANTLRChar *)"", zzMissSet, zzMissTok, zzErrk, zzBadText);
267 zzresynch(setwd1, 0x80);
268 }
269 }
270
271 void
272 #ifdef __USE_PROTOS
rule(void)273 rule(void)
274 #else
275 rule()
276 #endif
277 {
278 zzRULE;
279 zzBLOCK(zztasp1);
280 zzMake0;
281 {
282 if ( (setwd2[LA(1)]&0x1) ) {
283 reg_expr();
284 zzmatch(ACTION);
285 if (zzaArg(zztasp1,1 ).r != NULL) {
286 zzaRet.l=zzaArg(zztasp1,1 ).l; zzaRet.r=zzaArg(zztasp1,1 ).r; (zzaArg(zztasp1,1 ).r)->accept=action_no;
287 }
288 zzCONSUME;
289
290 }
291 else {
292 if ( (LA(1)==ACTION) ) {
293 zzmatch(ACTION);
294 zzaRet.l = NULL; zzaRet.r = NULL;
295 error("no expression for action ", zzline);
296 zzCONSUME;
297
298 }
299 else {zzFAIL(1,zzerr4,&zzMissSet,&zzMissText,&zzBadTok,&zzBadText,&zzErrk); goto fail;}
300 }
301 zzEXIT(zztasp1);
302 return;
303 fail:
304 zzEXIT(zztasp1);
305 zzsyn(zzMissText, zzBadTok, (ANTLRChar *)"", zzMissSet, zzMissTok, zzErrk, zzBadText);
306 zzresynch(setwd2, 0x2);
307 }
308 }
309
310 void
311 #ifdef __USE_PROTOS
reg_expr(void)312 reg_expr(void)
313 #else
314 reg_expr()
315 #endif
316 {
317 zzRULE;
318 zzBLOCK(zztasp1);
319 zzMake0;
320 {
321 and_expr();
322 zzaRet.l=zzaArg(zztasp1,1 ).l; zzaRet.r=zzaArg(zztasp1,1 ).r;
323 {
324 zzBLOCK(zztasp2);
325 zzMake0;
326 {
327 while ( (LA(1)==OR) ) {
328 zzmatch(OR); zzCONSUME;
329 and_expr();
330 {nfa_node *t1, *t2;
331 t1 = new_nfa_node(); t2 = new_nfa_node();
332 (t1)->trans[0]=zzaRet.l;
333 (t1)->trans[1]=zzaArg(zztasp2,2 ).l;
334 /* MR23 */ if (zzaRet.r != NULL) (zzaRet.r)->trans[1]=t2;
335 if (zzaArg(zztasp2,2 ).r) {
336 (zzaArg(zztasp2,2 ).r)->trans[1]=t2; /* MR20 */
337 }
338 zzaRet.l=t1; zzaRet.r=t2;
339 }
340 zzLOOP(zztasp2);
341 }
342 zzEXIT(zztasp2);
343 }
344 }
345 zzEXIT(zztasp1);
346 return;
347 fail:
348 zzEXIT(zztasp1);
349 zzsyn(zzMissText, zzBadTok, (ANTLRChar *)"", zzMissSet, zzMissTok, zzErrk, zzBadText);
350 zzresynch(setwd2, 0x4);
351 }
352 }
353
354 void
355 #ifdef __USE_PROTOS
and_expr(void)356 and_expr(void)
357 #else
358 and_expr()
359 #endif
360 {
361 zzRULE;
362 zzBLOCK(zztasp1);
363 zzMake0;
364 {
365 repeat_expr();
366
367 zzaRet.l=zzaArg(zztasp1,1 ).l; zzaRet.r=zzaArg(zztasp1,1 ).r;
368 {
369 zzBLOCK(zztasp2);
370 zzMake0;
371 {
372 while ( (setwd2[LA(1)]&0x8) ) {
373 repeat_expr();
374 if (zzaRet.r != NULL) {
375 (zzaRet.r)->trans[1]=zzaArg(zztasp2,1 ).l;
376 zzaRet.r=zzaArg(zztasp2,1 ).r;
377 }
378 zzLOOP(zztasp2);
379 }
380 zzEXIT(zztasp2);
381 }
382 }
383 zzEXIT(zztasp1);
384 return;
385 fail:
386 zzEXIT(zztasp1);
387 zzsyn(zzMissText, zzBadTok, (ANTLRChar *)"", zzMissSet, zzMissTok, zzErrk, zzBadText);
388 zzresynch(setwd2, 0x10);
389 }
390 }
391
392 void
393 #ifdef __USE_PROTOS
repeat_expr(void)394 repeat_expr(void)
395 #else
396 repeat_expr()
397 #endif
398 {
399 zzRULE;
400 zzBLOCK(zztasp1);
401 zzMake0;
402 {
403 if ( (setwd2[LA(1)]&0x20) ) {
404 expr();
405 zzaRet.l=zzaArg(zztasp1,1 ).l; zzaRet.r=zzaArg(zztasp1,1 ).r;
406 {
407 zzBLOCK(zztasp2);
408 zzMake0;
409 {
410 if ( (LA(1)==ZERO_MORE) ) {
411 zzmatch(ZERO_MORE);
412 { nfa_node *t1,*t2;
413 /* MR23 */ if (zzaRet.r != NULL) (zzaRet.r)->trans[0] = zzaRet.l;
414 t1 = new_nfa_node(); t2 = new_nfa_node();
415 t1->trans[0]=zzaRet.l;
416 t1->trans[1]=t2;
417 /* MR23 */ if (zzaRet.r != NULL) (zzaRet.r)->trans[1]=t2;
418 zzaRet.l=t1;zzaRet.r=t2;
419 }
420 zzCONSUME;
421
422 }
423 else {
424 if ( (LA(1)==ONE_MORE) ) {
425 zzmatch(ONE_MORE);
426 if (zzaRet.r != NULL) (zzaRet.r)->trans[0] = zzaRet.l;
427 zzCONSUME;
428
429 }
430 else {
431 if ( (setwd2[LA(1)]&0x40) ) {
432 }
433 else {zzFAIL(1,zzerr5,&zzMissSet,&zzMissText,&zzBadTok,&zzBadText,&zzErrk); goto fail;}
434 }
435 }
436 zzEXIT(zztasp2);
437 }
438 }
439 }
440 else {
441 if ( (LA(1)==ZERO_MORE) ) {
442 zzmatch(ZERO_MORE);
443 error("no expression for *", zzline);
444 zzCONSUME;
445
446 }
447 else {
448 if ( (LA(1)==ONE_MORE) ) {
449 zzmatch(ONE_MORE);
450 error("no expression for +", zzline);
451 zzCONSUME;
452
453 }
454 else {zzFAIL(1,zzerr6,&zzMissSet,&zzMissText,&zzBadTok,&zzBadText,&zzErrk); goto fail;}
455 }
456 }
457 zzEXIT(zztasp1);
458 return;
459 fail:
460 zzEXIT(zztasp1);
461 zzsyn(zzMissText, zzBadTok, (ANTLRChar *)"", zzMissSet, zzMissTok, zzErrk, zzBadText);
462 zzresynch(setwd2, 0x80);
463 }
464 }
465
466 void
467 #ifdef __USE_PROTOS
expr(void)468 expr(void)
469 #else
470 expr()
471 #endif
472 {
473 zzRULE;
474 zzBLOCK(zztasp1);
475 zzMake0;
476 {
477 zzaRet.l = new_nfa_node();
478 zzaRet.r = new_nfa_node();
479 if ( (LA(1)==L_BRACK) ) {
480 zzmatch(L_BRACK); zzCONSUME;
481 atom_list();
482 zzmatch(R_BRACK);
483
484 /* MR23 */ if (zzaRet.l != NULL) {
485 (zzaRet.l)->trans[0] = zzaRet.r;
486 (zzaRet.l)->label = set_dup(zzaArg(zztasp1,2 ).label);
487 set_orin(&used_chars,(zzaRet.l)->label);
488 }
489 zzCONSUME;
490
491 }
492 else {
493 if ( (LA(1)==NOT) ) {
494 zzmatch(NOT); zzCONSUME;
495 zzmatch(L_BRACK); zzCONSUME;
496 atom_list();
497 zzmatch(R_BRACK);
498
499 /* MR23 */ if (zzaRet.l != NULL) {
500 (zzaRet.l)->trans[0] = zzaRet.r;
501 (zzaRet.l)->label = set_dif(normal_chars,zzaArg(zztasp1,3 ).label);
502 set_orin(&used_chars,(zzaRet.l)->label);
503 }
504 zzCONSUME;
505
506 }
507 else {
508 if ( (LA(1)==L_PAR) ) {
509 zzmatch(L_PAR); zzCONSUME;
510 reg_expr();
511 zzmatch(R_PAR);
512
513 /* MR23 */ if (zzaRet.l != NULL) {
514 (zzaRet.l)->trans[0] = zzaArg(zztasp1,2 ).l;
515 if (zzaArg(zztasp1,2 ).r) {
516 (zzaArg(zztasp1,2 ).r)->trans[1] = zzaRet.r; /* MR20 */
517 }
518 }
519 zzCONSUME;
520
521 }
522 else {
523 if ( (LA(1)==L_BRACE) ) {
524 zzmatch(L_BRACE); zzCONSUME;
525 reg_expr();
526 zzmatch(R_BRACE);
527
528 /* MR23 */ if (zzaRet.l != NULL) {
529 (zzaRet.l)->trans[0] = zzaArg(zztasp1,2 ).l;
530 (zzaRet.l)->trans[1] = zzaRet.r;
531 if (zzaArg(zztasp1,2 ).r) {
532 (zzaArg(zztasp1,2 ).r)->trans[1] = zzaRet.r; /* MR20 */
533 }
534 }
535 zzCONSUME;
536
537 }
538 else {
539 if ( (setwd3[LA(1)]&0x1) ) {
540 atom();
541
542 /* MR23 */ if (zzaRet.l != NULL) {
543 (zzaRet.l)->trans[0] = zzaRet.r;
544 (zzaRet.l)->label = set_dup(zzaArg(zztasp1,1 ).label);
545 set_orin(&used_chars,(zzaRet.l)->label);
546 }
547 }
548 else {zzFAIL(1,zzerr7,&zzMissSet,&zzMissText,&zzBadTok,&zzBadText,&zzErrk); goto fail;}
549 }
550 }
551 }
552 }
553 zzEXIT(zztasp1);
554 return;
555 fail:
556 zzEXIT(zztasp1);
557 zzsyn(zzMissText, zzBadTok, (ANTLRChar *)"", zzMissSet, zzMissTok, zzErrk, zzBadText);
558 zzresynch(setwd3, 0x2);
559 }
560 }
561
562 void
563 #ifdef __USE_PROTOS
atom_list(void)564 atom_list(void)
565 #else
566 atom_list()
567 #endif
568 {
569 zzRULE;
570 zzBLOCK(zztasp1);
571 zzMake0;
572 {
573 set_free(zzaRet.label);
574 {
575 zzBLOCK(zztasp2);
576 zzMake0;
577 {
578 while ( (setwd3[LA(1)]&0x4) ) {
579 near_atom();
580 set_orin(&(zzaRet.label),zzaArg(zztasp2,1 ).label);
581 zzLOOP(zztasp2);
582 }
583 zzEXIT(zztasp2);
584 }
585 }
586 zzEXIT(zztasp1);
587 return;
588 fail:
589 zzEXIT(zztasp1);
590 zzsyn(zzMissText, zzBadTok, (ANTLRChar *)"", zzMissSet, zzMissTok, zzErrk, zzBadText);
591 zzresynch(setwd3, 0x8);
592 }
593 }
594
595 void
596 #ifdef __USE_PROTOS
near_atom(void)597 near_atom(void)
598 #else
599 near_atom()
600 #endif
601 {
602 zzRULE;
603 zzBLOCK(zztasp1);
604 zzMake0;
605 {
606 register int i;
607 register int i_prime;
608 anychar();
609 zzaRet.letter=zzaArg(zztasp1,1 ).letter; zzaRet.label=set_of(zzaArg(zztasp1,1 ).letter);
610 i_prime = zzaArg(zztasp1,1 ).letter + MIN_CHAR;
611 if (case_insensitive && islower(i_prime))
612 set_orel(toupper(i_prime)-MIN_CHAR,
613 &(zzaRet.label));
614 if (case_insensitive && isupper(i_prime))
615 set_orel(tolower(i_prime)-MIN_CHAR,
616 &(zzaRet.label));
617 {
618 zzBLOCK(zztasp2);
619 zzMake0;
620 {
621 if ( (LA(1)==RANGE) ) {
622 zzmatch(RANGE); zzCONSUME;
623 anychar();
624 if (case_insensitive){
625 i_prime = zzaRet.letter+MIN_CHAR;
626 zzaRet.letter = (islower(i_prime) ?
627 toupper(i_prime) : i_prime)-MIN_CHAR;
628 i_prime = zzaArg(zztasp2,2 ).letter+MIN_CHAR;
629 zzaArg(zztasp2,2 ).letter = (islower(i_prime) ?
630 toupper(i_prime) : i_prime)-MIN_CHAR;
631 }
632 /* check to see if range okay */
633 {
634 int debugLetter1 = zzaRet.letter;
635 int debugLetter2 = zzaArg(zztasp2,2 ).letter;
636 }
637 if (zzaRet.letter > zzaArg(zztasp2,2 ).letter
638 && zzaArg(zztasp2,2 ).letter != 0xff){ /* MR16 */
639 error("invalid range ", zzline);
640 }
641 for (i=zzaRet.letter; i<= (int)zzaArg(zztasp2,2 ).letter; ++i){
642 set_orel(i,&(zzaRet.label));
643 i_prime = i+MIN_CHAR;
644 if (case_insensitive && islower(i_prime))
645 set_orel(toupper(i_prime)-MIN_CHAR,
646 &(zzaRet.label));
647 if (case_insensitive && isupper(i_prime))
648 set_orel(tolower(i_prime)-MIN_CHAR,
649 &(zzaRet.label));
650 }
651 }
652 else {
653 if ( (setwd3[LA(1)]&0x10) ) {
654 }
655 else {zzFAIL(1,zzerr8,&zzMissSet,&zzMissText,&zzBadTok,&zzBadText,&zzErrk); goto fail;}
656 }
657 zzEXIT(zztasp2);
658 }
659 }
660 zzEXIT(zztasp1);
661 return;
662 fail:
663 zzEXIT(zztasp1);
664 zzsyn(zzMissText, zzBadTok, (ANTLRChar *)"", zzMissSet, zzMissTok, zzErrk, zzBadText);
665 zzresynch(setwd3, 0x20);
666 }
667 }
668
669 void
670 #ifdef __USE_PROTOS
atom(void)671 atom(void)
672 #else
673 atom()
674 #endif
675 {
676 zzRULE;
677 zzBLOCK(zztasp1);
678 zzMake0;
679 {
680 register int i_prime;
681 anychar();
682 zzaRet.label = set_of(zzaArg(zztasp1,1 ).letter);
683 i_prime = zzaArg(zztasp1,1 ).letter + MIN_CHAR;
684 if (case_insensitive && islower(i_prime))
685 set_orel(toupper(i_prime)-MIN_CHAR,
686 &(zzaRet.label));
687 if (case_insensitive && isupper(i_prime))
688 set_orel(tolower(i_prime)-MIN_CHAR,
689 &(zzaRet.label));
690 zzEXIT(zztasp1);
691 return;
692 fail:
693 zzEXIT(zztasp1);
694 zzsyn(zzMissText, zzBadTok, (ANTLRChar *)"", zzMissSet, zzMissTok, zzErrk, zzBadText);
695 zzresynch(setwd3, 0x40);
696 }
697 }
698
699 void
700 #ifdef __USE_PROTOS
anychar(void)701 anychar(void)
702 #else
703 anychar()
704 #endif
705 {
706 zzRULE;
707 zzBLOCK(zztasp1);
708 zzMake0;
709 {
710 if ( (LA(1)==REGCHAR) ) {
711 zzmatch(REGCHAR);
712 zzaRet.letter = zzaArg(zztasp1,1 ).letter - MIN_CHAR;
713 zzCONSUME;
714
715 }
716 else {
717 if ( (LA(1)==OCTAL_VALUE) ) {
718 zzmatch(OCTAL_VALUE);
719 zzaRet.letter = zzaArg(zztasp1,1 ).letter - MIN_CHAR;
720 zzCONSUME;
721
722 }
723 else {
724 if ( (LA(1)==HEX_VALUE) ) {
725 zzmatch(HEX_VALUE);
726 zzaRet.letter = zzaArg(zztasp1,1 ).letter - MIN_CHAR;
727 zzCONSUME;
728
729 }
730 else {
731 if ( (LA(1)==DEC_VALUE) ) {
732 zzmatch(DEC_VALUE);
733 zzaRet.letter = zzaArg(zztasp1,1 ).letter - MIN_CHAR;
734 zzCONSUME;
735
736 }
737 else {
738 if ( (LA(1)==TAB) ) {
739 zzmatch(TAB);
740 zzaRet.letter = zzaArg(zztasp1,1 ).letter - MIN_CHAR;
741 zzCONSUME;
742
743 }
744 else {
745 if ( (LA(1)==NL) ) {
746 zzmatch(NL);
747 zzaRet.letter = zzaArg(zztasp1,1 ).letter - MIN_CHAR;
748 zzCONSUME;
749
750 }
751 else {
752 if ( (LA(1)==CR) ) {
753 zzmatch(CR);
754 zzaRet.letter = zzaArg(zztasp1,1 ).letter - MIN_CHAR;
755 zzCONSUME;
756
757 }
758 else {
759 if ( (LA(1)==BS) ) {
760 zzmatch(BS);
761 zzaRet.letter = zzaArg(zztasp1,1 ).letter - MIN_CHAR;
762 zzCONSUME;
763
764 }
765 else {
766 if ( (LA(1)==LIT) ) {
767 zzmatch(LIT);
768 zzaRet.letter = zzaArg(zztasp1,1 ).letter - MIN_CHAR;
769 zzCONSUME;
770
771 }
772 else {
773 if ( (LA(1)==L_EOF) ) {
774 zzmatch(L_EOF);
775 zzaRet.letter = 0;
776 zzCONSUME;
777
778 }
779 else {zzFAIL(1,zzerr9,&zzMissSet,&zzMissText,&zzBadTok,&zzBadText,&zzErrk); goto fail;}
780 }
781 }
782 }
783 }
784 }
785 }
786 }
787 }
788 }
789 zzEXIT(zztasp1);
790 return;
791 fail:
792 zzEXIT(zztasp1);
793 /* empty action */
794 zzsyn(zzMissText, zzBadTok, (ANTLRChar *)"", zzMissSet, zzMissTok, zzErrk, zzBadText);
795 zzresynch(setwd3, 0x80);
796 }
797 }
798
799 /* adds a new nfa to the binary tree and returns a pointer to it */
800 nfa_node *
801 #ifdef __USE_PROTOS
new_nfa_node(void)802 new_nfa_node(void)
803 #else
804 new_nfa_node()
805 #endif
806 {
807 register nfa_node *t;
808 static int nfa_size=0; /* elements nfa_array[] can hold */
809
810 ++nfa_allocated;
811 if (nfa_size<=nfa_allocated){
812 /* need to redo array */
813 if (!nfa_array){
814 /* need some to do inital allocation */
815 nfa_size=nfa_allocated+NFA_MIN;
816 nfa_array=(nfa_node **) malloc(sizeof(nfa_node*)*
817 nfa_size);
818 }else{
819 /* need more space */
820 nfa_size=2*(nfa_allocated+1);
821 nfa_array=(nfa_node **) realloc(nfa_array,
822 sizeof(nfa_node*)*nfa_size);
823 }
824 }
825 /* fill out entry in array */
826 t = (nfa_node*) malloc(sizeof(nfa_node));
827 nfa_array[nfa_allocated] = t;
828 *t = nfa_model_node;
829 t->node_no = nfa_allocated;
830 return t;
831 }
832
833
834 /* initialize the model node used to fill in newly made nfa_nodes */
835 void
836 #ifdef __USE_PROTOS
make_nfa_model_node(void)837 make_nfa_model_node(void)
838 #else
839 make_nfa_model_node()
840 #endif
841 {
842 nfa_model_node.node_no = -1; /* impossible value for real nfa node */
843 nfa_model_node.nfa_set = 0;
844 nfa_model_node.accept = 0; /* error state default*/
845 nfa_model_node.trans[0] = NULL;
846 nfa_model_node.trans[1] = NULL;
847 nfa_model_node.label = empty;
848 }
849
850 #if defined(DEBUG) || defined(_DEBUG)
851
852 /* print out the pointer value and the node_number */
853 void
854 #ifdef __USE_PROTOS
fprint_dfa_pair(FILE * f,nfa_node * p)855 fprint_dfa_pair(FILE *f, nfa_node *p)
856 #else
857 fprint_dfa_pair(f, p)
858 FILE *f;
859 nfa_node *p;
860 #endif
861 {
862 if (p){
863 fprintf(f, "%x (%d)", p, p->node_no);
864 }else{
865 fprintf(f, "(nil)");
866 }
867 }
868
869 /* print out interest information on a set */
870 void
871 #ifdef __USE_PROTOS
fprint_set(FILE * f,set s)872 fprint_set(FILE *f, set s)
873 #else
874 fprint_set(f,s)
875 FILE *f;
876 set s;
877 #endif
878 {
879 unsigned int *x;
880
881 fprintf(f, "n = %d,", s.n);
882 if (s.setword){
883 fprintf(f, "setword = %x, ", s.setword);
884 /* print out all the elements in the set */
885 x = set_pdq(s);
886 while (*x!=nil){
887 fprintf(f, "%d ", *x);
888 ++x;
889 }
890 }else{
891 fprintf(f, "setword = (nil)");
892 }
893 }
894
895 /* code to be able to dump out the nfas
896 return 0 if okay dump
897 return 1 if screwed up
898 */
899 int
900 #ifdef __USE_PROTOS
dump_nfas(int first_node,int last_node)901 dump_nfas(int first_node, int last_node)
902 #else
903 dump_nfas(first_node, last_node)
904 int first_node;
905 int last_node;
906 #endif
907 {
908 register int i;
909 nfa_node *t;
910
911 for (i=first_node; i<=last_node; ++i){
912 t = NFA(i);
913 if (!t) break;
914 fprintf(stderr, "nfa_node %d {\n", t->node_no);
915 fprintf(stderr, "\n\tnfa_set = %d\n", t->nfa_set);
916 fprintf(stderr, "\taccept\t=\t%d\n", t->accept);
917 fprintf(stderr, "\ttrans\t=\t(");
918 fprint_dfa_pair(stderr, t->trans[0]);
919 fprintf(stderr, ",");
920 fprint_dfa_pair(stderr, t->trans[1]);
921 fprintf(stderr, ")\n");
922 fprintf(stderr, "\tlabel\t=\t{ ");
923 fprint_set(stderr, t->label);
924 fprintf(stderr, "\t}\n");
925 fprintf(stderr, "}\n\n");
926 }
927 return 0;
928 }
929 #endif
930
931 /* DLG-specific syntax error message generator
932 * (define USER_ZZSYN when compiling so don't get 2 definitions)
933 */
934 void
935 #ifdef __USE_PROTOS
zzsyn(char * text,int tok,char * egroup,SetWordType * eset,int etok,int k,char * bad_text)936 zzsyn(char *text, int tok, char *egroup, SetWordType *eset, int etok, int k, char *bad_text)
937 #else
938 zzsyn(text, tok, egroup, eset, etok, k, bad_text)
939 char *text, *egroup, *bad_text;
940 int tok;
941 int etok;
942 int k;
943 SetWordType *eset;
944 #endif
945 {
946 fprintf(stderr, ErrHdr, file_str[0]!=NULL?file_str[0]:"stdin", zzline);
947 fprintf(stderr, " syntax error at \"%s\"", (tok==zzEOF_TOKEN)?"EOF":text);
948 if ( !etok && !eset ) {fprintf(stderr, "\n"); return;}
949 if ( k==1 ) fprintf(stderr, " missing");
950 else
951 {
952 fprintf(stderr, "; \"%s\" not", bad_text);
953 if ( zzset_deg(eset)>1 ) fprintf(stderr, " in");
954 }
955 if ( zzset_deg(eset)>0 ) zzedecode(eset);
956 else fprintf(stderr, " %s", zztokens[etok]);
957 if ( strlen(egroup) > (size_t)0 ) fprintf(stderr, " in %s", egroup);
958 fprintf(stderr, "\n");
959 }
960