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1# Exercising Bison on conflicts. -*- Autotest -*-
2
3# Copyright (C) 2002-2005, 2007, 2009-2012 Free Software Foundation,
4# Inc.
5
6# This program is free software: you can redistribute it and/or modify
7# it under the terms of the GNU General Public License as published by
8# the Free Software Foundation, either version 3 of the License, or
9# (at your option) any later version.
10#
11# This program is distributed in the hope that it will be useful,
12# but WITHOUT ANY WARRANTY; without even the implied warranty of
13# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14# GNU General Public License for more details.
15#
16# You should have received a copy of the GNU General Public License
17# along with this program. If not, see <http://www.gnu.org/licenses/>.
18
19AT_BANNER([[Conflicts.]])
20
21
22## ---------------- ##
23## S/R in initial. ##
24## ---------------- ##
25
26# I once hacked Bison in such a way that it lost its reductions on the
27# initial state (because it was confusing it with the last state). It
28# took me a while to strip down my failures to this simple case. So
29# make sure it finds the s/r conflict below.
30
31AT_SETUP([S/R in initial])
32
33AT_DATA([[input.y]],
34[[%expect 1
35%%
36exp: e 'e';
37e: 'e' | /* Nothing. */;
38]])
39
40AT_BISON_CHECK([-o input.c input.y], 0, [],
41[[input.y:4.9: warning: rule useless in parser due to conflicts: e: /* empty */
42]])
43
44AT_CLEANUP
45
46
47## ------------------- ##
48## %nonassoc and eof. ##
49## ------------------- ##
50
51AT_SETUP([%nonassoc and eof])
52
53AT_BISON_OPTION_PUSHDEFS
54AT_DATA_GRAMMAR([input.y],
55[[
56%{
57#include <stdio.h>
58#include <stdlib.h>
59#include <string.h>
60#include <assert.h>
61
62#define YYERROR_VERBOSE 1
63]AT_YYERROR_DEFINE[
64/* The current argument. */
65static const char *input;
66
67static int
68yylex (void)
69{
70 static size_t toknum;
71 assert (toknum <= strlen (input));
72 return input[toknum++];
73}
74
75%}
76
77%nonassoc '<' '>'
78
79%%
80expr: expr '<' expr
81 | expr '>' expr
82 | '0'
83 ;
84%%
85int
86main (int argc, const char *argv[])
87{
88 input = argc <= 1 ? "" : argv[1];
89 return yyparse ();
90}
91]])
92AT_BISON_OPTION_POPDEFS
93
94m4_pushdef([AT_NONASSOC_AND_EOF_CHECK],
95[AT_BISON_CHECK([$1[ -o input.c input.y]])
96AT_COMPILE([input])
97
98m4_pushdef([AT_EXPECTING], [m4_if($2, [correct], [[, expecting $end]])])
99
100AT_PARSER_CHECK([./input '0<0'])
101AT_PARSER_CHECK([./input '0<0<0'], [1], [],
102 [syntax error, unexpected '<'AT_EXPECTING
103])
104
105AT_PARSER_CHECK([./input '0>0'])
106AT_PARSER_CHECK([./input '0>0>0'], [1], [],
107 [syntax error, unexpected '>'AT_EXPECTING
108])
109
110AT_PARSER_CHECK([./input '0<0>0'], [1], [],
111 [syntax error, unexpected '>'AT_EXPECTING
112])
113
114m4_popdef([AT_EXPECTING])])
115
116# Expected token list is missing.
117AT_NONASSOC_AND_EOF_CHECK([], [[incorrect]])
118
119# We must disable default reductions in inconsistent states in order to
120# have an explicit list of all expected tokens.
121AT_NONASSOC_AND_EOF_CHECK([[-Dlr.default-reductions=consistent]],
122 [[correct]])
123
124# lr.default-reductions=consistent happens to work for this test case.
125# However, for other grammars, lookahead sets can be merged for
126# different left contexts, so it is still possible to have an incorrect
127# expected list. Canonical LR is almost a general solution (that is, it
128# can fail only when %nonassoc is used), so make sure it gives the same
129# result as above.
130AT_NONASSOC_AND_EOF_CHECK([[-Dlr.type=canonical-lr]], [[correct]])
131
132# parse.lac=full is a completely general solution that does not require
133# any of the above sacrifices. Of course, it does not extend the
134# language-recognition power of LALR to (IE)LR, but it does ensure that
135# the reported list of expected tokens matches what the given parser
136# would have accepted in place of the unexpected token.
137AT_NONASSOC_AND_EOF_CHECK([[-Dparse.lac=full]], [[correct]])
138
139m4_popdef([AT_NONASSOC_AND_EOF_CHECK])
140
141AT_CLEANUP
142
143
144
145## -------------------------------------- ##
146## %error-verbose and consistent errors. ##
147## -------------------------------------- ##
148
149AT_SETUP([[%error-verbose and consistent errors]])
150
151m4_pushdef([AT_CONSISTENT_ERRORS_CHECK], [
152
153AT_BISON_OPTION_PUSHDEFS([$1])
154
155m4_pushdef([AT_YYLEX_PROTOTYPE],
156[AT_SKEL_CC_IF([[int yylex (yy::parser::semantic_type *lvalp)]],
157 [[int yylex (YYSTYPE *lvalp)]])])
158
159AT_SKEL_JAVA_IF([AT_DATA], [AT_DATA_GRAMMAR])([input.y],
160[AT_SKEL_JAVA_IF([[
161
162%code imports {
163 import java.io.IOException;
164}]], [[
165
166%code {]AT_SKEL_CC_IF([[
167 #include <cassert>
168 #include <string>]], [[
169 #include <assert.h>
170 #include <stdio.h>
171 ]AT_YYERROR_DECLARE])[
172 ]AT_YYLEX_PROTOTYPE[;
173 #define USE(Var)
174}
175
176]AT_SKEL_CC_IF([[%defines]], [[%define api.pure]])])[
177
178]$1[
179
180%error-verbose
181
182%%
183
184]$2[
185
186]AT_SKEL_JAVA_IF([[%code lexer {]], [[%%]])[
187
188/*--------.
189| yylex. |
190`--------*/]AT_SKEL_JAVA_IF([[
191
192public String input = "]$3[";
193public int index = 0;
194public int yylex ()
195{
196 if (index < input.length ())
197 return input.charAt (index++);
198 else
199 return 0;
200}
201public Object getLVal ()
202{
203 return new Integer(1);
204}]], [[
205
206]AT_YYLEX_PROTOTYPE[
207{
208 static char const *input = "]$3[";
209 *lvalp = 1;
210 return *input++;
211}]])[
212]AT_YYERROR_DEFINE[
213]AT_SKEL_JAVA_IF([[
214};
215
216%%]])[
217
218/*-------.
219| main. |
220`-------*/]AT_SKEL_JAVA_IF([[
221
222class input
223{
224 public static void main (String args[]) throws IOException
225 {
226 YYParser p = new YYParser ();
227 p.parse ();
228 }
229}]], [AT_SKEL_CC_IF([[
230
231int
232main (void)
233{
234 yy::parser parser;
235 return parser.parse ();
236}]], [[
237
238int
239main (void)
240{
241 return yyparse ();
242}]])])[
243]])
244
245AT_FULL_COMPILE([[input]])
246
247m4_pushdef([AT_EXPECTING], [m4_if($5, [ab], [[, expecting 'a' or 'b']],
248 $5, [a], [[, expecting 'a']],
249 $5, [b], [[, expecting 'b']])])
250
251AT_SKEL_JAVA_IF([AT_JAVA_PARSER_CHECK([[input]], [[0]]],
252 [AT_PARSER_CHECK([[./input]], [[1]]]),
253[[]],
254[[syntax error, unexpected ]$4[]AT_EXPECTING[
255]])
256
257m4_popdef([AT_EXPECTING])
258m4_popdef([AT_YYLEX_PROTOTYPE])
259AT_BISON_OPTION_POPDEFS
260
261])
262
263m4_pushdef([AT_PREVIOUS_STATE_GRAMMAR],
264[[%nonassoc 'a';
265
266start: consistent-error-on-a-a 'a' ;
267
268consistent-error-on-a-a:
269 'a' default-reduction
270 | 'a' default-reduction 'a'
271 | 'a' shift
272 ;
273
274default-reduction: /*empty*/ ;
275shift: 'b' ;
276
277// Provide another context in which all rules are useful so that this
278// test case looks a little more realistic.
279start: 'b' consistent-error-on-a-a 'c' ;
280]])
281
282m4_pushdef([AT_PREVIOUS_STATE_INPUT], [[a]])
283
284# Unfortunately, no expected tokens are reported even though 'b' can be
285# accepted. Nevertheless, the main point of this test is to make sure
286# that at least the unexpected token is reported. In a previous version
287# of Bison, it wasn't reported because the error is detected in a
288# consistent state with an error action, and that case always triggered
289# the simple "syntax error" message.
290#
291# The point isn't to test IELR here, but state merging happens to
292# complicate this example.
293AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr]],
294 [AT_PREVIOUS_STATE_GRAMMAR],
295 [AT_PREVIOUS_STATE_INPUT],
296 [[$end]], [[none]])
297AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr
298 %glr-parser]],
299 [AT_PREVIOUS_STATE_GRAMMAR],
300 [AT_PREVIOUS_STATE_INPUT],
301 [[$end]], [[none]])
302AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr
303 %language "c++"]],
304 [AT_PREVIOUS_STATE_GRAMMAR],
305 [AT_PREVIOUS_STATE_INPUT],
306 [[$end]], [[none]])
307AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr
308 %language "java"]],
309 [AT_PREVIOUS_STATE_GRAMMAR],
310 [AT_PREVIOUS_STATE_INPUT],
311 [[end of input]], [[none]])
312
313# Even canonical LR doesn't foresee the error for 'a'!
314AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr
315 %define lr.default-reductions consistent]],
316 [AT_PREVIOUS_STATE_GRAMMAR],
317 [AT_PREVIOUS_STATE_INPUT],
318 [[$end]], [[ab]])
319AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr
320 %define lr.default-reductions accepting]],
321 [AT_PREVIOUS_STATE_GRAMMAR],
322 [AT_PREVIOUS_STATE_INPUT],
323 [[$end]], [[ab]])
324AT_CONSISTENT_ERRORS_CHECK([[%define lr.type canonical-lr]],
325 [AT_PREVIOUS_STATE_GRAMMAR],
326 [AT_PREVIOUS_STATE_INPUT],
327 [[$end]], [[ab]])
328
329# Only LAC gets it right.
330AT_CONSISTENT_ERRORS_CHECK([[%define lr.type canonical-lr
331 %define parse.lac full]],
332 [AT_PREVIOUS_STATE_GRAMMAR],
333 [AT_PREVIOUS_STATE_INPUT],
334 [[$end]], [[b]])
335AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr
336 %define parse.lac full]],
337 [AT_PREVIOUS_STATE_GRAMMAR],
338 [AT_PREVIOUS_STATE_INPUT],
339 [[$end]], [[b]])
340
341m4_popdef([AT_PREVIOUS_STATE_GRAMMAR])
342m4_popdef([AT_PREVIOUS_STATE_INPUT])
343
344m4_pushdef([AT_USER_ACTION_GRAMMAR],
345[[%nonassoc 'a';
346
347// If $$ = 0 here, then we know that the 'a' destructor is being invoked
348// incorrectly for the 'b' set in the semantic action below. All 'a'
349// tokens are returned by yylex, which sets $$ = 1.
350%destructor {
351 if (!$$)
352 fprintf (stderr, "Wrong destructor.\n");
353} 'a';
354
355// Rather than depend on an inconsistent state to induce reading a
356// lookahead as in the previous grammar, just assign the lookahead in a
357// semantic action. That lookahead isn't needed before either error
358// action is encountered. In a previous version of Bison, this was a
359// problem as it meant yychar was not translated into yytoken before
360// either error action. The second error action thus invoked a
361// destructor that it selected according to the incorrect yytoken. The
362// first error action would have reported an incorrect unexpected token
363// except that, due to the bug described in the previous grammar, the
364// unexpected token was not reported at all.
365start: error-reduce consistent-error 'a' { USE ($][3); } ;
366
367error-reduce:
368 'a' 'a' consistent-reduction consistent-error 'a'
369 { USE (($][1, $][2, $][5)); }
370| 'a' error
371 { USE ($][1); }
372;
373
374consistent-reduction: /*empty*/ {
375 assert (yychar == ]AT_SKEL_CC_IF([[yyempty_]], [[YYEMPTY]])[);
376 yylval = 0;
377 yychar = 'b';
378} ;
379
380consistent-error:
381 'a' { USE ($][1); }
382| /*empty*/ %prec 'a'
383;
384
385// Provide another context in which all rules are useful so that this
386// test case looks a little more realistic.
387start: 'b' consistent-error 'b' ;
388]])
389m4_pushdef([AT_USER_ACTION_INPUT], [[aa]])
390
391AT_CONSISTENT_ERRORS_CHECK([[]],
392 [AT_USER_ACTION_GRAMMAR],
393 [AT_USER_ACTION_INPUT],
394 [['b']], [[none]])
395AT_CONSISTENT_ERRORS_CHECK([[%glr-parser]],
396 [AT_USER_ACTION_GRAMMAR],
397 [AT_USER_ACTION_INPUT],
398 [['b']], [[none]])
399AT_CONSISTENT_ERRORS_CHECK([[%language "c++"]],
400 [AT_USER_ACTION_GRAMMAR],
401 [AT_USER_ACTION_INPUT],
402 [['b']], [[none]])
403# No Java test because yychar cannot be manipulated by users.
404
405AT_CONSISTENT_ERRORS_CHECK([[%define lr.default-reductions consistent]],
406 [AT_USER_ACTION_GRAMMAR],
407 [AT_USER_ACTION_INPUT],
408 [['b']], [[none]])
409
410# Canonical LR doesn't foresee the error for 'a'!
411AT_CONSISTENT_ERRORS_CHECK([[%define lr.default-reductions accepting]],
412 [AT_USER_ACTION_GRAMMAR],
413 [AT_USER_ACTION_INPUT],
414 [[$end]], [[a]])
415AT_CONSISTENT_ERRORS_CHECK([[%define lr.type canonical-lr]],
416 [AT_USER_ACTION_GRAMMAR],
417 [AT_USER_ACTION_INPUT],
418 [[$end]], [[a]])
419
420AT_CONSISTENT_ERRORS_CHECK([[%define parse.lac full]],
421 [AT_USER_ACTION_GRAMMAR],
422 [AT_USER_ACTION_INPUT],
423 [['b']], [[none]])
424AT_CONSISTENT_ERRORS_CHECK([[%define parse.lac full
425 %define lr.default-reductions accepting]],
426 [AT_USER_ACTION_GRAMMAR],
427 [AT_USER_ACTION_INPUT],
428 [[$end]], [[none]])
429
430m4_popdef([AT_USER_ACTION_GRAMMAR])
431m4_popdef([AT_USER_ACTION_INPUT])
432
433m4_popdef([AT_CONSISTENT_ERRORS_CHECK])
434
435AT_CLEANUP
436
437
438
439## ------------------------------------------------------- ##
440## LAC: %nonassoc requires splitting canonical LR states. ##
441## ------------------------------------------------------- ##
442
443# This test case demonstrates that, when %nonassoc is used, canonical
444# LR(1) parser table construction followed by conflict resolution
445# without further state splitting is not always sufficient to produce a
446# parser that can detect all syntax errors as soon as possible on one
447# token of lookahead. However, LAC solves the problem completely even
448# with minimal LR parser tables.
449
450AT_SETUP([[LAC: %nonassoc requires splitting canonical LR states]])
451AT_BISON_OPTION_PUSHDEFS
452AT_DATA_GRAMMAR([[input.y]],
453[[%code {
454 #include <stdio.h>
455 ]AT_YYERROR_DECLARE[
456 ]AT_YYLEX_DECLARE[
457}
458
459%error-verbose
460%nonassoc 'a'
461
462%%
463
464start:
465 'a' problem 'a' // First context.
466| 'b' problem 'b' // Second context.
467| 'c' reduce-nonassoc // Just makes reduce-nonassoc useful.
468;
469
470problem:
471 look reduce-nonassoc
472| look 'a'
473| look 'b'
474;
475
476// For the state reached after shifting the 'a' in these productions,
477// lookahead sets are the same in both the first and second contexts.
478// Thus, canonical LR reuses the same state for both contexts. However,
479// the lookahead 'a' for the reduction "look: 'a'" later becomes an
480// error action only in the first context. In order to immediately
481// detect the syntax error on 'a' here for only the first context, this
482// canonical LR state would have to be split into two states, and the
483// 'a' lookahead would have to be removed from only one of the states.
484look:
485 'a' // Reduction lookahead set is always ['a', 'b'].
486| 'a' 'b'
487| 'a' 'c' // 'c' is forgotten as an expected token.
488;
489
490reduce-nonassoc: %prec 'a';
491
492%%
493]AT_YYERROR_DEFINE[
494]AT_YYLEX_DEFINE(["aaa"])[
495
496int
497main (void)
498{
499 return yyparse ();
500}
501]])
502AT_BISON_OPTION_POPDEFS
503
504# Show canonical LR's failure.
505AT_BISON_CHECK([[-Dlr.type=canonical-lr -o input.c input.y]],
506 [[0]], [[]],
507[[input.y: conflicts: 2 shift/reduce
508]])
509AT_COMPILE([[input]])
510AT_PARSER_CHECK([[./input]], [[1]], [[]],
511[[syntax error, unexpected 'a', expecting 'b'
512]])
513
514# It's corrected by LAC.
515AT_BISON_CHECK([[-Dlr.type=canonical-lr -Dparse.lac=full \
516 -o input.c input.y]], [[0]], [[]],
517[[input.y: conflicts: 2 shift/reduce
518]])
519AT_COMPILE([[input]])
520AT_PARSER_CHECK([[./input]], [[1]], [[]],
521[[syntax error, unexpected 'a', expecting 'b' or 'c'
522]])
523
524# IELR is sufficient when LAC is used.
525AT_BISON_CHECK([[-Dlr.type=ielr -Dparse.lac=full -o input.c input.y]],
526 [[0]], [[]],
527[[input.y: conflicts: 2 shift/reduce
528]])
529AT_COMPILE([[input]])
530AT_PARSER_CHECK([[./input]], [[1]], [[]],
531[[syntax error, unexpected 'a', expecting 'b' or 'c'
532]])
533
534AT_CLEANUP
535
536## ------------------------- ##
537## Unresolved SR Conflicts. ##
538## ------------------------- ##
539
540AT_SETUP([Unresolved SR Conflicts])
541
542AT_KEYWORDS([report])
543
544AT_DATA([input.y],
545[[%token NUM OP
546%%
547exp: exp OP exp | NUM;
548]])
549
550AT_BISON_CHECK([-o input.c --report=all input.y], 0, [],
551[input.y: conflicts: 1 shift/reduce
552])
553
554# Check the contents of the report.
555AT_CHECK([cat input.output], [],
556[[State 5 conflicts: 1 shift/reduce
557
558
559Grammar
560
561 0 $accept: exp $end
562
563 1 exp: exp OP exp
564 2 | NUM
565
566
567Terminals, with rules where they appear
568
569$end (0) 0
570error (256)
571NUM (258) 2
572OP (259) 1
573
574
575Nonterminals, with rules where they appear
576
577$accept (5)
578 on left: 0
579exp (6)
580 on left: 1 2, on right: 0 1
581
582
583state 0
584
585 0 $accept: . exp $end
586 1 exp: . exp OP exp
587 2 | . NUM
588
589 NUM shift, and go to state 1
590
591 exp go to state 2
592
593
594state 1
595
596 2 exp: NUM .
597
598 $default reduce using rule 2 (exp)
599
600
601state 2
602
603 0 $accept: exp . $end
604 1 exp: exp . OP exp
605
606 $end shift, and go to state 3
607 OP shift, and go to state 4
608
609
610state 3
611
612 0 $accept: exp $end .
613
614 $default accept
615
616
617state 4
618
619 1 exp: . exp OP exp
620 1 | exp OP . exp
621 2 | . NUM
622
623 NUM shift, and go to state 1
624
625 exp go to state 5
626
627
628state 5
629
630 1 exp: exp . OP exp
631 1 | exp OP exp . [$end, OP]
632
633 OP shift, and go to state 4
634
635 OP [reduce using rule 1 (exp)]
636 $default reduce using rule 1 (exp)
637]])
638
639AT_CLEANUP
640
641
642
643## ----------------------- ##
644## Resolved SR Conflicts. ##
645## ----------------------- ##
646
647AT_SETUP([Resolved SR Conflicts])
648
649AT_KEYWORDS([report])
650
651AT_DATA([input.y],
652[[%token NUM OP
653%left OP
654%%
655exp: exp OP exp | NUM;
656]])
657
658AT_BISON_CHECK([-o input.c --report=all input.y])
659
660# Check the contents of the report.
661AT_CHECK([cat input.output], [],
662[[Grammar
663
664 0 $accept: exp $end
665
666 1 exp: exp OP exp
667 2 | NUM
668
669
670Terminals, with rules where they appear
671
672$end (0) 0
673error (256)
674NUM (258) 2
675OP (259) 1
676
677
678Nonterminals, with rules where they appear
679
680$accept (5)
681 on left: 0
682exp (6)
683 on left: 1 2, on right: 0 1
684
685
686state 0
687
688 0 $accept: . exp $end
689 1 exp: . exp OP exp
690 2 | . NUM
691
692 NUM shift, and go to state 1
693
694 exp go to state 2
695
696
697state 1
698
699 2 exp: NUM .
700
701 $default reduce using rule 2 (exp)
702
703
704state 2
705
706 0 $accept: exp . $end
707 1 exp: exp . OP exp
708
709 $end shift, and go to state 3
710 OP shift, and go to state 4
711
712
713state 3
714
715 0 $accept: exp $end .
716
717 $default accept
718
719
720state 4
721
722 1 exp: . exp OP exp
723 1 | exp OP . exp
724 2 | . NUM
725
726 NUM shift, and go to state 1
727
728 exp go to state 5
729
730
731state 5
732
733 1 exp: exp . OP exp
734 1 | exp OP exp . [$end, OP]
735
736 $default reduce using rule 1 (exp)
737
738 Conflict between rule 1 and token OP resolved as reduce (%left OP).
739]])
740
741AT_CLEANUP
742
743
744## -------------------------------- ##
745## Defaulted Conflicted Reduction. ##
746## -------------------------------- ##
747
748# When there are RR conflicts, some rules are disabled. Usually it is
749# simply displayed as:
750#
751# $end reduce using rule 3 (num)
752# $end [reduce using rule 4 (id)]
753#
754# But when `reduce 3' is the default action, we'd produce:
755#
756# $end [reduce using rule 4 (id)]
757# $default reduce using rule 3 (num)
758#
759# In this precise case (a reduction is masked by the default
760# reduction), we make the `reduce 3' explicit:
761#
762# $end reduce using rule 3 (num)
763# $end [reduce using rule 4 (id)]
764# $default reduce using rule 3 (num)
765#
766# Maybe that's not the best display, but then, please propose something
767# else.
768
769AT_SETUP([Defaulted Conflicted Reduction])
770AT_KEYWORDS([report])
771
772AT_DATA([input.y],
773[[%%
774exp: num | id;
775num: '0';
776id : '0';
777%%
778]])
779
780AT_BISON_CHECK([-o input.c --report=all input.y], 0, [],
781[[input.y: conflicts: 1 reduce/reduce
782input.y:4.6-8: warning: rule useless in parser due to conflicts: id: '0'
783]])
784
785# Check the contents of the report.
786AT_CHECK([cat input.output], [],
787[[Rules useless in parser due to conflicts
788
789 4 id: '0'
790
791
792State 1 conflicts: 1 reduce/reduce
793
794
795Grammar
796
797 0 $accept: exp $end
798
799 1 exp: num
800 2 | id
801
802 3 num: '0'
803
804 4 id: '0'
805
806
807Terminals, with rules where they appear
808
809$end (0) 0
810'0' (48) 3 4
811error (256)
812
813
814Nonterminals, with rules where they appear
815
816$accept (4)
817 on left: 0
818exp (5)
819 on left: 1 2, on right: 0
820num (6)
821 on left: 3, on right: 1
822id (7)
823 on left: 4, on right: 2
824
825
826state 0
827
828 0 $accept: . exp $end
829 1 exp: . num
830 2 | . id
831 3 num: . '0'
832 4 id: . '0'
833
834 '0' shift, and go to state 1
835
836 exp go to state 2
837 num go to state 3
838 id go to state 4
839
840
841state 1
842
843 3 num: '0' . [$end]
844 4 id: '0' . [$end]
845
846 $end reduce using rule 3 (num)
847 $end [reduce using rule 4 (id)]
848 $default reduce using rule 3 (num)
849
850
851state 2
852
853 0 $accept: exp . $end
854
855 $end shift, and go to state 5
856
857
858state 3
859
860 1 exp: num .
861
862 $default reduce using rule 1 (exp)
863
864
865state 4
866
867 2 exp: id .
868
869 $default reduce using rule 2 (exp)
870
871
872state 5
873
874 0 $accept: exp $end .
875
876 $default accept
877]])
878
879AT_CLEANUP
880
881
882
883
884## -------------------- ##
885## %expect not enough. ##
886## -------------------- ##
887
888AT_SETUP([%expect not enough])
889
890AT_DATA([input.y],
891[[%token NUM OP
892%expect 0
893%%
894exp: exp OP exp | NUM;
895]])
896
897AT_BISON_CHECK([-o input.c input.y], 1, [],
898[input.y: conflicts: 1 shift/reduce
899input.y: expected 0 shift/reduce conflicts
900])
901AT_CLEANUP
902
903
904## --------------- ##
905## %expect right. ##
906## --------------- ##
907
908AT_SETUP([%expect right])
909
910AT_DATA([input.y],
911[[%token NUM OP
912%expect 1
913%%
914exp: exp OP exp | NUM;
915]])
916
917AT_BISON_CHECK([-o input.c input.y])
918AT_CLEANUP
919
920
921## ------------------ ##
922## %expect too much. ##
923## ------------------ ##
924
925AT_SETUP([%expect too much])
926
927AT_DATA([input.y],
928[[%token NUM OP
929%expect 2
930%%
931exp: exp OP exp | NUM;
932]])
933
934AT_BISON_CHECK([-o input.c input.y], 1, [],
935[input.y: conflicts: 1 shift/reduce
936input.y: expected 2 shift/reduce conflicts
937])
938AT_CLEANUP
939
940
941## ------------------------------- ##
942## %expect with reduce conflicts. ##
943## ------------------------------- ##
944
945AT_SETUP([%expect with reduce conflicts])
946
947AT_DATA([input.y],
948[[%expect 0
949%%
950program: a 'a' | a a;
951a: 'a';
952]])
953
954AT_BISON_CHECK([-o input.c input.y], 1, [],
955[input.y: conflicts: 1 reduce/reduce
956input.y: expected 0 reduce/reduce conflicts
957])
958AT_CLEANUP
959
960
961## ------------------------- ##
962## %prec with user strings. ##
963## ------------------------- ##
964
965AT_SETUP([%prec with user string])
966
967AT_DATA([[input.y]],
968[[%%
969exp:
970 "foo" %prec "foo"
971;
972]])
973
974AT_BISON_CHECK([-o input.c input.y])
975AT_CLEANUP
976
977
978## -------------------------------- ##
979## %no-default-prec without %prec. ##
980## -------------------------------- ##
981
982AT_SETUP([%no-default-prec without %prec])
983
984AT_DATA([[input.y]],
985[[%left '+'
986%left '*'
987
988%%
989
990%no-default-prec;
991
992e: e '+' e
993 | e '*' e
994 | '0'
995 ;
996]])
997
998AT_BISON_CHECK([-o input.c input.y], 0, [],
999[[input.y: conflicts: 4 shift/reduce
1000]])
1001AT_CLEANUP
1002
1003
1004## ----------------------------- ##
1005## %no-default-prec with %prec. ##
1006## ----------------------------- ##
1007
1008AT_SETUP([%no-default-prec with %prec])
1009
1010AT_DATA([[input.y]],
1011[[%left '+'
1012%left '*'
1013
1014%%
1015
1016%no-default-prec;
1017
1018e: e '+' e %prec '+'
1019 | e '*' e %prec '*'
1020 | '0'
1021 ;
1022]])
1023
1024AT_BISON_CHECK([-o input.c input.y])
1025AT_CLEANUP
1026
1027
1028## --------------- ##
1029## %default-prec. ##
1030## --------------- ##
1031
1032AT_SETUP([%default-prec])
1033
1034AT_DATA([[input.y]],
1035[[%left '+'
1036%left '*'
1037
1038%%
1039
1040%default-prec;
1041
1042e: e '+' e
1043 | e '*' e
1044 | '0'
1045 ;
1046]])
1047
1048AT_BISON_CHECK([-o input.c input.y])
1049AT_CLEANUP
1050
1051
1052## ---------------------------------------------- ##
1053## Unreachable States After Conflict Resolution. ##
1054## ---------------------------------------------- ##
1055
1056AT_SETUP([[Unreachable States After Conflict Resolution]])
1057
1058# If conflict resolution makes states unreachable, remove those states, report
1059# rules that are then unused, and don't report conflicts in those states. Test
1060# what happens when a nonterminal becomes useless as a result of state removal
1061# since that causes lalr.o's goto map to be rewritten.
1062
1063AT_DATA([[input.y]],
1064[[%output "input.c"
1065%left 'a'
1066
1067%%
1068
1069start: resolved_conflict 'a' reported_conflicts 'a' ;
1070
1071/* S/R conflict resolved as reduce, so the state with item
1072 * (resolved_conflict: 'a' . unreachable1) and all it transition successors are
1073 * unreachable, and the associated production is useless. */
1074resolved_conflict:
1075 'a' unreachable1
1076 | %prec 'a'
1077 ;
1078
1079/* S/R conflict that need not be reported since it is unreachable because of
1080 * the previous conflict resolution. Nonterminal unreachable1 and all its
1081 * productions are useless. */
1082unreachable1:
1083 'a' unreachable2
1084 |
1085 ;
1086
1087/* Likewise for a R/R conflict and nonterminal unreachable2. */
1088unreachable2: | ;
1089
1090/* Make sure remaining S/R and R/R conflicts are still reported correctly even
1091 * when their states are renumbered due to state removal. */
1092reported_conflicts:
1093 'a'
1094 | 'a'
1095 |
1096 ;
1097
1098]])
1099
1100AT_BISON_CHECK([[--report=all input.y]], 0, [],
1101[[input.y: conflicts: 1 shift/reduce, 1 reduce/reduce
1102input.y:12.5-20: warning: rule useless in parser due to conflicts: resolved_conflict: 'a' unreachable1
1103input.y:20.5-20: warning: rule useless in parser due to conflicts: unreachable1: 'a' unreachable2
1104input.y:21.4: warning: rule useless in parser due to conflicts: unreachable1: /* empty */
1105input.y:25.13: warning: rule useless in parser due to conflicts: unreachable2: /* empty */
1106input.y:25.16: warning: rule useless in parser due to conflicts: unreachable2: /* empty */
1107input.y:31.5-7: warning: rule useless in parser due to conflicts: reported_conflicts: 'a'
1108input.y:32.4: warning: rule useless in parser due to conflicts: reported_conflicts: /* empty */
1109]])
1110
1111AT_CHECK([[cat input.output]], 0,
1112[[Rules useless in parser due to conflicts
1113
1114 2 resolved_conflict: 'a' unreachable1
1115
1116 4 unreachable1: 'a' unreachable2
1117 5 | /* empty */
1118
1119 6 unreachable2: /* empty */
1120 7 | /* empty */
1121
1122 9 reported_conflicts: 'a'
1123 10 | /* empty */
1124
1125
1126State 4 conflicts: 1 shift/reduce
1127State 5 conflicts: 1 reduce/reduce
1128
1129
1130Grammar
1131
1132 0 $accept: start $end
1133
1134 1 start: resolved_conflict 'a' reported_conflicts 'a'
1135
1136 2 resolved_conflict: 'a' unreachable1
1137 3 | /* empty */
1138
1139 4 unreachable1: 'a' unreachable2
1140 5 | /* empty */
1141
1142 6 unreachable2: /* empty */
1143 7 | /* empty */
1144
1145 8 reported_conflicts: 'a'
1146 9 | 'a'
1147 10 | /* empty */
1148
1149
1150Terminals, with rules where they appear
1151
1152$end (0) 0
1153'a' (97) 1 2 4 8 9
1154error (256)
1155
1156
1157Nonterminals, with rules where they appear
1158
1159$accept (4)
1160 on left: 0
1161start (5)
1162 on left: 1, on right: 0
1163resolved_conflict (6)
1164 on left: 2 3, on right: 1
1165unreachable1 (7)
1166 on left: 4 5, on right: 2
1167unreachable2 (8)
1168 on left: 6 7, on right: 4
1169reported_conflicts (9)
1170 on left: 8 9 10, on right: 1
1171
1172
1173state 0
1174
1175 0 $accept: . start $end
1176 1 start: . resolved_conflict 'a' reported_conflicts 'a'
1177 2 resolved_conflict: . 'a' unreachable1
1178 3 | . ['a']
1179
1180 $default reduce using rule 3 (resolved_conflict)
1181
1182 start go to state 1
1183 resolved_conflict go to state 2
1184
1185 Conflict between rule 3 and token 'a' resolved as reduce (%left 'a').
1186
1187
1188state 1
1189
1190 0 $accept: start . $end
1191
1192 $end shift, and go to state 3
1193
1194
1195state 2
1196
1197 1 start: resolved_conflict . 'a' reported_conflicts 'a'
1198
1199 'a' shift, and go to state 4
1200
1201
1202state 3
1203
1204 0 $accept: start $end .
1205
1206 $default accept
1207
1208
1209state 4
1210
1211 1 start: resolved_conflict 'a' . reported_conflicts 'a'
1212 8 reported_conflicts: . 'a'
1213 9 | . 'a'
1214 10 | . ['a']
1215
1216 'a' shift, and go to state 5
1217
1218 'a' [reduce using rule 10 (reported_conflicts)]
1219
1220 reported_conflicts go to state 6
1221
1222
1223state 5
1224
1225 8 reported_conflicts: 'a' . ['a']
1226 9 | 'a' . ['a']
1227
1228 'a' reduce using rule 8 (reported_conflicts)
1229 'a' [reduce using rule 9 (reported_conflicts)]
1230 $default reduce using rule 8 (reported_conflicts)
1231
1232
1233state 6
1234
1235 1 start: resolved_conflict 'a' reported_conflicts . 'a'
1236
1237 'a' shift, and go to state 7
1238
1239
1240state 7
1241
1242 1 start: resolved_conflict 'a' reported_conflicts 'a' .
1243
1244 $default reduce using rule 1 (start)
1245]])
1246
1247AT_DATA([[input-keep.y]],
1248[[%define lr.keep-unreachable-states
1249]])
1250AT_CHECK([[cat input.y >> input-keep.y]])
1251
1252AT_BISON_CHECK([[input-keep.y]], 0, [],
1253[[input-keep.y: conflicts: 2 shift/reduce, 2 reduce/reduce
1254input-keep.y:22.4: warning: rule useless in parser due to conflicts: unreachable1: /* empty */
1255input-keep.y:26.16: warning: rule useless in parser due to conflicts: unreachable2: /* empty */
1256input-keep.y:32.5-7: warning: rule useless in parser due to conflicts: reported_conflicts: 'a'
1257input-keep.y:33.4: warning: rule useless in parser due to conflicts: reported_conflicts: /* empty */
1258]])
1259
1260AT_CLEANUP
1261
1262
1263## ------------------------------------------------------------ ##
1264## Solved conflicts report for multiple reductions in a state. ##
1265## ------------------------------------------------------------ ##
1266
1267AT_SETUP([[Solved conflicts report for multiple reductions in a state]])
1268
1269# Used to lose earlier solved conflict messages even within a single S/R/R.
1270
1271AT_DATA([[input.y]],
1272[[%left 'a'
1273%right 'b'
1274%right 'c'
1275%right 'd'
1276%%
1277start:
1278 'a'
1279 | empty_a 'a'
1280 | 'b'
1281 | empty_b 'b'
1282 | 'c'
1283 | empty_c1 'c'
1284 | empty_c2 'c'
1285 | empty_c3 'c'
1286 ;
1287empty_a: %prec 'a' ;
1288empty_b: %prec 'b' ;
1289empty_c1: %prec 'c' ;
1290empty_c2: %prec 'c' ;
1291empty_c3: %prec 'd' ;
1292]])
1293AT_BISON_CHECK([[--report=all -o input.c input.y]], 0, [], [ignore])
1294AT_CHECK([[cat input.output | sed -n '/^state 0$/,/^state 1$/p']], 0,
1295[[state 0
1296
1297 0 $accept: . start $end
1298 1 start: . 'a'
1299 2 | . empty_a 'a'
1300 3 | . 'b'
1301 4 | . empty_b 'b'
1302 5 | . 'c'
1303 6 | . empty_c1 'c'
1304 7 | . empty_c2 'c'
1305 8 | . empty_c3 'c'
1306 9 empty_a: . ['a']
1307 10 empty_b: . []
1308 11 empty_c1: . []
1309 12 empty_c2: . []
1310 13 empty_c3: . ['c']
1311
1312 'b' shift, and go to state 1
1313
1314 'c' reduce using rule 13 (empty_c3)
1315 $default reduce using rule 9 (empty_a)
1316
1317 start go to state 2
1318 empty_a go to state 3
1319 empty_b go to state 4
1320 empty_c1 go to state 5
1321 empty_c2 go to state 6
1322 empty_c3 go to state 7
1323
1324 Conflict between rule 9 and token 'a' resolved as reduce (%left 'a').
1325 Conflict between rule 10 and token 'b' resolved as shift (%right 'b').
1326 Conflict between rule 11 and token 'c' resolved as shift (%right 'c').
1327 Conflict between rule 12 and token 'c' resolved as shift (%right 'c').
1328 Conflict between rule 13 and token 'c' resolved as reduce ('c' < 'd').
1329
1330
1331state 1
1332]])
1333
1334AT_CLEANUP
1335
1336
1337## ------------------------------------------------------------ ##
1338## %nonassoc error actions for multiple reductions in a state. ##
1339## ------------------------------------------------------------ ##
1340
1341# Used to abort when trying to resolve conflicts as %nonassoc error actions for
1342# multiple reductions in a state.
1343
1344# For a %nonassoc error action token, used to print the first remaining
1345# reduction on that token without brackets.
1346
1347AT_SETUP([[%nonassoc error actions for multiple reductions in a state]])
1348
1349AT_DATA([[input.y]],
1350[[%nonassoc 'a' 'b' 'c'
1351%%
1352start:
1353 'a'
1354 | empty_a 'a'
1355 | 'b'
1356 | empty_b 'b'
1357 | 'c'
1358 | empty_c1 'c'
1359 | empty_c2 'c'
1360 | empty_c3 'c'
1361 ;
1362empty_a: %prec 'a' ;
1363empty_b: %prec 'b' ;
1364empty_c1: %prec 'c' ;
1365empty_c2: %prec 'c' ;
1366empty_c3: %prec 'c' ;
1367]])
1368
1369AT_BISON_CHECK([[--report=all -o input.c input.y]], 0, [], [ignore])
1370AT_CHECK([[cat input.output | sed -n '/^state 0$/,/^state 1$/p']], 0,
1371[[state 0
1372
1373 0 $accept: . start $end
1374 1 start: . 'a'
1375 2 | . empty_a 'a'
1376 3 | . 'b'
1377 4 | . empty_b 'b'
1378 5 | . 'c'
1379 6 | . empty_c1 'c'
1380 7 | . empty_c2 'c'
1381 8 | . empty_c3 'c'
1382 9 empty_a: . []
1383 10 empty_b: . []
1384 11 empty_c1: . []
1385 12 empty_c2: . ['c']
1386 13 empty_c3: . ['c']
1387
1388 'a' error (nonassociative)
1389 'b' error (nonassociative)
1390 'c' error (nonassociative)
1391
1392 'c' [reduce using rule 12 (empty_c2)]
1393 'c' [reduce using rule 13 (empty_c3)]
1394
1395 start go to state 1
1396 empty_a go to state 2
1397 empty_b go to state 3
1398 empty_c1 go to state 4
1399 empty_c2 go to state 5
1400 empty_c3 go to state 6
1401
1402 Conflict between rule 9 and token 'a' resolved as an error (%nonassoc 'a').
1403 Conflict between rule 10 and token 'b' resolved as an error (%nonassoc 'b').
1404 Conflict between rule 11 and token 'c' resolved as an error (%nonassoc 'c').
1405
1406
1407state 1
1408]])
1409AT_CLEANUP
1410
1411
1412## --------------------------------- ##
1413## -W versus %expect and %expect-rr ##
1414## --------------------------------- ##
1415
1416AT_SETUP([[-W versus %expect and %expect-rr]])
1417
1418AT_DATA([[sr-rr.y]],
1419[[%glr-parser
1420%%
1421start: 'a' | A 'a' | B 'a' ;
1422A: ;
1423B: ;
1424]])
1425AT_DATA([[sr.y]],
1426[[%glr-parser
1427%%
1428start: 'a' | A 'a' ;
1429A: ;
1430]])
1431AT_DATA([[rr.y]],
1432[[%glr-parser
1433%%
1434start: A | B ;
1435A: ;
1436B: ;
1437]])
1438
1439AT_BISON_CHECK([[sr-rr.y]], [[0]], [[]],
1440[[sr-rr.y: conflicts: 1 shift/reduce, 1 reduce/reduce
1441]])
1442AT_BISON_CHECK([[-Wno-conflicts-sr sr-rr.y]], [[0]], [[]],
1443[[sr-rr.y: conflicts: 1 reduce/reduce
1444]])
1445AT_BISON_CHECK([[-Wno-conflicts-rr sr-rr.y]], [[0]], [[]],
1446[[sr-rr.y: conflicts: 1 shift/reduce
1447]])
1448
1449[for gram in sr-rr sr rr; do
1450 for sr_exp_i in '' 0 1 2; do
1451 for rr_exp_i in '' 0 1 2; do
1452 test -z "$sr_exp_i" && test -z "$rr_exp_i" && continue
1453
1454 # Build grammar file.
1455 sr_exp=0
1456 rr_exp=0
1457 file=$gram
1458 directives=
1459 if test -n "$sr_exp_i"; then
1460 sr_exp=$sr_exp_i
1461 file=$file-expect-$sr_exp
1462 directives="%expect $sr_exp"
1463 fi
1464 if test -n "$rr_exp_i"; then
1465 rr_exp=$rr_exp_i
1466 file=$file-expect-rr-$rr_exp
1467 directives="$directives %expect-rr $rr_exp"
1468 fi
1469 file=$file.y
1470 echo "$directives" > $file
1471 cat $gram.y >> $file
1472
1473 # Count actual conflicts.
1474 conflicts=
1475 sr_count=0
1476 rr_count=0
1477 if test $gram = sr || test $gram = sr-rr; then
1478 conflicts="1 shift/reduce"
1479 sr_count=1
1480 fi
1481 if test $gram = rr || test $gram = sr-rr; then
1482 if test -n "$conflicts"; then
1483 conflicts="$conflicts, "
1484 fi
1485 conflicts="${conflicts}1 reduce/reduce"
1486 rr_count=1
1487 fi
1488
1489 # Run tests.
1490 if test $sr_count -eq $sr_exp && test $rr_count -eq $rr_exp; then
1491 ]AT_BISON_CHECK([[-Wnone $file]])[
1492 ]AT_BISON_CHECK([[-Werror $file]])[
1493 else
1494 echo "$file: conflicts: $conflicts" > experr
1495 if test $sr_count -ne $sr_exp; then
1496 if test $sr_exp -ne 1; then s=s; else s= ; fi
1497 echo "$file: expected $sr_exp shift/reduce conflict$s" >> experr
1498 fi
1499 if test $rr_count -ne $rr_exp; then
1500 if test $rr_exp -ne 1; then s=s; else s= ; fi
1501 echo "$file: expected $rr_exp reduce/reduce conflict$s" >> experr
1502 fi
1503 ]AT_BISON_CHECK([[-Wnone $file]], [[1]], [[]], [[experr]])[
1504 ]AT_BISON_CHECK([[-Werror $file]], [[1]], [[]], [[experr]])[
1505 fi
1506 done
1507 done
1508done]
1509
1510AT_CLEANUP