# Exercising Bison on conflicts. -*- Autotest -*- # Copyright (C) 2002-2005, 2007-2012 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 3 of the License, 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, see . AT_BANNER([[Conflicts.]]) ## ---------------- ## ## S/R in initial. ## ## ---------------- ## # I once hacked Bison in such a way that it lost its reductions on the # initial state (because it was confusing it with the last state). It # took me a while to strip down my failures to this simple case. So # make sure it finds the s/r conflict below. AT_SETUP([S/R in initial]) AT_DATA([[input.y]], [[%expect 1 %% exp: e 'e'; e: 'e' | /* Nothing. */; ]]) AT_BISON_CHECK([-o input.c input.y], 0, [], [[input.y:4.9: warning: rule useless in parser due to conflicts: e: /* empty */ [-Wother] ]]) AT_CLEANUP ## ------------------- ## ## %nonassoc and eof. ## ## ------------------- ## AT_SETUP([%nonassoc and eof]) AT_BISON_OPTION_PUSHDEFS AT_DATA_GRAMMAR([input.y], [[ %{ #include #include #include #include #define YYERROR_VERBOSE 1 ]AT_YYERROR_DEFINE[ /* The current argument. */ static const char *input; static int yylex (void) { static size_t toknum; assert (toknum <= strlen (input)); return input[toknum++]; } %} %nonassoc '<' '>' %% expr: expr '<' expr | expr '>' expr | '0' ; %% int main (int argc, const char *argv[]) { input = argc <= 1 ? "" : argv[1]; return yyparse (); } ]]) AT_BISON_OPTION_POPDEFS m4_pushdef([AT_NONASSOC_AND_EOF_CHECK], [AT_BISON_CHECK([$1[ -o input.c input.y]]) AT_COMPILE([input]) m4_pushdef([AT_EXPECTING], [m4_if($2, [correct], [[, expecting $end]])]) AT_PARSER_CHECK([./input '0<0']) AT_PARSER_CHECK([./input '0<0<0'], [1], [], [syntax error, unexpected '<'AT_EXPECTING ]) AT_PARSER_CHECK([./input '0>0']) AT_PARSER_CHECK([./input '0>0>0'], [1], [], [syntax error, unexpected '>'AT_EXPECTING ]) AT_PARSER_CHECK([./input '0<0>0'], [1], [], [syntax error, unexpected '>'AT_EXPECTING ]) m4_popdef([AT_EXPECTING])]) # Expected token list is missing. AT_NONASSOC_AND_EOF_CHECK([], [[incorrect]]) # We must disable default reductions in inconsistent states in order to # have an explicit list of all expected tokens. AT_NONASSOC_AND_EOF_CHECK([[-Dlr.default-reductions=consistent]], [[correct]]) # lr.default-reductions=consistent happens to work for this test case. # However, for other grammars, lookahead sets can be merged for # different left contexts, so it is still possible to have an incorrect # expected list. Canonical LR is almost a general solution (that is, it # can fail only when %nonassoc is used), so make sure it gives the same # result as above. AT_NONASSOC_AND_EOF_CHECK([[-Dlr.type=canonical-lr]], [[correct]]) # parse.lac=full is a completely general solution that does not require # any of the above sacrifices. Of course, it does not extend the # language-recognition power of LALR to (IE)LR, but it does ensure that # the reported list of expected tokens matches what the given parser # would have accepted in place of the unexpected token. AT_NONASSOC_AND_EOF_CHECK([[-Dparse.lac=full]], [[correct]]) m4_popdef([AT_NONASSOC_AND_EOF_CHECK]) AT_CLEANUP ## ------------------------------------------- ## ## parse.error=verbose and consistent errors. ## ## ------------------------------------------- ## AT_SETUP([[parse.error=verbose and consistent errors]]) m4_pushdef([AT_CONSISTENT_ERRORS_CHECK], [ AT_BISON_OPTION_PUSHDEFS([$1]) m4_pushdef([AT_YYLEX_PROTOTYPE], [AT_SKEL_CC_IF([[int yylex (yy::parser::semantic_type *lvalp)]], [[int yylex (YYSTYPE *lvalp)]])]) AT_SKEL_JAVA_IF([AT_DATA], [AT_DATA_GRAMMAR])([input.y], [AT_SKEL_JAVA_IF([[ %code imports { import java.io.IOException; }]], [[ %code {]AT_SKEL_CC_IF([[ #include ]], [[ #include #include ]AT_YYERROR_DECLARE])[ ]AT_YYLEX_PROTOTYPE[; #define USE(Var) } ]AT_SKEL_CC_IF([[%defines]], [[%define api.pure]])])[ ]$1[ %define parse.error verbose %% ]$2[ ]AT_SKEL_JAVA_IF([[%code lexer {]], [[%%]])[ /*--------. | yylex. | `--------*/]AT_SKEL_JAVA_IF([[ public String input = "]$3["; public int index = 0; public int yylex () { if (index < input.length ()) return input.charAt (index++); else return 0; } public Object getLVal () { return new Integer(1); }]], [[ ]AT_YYLEX_PROTOTYPE[ { static char const *input = "]$3["; *lvalp = 1; return *input++; }]])[ ]AT_YYERROR_DEFINE[ ]AT_SKEL_JAVA_IF([[ }; %%]])[ /*-------. | main. | `-------*/]AT_SKEL_JAVA_IF([[ class input { public static void main (String args[]) throws IOException { YYParser p = new YYParser (); p.parse (); } }]], [AT_SKEL_CC_IF([[ int main (void) { yy::parser parser; return parser.parse (); }]], [[ int main (void) { return yyparse (); }]])])[ ]]) AT_FULL_COMPILE([[input]]) m4_pushdef([AT_EXPECTING], [m4_if($5, [ab], [[, expecting 'a' or 'b']], $5, [a], [[, expecting 'a']], $5, [b], [[, expecting 'b']])]) AT_SKEL_JAVA_IF([AT_JAVA_PARSER_CHECK([[input]], [[0]]], [AT_PARSER_CHECK([[./input]], [[1]]]), [[]], [[syntax error, unexpected ]$4[]AT_EXPECTING[ ]]) m4_popdef([AT_EXPECTING]) m4_popdef([AT_YYLEX_PROTOTYPE]) AT_BISON_OPTION_POPDEFS ]) m4_pushdef([AT_PREVIOUS_STATE_GRAMMAR], [[%nonassoc 'a'; start: consistent-error-on-a-a 'a' ; consistent-error-on-a-a: 'a' default-reduction | 'a' default-reduction 'a' | 'a' shift ; default-reduction: /*empty*/ ; shift: 'b' ; // Provide another context in which all rules are useful so that this // test case looks a little more realistic. start: 'b' consistent-error-on-a-a 'c' ; ]]) m4_pushdef([AT_PREVIOUS_STATE_INPUT], [[a]]) # Unfortunately, no expected tokens are reported even though 'b' can be # accepted. Nevertheless, the main point of this test is to make sure # that at least the unexpected token is reported. In a previous version # of Bison, it wasn't reported because the error is detected in a # consistent state with an error action, and that case always triggered # the simple "syntax error" message. # # The point isn't to test IELR here, but state merging happens to # complicate this example. AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr]], [AT_PREVIOUS_STATE_GRAMMAR], [AT_PREVIOUS_STATE_INPUT], [[$end]], [[none]]) AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr %glr-parser]], [AT_PREVIOUS_STATE_GRAMMAR], [AT_PREVIOUS_STATE_INPUT], [[$end]], [[none]]) AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr %language "c++"]], [AT_PREVIOUS_STATE_GRAMMAR], [AT_PREVIOUS_STATE_INPUT], [[$end]], [[none]]) AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr %language "java"]], [AT_PREVIOUS_STATE_GRAMMAR], [AT_PREVIOUS_STATE_INPUT], [[end of input]], [[none]]) # Even canonical LR doesn't foresee the error for 'a'! AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr %define lr.default-reductions consistent]], [AT_PREVIOUS_STATE_GRAMMAR], [AT_PREVIOUS_STATE_INPUT], [[$end]], [[ab]]) AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr %define lr.default-reductions accepting]], [AT_PREVIOUS_STATE_GRAMMAR], [AT_PREVIOUS_STATE_INPUT], [[$end]], [[ab]]) AT_CONSISTENT_ERRORS_CHECK([[%define lr.type canonical-lr]], [AT_PREVIOUS_STATE_GRAMMAR], [AT_PREVIOUS_STATE_INPUT], [[$end]], [[ab]]) # Only LAC gets it right. AT_CONSISTENT_ERRORS_CHECK([[%define lr.type canonical-lr %define parse.lac full]], [AT_PREVIOUS_STATE_GRAMMAR], [AT_PREVIOUS_STATE_INPUT], [[$end]], [[b]]) AT_CONSISTENT_ERRORS_CHECK([[%define lr.type ielr %define parse.lac full]], [AT_PREVIOUS_STATE_GRAMMAR], [AT_PREVIOUS_STATE_INPUT], [[$end]], [[b]]) m4_popdef([AT_PREVIOUS_STATE_GRAMMAR]) m4_popdef([AT_PREVIOUS_STATE_INPUT]) m4_pushdef([AT_USER_ACTION_GRAMMAR], [[%nonassoc 'a'; // If $$ = 0 here, then we know that the 'a' destructor is being invoked // incorrectly for the 'b' set in the semantic action below. All 'a' // tokens are returned by yylex, which sets $$ = 1. %destructor { if (!$$) fprintf (stderr, "Wrong destructor.\n"); } 'a'; // Rather than depend on an inconsistent state to induce reading a // lookahead as in the previous grammar, just assign the lookahead in a // semantic action. That lookahead isn't needed before either error // action is encountered. In a previous version of Bison, this was a // problem as it meant yychar was not translated into yytoken before // either error action. The second error action thus invoked a // destructor that it selected according to the incorrect yytoken. The // first error action would have reported an incorrect unexpected token // except that, due to the bug described in the previous grammar, the // unexpected token was not reported at all. start: error-reduce consistent-error 'a' { USE ($][3); } ; error-reduce: 'a' 'a' consistent-reduction consistent-error 'a' { USE (($][1, $][2, $][5)); } | 'a' error { USE ($][1); } ; consistent-reduction: /*empty*/ { assert (yychar == YYEMPTY); yylval = 0; yychar = 'b'; } ; consistent-error: 'a' { USE ($][1); } | /*empty*/ %prec 'a' ; // Provide another context in which all rules are useful so that this // test case looks a little more realistic. start: 'b' consistent-error 'b' ; ]]) m4_pushdef([AT_USER_ACTION_INPUT], [[aa]]) AT_CONSISTENT_ERRORS_CHECK([[]], [AT_USER_ACTION_GRAMMAR], [AT_USER_ACTION_INPUT], [['b']], [[none]]) AT_CONSISTENT_ERRORS_CHECK([[%glr-parser]], [AT_USER_ACTION_GRAMMAR], [AT_USER_ACTION_INPUT], [['b']], [[none]]) # No C++ or Java test because yychar cannot be manipulated by users. AT_CONSISTENT_ERRORS_CHECK([[%define lr.default-reductions consistent]], [AT_USER_ACTION_GRAMMAR], [AT_USER_ACTION_INPUT], [['b']], [[none]]) # Canonical LR doesn't foresee the error for 'a'! AT_CONSISTENT_ERRORS_CHECK([[%define lr.default-reductions accepting]], [AT_USER_ACTION_GRAMMAR], [AT_USER_ACTION_INPUT], [[$end]], [[a]]) AT_CONSISTENT_ERRORS_CHECK([[%define lr.type canonical-lr]], [AT_USER_ACTION_GRAMMAR], [AT_USER_ACTION_INPUT], [[$end]], [[a]]) AT_CONSISTENT_ERRORS_CHECK([[%define parse.lac full]], [AT_USER_ACTION_GRAMMAR], [AT_USER_ACTION_INPUT], [['b']], [[none]]) AT_CONSISTENT_ERRORS_CHECK([[%define parse.lac full %define lr.default-reductions accepting]], [AT_USER_ACTION_GRAMMAR], [AT_USER_ACTION_INPUT], [[$end]], [[none]]) m4_popdef([AT_USER_ACTION_GRAMMAR]) m4_popdef([AT_USER_ACTION_INPUT]) m4_popdef([AT_CONSISTENT_ERRORS_CHECK]) AT_CLEANUP ## ------------------------------------------------------- ## ## LAC: %nonassoc requires splitting canonical LR states. ## ## ------------------------------------------------------- ## # This test case demonstrates that, when %nonassoc is used, canonical # LR(1) parser table construction followed by conflict resolution # without further state splitting is not always sufficient to produce a # parser that can detect all syntax errors as soon as possible on one # token of lookahead. However, LAC solves the problem completely even # with minimal LR parser tables. AT_SETUP([[LAC: %nonassoc requires splitting canonical LR states]]) AT_BISON_OPTION_PUSHDEFS AT_DATA_GRAMMAR([[input.y]], [[%code { #include ]AT_YYERROR_DECLARE[ ]AT_YYLEX_DECLARE[ } %error-verbose %nonassoc 'a' %% start: 'a' problem 'a' // First context. | 'b' problem 'b' // Second context. | 'c' reduce-nonassoc // Just makes reduce-nonassoc useful. ; problem: look reduce-nonassoc | look 'a' | look 'b' ; // For the state reached after shifting the 'a' in these productions, // lookahead sets are the same in both the first and second contexts. // Thus, canonical LR reuses the same state for both contexts. However, // the lookahead 'a' for the reduction "look: 'a'" later becomes an // error action only in the first context. In order to immediately // detect the syntax error on 'a' here for only the first context, this // canonical LR state would have to be split into two states, and the // 'a' lookahead would have to be removed from only one of the states. look: 'a' // Reduction lookahead set is always ['a', 'b']. | 'a' 'b' | 'a' 'c' // 'c' is forgotten as an expected token. ; reduce-nonassoc: %prec 'a'; %% ]AT_YYERROR_DEFINE[ ]AT_YYLEX_DEFINE(["aaa"])[ int main (void) { return yyparse (); } ]]) AT_BISON_OPTION_POPDEFS # Show canonical LR's failure. AT_BISON_CHECK([[-Dlr.type=canonical-lr -o input.c input.y]], [[0]], [[]], [[input.y: warning: 2 shift/reduce conflicts [-Wconflicts-sr] ]]) AT_COMPILE([[input]]) AT_PARSER_CHECK([[./input]], [[1]], [[]], [[syntax error, unexpected 'a', expecting 'b' ]]) # It's corrected by LAC. AT_BISON_CHECK([[-Dlr.type=canonical-lr -Dparse.lac=full \ -o input.c input.y]], [[0]], [[]], [[input.y: warning: 2 shift/reduce conflicts [-Wconflicts-sr] ]]) AT_COMPILE([[input]]) AT_PARSER_CHECK([[./input]], [[1]], [[]], [[syntax error, unexpected 'a', expecting 'b' or 'c' ]]) # IELR is sufficient when LAC is used. AT_BISON_CHECK([[-Dlr.type=ielr -Dparse.lac=full -o input.c input.y]], [[0]], [[]], [[input.y: warning: 2 shift/reduce conflicts [-Wconflicts-sr] ]]) AT_COMPILE([[input]]) AT_PARSER_CHECK([[./input]], [[1]], [[]], [[syntax error, unexpected 'a', expecting 'b' or 'c' ]]) AT_CLEANUP ## ------------------------- ## ## Unresolved SR Conflicts. ## ## ------------------------- ## AT_SETUP([Unresolved SR Conflicts]) AT_KEYWORDS([report]) AT_DATA([input.y], [[%token NUM OP %% exp: exp OP exp | NUM; ]]) AT_BISON_CHECK([-o input.c --report=all input.y], 0, [], [[input.y: warning: 1 shift/reduce conflict [-Wconflicts-sr] ]]) # Check the contents of the report. AT_CHECK([cat input.output], [], [[State 5 conflicts: 1 shift/reduce Grammar 0 $accept: exp $end 1 exp: exp OP exp 2 | NUM Terminals, with rules where they appear $end (0) 0 error (256) NUM (258) 2 OP (259) 1 Nonterminals, with rules where they appear $accept (5) on left: 0 exp (6) on left: 1 2, on right: 0 1 state 0 0 $accept: . exp $end 1 exp: . exp OP exp 2 | . NUM NUM shift, and go to state 1 exp go to state 2 state 1 2 exp: NUM . $default reduce using rule 2 (exp) state 2 0 $accept: exp . $end 1 exp: exp . OP exp $end shift, and go to state 3 OP shift, and go to state 4 state 3 0 $accept: exp $end . $default accept state 4 1 exp: . exp OP exp 1 | exp OP . exp 2 | . NUM NUM shift, and go to state 1 exp go to state 5 state 5 1 exp: exp . OP exp 1 | exp OP exp . [$end, OP] OP shift, and go to state 4 OP [reduce using rule 1 (exp)] $default reduce using rule 1 (exp) ]]) AT_CLEANUP ## ----------------------- ## ## Resolved SR Conflicts. ## ## ----------------------- ## AT_SETUP([Resolved SR Conflicts]) AT_KEYWORDS([report]) AT_DATA([input.y], [[%token NUM OP %left OP %% exp: exp OP exp | NUM; ]]) AT_BISON_CHECK([-o input.c --report=all input.y]) # Check the contents of the report. AT_CHECK([cat input.output], [], [[Grammar 0 $accept: exp $end 1 exp: exp OP exp 2 | NUM Terminals, with rules where they appear $end (0) 0 error (256) NUM (258) 2 OP (259) 1 Nonterminals, with rules where they appear $accept (5) on left: 0 exp (6) on left: 1 2, on right: 0 1 state 0 0 $accept: . exp $end 1 exp: . exp OP exp 2 | . NUM NUM shift, and go to state 1 exp go to state 2 state 1 2 exp: NUM . $default reduce using rule 2 (exp) state 2 0 $accept: exp . $end 1 exp: exp . OP exp $end shift, and go to state 3 OP shift, and go to state 4 state 3 0 $accept: exp $end . $default accept state 4 1 exp: . exp OP exp 1 | exp OP . exp 2 | . NUM NUM shift, and go to state 1 exp go to state 5 state 5 1 exp: exp . OP exp 1 | exp OP exp . [$end, OP] $default reduce using rule 1 (exp) Conflict between rule 1 and token OP resolved as reduce (%left OP). ]]) AT_CLEANUP ## ---------------------- ## ## %precedence suffices. ## ## ---------------------- ## AT_SETUP([%precedence suffices]) AT_DATA([input.y], [[%precedence "then" %precedence "else" %% stmt: "if" cond "then" stmt | "if" cond "then" stmt "else" stmt | "stmt" ; cond: "exp" ; ]]) AT_BISON_CHECK([-o input.c input.y]) AT_CLEANUP ## ------------------------------ ## ## %precedence does not suffice. ## ## ------------------------------ ## AT_SETUP([%precedence does not suffice]) AT_DATA([input.y], [[%precedence "then" %precedence "else" %% stmt: "if" cond "then" stmt | "if" cond "then" stmt "else" stmt | "stmt" ; cond: "exp" | cond "then" cond ; ]]) AT_BISON_CHECK([-o input.c input.y], 0, [], [[input.y: warning: 1 shift/reduce conflict [-Wconflicts-sr] input.y:12.3-18: warning: rule useless in parser due to conflicts: cond: cond "then" cond [-Wother] ]]) AT_CLEANUP ## -------------------------------- ## ## Defaulted Conflicted Reduction. ## ## -------------------------------- ## # When there are RR conflicts, some rules are disabled. Usually it is # simply displayed as: # # $end reduce using rule 3 (num) # $end [reduce using rule 4 (id)] # # But when `reduce 3' is the default action, we'd produce: # # $end [reduce using rule 4 (id)] # $default reduce using rule 3 (num) # # In this precise case (a reduction is masked by the default # reduction), we make the `reduce 3' explicit: # # $end reduce using rule 3 (num) # $end [reduce using rule 4 (id)] # $default reduce using rule 3 (num) # # Maybe that's not the best display, but then, please propose something # else. AT_SETUP([Defaulted Conflicted Reduction]) AT_KEYWORDS([report]) AT_DATA([input.y], [[%% exp: num | id; num: '0'; id : '0'; %% ]]) AT_BISON_CHECK([-o input.c --report=all input.y], 0, [], [[input.y: warning: 1 reduce/reduce conflict [-Wconflicts-rr] input.y:4.6-8: warning: rule useless in parser due to conflicts: id: '0' [-Wother] ]]) # Check the contents of the report. AT_CHECK([cat input.output], [], [[Rules useless in parser due to conflicts 4 id: '0' State 1 conflicts: 1 reduce/reduce Grammar 0 $accept: exp $end 1 exp: num 2 | id 3 num: '0' 4 id: '0' Terminals, with rules where they appear $end (0) 0 '0' (48) 3 4 error (256) Nonterminals, with rules where they appear $accept (4) on left: 0 exp (5) on left: 1 2, on right: 0 num (6) on left: 3, on right: 1 id (7) on left: 4, on right: 2 state 0 0 $accept: . exp $end 1 exp: . num 2 | . id 3 num: . '0' 4 id: . '0' '0' shift, and go to state 1 exp go to state 2 num go to state 3 id go to state 4 state 1 3 num: '0' . [$end] 4 id: '0' . [$end] $end reduce using rule 3 (num) $end [reduce using rule 4 (id)] $default reduce using rule 3 (num) state 2 0 $accept: exp . $end $end shift, and go to state 5 state 3 1 exp: num . $default reduce using rule 1 (exp) state 4 2 exp: id . $default reduce using rule 2 (exp) state 5 0 $accept: exp $end . $default accept ]]) AT_CLEANUP ## -------------------- ## ## %expect not enough. ## ## -------------------- ## AT_SETUP([%expect not enough]) AT_DATA([input.y], [[%token NUM OP %expect 0 %% exp: exp OP exp | NUM; ]]) AT_BISON_CHECK([-o input.c input.y], 1, [], [[input.y: error: shift/reduce conflicts: 1 found, 0 expected ]]) AT_CLEANUP ## --------------- ## ## %expect right. ## ## --------------- ## AT_SETUP([%expect right]) AT_DATA([input.y], [[%token NUM OP %expect 1 %% exp: exp OP exp | NUM; ]]) AT_BISON_CHECK([-o input.c input.y]) AT_CLEANUP ## ------------------ ## ## %expect too much. ## ## ------------------ ## AT_SETUP([%expect too much]) AT_DATA([input.y], [[%token NUM OP %expect 2 %% exp: exp OP exp | NUM; ]]) AT_BISON_CHECK([-o input.c input.y], 1, [], [[input.y: error: shift/reduce conflicts: 1 found, 2 expected ]]) AT_CLEANUP ## ------------------------------- ## ## %expect with reduce conflicts. ## ## ------------------------------- ## AT_SETUP([%expect with reduce conflicts]) AT_DATA([input.y], [[%expect 0 %% program: a 'a' | a a; a: 'a'; ]]) AT_BISON_CHECK([-o input.c input.y], 1, [], [[input.y: error: reduce/reduce conflicts: 1 found, 0 expected ]]) AT_CLEANUP ## ------------------------- ## ## %prec with user strings. ## ## ------------------------- ## AT_SETUP([%prec with user string]) AT_DATA([[input.y]], [[%% exp: "foo" %prec "foo" ; ]]) AT_BISON_CHECK([-o input.c input.y]) AT_CLEANUP ## -------------------------------- ## ## %no-default-prec without %prec. ## ## -------------------------------- ## AT_SETUP([%no-default-prec without %prec]) AT_DATA([[input.y]], [[%left '+' %left '*' %% %no-default-prec; e: e '+' e | e '*' e | '0' ; ]]) AT_BISON_CHECK([-o input.c input.y], 0, [], [[input.y: warning: 4 shift/reduce conflicts [-Wconflicts-sr] ]]) AT_CLEANUP ## ----------------------------- ## ## %no-default-prec with %prec. ## ## ----------------------------- ## AT_SETUP([%no-default-prec with %prec]) AT_DATA([[input.y]], [[%left '+' %left '*' %% %no-default-prec; e: e '+' e %prec '+' | e '*' e %prec '*' | '0' ; ]]) AT_BISON_CHECK([-o input.c input.y]) AT_CLEANUP ## --------------- ## ## %default-prec. ## ## --------------- ## AT_SETUP([%default-prec]) AT_DATA([[input.y]], [[%left '+' %left '*' %% %default-prec; e: e '+' e | e '*' e | '0' ; ]]) AT_BISON_CHECK([-o input.c input.y]) AT_CLEANUP ## ---------------------------------------------- ## ## Unreachable States After Conflict Resolution. ## ## ---------------------------------------------- ## AT_SETUP([[Unreachable States After Conflict Resolution]]) # If conflict resolution makes states unreachable, remove those states, report # rules that are then unused, and don't report conflicts in those states. Test # what happens when a nonterminal becomes useless as a result of state removal # since that causes lalr.o's goto map to be rewritten. AT_DATA([[input.y]], [[%output "input.c" %left 'a' %% start: resolved_conflict 'a' reported_conflicts 'a' ; /* S/R conflict resolved as reduce, so the state with item * (resolved_conflict: 'a' . unreachable1) and all it transition successors are * unreachable, and the associated production is useless. */ resolved_conflict: 'a' unreachable1 | %prec 'a' ; /* S/R conflict that need not be reported since it is unreachable because of * the previous conflict resolution. Nonterminal unreachable1 and all its * productions are useless. */ unreachable1: 'a' unreachable2 | ; /* Likewise for a R/R conflict and nonterminal unreachable2. */ unreachable2: | ; /* Make sure remaining S/R and R/R conflicts are still reported correctly even * when their states are renumbered due to state removal. */ reported_conflicts: 'a' | 'a' | ; ]]) AT_BISON_CHECK([[--report=all input.y]], 0, [], [[input.y: warning: 1 shift/reduce conflict [-Wconflicts-sr] input.y: warning: 1 reduce/reduce conflict [-Wconflicts-rr] input.y:12.5-20: warning: rule useless in parser due to conflicts: resolved_conflict: 'a' unreachable1 [-Wother] input.y:20.5-20: warning: rule useless in parser due to conflicts: unreachable1: 'a' unreachable2 [-Wother] input.y:21.4: warning: rule useless in parser due to conflicts: unreachable1: /* empty */ [-Wother] input.y:25.13: warning: rule useless in parser due to conflicts: unreachable2: /* empty */ [-Wother] input.y:25.16: warning: rule useless in parser due to conflicts: unreachable2: /* empty */ [-Wother] input.y:31.5-7: warning: rule useless in parser due to conflicts: reported_conflicts: 'a' [-Wother] input.y:32.4: warning: rule useless in parser due to conflicts: reported_conflicts: /* empty */ [-Wother] ]]) AT_CHECK([[cat input.output]], 0, [[Rules useless in parser due to conflicts 2 resolved_conflict: 'a' unreachable1 4 unreachable1: 'a' unreachable2 5 | /* empty */ 6 unreachable2: /* empty */ 7 | /* empty */ 9 reported_conflicts: 'a' 10 | /* empty */ State 4 conflicts: 1 shift/reduce State 5 conflicts: 1 reduce/reduce Grammar 0 $accept: start $end 1 start: resolved_conflict 'a' reported_conflicts 'a' 2 resolved_conflict: 'a' unreachable1 3 | /* empty */ 4 unreachable1: 'a' unreachable2 5 | /* empty */ 6 unreachable2: /* empty */ 7 | /* empty */ 8 reported_conflicts: 'a' 9 | 'a' 10 | /* empty */ Terminals, with rules where they appear $end (0) 0 'a' (97) 1 2 4 8 9 error (256) Nonterminals, with rules where they appear $accept (4) on left: 0 start (5) on left: 1, on right: 0 resolved_conflict (6) on left: 2 3, on right: 1 unreachable1 (7) on left: 4 5, on right: 2 unreachable2 (8) on left: 6 7, on right: 4 reported_conflicts (9) on left: 8 9 10, on right: 1 state 0 0 $accept: . start $end 1 start: . resolved_conflict 'a' reported_conflicts 'a' 2 resolved_conflict: . 'a' unreachable1 3 | . ['a'] $default reduce using rule 3 (resolved_conflict) start go to state 1 resolved_conflict go to state 2 Conflict between rule 3 and token 'a' resolved as reduce (%left 'a'). state 1 0 $accept: start . $end $end shift, and go to state 3 state 2 1 start: resolved_conflict . 'a' reported_conflicts 'a' 'a' shift, and go to state 4 state 3 0 $accept: start $end . $default accept state 4 1 start: resolved_conflict 'a' . reported_conflicts 'a' 8 reported_conflicts: . 'a' 9 | . 'a' 10 | . ['a'] 'a' shift, and go to state 5 'a' [reduce using rule 10 (reported_conflicts)] reported_conflicts go to state 6 state 5 8 reported_conflicts: 'a' . ['a'] 9 | 'a' . ['a'] 'a' reduce using rule 8 (reported_conflicts) 'a' [reduce using rule 9 (reported_conflicts)] $default reduce using rule 8 (reported_conflicts) state 6 1 start: resolved_conflict 'a' reported_conflicts . 'a' 'a' shift, and go to state 7 state 7 1 start: resolved_conflict 'a' reported_conflicts 'a' . $default reduce using rule 1 (start) ]]) AT_DATA([[input-keep.y]], [[%define lr.keep-unreachable-states ]]) AT_CHECK([[cat input.y >> input-keep.y]]) AT_BISON_CHECK([[input-keep.y]], 0, [], [[input-keep.y: warning: 2 shift/reduce conflicts [-Wconflicts-sr] input-keep.y: warning: 2 reduce/reduce conflicts [-Wconflicts-rr] input-keep.y:22.4: warning: rule useless in parser due to conflicts: unreachable1: /* empty */ [-Wother] input-keep.y:26.16: warning: rule useless in parser due to conflicts: unreachable2: /* empty */ [-Wother] input-keep.y:32.5-7: warning: rule useless in parser due to conflicts: reported_conflicts: 'a' [-Wother] input-keep.y:33.4: warning: rule useless in parser due to conflicts: reported_conflicts: /* empty */ [-Wother] ]]) AT_CLEANUP ## ------------------------------------------------------------ ## ## Solved conflicts report for multiple reductions in a state. ## ## ------------------------------------------------------------ ## AT_SETUP([[Solved conflicts report for multiple reductions in a state]]) # Used to lose earlier solved conflict messages even within a single S/R/R. AT_DATA([[input.y]], [[%left 'a' %right 'b' %right 'c' %right 'd' %% start: 'a' | empty_a 'a' | 'b' | empty_b 'b' | 'c' | empty_c1 'c' | empty_c2 'c' | empty_c3 'c' ; empty_a: %prec 'a' ; empty_b: %prec 'b' ; empty_c1: %prec 'c' ; empty_c2: %prec 'c' ; empty_c3: %prec 'd' ; ]]) AT_BISON_CHECK([[--report=all -o input.c input.y]], 0, [], [ignore]) AT_CHECK([[cat input.output | sed -n '/^state 0$/,/^state 1$/p']], 0, [[state 0 0 $accept: . start $end 1 start: . 'a' 2 | . empty_a 'a' 3 | . 'b' 4 | . empty_b 'b' 5 | . 'c' 6 | . empty_c1 'c' 7 | . empty_c2 'c' 8 | . empty_c3 'c' 9 empty_a: . ['a'] 10 empty_b: . [] 11 empty_c1: . [] 12 empty_c2: . [] 13 empty_c3: . ['c'] 'b' shift, and go to state 1 'c' reduce using rule 13 (empty_c3) $default reduce using rule 9 (empty_a) start go to state 2 empty_a go to state 3 empty_b go to state 4 empty_c1 go to state 5 empty_c2 go to state 6 empty_c3 go to state 7 Conflict between rule 9 and token 'a' resolved as reduce (%left 'a'). Conflict between rule 10 and token 'b' resolved as shift (%right 'b'). Conflict between rule 11 and token 'c' resolved as shift (%right 'c'). Conflict between rule 12 and token 'c' resolved as shift (%right 'c'). Conflict between rule 13 and token 'c' resolved as reduce ('c' < 'd'). state 1 ]]) AT_CLEANUP ## ------------------------------------------------------------ ## ## %nonassoc error actions for multiple reductions in a state. ## ## ------------------------------------------------------------ ## # Used to abort when trying to resolve conflicts as %nonassoc error actions for # multiple reductions in a state. # For a %nonassoc error action token, used to print the first remaining # reduction on that token without brackets. AT_SETUP([[%nonassoc error actions for multiple reductions in a state]]) AT_DATA([[input.y]], [[%nonassoc 'a' 'b' 'c' %% start: 'a' | empty_a 'a' | 'b' | empty_b 'b' | 'c' | empty_c1 'c' | empty_c2 'c' | empty_c3 'c' ; empty_a: %prec 'a' ; empty_b: %prec 'b' ; empty_c1: %prec 'c' ; empty_c2: %prec 'c' ; empty_c3: %prec 'c' ; ]]) AT_BISON_CHECK([[--report=all -o input.c input.y]], 0, [], [ignore]) AT_CHECK([[cat input.output | sed -n '/^state 0$/,/^state 1$/p']], 0, [[state 0 0 $accept: . start $end 1 start: . 'a' 2 | . empty_a 'a' 3 | . 'b' 4 | . empty_b 'b' 5 | . 'c' 6 | . empty_c1 'c' 7 | . empty_c2 'c' 8 | . empty_c3 'c' 9 empty_a: . [] 10 empty_b: . [] 11 empty_c1: . [] 12 empty_c2: . ['c'] 13 empty_c3: . ['c'] 'a' error (nonassociative) 'b' error (nonassociative) 'c' error (nonassociative) 'c' [reduce using rule 12 (empty_c2)] 'c' [reduce using rule 13 (empty_c3)] start go to state 1 empty_a go to state 2 empty_b go to state 3 empty_c1 go to state 4 empty_c2 go to state 5 empty_c3 go to state 6 Conflict between rule 9 and token 'a' resolved as an error (%nonassoc 'a'). Conflict between rule 10 and token 'b' resolved as an error (%nonassoc 'b'). Conflict between rule 11 and token 'c' resolved as an error (%nonassoc 'c'). state 1 ]]) AT_CLEANUP ## -------------------- ## ## %expect-rr non GLR. ## ## -------------------- ## AT_SETUP([[%expect-rr non GLR]]) AT_DATA([[1.y]], [[%expect-rr 0 %% exp: 'a' ]]) AT_BISON_CHECK([[1.y]], [[0]], [], [[1.y: warning: %expect-rr applies only to GLR parsers [-Wother] ]]) AT_DATA([[2.y]], [[%expect-rr 1 %% exp: 'a' | 'a'; ]]) AT_BISON_CHECK([[2.y]], [[0]], [], [[2.y: warning: %expect-rr applies only to GLR parsers [-Wother] 2.y: warning: 1 reduce/reduce conflict [-Wconflicts-rr] 2.y:3.12-14: warning: rule useless in parser due to conflicts: exp: 'a' [-Wother] ]]) AT_CLEANUP ## ---------------------------------- ## ## -W versus %expect and %expect-rr. ## ## ---------------------------------- ## AT_SETUP([[-W versus %expect and %expect-rr]]) AT_DATA([[sr-rr.y]], [[%glr-parser %% start: 'a' | A 'a' | B 'a' ; A: ; B: ; ]]) AT_DATA([[sr.y]], [[%glr-parser %% start: 'a' | A 'a' ; A: ; ]]) AT_DATA([[rr.y]], [[%glr-parser %% start: A | B ; A: ; B: ; ]]) AT_BISON_CHECK([[sr-rr.y]], [[0]], [[]], [[sr-rr.y: warning: 1 shift/reduce conflict [-Wconflicts-sr] sr-rr.y: warning: 1 reduce/reduce conflict [-Wconflicts-rr] ]]) AT_BISON_CHECK([[-Wno-conflicts-sr sr-rr.y]], [[0]], [[]], [[sr-rr.y: warning: 1 reduce/reduce conflict [-Wconflicts-rr] ]]) AT_BISON_CHECK([[-Wno-conflicts-rr sr-rr.y]], [[0]], [[]], [[sr-rr.y: warning: 1 shift/reduce conflict [-Wconflicts-sr] ]]) [ # This is piece of code is rather complex for a simple task: try every # combinaison of (0 or 1 real SR) x (0 or 1 real RR) x (don't %expect # or %expect 0, 1, or 2 SR) x (don't %expect-rr or %expect-rr 0, 1, or 2 # RR). # Number and types of genuine conflicts in the grammar. for gram in sr-rr sr rr; do # Number of expected s/r conflicts. for sr_exp_i in '' 0 1 2; do # Number of expected r/r conflicts. for rr_exp_i in '' 0 1 2; do test -z "$sr_exp_i" && test -z "$rr_exp_i" && continue # Build grammar file. sr_exp=0 rr_exp=0 file=$gram directives= if test -n "$sr_exp_i"; then sr_exp=$sr_exp_i file=$file-expect-$sr_exp directives="%expect $sr_exp" fi if test -n "$rr_exp_i"; then rr_exp=$rr_exp_i file=$file-expect-rr-$rr_exp directives="$directives %expect-rr $rr_exp" fi file=$file.y echo "$directives" > $file cat $gram.y >> $file # Number of found conflicts. case $gram in (sr) sr_count=1; rr_count=0;; (rr) sr_count=0; rr_count=1;; (sr-rr) sr_count=1; rr_count=1;; esac # Update number of expected conflicts: if %expect is given then # %expect-rr defaults to 0, and vice-versa. Leave empty if # nothing expected. case $sr_exp_i:$rr_exp_i in ?:) rr_exp_i=0;; :?) sr_exp_i=0;; esac # Run tests. if test $sr_count -eq $sr_exp && test $rr_count -eq $rr_exp; then ]AT_BISON_CHECK([[-Wnone $file]])[ ]AT_BISON_CHECK([[-Werror $file]])[ else { if test -z "$sr_exp_i" && test "$sr_count" -ne 0; then echo "warning: $sr_count shift/reduce conflicts" elif test "$sr_exp_i" -ne "$sr_count"; then echo "error: shift/reduce conflicts: $sr_count found, $sr_exp_i expected" fi if test -z "$rr_exp_i" && test "$rr_count" -ne 0; then echo "warning: $rr_count reduce/reduce conflicts" elif test "$rr_exp_i" -ne "$rr_count"; then echo "error: reduce/reduce conflicts: $rr_count found, $rr_exp_i expected" fi } | sed -e "s/^/$file: /" > experr ]AT_BISON_CHECK([[-Wnone $file]], [[1]], [[]], [[experr]])[ ]AT_BISON_CHECK([[-Werror $file]], [[1]], [[]], [[experr]])[ fi done done done] AT_CLEANUP