# Checking GLR Parsing: Regression Tests -*- Autotest -*- # Copyright (C) 2002, 2003, 2005, 2006 Free Software Foundation, Inc. # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2, or (at your option) # any later version. # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA # 02110-1301, USA. AT_BANNER([[GLR Regression Tests]]) ## --------------------------- ## ## Badly Collapsed GLR States. ## ## --------------------------- ## AT_SETUP([Badly Collapsed GLR States]) AT_DATA_GRAMMAR([glr-regr1.y], [[/* Regression Test: Improper state compression */ /* Reported by Scott McPeak */ %{ #include #define YYSTYPE int static YYSTYPE exprMerge (YYSTYPE x0, YYSTYPE x1); int yylex (void); void yyerror (char const *msg); %} %glr-parser /* -------- productions ------ */ %% StartSymbol: E { $$=0; } %merge ; E: E 'P' E { $$=1; printf("E -> E 'P' E\n"); } %merge | 'B' { $$=2; printf("E -> 'B'\n"); } %merge ; /* ---------- C code ----------- */ %% static YYSTYPE exprMerge (YYSTYPE x0, YYSTYPE x1) { (void) x0; (void) x1; printf ("\n"); return 0; } int main (void) { return yyparse (); } void yyerror (char const *msg) { fprintf (stderr, "%s\n", msg); } int yylex (void) { for (;;) { int ch = getchar (); if (ch == EOF) return 0; else if (ch == 'B' || ch == 'P') return ch; } } ]]) AT_CHECK([[bison -o glr-regr1.c glr-regr1.y]], 0, [], [glr-regr1.y: conflicts: 1 shift/reduce ]) AT_COMPILE([glr-regr1]) AT_CHECK([[echo BPBPB | ./glr-regr1]], 0, [[E -> 'B' E -> 'B' E -> E 'P' E E -> 'B' E -> E 'P' E E -> 'B' E -> E 'P' E E -> E 'P' E ]], []) AT_CLEANUP ## ------------------------------------------------------------ ## ## Improper handling of embedded actions and $-N in GLR parsers ## ## ------------------------------------------------------------ ## AT_SETUP([Improper handling of embedded actions and dollar(-N) in GLR parsers]) AT_DATA_GRAMMAR([glr-regr2a.y], [[/* Regression Test: Improper handling of embedded actions and $-N */ /* Reported by S. Eken */ %{ #define YYSTYPE char * #include #include #include #include int yylex (void); void yyerror (char const *); %} %glr-parser %% command: 's' var 't' { printf ("Variable: '%s'\n", $2); } 'v' 'x' 'q' { free ($2); } | 's' var_list 't' 'e' { printf ("Varlist: '%s'\n", $2); free ($2); } | 's' var 't' var_printer 'x' { free ($2); } ; var: 'V' { $$ = $1; } ; var_list: var { $$ = $1; } | var ',' var_list { char *s = (char *) realloc ($1, strlen ($1) + 1 + strlen ($3) + 1); strcat (s, ","); strcat (s, $3); free ($3); $$ = s; } ; var_printer: 'v' { printf ("Variable: '%s'\n", $-1); } %% FILE *input = NULL; int yylex (void) { char buf[50]; char *s; switch (fscanf (input, " %1[a-z,]", buf)) { case 1: return buf[0]; case EOF: return 0; default: break; } if (fscanf (input, "%49s", buf) != 1) return 0; if (sizeof buf - 1 <= strlen (buf)) abort (); s = (char *) malloc (strlen (buf) + 1); strcpy (s, buf); yylval = s; return 'V'; } void yyerror (char const *s) { printf ("%s\n", s); } int main (int argc, char **argv) { input = stdin; if (argc == 2 && !(input = fopen (argv[1], "r"))) return 3; return yyparse (); } ]]) AT_CHECK([[bison -o glr-regr2a.c glr-regr2a.y]], 0, [], [glr-regr2a.y: conflicts: 2 shift/reduce ]) AT_COMPILE([glr-regr2a]) AT_CHECK([[echo s VARIABLE_1 t v x q | ./glr-regr2a]], 0, [[Variable: 'VARIABLE_1' ]], []) AT_CHECK([[echo s VARIABLE_1 , ANOTHER_VARIABLE_2 t e | ./glr-regr2a]], 0, [[Varlist: 'VARIABLE_1,ANOTHER_VARIABLE_2' ]]) AT_CHECK([[echo s VARIABLE_3 t v x | ./glr-regr2a]], 0, [[Variable: 'VARIABLE_3' ]], []) AT_CLEANUP ## ------------------------------------------------------------ ## ## Improper merging of GLR delayed action sets ## ## ------------------------------------------------------------ ## AT_SETUP([Improper merging of GLR delayed action sets]) AT_DATA_GRAMMAR([glr-regr3.y], [[/* Regression Test: Improper merging of GLR delayed action sets. */ /* Reported by M. Rosien */ %{ #include #include static int MergeRule (int x0, int x1); static void yyerror (char const * s); int yylex (void); #define RULE(x) (1 << (x)) %} %glr-parser %token BAD_CHAR %token P1 P2 T1 T2 T3 T4 O1 O2 %% S : P1 T4 O2 NT6 P2 { printf ("Result: %x\n", $4); } ; NT1 : P1 T1 O1 T2 P2 { $$ = RULE(2); } %merge ; NT2 : NT1 { $$ = RULE(3); } %merge | P1 NT1 O1 T3 P2 { $$ = RULE(4); } %merge ; NT3 : T3 { $$ = RULE(5); } %merge | P1 NT1 O1 T3 P2 { $$ = RULE(6); } %merge ; NT4 : NT3 { $$ = RULE(7); } %merge | NT2 { $$ = RULE(8); } %merge | P1 NT2 O1 NT3 P2 { $$ = RULE(9); } %merge ; NT5 : NT4 { $$ = RULE(10); } %merge ; NT6 : P1 NT1 O1 T3 P2 { $$ = RULE(11) | $2; } %merge | NT5 { $$ = RULE(12) | $1; } %merge ; %% static int MergeRule (int x0, int x1) { return x0 | x1; } static void yyerror(char const * s) { fprintf(stderr,"error: %s\n",s); } FILE *input = NULL; int P[] = { P1, P2 }; int O[] = { O1, O2 }; int T[] = { T1, T2, T3, T4 }; int yylex (void) { char inp[3]; if (fscanf (input, "%2s", inp) == EOF) return 0; switch (inp[0]) { case 'p': return P[inp[1] - '1']; case 't': return T[inp[1] - '1']; case 'o': return O[inp[1] - '1']; } return BAD_CHAR; } int main(int argc, char* argv[]) { input = stdin; if (argc == 2 && !(input = fopen (argv[1], "r"))) return 3; return yyparse (); } ]]) AT_CHECK([[bison -o glr-regr3.c glr-regr3.y]], 0, [], [glr-regr3.y: conflicts: 1 shift/reduce, 1 reduce/reduce ]) AT_COMPILE([glr-regr3]) AT_CHECK([[echo p1 t4 o2 p1 p1 t1 o1 t2 p2 o1 t3 p2 p2 | ./glr-regr3]], 0, [[Result: 1c04 ]], []) AT_CLEANUP ## ------------------------------------------------------------------------- ## ## Duplicate representation of merged trees. See ## ## . ## ## ------------------------------------------------------------------------- ## AT_SETUP([Duplicate representation of merged trees]) AT_DATA_GRAMMAR([glr-regr4.y], [[ %union { char *ptr; } %type S A A1 A2 B %glr-parser %{ #include #include #include static char *merge (YYSTYPE, YYSTYPE); static char *make_value (char const *, char const *); static void yyerror (char const *); static int yylex (void); %} %% tree: S { printf ("%s\n", $1); } ; S: A %merge { $$ = make_value ("S", $1); } | B %merge { $$ = make_value ("S", $1); } ; A: A1 %merge { $$ = make_value ("A", $1); } | A2 %merge { $$ = make_value ("A", $1); } ; A1: 'a' { $$ = make_value ("A1", "'a'"); } ; A2: 'a' { $$ = make_value ("A2", "'a'"); } ; B: 'a' { $$ = make_value ("B", "'a'"); } ; %% static int yylex (void) { static char const *input = "a"; return *input++; } int main (void) { return yyparse (); } static char * make_value (char const *parent, char const *child) { char const format[] = "%s <- %s"; char *value = (char *) malloc (strlen (parent) + strlen (child) + sizeof format); sprintf (value, format, parent, child); return value; } static char * merge (YYSTYPE s1, YYSTYPE s2) { char const format[] = "merge{ %s and %s }"; char *value = (char *) malloc (strlen (s1.ptr) + strlen (s2.ptr) + sizeof format); sprintf (value, format, s1.ptr, s2.ptr); return value; } static void yyerror (char const *msg) { fprintf (stderr, "%s\n", msg); } ]]) AT_CHECK([[bison -o glr-regr4.c glr-regr4.y]], 0, [], [glr-regr4.y: conflicts: 1 reduce/reduce ]) AT_COMPILE([glr-regr4]) AT_CHECK([[./glr-regr4]], 0, [[merge{ S <- merge{ A <- A1 <- 'a' and A <- A2 <- 'a' } and S <- B <- 'a' } ]], []) AT_CLEANUP ## -------------------------------------------------------------------------- ## ## User destructor for unresolved GLR semantic value. See ## ## . ## ## -------------------------------------------------------------------------- ## AT_SETUP([User destructor for unresolved GLR semantic value]) AT_DATA_GRAMMAR([glr-regr5.y], [[ %{ #include #include static void yyerror (char const *); static int yylex (void); enum { MAGIC_VALUE = -1057808125 }; /* originally chosen at random */ %} %glr-parser %union { int value; } %type start %destructor { if ($$ != MAGIC_VALUE) { fprintf (stderr, "Bad destructor call.\n"); exit (EXIT_FAILURE); } } start %% start: 'a' { $$ = MAGIC_VALUE; } | 'a' { $$ = MAGIC_VALUE; } ; %% static int yylex (void) { static char const *input = "a"; return *input++; } static void yyerror (char const *msg) { fprintf (stderr, "%s\n", msg); } int main (void) { return yyparse () != 1; } ]]) AT_CHECK([[bison -o glr-regr5.c glr-regr5.y]], 0, [], [glr-regr5.y: conflicts: 1 reduce/reduce ]) AT_COMPILE([glr-regr5]) AT_CHECK([[./glr-regr5]], 0, [], [syntax is ambiguous ]) AT_CLEANUP ## -------------------------------------------------------------------------- ## ## User destructor after an error during a split parse. See ## ## . ## ## -------------------------------------------------------------------------- ## AT_SETUP([User destructor after an error during a split parse]) AT_DATA_GRAMMAR([glr-regr6.y], [[ %{ #include #include static void yyerror (char const *); static int yylex (void); %} %glr-parser %union { int value; } %type 'a' %destructor { printf ("Destructor called.\n"); } 'a' %% start: 'a' | 'a' ; %% static int yylex (void) { static char const *input = "a"; return *input++; } static void yyerror (char const *msg) { fprintf (stderr, "%s\n", msg); } int main (void) { return yyparse () != 1; } ]]) AT_CHECK([[bison -o glr-regr6.c glr-regr6.y]], 0, [], [glr-regr6.y: conflicts: 1 reduce/reduce ]) AT_COMPILE([glr-regr6]) AT_CHECK([[./glr-regr6]], 0, [Destructor called. ], [syntax is ambiguous ]) AT_CLEANUP ## ------------------------------------------------------------------------- ## ## Duplicated user destructor for lookahead. See ## ## . ## ## ------------------------------------------------------------------------- ## AT_SETUP([Duplicated user destructor for lookahead]) AT_DATA_GRAMMAR([glr-regr7.y], [[ %{ #include #include static void yyerror (char const *); static int yylex (void); #define YYSTACKEXPANDABLE 0 %} %glr-parser %union { int *count; } %type 'a' %destructor { if ((*$$)++) fprintf (stderr, "Destructor called on same value twice.\n"); } 'a' %% start: stack1 start | stack2 start | /* empty */ ; stack1: 'a' ; stack2: 'a' ; %% static int yylex (void) { yylval.count = (int *) malloc (sizeof (int)); if (!yylval.count) { fprintf (stderr, "Test inconclusive.\n"); exit (EXIT_FAILURE); } *yylval.count = 0; return 'a'; } static void yyerror (char const *msg) { fprintf (stderr, "%s\n", msg); } int main (void) { return yyparse (); } ]]) AT_CHECK([[bison -o glr-regr7.c glr-regr7.y]], 0, [], [glr-regr7.y: conflicts: 2 reduce/reduce ]) AT_COMPILE([glr-regr7]) AT_CHECK([[./glr-regr7]], 2, [], [memory exhausted ]) AT_CLEANUP ## ------------------------------------------------------------------------- ## ## Incorrect default location for empty right-hand sides. Adapted from bug ## ## report by Claudia Hermann. ## ## See http://lists.gnu.org/archive/html/bug-bison/2005-10/msg00069.html and ## ## http://lists.gnu.org/archive/html/bug-bison/2005-10/msg00072.html ## ## ------------------------------------------------------------------------- ## AT_SETUP([Incorrectly initialized location for empty right-hand side in GLR]) AT_DATA_GRAMMAR([glr-regr8.y], [[ %{ #include #include static void yyerror (char const *); static int yylex (void); static void yyerror (char const *msg); %} %token T_CONSTANT %token T_PORT %token T_SIGNAL %glr-parser %% PortClause : T_PORT InterfaceDeclaration T_PORT { printf("%d/%d - %d/%d - %d/%d\n", @1.first_column, @1.last_column, @2.first_column, @2.last_column, @3.first_column, @3.last_column); } ; InterfaceDeclaration : OptConstantWord %dprec 1 | OptSignalWord %dprec 2 ; OptConstantWord : /* empty */ | T_CONSTANT ; OptSignalWord : /* empty */ { printf("empty: %d/%d\n", @$.first_column, @$.last_column); } | T_SIGNAL ; %% void yyerror (char const *msg) { fprintf (stderr, "%s\n", msg); } static int lexIndex; int yylex (void) { lexIndex += 1; switch (lexIndex) { case 1: yylloc.first_column = 1; yylloc.last_column = 9; return T_PORT; case 2: yylloc.first_column = 13; yylloc.last_column = 17; return T_PORT; default: return 0; } } int main (void) { yyparse(); return 0; } ]]) AT_CHECK([[bison -o glr-regr8.c glr-regr8.y]], 0, [], [glr-regr8.y: conflicts: 1 reduce/reduce ]) AT_COMPILE([glr-regr8]) AT_CHECK([[./glr-regr8]], 0, [empty: 9/9 1/9 - 9/9 - 13/17 ], []) AT_CLEANUP ## ------------------------------------------------------------------------- ## ## No users destructors if stack 0 deleted. See ## ## . ## ## ------------------------------------------------------------------------- ## AT_SETUP([No users destructors if stack 0 deleted]) AT_DATA_GRAMMAR([glr-regr9.y], [[ %{ # include # include static void yyerror (char const *); static int yylex (void); # define YYSTACKEXPANDABLE 0 static int tokens = 0; static int destructors = 0; # define USE(Var) %} %glr-parser %union { int dummy; } %type 'a' %destructor { destructors += 1; } 'a' %% start: ambig0 'a' { destructors += 2; USE ($2); } | ambig1 start { destructors += 1; } | ambig2 start { destructors += 1; } ; ambig0: 'a' ; ambig1: 'a' ; ambig2: 'a' ; %% static int yylex (void) { tokens += 1; return 'a'; } static void yyerror (char const *msg) { fprintf (stderr, "%s\n", msg); } int main (void) { int exit_status; exit_status = yyparse (); if (tokens != destructors) { fprintf (stderr, "Tokens = %d, Destructors = %d\n", tokens, destructors); return 1; } return !exit_status; } ]]) AT_CHECK([[bison -o glr-regr9.c glr-regr9.y]], 0, [], [glr-regr9.y: conflicts: 1 reduce/reduce ]) AT_COMPILE([glr-regr9]) AT_CHECK([[./glr-regr9]], 0, [], [memory exhausted ]) AT_CLEANUP ## ------------------------------------------------------------------------- ## ## Corrupted semantic options if user action cuts parse. ## ## ------------------------------------------------------------------------- ## AT_SETUP([Corrupted semantic options if user action cuts parse]) AT_DATA_GRAMMAR([glr-regr10.y], [[ %{ # include static void yyerror (char const *); static int yylex (void); #define GARBAGE_SIZE 50 static char garbage[GARBAGE_SIZE]; %} %glr-parser %union { char *ptr; } %type start %% start: %dprec 2 { $$ = garbage; YYACCEPT; } | %dprec 1 { $$ = garbage; YYACCEPT; } ; %% static void yyerror (char const *msg) { fprintf (stderr, "%s\n", msg); } static int yylex (void) { return 0; } int main (void) { int i; for (i = 0; i < GARBAGE_SIZE; i+=1) garbage[i] = 108; return yyparse (); } ]]) AT_CHECK([[bison -t -o glr-regr10.c glr-regr10.y]], 0, [], [glr-regr10.y: conflicts: 1 reduce/reduce ]) AT_COMPILE([glr-regr10]) AT_CHECK([[./glr-regr10]], 0, [], []) AT_CLEANUP ## ------------------------------------------------------------------------- ## ## Undesirable destructors if user action cuts parse. ## ## ------------------------------------------------------------------------- ## AT_SETUP([Undesirable destructors if user action cuts parse]) AT_DATA_GRAMMAR([glr-regr11.y], [[ %{ # include static void yyerror (char const *); static int yylex (void); static int destructors = 0; # define USE(val) %} %glr-parser %union { int dummy; } %type 'a' %destructor { destructors += 1; } 'a' %% start: 'a' %dprec 2 { USE ($1); destructors += 1; YYACCEPT; } | 'a' %dprec 1 { USE ($1); destructors += 1; YYACCEPT; } ; %% static void yyerror (char const *msg) { fprintf (stderr, "%s\n", msg); } static int yylex (void) { static char const *input = "a"; return *input++; } int main (void) { int exit_status = yyparse (); if (destructors != 1) { fprintf (stderr, "Destructor calls: %d\n", destructors); return 1; } return exit_status; } ]]) AT_CHECK([[bison -t -o glr-regr11.c glr-regr11.y]], 0, [], [glr-regr11.y: conflicts: 1 reduce/reduce ]) AT_COMPILE([glr-regr11]) AT_CHECK([[./glr-regr11]], 0, [], []) AT_CLEANUP ## ------------------------------------------------------------------------- ## ## Leaked merged semantic value if user action cuts parse. ## ## ------------------------------------------------------------------------- ## AT_SETUP([Leaked merged semantic value if user action cuts parse]) AT_DATA_GRAMMAR([glr-regr12.y], [[ %glr-parser %union { int dummy; } %type start %destructor { has_value = 0; } start %{ # include static int merge (YYSTYPE, YYSTYPE); static void yyerror (char const *); static int yylex (void); static int has_value = 0; # define USE(val) %} %% start: %merge { has_value = 1; USE ($$); } | %merge { USE ($$); YYACCEPT; } ; %% static int merge (YYSTYPE s1, YYSTYPE s2) { /* Not invoked. */ char dummy = s1.dummy + s2.dummy; return dummy; } static void yyerror (char const *msg) { fprintf (stderr, "%s\n", msg); } static int yylex (void) { return 0; } int main (void) { int exit_status = yyparse (); if (has_value) { fprintf (stderr, "Destructor not called.\n"); return 1; } return exit_status; } ]]) AT_CHECK([[bison -t -o glr-regr12.c glr-regr12.y]], 0, [], [glr-regr12.y: conflicts: 1 reduce/reduce ]) AT_COMPILE([glr-regr12]) AT_CHECK([[./glr-regr12]], 0, [], []) AT_CLEANUP ## ------------------------------------------------------------------------- ## ## Incorrect lookahead during deterministic GLR. See ## ## . ## ## ------------------------------------------------------------------------- ## AT_SETUP([Incorrect lookahead during deterministic GLR]) AT_DATA_GRAMMAR([glr-regr13.y], [[ /* Tests: - Defaulted state with initial yychar: yychar == YYEMPTY. - Nondefaulted state: yychar != YYEMPTY. - Defaulted state after lookahead: yychar != YYEMPTY. - Defaulted state after shift: yychar == YYEMPTY. */ %{ #include static void yyerror (char const *); static int yylex (void); static void print_look_ahead (char const *); #define USE(value) %} %union { char value; } %type 'a' 'b' %glr-parser %locations %% start: defstate_init defstate_shift 'b' { USE ($3); print_look_ahead ("start <- defstate_init defstate_shift 'b'"); } ; defstate_init: { print_look_ahead ("defstate_init <- empty string"); } ; defstate_shift: nondefstate defstate_look 'a' { USE ($3); print_look_ahead ("defstate_shift <- nondefstate defstate_look 'a'"); } ; defstate_look: { print_look_ahead ("defstate_look <- empty string"); } ; nondefstate: { print_look_ahead ("nondefstate <- empty string"); } | 'b' { USE ($1); print_look_ahead ("nondefstate <- 'b'"); } ; %% static void yyerror (char const *msg) { fprintf (stderr, "%s\n", msg); } static int yylex (void) { static char const *input = "ab"; static int i = 0; yylloc.first_line = yylloc.last_line = 1; yylloc.first_column = yylloc.last_column = i + 1; yylval.value = input[i] + 'A' - 'a'; return input[i++]; } static void print_look_ahead (char const *reduction) { printf ("%s:\n yychar=", reduction); if (yychar == YYEMPTY) printf ("YYEMPTY"); else if (yychar == YYEOF) printf ("YYEOF"); else { printf ("'%c', yylval='", yychar); if (yylval.value > ' ') printf ("%c", yylval.value); printf ("', yylloc=(%d,%d),(%d,%d)", yylloc.first_line, yylloc.first_column, yylloc.last_line, yylloc.last_column); } printf ("\n"); } int main (void) { yychar = '#'; /* Not a token in the grammar. */ yylval.value = '!'; return yyparse (); } ]]) AT_CHECK([[bison -t -o glr-regr13.c glr-regr13.y]], 0, [], []) AT_COMPILE([glr-regr13]) AT_CHECK([[./glr-regr13]], 0, [defstate_init <- empty string: yychar=YYEMPTY nondefstate <- empty string: yychar='a', yylval='A', yylloc=(1,1),(1,1) defstate_look <- empty string: yychar='a', yylval='A', yylloc=(1,1),(1,1) defstate_shift <- nondefstate defstate_look 'a': yychar=YYEMPTY start <- defstate_init defstate_shift 'b': yychar=YYEMPTY ], []) AT_CLEANUP ## ------------------------------------------------------------------------- ## ## Incorrect lookahead during nondeterministic GLR. ## ## ------------------------------------------------------------------------- ## AT_SETUP([Incorrect lookahead during nondeterministic GLR]) AT_DATA_GRAMMAR([glr-regr14.y], [[ /* Tests: - Conflicting actions (split-off parse, which copies lookahead need, which is necessarily yytrue) and nonconflicting actions (non-split-off parse) for nondefaulted state: yychar != YYEMPTY. - Merged deferred actions (lookahead need and RHS from different stack than the target state) and nonmerged deferred actions (same stack). - Defaulted state after lookahead: yychar != YYEMPTY. - Defaulted state after shift: yychar == YYEMPTY. - yychar != YYEMPTY but lookahead need is yyfalse (a previous stack has seen the lookahead but current stack has not). - Exceeding stack capacity (stack explosion), and thus reallocating lookahead need array. Note that it does not seem possible to see the initial yychar value during nondeterministic operation since: - In order to preserve the initial yychar, only defaulted states may be entered. - If only defaulted states are entered, there are no conflicts, so nondeterministic operation does not start. */ %union { char value; } %{ #include static void yyerror (char const *); static int yylex (void); static void print_look_ahead (char const *); static char merge (union YYSTYPE, union YYSTYPE); #define USE(value) %} %type 'a' 'b' 'c' 'd' stack_explosion %glr-parser %locations %% start: merge 'c' stack_explosion { USE ($2); USE ($3); print_look_ahead ("start <- merge 'c' stack_explosion"); } ; /* When merging the 2 deferred actions, the lookahead needs are different. */ merge: nonconflict1 'a' 'b' nonconflict2 %dprec 1 { USE ($2); USE ($3); print_look_ahead ("merge <- nonconflict1 'a' 'b' nonconflict2"); } | conflict defstate_look 'a' nonconflict2 'b' defstate_shift %dprec 2 { USE ($3); USE ($5); print_look_ahead ("merge <- conflict defstate_look 'a' nonconflict2 'b'" " defstate_shift"); } ; nonconflict1: { print_look_ahead ("nonconflict1 <- empty string"); } ; nonconflict2: { print_look_ahead ("nonconflict2 <- empty string"); } | 'a' { USE ($1); print_look_ahead ("nonconflict2 <- 'a'"); } ; conflict: { print_look_ahead ("conflict <- empty string"); } ; defstate_look: { print_look_ahead ("defstate_look <- empty string"); } ; /* yychar != YYEMPTY but lookahead need is yyfalse. */ defstate_shift: { print_look_ahead ("defstate_shift <- empty string"); } ; stack_explosion: { $$ = '\0'; } | alt1 stack_explosion %merge { $$ = $2; } | alt2 stack_explosion %merge { $$ = $2; } | alt3 stack_explosion %merge { $$ = $2; } ; alt1: 'd' no_look { USE ($1); if (yychar != 'd' && yychar != YYEOF) { fprintf (stderr, "Incorrect lookahead during stack explosion.\n"); } } ; alt2: 'd' no_look { USE ($1); if (yychar != 'd' && yychar != YYEOF) { fprintf (stderr, "Incorrect lookahead during stack explosion.\n"); } } ; alt3: 'd' no_look { USE ($1); if (yychar != 'd' && yychar != YYEOF) { fprintf (stderr, "Incorrect lookahead during stack explosion.\n"); } } ; no_look: { if (yychar != YYEMPTY) { fprintf (stderr, "Found lookahead where shouldn't during stack explosion.\n"); } } ; %% static void yyerror (char const *msg) { fprintf (stderr, "%s\n", msg); } static int yylex (void) { static char const *input = "abcdddd"; static int i = 0; yylloc.first_line = yylloc.last_line = 1; yylloc.first_column = yylloc.last_column = i + 1; yylval.value = input[i] + 'A' - 'a'; return input[i++]; } static void print_look_ahead (char const *reduction) { printf ("%s:\n yychar=", reduction); if (yychar == YYEMPTY) printf ("YYEMPTY"); else if (yychar == YYEOF) printf ("YYEOF"); else { printf ("'%c', yylval='", yychar); if (yylval.value > ' ') printf ("%c", yylval.value); printf ("', yylloc=(%d,%d),(%d,%d)", yylloc.first_line, yylloc.first_column, yylloc.last_line, yylloc.last_column); } printf ("\n"); } static char merge (union YYSTYPE s1, union YYSTYPE s2) { char dummy = s1.value + s2.value; return dummy; } int main (void) { yychar = '#'; /* Not a token in the grammar. */ yylval.value = '!'; return yyparse (); } ]]) AT_CHECK([[bison -t -o glr-regr14.c glr-regr14.y]], 0, [], [glr-regr14.y: conflicts: 3 reduce/reduce ]) AT_COMPILE([glr-regr14]) AT_CHECK([[./glr-regr14]], 0, [conflict <- empty string: yychar='a', yylval='A', yylloc=(1,1),(1,1) defstate_look <- empty string: yychar='a', yylval='A', yylloc=(1,1),(1,1) nonconflict2 <- empty string: yychar='b', yylval='B', yylloc=(1,2),(1,2) defstate_shift <- empty string: yychar=YYEMPTY merge <- conflict defstate_look 'a' nonconflict2 'b' defstate_shift: yychar=YYEMPTY start <- merge 'c' stack_explosion: yychar=YYEOF ], []) AT_CLEANUP