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1# Exercising Bison on conflicts. -*- Autotest -*-
2
3# Copyright (C) 2002-2005, 2007-2012 Free Software Foundation, Inc.
4
5# This program is free software: you can redistribute it and/or modify
6# it under the terms of the GNU General Public License as published by
7# the Free Software Foundation, either version 3 of the License, or
8# (at your option) any later version.
9#
10# This program is distributed in the hope that it will be useful,
11# but WITHOUT ANY WARRANTY; without even the implied warranty of
12# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13# GNU General Public License for more details.
14#
15# You should have received a copy of the GNU General Public License
16# along with this program. If not, see <http://www.gnu.org/licenses/>.
17
18AT_BANNER([[Conflicts.]])
19
20
21## ---------------- ##
22## S/R in initial. ##
23## ---------------- ##
24
25# I once hacked Bison in such a way that it lost its reductions on the
26# initial state (because it was confusing it with the last state). It
27# took me a while to strip down my failures to this simple case. So
28# make sure it finds the s/r conflict below.
29
30AT_SETUP([S/R in initial])
31
32AT_DATA([[input.y]],
33[[%expect 1
34%%
35exp: e 'e';
36e: 'e' | /* Nothing. */;
37]])
38
39AT_BISON_CHECK([-o input.c input.y], 0, [],
40[[input.y:4.9: warning: rule useless in parser due to conflicts: e: /* empty */
41]])
42
43AT_CLEANUP
44
45
46## ------------------- ##
47## %nonassoc and eof. ##
48## ------------------- ##
49
50AT_SETUP([%nonassoc and eof])
51
52AT_BISON_OPTION_PUSHDEFS
53AT_DATA_GRAMMAR([input.y],
54[[
55%{
56#include <stdio.h>
57#include <stdlib.h>
58#include <string.h>
59
60#define YYERROR_VERBOSE 1
61]AT_YYERROR_DEFINE[
62/* The current argument. */
63static const char *input;
64
65static int
66yylex (void)
67{
68 static size_t toknum;
69 if (! (toknum <= strlen (input)))
70 abort ();
71 return input[toknum++];
72}
73
74%}
75
76%nonassoc '<' '>'
77
78%%
79expr: expr '<' expr
80 | expr '>' expr
81 | '0'
82 ;
83%%
84int
85main (int argc, const char *argv[])
86{
87 input = argc <= 1 ? "" : argv[1];
88 return yyparse ();
89}
90]])
91AT_BISON_OPTION_POPDEFS
92
93m4_pushdef([AT_NONASSOC_AND_EOF_CHECK],
94[AT_BISON_CHECK([$1[ -o input.c input.y]])
95AT_COMPILE([input])
96
97m4_pushdef([AT_EXPECTING], [m4_if($2, [correct], [[, expecting $end]])])
98
99AT_PARSER_CHECK([./input '0<0'])
100AT_PARSER_CHECK([./input '0<0<0'], [1], [],
101 [syntax error, unexpected '<'AT_EXPECTING
102])
103
104AT_PARSER_CHECK([./input '0>0'])
105AT_PARSER_CHECK([./input '0>0>0'], [1], [],
106 [syntax error, unexpected '>'AT_EXPECTING
107])
108
109AT_PARSER_CHECK([./input '0<0>0'], [1], [],
110 [syntax error, unexpected '>'AT_EXPECTING
111])
112
113m4_popdef([AT_EXPECTING])])
114
115# Expected token list is missing.
116AT_NONASSOC_AND_EOF_CHECK([], [[incorrect]])
117
118# We must disable default reductions in inconsistent states in order to
119# have an explicit list of all expected tokens.
120AT_NONASSOC_AND_EOF_CHECK([[-Dlr.default-reductions=consistent]],
121 [[correct]])
122
123# lr.default-reductions=consistent happens to work for this test case.
124# However, for other grammars, lookahead sets can be merged for
125# different left contexts, so it is still possible to have an incorrect
126# expected list. Canonical LR is almost a general solution (that is, it
127# can fail only when %nonassoc is used), so make sure it gives the same
128# result as above.
129AT_NONASSOC_AND_EOF_CHECK([[-Dlr.type=canonical-lr]], [[correct]])
130
131# parse.lac=full is a completely general solution that does not require
132# any of the above sacrifices. Of course, it does not extend the
133# language-recognition power of LALR to (IE)LR, but it does ensure that
134# the reported list of expected tokens matches what the given parser
135# would have accepted in place of the unexpected token.
136AT_NONASSOC_AND_EOF_CHECK([[-Dparse.lac=full]], [[correct]])
137
138m4_popdef([AT_NONASSOC_AND_EOF_CHECK])
139
140AT_CLEANUP
141
142
143
144## ------------------------------------------- ##
145## parse.error=verbose and consistent errors. ##
146## ------------------------------------------- ##
147
148AT_SETUP([[parse.error=verbose and consistent errors]])
149
150m4_pushdef([AT_CONSISTENT_ERRORS_CHECK], [
151
152AT_BISON_OPTION_PUSHDEFS([$1])
153
154m4_pushdef([AT_YYLEX_PROTOTYPE],
155[AT_SKEL_CC_IF([[int yylex (yy::parser::semantic_type *lvalp)]],
156 [[int yylex (YYSTYPE *lvalp)]])])
157
158AT_SKEL_JAVA_IF([AT_DATA], [AT_DATA_GRAMMAR])([input.y],
159[AT_SKEL_JAVA_IF([[
160
161%code imports {
162 import java.io.IOException;
163}]], [[
164
165%code {]AT_SKEL_CC_IF([[
166 #include <string>]], [[
167 #include <assert.h>
168 #include <stdio.h>
169 ]AT_YYERROR_DECLARE])[
170 ]AT_YYLEX_PROTOTYPE[;
171 #define USE(Var)
172}
173
174]AT_SKEL_CC_IF([[%defines]], [[%define api.pure]])])[
175
176]$1[
177
178%define parse.error verbose
179
180%%
181
182]$2[
183
184]AT_SKEL_JAVA_IF([[%code lexer {]], [[%%]])[
185
186/*--------.
187| yylex. |
188`--------*/]AT_SKEL_JAVA_IF([[
189
190public String input = "]$3[";
191public int index = 0;
192public int yylex ()
193{
194 if (index < input.length ())
195 return input.charAt (index++);
196 else
197 return 0;
198}
199public Object getLVal ()
200{
201 return new Integer(1);
202}]], [[
203
204]AT_YYLEX_PROTOTYPE[
205{
206 static char const *input = "]$3[";
207 *lvalp = 1;
208 return *input++;
209}]])[
210]AT_YYERROR_DEFINE[
211]AT_SKEL_JAVA_IF([[
212};
213
214%%]])[
215
216/*-------.
217| main. |
218`-------*/]AT_SKEL_JAVA_IF([[
219
220class input
221{
222 public static void main (String args[]) throws IOException
223 {
224 YYParser p = new YYParser ();
225 p.parse ();
226 }
227}]], [AT_SKEL_CC_IF([[
228
229int
230main (void)
231{
232 yy::parser parser;
233 return parser.parse ();
234}]], [[
235
236int
237main (void)
238{
239 return yyparse ();
240}]])])[
241]])
242
243AT_FULL_COMPILE([[input]])
244
245m4_pushdef([AT_EXPECTING], [m4_if($5, [ab], [[, expecting 'a' or 'b']],
246 $5, [a], [[, expecting 'a']],
247 $5, [b], [[, expecting 'b']])])
248
249AT_SKEL_JAVA_IF([AT_JAVA_PARSER_CHECK([[input]], [[0]]],
250 [AT_PARSER_CHECK([[./input]], [[1]]]),
251[[]],
252[[syntax error, unexpected ]$4[]AT_EXPECTING[
253]])
254
255m4_popdef([AT_EXPECTING])
256m4_popdef([AT_YYLEX_PROTOTYPE])
257AT_BISON_OPTION_POPDEFS
258
259])
260
261m4_pushdef([AT_PREVIOUS_STATE_GRAMMAR],
262[[%nonassoc 'a';
263
264start: consistent-error-on-a-a 'a' ;
265
266consistent-error-on-a-a:
267 'a' default-reduction
268 | 'a' default-reduction 'a'
269 | 'a' shift
270 ;
271
272default-reduction: /*empty*/ ;
273shift: 'b' ;
274
275// Provide another context in which all rules are useful so that this
276// test case looks a little more realistic.
277start: 'b' consistent-error-on-a-a 'c' ;
278]])
279
280m4_pushdef([AT_PREVIOUS_STATE_INPUT], [[a]])
281
282# Unfortunately, no expected tokens are reported even though 'b' can be
283# accepted. Nevertheless, the main point of this test is to make sure
284# that at least the unexpected token is reported. In a previous version
285# of Bison, it wasn't reported because the error is detected in a
286# consistent state with an error action, and that case always triggered
287# the simple "syntax error" message.
288#
289# The point isn't to test IELR here, but state merging happens to
290# complicate this example.
291AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr]],
292 [AT_PREVIOUS_STATE_GRAMMAR],
293 [AT_PREVIOUS_STATE_INPUT],
294 [[$end]], [[none]])
295AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr
296 %glr-parser]],
297 [AT_PREVIOUS_STATE_GRAMMAR],
298 [AT_PREVIOUS_STATE_INPUT],
299 [[$end]], [[none]])
300AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr
301 %language "c++"]],
302 [AT_PREVIOUS_STATE_GRAMMAR],
303 [AT_PREVIOUS_STATE_INPUT],
304 [[$end]], [[none]])
305AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr
306 %language "java"]],
307 [AT_PREVIOUS_STATE_GRAMMAR],
308 [AT_PREVIOUS_STATE_INPUT],
309 [[end of input]], [[none]])
310
311# Even canonical LR doesn't foresee the error for 'a'!
312AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr
313 %define lr.default-reductions consistent]],
314 [AT_PREVIOUS_STATE_GRAMMAR],
315 [AT_PREVIOUS_STATE_INPUT],
316 [[$end]], [[ab]])
317AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr
318 %define lr.default-reductions accepting]],
319 [AT_PREVIOUS_STATE_GRAMMAR],
320 [AT_PREVIOUS_STATE_INPUT],
321 [[$end]], [[ab]])
322AT_CONSISTENT_ERRORS_CHECK([[%define lr.type canonical-lr]],
323 [AT_PREVIOUS_STATE_GRAMMAR],
324 [AT_PREVIOUS_STATE_INPUT],
325 [[$end]], [[ab]])
326
327# Only LAC gets it right.
328AT_CONSISTENT_ERRORS_CHECK([[%define lr.type canonical-lr
329 %define parse.lac full]],
330 [AT_PREVIOUS_STATE_GRAMMAR],
331 [AT_PREVIOUS_STATE_INPUT],
332 [[$end]], [[b]])
333AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr
334 %define parse.lac full]],
335 [AT_PREVIOUS_STATE_GRAMMAR],
336 [AT_PREVIOUS_STATE_INPUT],
337 [[$end]], [[b]])
338
339m4_popdef([AT_PREVIOUS_STATE_GRAMMAR])
340m4_popdef([AT_PREVIOUS_STATE_INPUT])
341
342m4_pushdef([AT_USER_ACTION_GRAMMAR],
343[[%nonassoc 'a';
344
345// If $$ = 0 here, then we know that the 'a' destructor is being invoked
346// incorrectly for the 'b' set in the semantic action below. All 'a'
347// tokens are returned by yylex, which sets $$ = 1.
348%destructor {
349 if (!$$)
350 fprintf (stderr, "Wrong destructor.\n");
351} 'a';
352
353// Rather than depend on an inconsistent state to induce reading a
354// lookahead as in the previous grammar, just assign the lookahead in a
355// semantic action. That lookahead isn't needed before either error
356// action is encountered. In a previous version of Bison, this was a
357// problem as it meant yychar was not translated into yytoken before
358// either error action. The second error action thus invoked a
359// destructor that it selected according to the incorrect yytoken. The
360// first error action would have reported an incorrect unexpected token
361// except that, due to the bug described in the previous grammar, the
362// unexpected token was not reported at all.
363start: error-reduce consistent-error 'a' { USE ($][3); } ;
364
365error-reduce:
366 'a' 'a' consistent-reduction consistent-error 'a'
367 { USE (($][1, $][2, $][5)); }
368| 'a' error
369 { USE ($][1); }
370;
371
372consistent-reduction: /*empty*/ {
373 assert (yychar == YYEMPTY);
374 yylval = 0;
375 yychar = 'b';
376} ;
377
378consistent-error:
379 'a' { USE ($][1); }
380| /*empty*/ %prec 'a'
381;
382
383// Provide another context in which all rules are useful so that this
384// test case looks a little more realistic.
385start: 'b' consistent-error 'b' ;
386]])
387m4_pushdef([AT_USER_ACTION_INPUT], [[aa]])
388
389AT_CONSISTENT_ERRORS_CHECK([[]],
390 [AT_USER_ACTION_GRAMMAR],
391 [AT_USER_ACTION_INPUT],
392 [['b']], [[none]])
393AT_CONSISTENT_ERRORS_CHECK([[%glr-parser]],
394 [AT_USER_ACTION_GRAMMAR],
395 [AT_USER_ACTION_INPUT],
396 [['b']], [[none]])
397# No C++ or Java test because yychar cannot be manipulated by users.
398
399AT_CONSISTENT_ERRORS_CHECK([[%define lr.default-reductions consistent]],
400 [AT_USER_ACTION_GRAMMAR],
401 [AT_USER_ACTION_INPUT],
402 [['b']], [[none]])
403
404# Canonical LR doesn't foresee the error for 'a'!
405AT_CONSISTENT_ERRORS_CHECK([[%define lr.default-reductions accepting]],
406 [AT_USER_ACTION_GRAMMAR],
407 [AT_USER_ACTION_INPUT],
408 [[$end]], [[a]])
409AT_CONSISTENT_ERRORS_CHECK([[%define lr.type canonical-lr]],
410 [AT_USER_ACTION_GRAMMAR],
411 [AT_USER_ACTION_INPUT],
412 [[$end]], [[a]])
413
414AT_CONSISTENT_ERRORS_CHECK([[%define parse.lac full]],
415 [AT_USER_ACTION_GRAMMAR],
416 [AT_USER_ACTION_INPUT],
417 [['b']], [[none]])
418AT_CONSISTENT_ERRORS_CHECK([[%define parse.lac full
419 %define lr.default-reductions accepting]],
420 [AT_USER_ACTION_GRAMMAR],
421 [AT_USER_ACTION_INPUT],
422 [[$end]], [[none]])
423
424m4_popdef([AT_USER_ACTION_GRAMMAR])
425m4_popdef([AT_USER_ACTION_INPUT])
426
427m4_popdef([AT_CONSISTENT_ERRORS_CHECK])
428
429AT_CLEANUP
430
431
432
433## ------------------------------------------------------- ##
434## LAC: %nonassoc requires splitting canonical LR states. ##
435## ------------------------------------------------------- ##
436
437# This test case demonstrates that, when %nonassoc is used, canonical
438# LR(1) parser table construction followed by conflict resolution
439# without further state splitting is not always sufficient to produce a
440# parser that can detect all syntax errors as soon as possible on one
441# token of lookahead. However, LAC solves the problem completely even
442# with minimal LR parser tables.
443
444AT_SETUP([[LAC: %nonassoc requires splitting canonical LR states]])
445AT_BISON_OPTION_PUSHDEFS
446AT_DATA_GRAMMAR([[input.y]],
447[[%code {
448 #include <stdio.h>
449 ]AT_YYERROR_DECLARE[
450 ]AT_YYLEX_DECLARE[
451}
452
453%error-verbose
454%nonassoc 'a'
455
456%%
457
458start:
459 'a' problem 'a' // First context.
460| 'b' problem 'b' // Second context.
461| 'c' reduce-nonassoc // Just makes reduce-nonassoc useful.
462;
463
464problem:
465 look reduce-nonassoc
466| look 'a'
467| look 'b'
468;
469
470// For the state reached after shifting the 'a' in these productions,
471// lookahead sets are the same in both the first and second contexts.
472// Thus, canonical LR reuses the same state for both contexts. However,
473// the lookahead 'a' for the reduction "look: 'a'" later becomes an
474// error action only in the first context. In order to immediately
475// detect the syntax error on 'a' here for only the first context, this
476// canonical LR state would have to be split into two states, and the
477// 'a' lookahead would have to be removed from only one of the states.
478look:
479 'a' // Reduction lookahead set is always ['a', 'b'].
480| 'a' 'b'
481| 'a' 'c' // 'c' is forgotten as an expected token.
482;
483
484reduce-nonassoc: %prec 'a';
485
486%%
487]AT_YYERROR_DEFINE[
488]AT_YYLEX_DEFINE([aaa])[
489
490int
491main (void)
492{
493 return yyparse ();
494}
495]])
496AT_BISON_OPTION_POPDEFS
497
498# Show canonical LR's failure.
499AT_BISON_CHECK([[-Dlr.type=canonical-lr -o input.c input.y]],
500 [[0]], [[]],
501[[input.y: conflicts: 2 shift/reduce
502]])
503AT_COMPILE([[input]])
504AT_PARSER_CHECK([[./input]], [[1]], [[]],
505[[syntax error, unexpected 'a', expecting 'b'
506]])
507
508# It's corrected by LAC.
509AT_BISON_CHECK([[-Dlr.type=canonical-lr -Dparse.lac=full \
510 -o input.c input.y]], [[0]], [[]],
511[[input.y: conflicts: 2 shift/reduce
512]])
513AT_COMPILE([[input]])
514AT_PARSER_CHECK([[./input]], [[1]], [[]],
515[[syntax error, unexpected 'a', expecting 'b' or 'c'
516]])
517
518# IELR is sufficient when LAC is used.
519AT_BISON_CHECK([[-Dlr.type=ielr -Dparse.lac=full -o input.c input.y]],
520 [[0]], [[]],
521[[input.y: conflicts: 2 shift/reduce
522]])
523AT_COMPILE([[input]])
524AT_PARSER_CHECK([[./input]], [[1]], [[]],
525[[syntax error, unexpected 'a', expecting 'b' or 'c'
526]])
527
528AT_CLEANUP
529
530## ------------------------- ##
531## Unresolved SR Conflicts. ##
532## ------------------------- ##
533
534AT_SETUP([Unresolved SR Conflicts])
535
536AT_KEYWORDS([report])
537
538AT_DATA([input.y],
539[[%token NUM OP
540%%
541exp: exp OP exp | NUM;
542]])
543
544AT_BISON_CHECK([-o input.c --report=all input.y], 0, [],
545[input.y: conflicts: 1 shift/reduce
546])
547
548# Check the contents of the report.
549AT_CHECK([cat input.output], [],
550[[State 5 conflicts: 1 shift/reduce
551
552
553Grammar
554
555 0 $accept: exp $end
556
557 1 exp: exp OP exp
558 2 | NUM
559
560
561Terminals, with rules where they appear
562
563$end (0) 0
564error (256)
565NUM (258) 2
566OP (259) 1
567
568
569Nonterminals, with rules where they appear
570
571$accept (5)
572 on left: 0
573exp (6)
574 on left: 1 2, on right: 0 1
575
576
577state 0
578
579 0 $accept: . exp $end
580 1 exp: . exp OP exp
581 2 | . NUM
582
583 NUM shift, and go to state 1
584
585 exp go to state 2
586
587
588state 1
589
590 2 exp: NUM .
591
592 $default reduce using rule 2 (exp)
593
594
595state 2
596
597 0 $accept: exp . $end
598 1 exp: exp . OP exp
599
600 $end shift, and go to state 3
601 OP shift, and go to state 4
602
603
604state 3
605
606 0 $accept: exp $end .
607
608 $default accept
609
610
611state 4
612
613 1 exp: . exp OP exp
614 1 | exp OP . exp
615 2 | . NUM
616
617 NUM shift, and go to state 1
618
619 exp go to state 5
620
621
622state 5
623
624 1 exp: exp . OP exp
625 1 | exp OP exp . [$end, OP]
626
627 OP shift, and go to state 4
628
629 OP [reduce using rule 1 (exp)]
630 $default reduce using rule 1 (exp)
631]])
632
633AT_CLEANUP
634
635
636
637## ----------------------- ##
638## Resolved SR Conflicts. ##
639## ----------------------- ##
640
641AT_SETUP([Resolved SR Conflicts])
642
643AT_KEYWORDS([report])
644
645AT_DATA([input.y],
646[[%token NUM OP
647%left OP
648%%
649exp: exp OP exp | NUM;
650]])
651
652AT_BISON_CHECK([-o input.c --report=all input.y])
653
654# Check the contents of the report.
655AT_CHECK([cat input.output], [],
656[[Grammar
657
658 0 $accept: exp $end
659
660 1 exp: exp OP exp
661 2 | NUM
662
663
664Terminals, with rules where they appear
665
666$end (0) 0
667error (256)
668NUM (258) 2
669OP (259) 1
670
671
672Nonterminals, with rules where they appear
673
674$accept (5)
675 on left: 0
676exp (6)
677 on left: 1 2, on right: 0 1
678
679
680state 0
681
682 0 $accept: . exp $end
683 1 exp: . exp OP exp
684 2 | . NUM
685
686 NUM shift, and go to state 1
687
688 exp go to state 2
689
690
691state 1
692
693 2 exp: NUM .
694
695 $default reduce using rule 2 (exp)
696
697
698state 2
699
700 0 $accept: exp . $end
701 1 exp: exp . OP exp
702
703 $end shift, and go to state 3
704 OP shift, and go to state 4
705
706
707state 3
708
709 0 $accept: exp $end .
710
711 $default accept
712
713
714state 4
715
716 1 exp: . exp OP exp
717 1 | exp OP . exp
718 2 | . NUM
719
720 NUM shift, and go to state 1
721
722 exp go to state 5
723
724
725state 5
726
727 1 exp: exp . OP exp
728 1 | exp OP exp . [$end, OP]
729
730 $default reduce using rule 1 (exp)
731
732 Conflict between rule 1 and token OP resolved as reduce (%left OP).
733]])
734
735AT_CLEANUP
736
737
738## ---------------------- ##
739## %precedence suffices. ##
740## ---------------------- ##
741
742AT_SETUP([%precedence suffices])
743
744AT_DATA([input.y],
745[[%precedence "then"
746%precedence "else"
747%%
748stmt:
749 "if" cond "then" stmt
750| "if" cond "then" stmt "else" stmt
751| "stmt"
752;
753
754cond:
755 "exp"
756;
757]])
758
759AT_BISON_CHECK([-o input.c input.y])
760
761AT_CLEANUP
762
763
764## ------------------------------ ##
765## %precedence does not suffice. ##
766## ------------------------------ ##
767
768AT_SETUP([%precedence does not suffice])
769
770AT_DATA([input.y],
771[[%precedence "then"
772%precedence "else"
773%%
774stmt:
775 "if" cond "then" stmt
776| "if" cond "then" stmt "else" stmt
777| "stmt"
778;
779
780cond:
781 "exp"
782| cond "then" cond
783;
784]])
785
786AT_BISON_CHECK([-o input.c input.y], 0, [],
787[[input.y: conflicts: 1 shift/reduce
788input.y:12.3-18: warning: rule useless in parser due to conflicts: cond: cond "then" cond
789]])
790
791AT_CLEANUP
792
793
794## -------------------------------- ##
795## Defaulted Conflicted Reduction. ##
796## -------------------------------- ##
797
798# When there are RR conflicts, some rules are disabled. Usually it is
799# simply displayed as:
800#
801# $end reduce using rule 3 (num)
802# $end [reduce using rule 4 (id)]
803#
804# But when `reduce 3' is the default action, we'd produce:
805#
806# $end [reduce using rule 4 (id)]
807# $default reduce using rule 3 (num)
808#
809# In this precise case (a reduction is masked by the default
810# reduction), we make the `reduce 3' explicit:
811#
812# $end reduce using rule 3 (num)
813# $end [reduce using rule 4 (id)]
814# $default reduce using rule 3 (num)
815#
816# Maybe that's not the best display, but then, please propose something
817# else.
818
819AT_SETUP([Defaulted Conflicted Reduction])
820AT_KEYWORDS([report])
821
822AT_DATA([input.y],
823[[%%
824exp: num | id;
825num: '0';
826id : '0';
827%%
828]])
829
830AT_BISON_CHECK([-o input.c --report=all input.y], 0, [],
831[[input.y: conflicts: 1 reduce/reduce
832input.y:4.6-8: warning: rule useless in parser due to conflicts: id: '0'
833]])
834
835# Check the contents of the report.
836AT_CHECK([cat input.output], [],
837[[Rules useless in parser due to conflicts
838
839 4 id: '0'
840
841
842State 1 conflicts: 1 reduce/reduce
843
844
845Grammar
846
847 0 $accept: exp $end
848
849 1 exp: num
850 2 | id
851
852 3 num: '0'
853
854 4 id: '0'
855
856
857Terminals, with rules where they appear
858
859$end (0) 0
860'0' (48) 3 4
861error (256)
862
863
864Nonterminals, with rules where they appear
865
866$accept (4)
867 on left: 0
868exp (5)
869 on left: 1 2, on right: 0
870num (6)
871 on left: 3, on right: 1
872id (7)
873 on left: 4, on right: 2
874
875
876state 0
877
878 0 $accept: . exp $end
879 1 exp: . num
880 2 | . id
881 3 num: . '0'
882 4 id: . '0'
883
884 '0' shift, and go to state 1
885
886 exp go to state 2
887 num go to state 3
888 id go to state 4
889
890
891state 1
892
893 3 num: '0' . [$end]
894 4 id: '0' . [$end]
895
896 $end reduce using rule 3 (num)
897 $end [reduce using rule 4 (id)]
898 $default reduce using rule 3 (num)
899
900
901state 2
902
903 0 $accept: exp . $end
904
905 $end shift, and go to state 5
906
907
908state 3
909
910 1 exp: num .
911
912 $default reduce using rule 1 (exp)
913
914
915state 4
916
917 2 exp: id .
918
919 $default reduce using rule 2 (exp)
920
921
922state 5
923
924 0 $accept: exp $end .
925
926 $default accept
927]])
928
929AT_CLEANUP
930
931
932
933
934## -------------------- ##
935## %expect not enough. ##
936## -------------------- ##
937
938AT_SETUP([%expect not enough])
939
940AT_DATA([input.y],
941[[%token NUM OP
942%expect 0
943%%
944exp: exp OP exp | NUM;
945]])
946
947AT_BISON_CHECK([-o input.c input.y], 1, [],
948[input.y: conflicts: 1 shift/reduce
949input.y: expected 0 shift/reduce conflicts
950])
951AT_CLEANUP
952
953
954## --------------- ##
955## %expect right. ##
956## --------------- ##
957
958AT_SETUP([%expect right])
959
960AT_DATA([input.y],
961[[%token NUM OP
962%expect 1
963%%
964exp: exp OP exp | NUM;
965]])
966
967AT_BISON_CHECK([-o input.c input.y])
968AT_CLEANUP
969
970
971## ------------------ ##
972## %expect too much. ##
973## ------------------ ##
974
975AT_SETUP([%expect too much])
976
977AT_DATA([input.y],
978[[%token NUM OP
979%expect 2
980%%
981exp: exp OP exp | NUM;
982]])
983
984AT_BISON_CHECK([-o input.c input.y], 1, [],
985[input.y: conflicts: 1 shift/reduce
986input.y: expected 2 shift/reduce conflicts
987])
988AT_CLEANUP
989
990
991## ------------------------------- ##
992## %expect with reduce conflicts. ##
993## ------------------------------- ##
994
995AT_SETUP([%expect with reduce conflicts])
996
997AT_DATA([input.y],
998[[%expect 0
999%%
1000program: a 'a' | a a;
1001a: 'a';
1002]])
1003
1004AT_BISON_CHECK([-o input.c input.y], 1, [],
1005[input.y: conflicts: 1 reduce/reduce
1006input.y: expected 0 reduce/reduce conflicts
1007])
1008AT_CLEANUP
1009
1010
1011## ------------------------- ##
1012## %prec with user strings. ##
1013## ------------------------- ##
1014
1015AT_SETUP([%prec with user string])
1016
1017AT_DATA([[input.y]],
1018[[%%
1019exp:
1020 "foo" %prec "foo"
1021;
1022]])
1023
1024AT_BISON_CHECK([-o input.c input.y])
1025AT_CLEANUP
1026
1027
1028## -------------------------------- ##
1029## %no-default-prec without %prec. ##
1030## -------------------------------- ##
1031
1032AT_SETUP([%no-default-prec without %prec])
1033
1034AT_DATA([[input.y]],
1035[[%left '+'
1036%left '*'
1037
1038%%
1039
1040%no-default-prec;
1041
1042e: e '+' e
1043 | e '*' e
1044 | '0'
1045 ;
1046]])
1047
1048AT_BISON_CHECK([-o input.c input.y], 0, [],
1049[[input.y: conflicts: 4 shift/reduce
1050]])
1051AT_CLEANUP
1052
1053
1054## ----------------------------- ##
1055## %no-default-prec with %prec. ##
1056## ----------------------------- ##
1057
1058AT_SETUP([%no-default-prec with %prec])
1059
1060AT_DATA([[input.y]],
1061[[%left '+'
1062%left '*'
1063
1064%%
1065
1066%no-default-prec;
1067
1068e: e '+' e %prec '+'
1069 | e '*' e %prec '*'
1070 | '0'
1071 ;
1072]])
1073
1074AT_BISON_CHECK([-o input.c input.y])
1075AT_CLEANUP
1076
1077
1078## --------------- ##
1079## %default-prec. ##
1080## --------------- ##
1081
1082AT_SETUP([%default-prec])
1083
1084AT_DATA([[input.y]],
1085[[%left '+'
1086%left '*'
1087
1088%%
1089
1090%default-prec;
1091
1092e: e '+' e
1093 | e '*' e
1094 | '0'
1095 ;
1096]])
1097
1098AT_BISON_CHECK([-o input.c input.y])
1099AT_CLEANUP
1100
1101
1102## ---------------------------------------------- ##
1103## Unreachable States After Conflict Resolution. ##
1104## ---------------------------------------------- ##
1105
1106AT_SETUP([[Unreachable States After Conflict Resolution]])
1107
1108# If conflict resolution makes states unreachable, remove those states, report
1109# rules that are then unused, and don't report conflicts in those states. Test
1110# what happens when a nonterminal becomes useless as a result of state removal
1111# since that causes lalr.o's goto map to be rewritten.
1112
1113AT_DATA([[input.y]],
1114[[%output "input.c"
1115%left 'a'
1116
1117%%
1118
1119start: resolved_conflict 'a' reported_conflicts 'a' ;
1120
1121/* S/R conflict resolved as reduce, so the state with item
1122 * (resolved_conflict: 'a' . unreachable1) and all it transition successors are
1123 * unreachable, and the associated production is useless. */
1124resolved_conflict:
1125 'a' unreachable1
1126 | %prec 'a'
1127 ;
1128
1129/* S/R conflict that need not be reported since it is unreachable because of
1130 * the previous conflict resolution. Nonterminal unreachable1 and all its
1131 * productions are useless. */
1132unreachable1:
1133 'a' unreachable2
1134 |
1135 ;
1136
1137/* Likewise for a R/R conflict and nonterminal unreachable2. */
1138unreachable2: | ;
1139
1140/* Make sure remaining S/R and R/R conflicts are still reported correctly even
1141 * when their states are renumbered due to state removal. */
1142reported_conflicts:
1143 'a'
1144 | 'a'
1145 |
1146 ;
1147
1148]])
1149
1150AT_BISON_CHECK([[--report=all input.y]], 0, [],
1151[[input.y: conflicts: 1 shift/reduce, 1 reduce/reduce
1152input.y:12.5-20: warning: rule useless in parser due to conflicts: resolved_conflict: 'a' unreachable1
1153input.y:20.5-20: warning: rule useless in parser due to conflicts: unreachable1: 'a' unreachable2
1154input.y:21.4: warning: rule useless in parser due to conflicts: unreachable1: /* empty */
1155input.y:25.13: warning: rule useless in parser due to conflicts: unreachable2: /* empty */
1156input.y:25.16: warning: rule useless in parser due to conflicts: unreachable2: /* empty */
1157input.y:31.5-7: warning: rule useless in parser due to conflicts: reported_conflicts: 'a'
1158input.y:32.4: warning: rule useless in parser due to conflicts: reported_conflicts: /* empty */
1159]])
1160
1161AT_CHECK([[cat input.output]], 0,
1162[[Rules useless in parser due to conflicts
1163
1164 2 resolved_conflict: 'a' unreachable1
1165
1166 4 unreachable1: 'a' unreachable2
1167 5 | /* empty */
1168
1169 6 unreachable2: /* empty */
1170 7 | /* empty */
1171
1172 9 reported_conflicts: 'a'
1173 10 | /* empty */
1174
1175
1176State 4 conflicts: 1 shift/reduce
1177State 5 conflicts: 1 reduce/reduce
1178
1179
1180Grammar
1181
1182 0 $accept: start $end
1183
1184 1 start: resolved_conflict 'a' reported_conflicts 'a'
1185
1186 2 resolved_conflict: 'a' unreachable1
1187 3 | /* empty */
1188
1189 4 unreachable1: 'a' unreachable2
1190 5 | /* empty */
1191
1192 6 unreachable2: /* empty */
1193 7 | /* empty */
1194
1195 8 reported_conflicts: 'a'
1196 9 | 'a'
1197 10 | /* empty */
1198
1199
1200Terminals, with rules where they appear
1201
1202$end (0) 0
1203'a' (97) 1 2 4 8 9
1204error (256)
1205
1206
1207Nonterminals, with rules where they appear
1208
1209$accept (4)
1210 on left: 0
1211start (5)
1212 on left: 1, on right: 0
1213resolved_conflict (6)
1214 on left: 2 3, on right: 1
1215unreachable1 (7)
1216 on left: 4 5, on right: 2
1217unreachable2 (8)
1218 on left: 6 7, on right: 4
1219reported_conflicts (9)
1220 on left: 8 9 10, on right: 1
1221
1222
1223state 0
1224
1225 0 $accept: . start $end
1226 1 start: . resolved_conflict 'a' reported_conflicts 'a'
1227 2 resolved_conflict: . 'a' unreachable1
1228 3 | . ['a']
1229
1230 $default reduce using rule 3 (resolved_conflict)
1231
1232 start go to state 1
1233 resolved_conflict go to state 2
1234
1235 Conflict between rule 3 and token 'a' resolved as reduce (%left 'a').
1236
1237
1238state 1
1239
1240 0 $accept: start . $end
1241
1242 $end shift, and go to state 3
1243
1244
1245state 2
1246
1247 1 start: resolved_conflict . 'a' reported_conflicts 'a'
1248
1249 'a' shift, and go to state 4
1250
1251
1252state 3
1253
1254 0 $accept: start $end .
1255
1256 $default accept
1257
1258
1259state 4
1260
1261 1 start: resolved_conflict 'a' . reported_conflicts 'a'
1262 8 reported_conflicts: . 'a'
1263 9 | . 'a'
1264 10 | . ['a']
1265
1266 'a' shift, and go to state 5
1267
1268 'a' [reduce using rule 10 (reported_conflicts)]
1269
1270 reported_conflicts go to state 6
1271
1272
1273state 5
1274
1275 8 reported_conflicts: 'a' . ['a']
1276 9 | 'a' . ['a']
1277
1278 'a' reduce using rule 8 (reported_conflicts)
1279 'a' [reduce using rule 9 (reported_conflicts)]
1280 $default reduce using rule 8 (reported_conflicts)
1281
1282
1283state 6
1284
1285 1 start: resolved_conflict 'a' reported_conflicts . 'a'
1286
1287 'a' shift, and go to state 7
1288
1289
1290state 7
1291
1292 1 start: resolved_conflict 'a' reported_conflicts 'a' .
1293
1294 $default reduce using rule 1 (start)
1295]])
1296
1297AT_DATA([[input-keep.y]],
1298[[%define lr.keep-unreachable-states
1299]])
1300AT_CHECK([[cat input.y >> input-keep.y]])
1301
1302AT_BISON_CHECK([[input-keep.y]], 0, [],
1303[[input-keep.y: conflicts: 2 shift/reduce, 2 reduce/reduce
1304input-keep.y:22.4: warning: rule useless in parser due to conflicts: unreachable1: /* empty */
1305input-keep.y:26.16: warning: rule useless in parser due to conflicts: unreachable2: /* empty */
1306input-keep.y:32.5-7: warning: rule useless in parser due to conflicts: reported_conflicts: 'a'
1307input-keep.y:33.4: warning: rule useless in parser due to conflicts: reported_conflicts: /* empty */
1308]])
1309
1310AT_CLEANUP
1311
1312
1313## ------------------------------------------------------------ ##
1314## Solved conflicts report for multiple reductions in a state. ##
1315## ------------------------------------------------------------ ##
1316
1317AT_SETUP([[Solved conflicts report for multiple reductions in a state]])
1318
1319# Used to lose earlier solved conflict messages even within a single S/R/R.
1320
1321AT_DATA([[input.y]],
1322[[%left 'a'
1323%right 'b'
1324%right 'c'
1325%right 'd'
1326%%
1327start:
1328 'a'
1329 | empty_a 'a'
1330 | 'b'
1331 | empty_b 'b'
1332 | 'c'
1333 | empty_c1 'c'
1334 | empty_c2 'c'
1335 | empty_c3 'c'
1336 ;
1337empty_a: %prec 'a' ;
1338empty_b: %prec 'b' ;
1339empty_c1: %prec 'c' ;
1340empty_c2: %prec 'c' ;
1341empty_c3: %prec 'd' ;
1342]])
1343AT_BISON_CHECK([[--report=all -o input.c input.y]], 0, [], [ignore])
1344AT_CHECK([[cat input.output | sed -n '/^state 0$/,/^state 1$/p']], 0,
1345[[state 0
1346
1347 0 $accept: . start $end
1348 1 start: . 'a'
1349 2 | . empty_a 'a'
1350 3 | . 'b'
1351 4 | . empty_b 'b'
1352 5 | . 'c'
1353 6 | . empty_c1 'c'
1354 7 | . empty_c2 'c'
1355 8 | . empty_c3 'c'
1356 9 empty_a: . ['a']
1357 10 empty_b: . []
1358 11 empty_c1: . []
1359 12 empty_c2: . []
1360 13 empty_c3: . ['c']
1361
1362 'b' shift, and go to state 1
1363
1364 'c' reduce using rule 13 (empty_c3)
1365 $default reduce using rule 9 (empty_a)
1366
1367 start go to state 2
1368 empty_a go to state 3
1369 empty_b go to state 4
1370 empty_c1 go to state 5
1371 empty_c2 go to state 6
1372 empty_c3 go to state 7
1373
1374 Conflict between rule 9 and token 'a' resolved as reduce (%left 'a').
1375 Conflict between rule 10 and token 'b' resolved as shift (%right 'b').
1376 Conflict between rule 11 and token 'c' resolved as shift (%right 'c').
1377 Conflict between rule 12 and token 'c' resolved as shift (%right 'c').
1378 Conflict between rule 13 and token 'c' resolved as reduce ('c' < 'd').
1379
1380
1381state 1
1382]])
1383
1384AT_CLEANUP
1385
1386
1387## ------------------------------------------------------------ ##
1388## %nonassoc error actions for multiple reductions in a state. ##
1389## ------------------------------------------------------------ ##
1390
1391# Used to abort when trying to resolve conflicts as %nonassoc error actions for
1392# multiple reductions in a state.
1393
1394# For a %nonassoc error action token, used to print the first remaining
1395# reduction on that token without brackets.
1396
1397AT_SETUP([[%nonassoc error actions for multiple reductions in a state]])
1398
1399AT_DATA([[input.y]],
1400[[%nonassoc 'a' 'b' 'c'
1401%%
1402start:
1403 'a'
1404 | empty_a 'a'
1405 | 'b'
1406 | empty_b 'b'
1407 | 'c'
1408 | empty_c1 'c'
1409 | empty_c2 'c'
1410 | empty_c3 'c'
1411 ;
1412empty_a: %prec 'a' ;
1413empty_b: %prec 'b' ;
1414empty_c1: %prec 'c' ;
1415empty_c2: %prec 'c' ;
1416empty_c3: %prec 'c' ;
1417]])
1418
1419AT_BISON_CHECK([[--report=all -o input.c input.y]], 0, [], [ignore])
1420AT_CHECK([[cat input.output | sed -n '/^state 0$/,/^state 1$/p']], 0,
1421[[state 0
1422
1423 0 $accept: . start $end
1424 1 start: . 'a'
1425 2 | . empty_a 'a'
1426 3 | . 'b'
1427 4 | . empty_b 'b'
1428 5 | . 'c'
1429 6 | . empty_c1 'c'
1430 7 | . empty_c2 'c'
1431 8 | . empty_c3 'c'
1432 9 empty_a: . []
1433 10 empty_b: . []
1434 11 empty_c1: . []
1435 12 empty_c2: . ['c']
1436 13 empty_c3: . ['c']
1437
1438 'a' error (nonassociative)
1439 'b' error (nonassociative)
1440 'c' error (nonassociative)
1441
1442 'c' [reduce using rule 12 (empty_c2)]
1443 'c' [reduce using rule 13 (empty_c3)]
1444
1445 start go to state 1
1446 empty_a go to state 2
1447 empty_b go to state 3
1448 empty_c1 go to state 4
1449 empty_c2 go to state 5
1450 empty_c3 go to state 6
1451
1452 Conflict between rule 9 and token 'a' resolved as an error (%nonassoc 'a').
1453 Conflict between rule 10 and token 'b' resolved as an error (%nonassoc 'b').
1454 Conflict between rule 11 and token 'c' resolved as an error (%nonassoc 'c').
1455
1456
1457state 1
1458]])
1459AT_CLEANUP
1460
1461
1462## --------------------------------- ##
1463## -W versus %expect and %expect-rr ##
1464## --------------------------------- ##
1465
1466AT_SETUP([[-W versus %expect and %expect-rr]])
1467
1468AT_DATA([[sr-rr.y]],
1469[[%glr-parser
1470%%
1471start: 'a' | A 'a' | B 'a' ;
1472A: ;
1473B: ;
1474]])
1475AT_DATA([[sr.y]],
1476[[%glr-parser
1477%%
1478start: 'a' | A 'a' ;
1479A: ;
1480]])
1481AT_DATA([[rr.y]],
1482[[%glr-parser
1483%%
1484start: A | B ;
1485A: ;
1486B: ;
1487]])
1488
1489AT_BISON_CHECK([[sr-rr.y]], [[0]], [[]],
1490[[sr-rr.y: conflicts: 1 shift/reduce, 1 reduce/reduce
1491]])
1492AT_BISON_CHECK([[-Wno-conflicts-sr sr-rr.y]], [[0]], [[]],
1493[[sr-rr.y: conflicts: 1 reduce/reduce
1494]])
1495AT_BISON_CHECK([[-Wno-conflicts-rr sr-rr.y]], [[0]], [[]],
1496[[sr-rr.y: conflicts: 1 shift/reduce
1497]])
1498
1499[for gram in sr-rr sr rr; do
1500 for sr_exp_i in '' 0 1 2; do
1501 for rr_exp_i in '' 0 1 2; do
1502 test -z "$sr_exp_i" && test -z "$rr_exp_i" && continue
1503
1504 # Build grammar file.
1505 sr_exp=0
1506 rr_exp=0
1507 file=$gram
1508 directives=
1509 if test -n "$sr_exp_i"; then
1510 sr_exp=$sr_exp_i
1511 file=$file-expect-$sr_exp
1512 directives="%expect $sr_exp"
1513 fi
1514 if test -n "$rr_exp_i"; then
1515 rr_exp=$rr_exp_i
1516 file=$file-expect-rr-$rr_exp
1517 directives="$directives %expect-rr $rr_exp"
1518 fi
1519 file=$file.y
1520 echo "$directives" > $file
1521 cat $gram.y >> $file
1522
1523 # Count actual conflicts.
1524 conflicts=
1525 sr_count=0
1526 rr_count=0
1527 if test $gram = sr || test $gram = sr-rr; then
1528 conflicts="1 shift/reduce"
1529 sr_count=1
1530 fi
1531 if test $gram = rr || test $gram = sr-rr; then
1532 if test -n "$conflicts"; then
1533 conflicts="$conflicts, "
1534 fi
1535 conflicts="${conflicts}1 reduce/reduce"
1536 rr_count=1
1537 fi
1538
1539 # Run tests.
1540 if test $sr_count -eq $sr_exp && test $rr_count -eq $rr_exp; then
1541 ]AT_BISON_CHECK([[-Wnone $file]])[
1542 ]AT_BISON_CHECK([[-Werror $file]])[
1543 else
1544 echo "$file: conflicts: $conflicts" > experr
1545 if test $sr_count -ne $sr_exp; then
1546 if test $sr_exp -ne 1; then s=s; else s= ; fi
1547 echo "$file: expected $sr_exp shift/reduce conflict$s" >> experr
1548 fi
1549 if test $rr_count -ne $rr_exp; then
1550 if test $rr_exp -ne 1; then s=s; else s= ; fi
1551 echo "$file: expected $rr_exp reduce/reduce conflict$s" >> experr
1552 fi
1553 ]AT_BISON_CHECK([[-Wnone $file]], [[1]], [[]], [[experr]])[
1554 ]AT_BISON_CHECK([[-Werror $file]], [[1]], [[]], [[experr]])[
1555 fi
1556 done
1557 done
1558done]
1559
1560AT_CLEANUP