# Exercising Bison on actual grammars. -*- Autotest -*- # Copyright (C) 1989, 1990, 1991, 1992, 2000, 2001, 2002, 2003, 2004, 2005 # 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([[Existing Grammars.]]) ## ----------------- ## ## GNU AWK Grammar. ## ## ----------------- ## AT_SETUP([GNU AWK Grammar]) # We have been careful to strip all the actions excepts the # mid-rule actions. We rely on %expect to check that there are # indeed 65 SR conflicts. # # Bison was once wrong, due to an incorrect computation of nullable. # It reported 485 SR conflicts! AT_DATA([[input.y]], [[%expect 65 %token FUNC_CALL NAME REGEXP %token ERROR %token YNUMBER YSTRING %token RELOP APPEND_OP %token ASSIGNOP MATCHOP NEWLINE CONCAT_OP %token LEX_BEGIN LEX_END LEX_IF LEX_ELSE LEX_RETURN LEX_DELETE %token LEX_WHILE LEX_DO LEX_FOR LEX_BREAK LEX_CONTINUE %token LEX_PRINT LEX_PRINTF LEX_NEXT LEX_EXIT LEX_FUNCTION %token LEX_GETLINE LEX_NEXTFILE %token LEX_IN %token LEX_AND LEX_OR INCREMENT DECREMENT %token LEX_BUILTIN LEX_LENGTH /* Lowest to highest */ %right ASSIGNOP %right '?' ':' %left LEX_OR %left LEX_AND %left LEX_GETLINE %nonassoc LEX_IN %left FUNC_CALL LEX_BUILTIN LEX_LENGTH %nonassoc ',' %nonassoc MATCHOP %nonassoc RELOP '<' '>' '|' APPEND_OP TWOWAYIO %left CONCAT_OP %left YSTRING YNUMBER %left '+' '-' %left '*' '/' '%' %right '!' UNARY %right '^' %left INCREMENT DECREMENT %left '$' %left '(' ')' %% start : opt_nls program opt_nls ; program : rule | program rule | error | program error | /* empty */ ; rule : LEX_BEGIN {} action | LEX_END {} action | LEX_BEGIN statement_term | LEX_END statement_term | pattern action | action | pattern statement_term | function_prologue function_body ; func_name : NAME | FUNC_CALL | lex_builtin ; lex_builtin : LEX_BUILTIN | LEX_LENGTH ; function_prologue : LEX_FUNCTION {} func_name '(' opt_param_list r_paren opt_nls ; function_body : l_brace statements r_brace opt_semi opt_nls | l_brace r_brace opt_semi opt_nls ; pattern : exp | exp ',' exp ; regexp /* * In this rule, want_regexp tells yylex that the next thing * is a regexp so it should read up to the closing slash. */ : '/' {} REGEXP '/' ; action : l_brace statements r_brace opt_semi opt_nls | l_brace r_brace opt_semi opt_nls ; statements : statement | statements statement | error | statements error ; statement_term : nls | semi opt_nls ; statement : semi opt_nls | l_brace r_brace | l_brace statements r_brace | if_statement | LEX_WHILE '(' exp r_paren opt_nls statement | LEX_DO opt_nls statement LEX_WHILE '(' exp r_paren opt_nls | LEX_FOR '(' NAME LEX_IN NAME r_paren opt_nls statement | LEX_FOR '(' opt_exp semi opt_nls exp semi opt_nls opt_exp r_paren opt_nls statement | LEX_FOR '(' opt_exp semi opt_nls semi opt_nls opt_exp r_paren opt_nls statement | LEX_BREAK statement_term | LEX_CONTINUE statement_term | print '(' expression_list r_paren output_redir statement_term | print opt_rexpression_list output_redir statement_term | LEX_NEXT statement_term | LEX_NEXTFILE statement_term | LEX_EXIT opt_exp statement_term | LEX_RETURN {} opt_exp statement_term | LEX_DELETE NAME '[' expression_list ']' statement_term | LEX_DELETE NAME statement_term | exp statement_term ; print : LEX_PRINT | LEX_PRINTF ; if_statement : LEX_IF '(' exp r_paren opt_nls statement | LEX_IF '(' exp r_paren opt_nls statement LEX_ELSE opt_nls statement ; nls : NEWLINE | nls NEWLINE ; opt_nls : /* empty */ | nls ; input_redir : /* empty */ | '<' simp_exp ; output_redir : /* empty */ | '>' exp | APPEND_OP exp | '|' exp | TWOWAYIO exp ; opt_param_list : /* empty */ | param_list ; param_list : NAME | param_list comma NAME | error | param_list error | param_list comma error ; /* optional expression, as in for loop */ opt_exp : /* empty */ | exp ; opt_rexpression_list : /* empty */ | rexpression_list ; rexpression_list : rexp | rexpression_list comma rexp | error | rexpression_list error | rexpression_list error rexp | rexpression_list comma error ; opt_expression_list : /* empty */ | expression_list ; expression_list : exp | expression_list comma exp | error | expression_list error | expression_list error exp | expression_list comma error ; /* Expressions, not including the comma operator. */ exp : variable ASSIGNOP {} exp | '(' expression_list r_paren LEX_IN NAME | exp '|' LEX_GETLINE opt_variable | exp TWOWAYIO LEX_GETLINE opt_variable | LEX_GETLINE opt_variable input_redir | exp LEX_AND exp | exp LEX_OR exp | exp MATCHOP exp | regexp | '!' regexp %prec UNARY | exp LEX_IN NAME | exp RELOP exp | exp '<' exp | exp '>' exp | exp '?' exp ':' exp | simp_exp | exp simp_exp %prec CONCAT_OP ; rexp : variable ASSIGNOP {} rexp | rexp LEX_AND rexp | rexp LEX_OR rexp | LEX_GETLINE opt_variable input_redir | regexp | '!' regexp %prec UNARY | rexp MATCHOP rexp | rexp LEX_IN NAME | rexp RELOP rexp | rexp '?' rexp ':' rexp | simp_exp | rexp simp_exp %prec CONCAT_OP ; simp_exp : non_post_simp_exp /* Binary operators in order of decreasing precedence. */ | simp_exp '^' simp_exp | simp_exp '*' simp_exp | simp_exp '/' simp_exp | simp_exp '%' simp_exp | simp_exp '+' simp_exp | simp_exp '-' simp_exp | variable INCREMENT | variable DECREMENT ; non_post_simp_exp : '!' simp_exp %prec UNARY | '(' exp r_paren | LEX_BUILTIN '(' opt_expression_list r_paren | LEX_LENGTH '(' opt_expression_list r_paren | LEX_LENGTH | FUNC_CALL '(' opt_expression_list r_paren | variable | INCREMENT variable | DECREMENT variable | YNUMBER | YSTRING | '-' simp_exp %prec UNARY | '+' simp_exp %prec UNARY ; opt_variable : /* empty */ | variable ; variable : NAME | NAME '[' expression_list ']' | '$' non_post_simp_exp ; l_brace : '{' opt_nls ; r_brace : '}' opt_nls ; r_paren : ')' ; opt_semi : /* empty */ | semi ; semi : ';' ; comma : ',' opt_nls ; %% ]]) # Pass plenty of options, to exercise plenty of code, even if we # don't actually check the output. But SEGV is watching us, and # so might do dmalloc. AT_CHECK([[bison --verbose --defines input.y]]) AT_CLEANUP ## ----------------- ## ## GNU Cim Grammar. ## ## ----------------- ## AT_SETUP([GNU Cim Grammar]) # GNU Cim, the GNU Simula 87 Compiler. # Bison was once wrong, due to an incorrect computation of the RR conflicts. # It reported 80 SR && 99 RR conflicts instead of 78/10!!! AT_DATA([[input.y]], [[%union {} %token HACTIVATE HAFTER /*HAND*/ HARRAY HAT HBEFORE HBEGIN HBOOLEAN HCHARACTER HCLASS /*HCOMMENT*/ HCONC HDELAY HDO HELSE HEND HEQ /*HEQV*/ HEXTERNAL HFOR HGE HGO HGOTO HGT HHIDDEN HIF /*HIMP*/ HIN HINNER HINSPECT HINTEGER HIS HLABEL HLE HLONG HLT HNAME HNE HNEW HNONE /*HNOT*/ HNOTEXT /*HOR*/ HOTHERWISE HPRIOR HPROCEDURE HPROTECTED HQUA HREACTIVATE HREAL HREF HSHORT HSTEP HSWITCH HTEXT HTHEN HTHIS HTO HUNTIL HVALUE HVAR HVIRTUAL HWHEN HWHILE HASSIGNVALUE HASSIGNREF /*HDOT*/ HPAREXPSEPARATOR HLABELSEPARATOR HSTATEMENTSEPARATOR HBEGPAR HENDPAR HEQR HNER HADD HSUB HMUL HDIV HINTDIV HEXP HDOTDOTDOT %token HIDENTIFIER %token HBOOLEANKONST HINTEGERKONST HCHARACTERKONST %token HREALKONST %token HTEXTKONST %right HASSIGN %left HORELSE %left HANDTHEN %left HEQV %left HIMP %left HOR %left HAND %left HNOT %left HVALRELOPERATOR HREFRELOPERATOR HOBJRELOPERATOR %left HCONC %left HTERMOPERATOR %left UNEAR %left HFACTOROPERATOR %left HPRIMARYOPERATOR %left HQUA %left HDOT %start MAIN_MODULE %% /* GRAMATIKK FOR PROGRAM MODULES */ MAIN_MODULE : {} MODULS | error HSTATEMENTSEPARATOR MBEE_DECLSTMS ; EXT_DECLARATION : HEXTERNAL MBEE_TYPE HPROCEDURE {} EXT_LIST | HEXTERNAL HIDENTIFIER HPROCEDURE {} HIDENTIFIER {} EXTERNAL_KIND_ITEM | HEXTERNAL HCLASS {} EXT_LIST ; EXTERNAL_KIND_ITEM: EXT_IDENT HOBJRELOPERATOR {} MBEE_TYPE HPROCEDURE HIDENTIFIER {} HEADING EMPTY_BLOCK {} /* | EXT_IDENT {} MBEE_REST_EXT_LIST ; MBEE_REST_EXT_LIST: /* EMPTY | HPAREXPSEPARATOR EXT_KIND_LIST ; EXT_KIND_LIST : EXT_KIND_ITEM | EXT_KIND_LIST HPAREXPSEPARATOR EXT_KIND_ITEM ; EXT_KIND_ITEM : HIDENTIFIER EXT_IDENT {}*/ ; EMPTY_BLOCK : /*EMPT*/ | HBEGIN HEND ; EXT_LIST : EXT_ITEM | EXT_LIST HPAREXPSEPARATOR EXT_ITEM ; EXT_ITEM : HIDENTIFIER EXT_IDENT ; EXT_IDENT : /* EMPTY */ | HVALRELOPERATOR {} HTEXTKONST ; /* GRAMATIKK FOR TYPER */ NO_TYPE : /*EMPT*/ ; MBEE_TYPE : NO_TYPE | TYPE ; TYPE : HREF HBEGPAR HIDENTIFIER {} HENDPAR | HTEXT | HBOOLEAN | HCHARACTER | HSHORT HINTEGER | HINTEGER | HREAL | HLONG HREAL ; /* GRAMATIKK FOR DEL AV SETNINGER */ MBEE_ELSE_PART : /*EMPT*/ /* | HELSE HIF EXPRESSION HTHEN {} BLOCK {} MBEE_ELSE_PART {}*/ | HELSE {} BLOCK ; FOR_LIST : FOR_LIST_ELEMENT | FOR_LIST_ELEMENT HPAREXPSEPARATOR FOR_LIST ; FOR_LIST_ELEMENT: EXPRESSION MBEE_F_L_EL_R_PT ; MBEE_F_L_EL_R_PT: /*EMPT*/ | HWHILE EXPRESSION | HSTEP EXPRESSION HUNTIL EXPRESSION ; GOTO : HGO HTO | HGOTO ; CONN_STATE_R_PT : WHEN_CLAUSE_LIST | HDO {} BLOCK ; WHEN_CLAUSE_LIST: HWHEN HIDENTIFIER HDO {} BLOCK | WHEN_CLAUSE_LIST HWHEN HIDENTIFIER HDO {} BLOCK ; MBEE_OTWI_CLAUS : /*EMPT*/ | HOTHERWISE {} BLOCK ; ACTIVATOR : HACTIVATE | HREACTIVATE ; SCHEDULE : /*EMPT*/ | ATDELAY EXPRESSION {} PRIOR | BEFOREAFTER {} EXPRESSION ; ATDELAY : HAT | HDELAY ; BEFOREAFTER : HBEFORE | HAFTER ; PRIOR : /*EMPT*/ | HPRIOR ; /* GRAMATIKK FOR SETNINGER OG DEKLARASJONER */ MODULSTATEMENT : HWHILE EXPRESSION HDO {} BLOCK | HIF EXPRESSION HTHEN {} BLOCK {} MBEE_ELSE_PART | HFOR HIDENTIFIER HASSIGN {} FOR_LIST HDO {} BLOCK | GOTO EXPRESSION | HINSPECT EXPRESSION {} CONN_STATE_R_PT {} MBEE_OTWI_CLAUS | HINNER | HIDENTIFIER HLABELSEPARATOR {} DECLSTATEMENT | EXPRESSION_SIMP HBEGIN {} IMPORT_SPEC_MODULE {} MBEE_DECLSTMS HEND | EXPRESSION_SIMP HBEGIN error HSTATEMENTSEPARATOR MBEE_DECLSTMS HEND | EXPRESSION_SIMP HBEGIN error HEND | EXPRESSION_SIMP | ACTIVATOR EXPRESSION SCHEDULE | HBEGIN {} MBEE_DECLSTMS HEND | MBEE_TYPE HPROCEDURE HIDENTIFIER {} HEADING BLOCK | HIDENTIFIER HCLASS NO_TYPE {} IMPORT_SPEC_MODULE HIDENTIFIER {} HEADING BLOCK | HCLASS NO_TYPE HIDENTIFIER {} HEADING BLOCK | EXT_DECLARATION | /*EMPT*/ ; IMPORT_SPEC_MODULE: ; DECLSTATEMENT : MODULSTATEMENT | TYPE HIDENTIFIER MBEE_CONSTANT HPAREXPSEPARATOR {} IDENTIFIER_LISTC | TYPE HIDENTIFIER MBEE_CONSTANT | MBEE_TYPE HARRAY {} ARR_SEGMENT_LIST | HSWITCH HIDENTIFIER HASSIGN {} SWITCH_LIST ; BLOCK : DECLSTATEMENT | HBEGIN MBEE_DECLSTMS HEND | HBEGIN error HSTATEMENTSEPARATOR MBEE_DECLSTMS HEND | HBEGIN error HEND ; MBEE_DECLSTMS : MBEE_DECLSTMSU ; MBEE_DECLSTMSU : DECLSTATEMENT | MBEE_DECLSTMSU HSTATEMENTSEPARATOR DECLSTATEMENT ; MODULS : MODULSTATEMENT | MODULS HSTATEMENTSEPARATOR MODULSTATEMENT ; /* GRAMATIKK FOR DEL AV DEKLARASJONER */ ARR_SEGMENT_LIST: ARR_SEGMENT | ARR_SEGMENT_LIST HPAREXPSEPARATOR ARR_SEGMENT ; ARR_SEGMENT : ARRAY_SEGMENT HBEGPAR BAUND_PAIR_LIST HENDPAR ; ARRAY_SEGMENT : ARRAY_SEGMENT_EL {} | ARRAY_SEGMENT_EL HPAREXPSEPARATOR ARRAY_SEGMENT ; ARRAY_SEGMENT_EL: HIDENTIFIER ; BAUND_PAIR_LIST : BAUND_PAIR | BAUND_PAIR HPAREXPSEPARATOR BAUND_PAIR_LIST ; BAUND_PAIR : EXPRESSION HLABELSEPARATOR EXPRESSION ; SWITCH_LIST : EXPRESSION | EXPRESSION HPAREXPSEPARATOR SWITCH_LIST ; HEADING : MBEE_FMAL_PAR_P HSTATEMENTSEPARATOR {} MBEE_MODE_PART {} MBEE_SPEC_PART {} MBEE_PROT_PART {} MBEE_VIRT_PART ; MBEE_FMAL_PAR_P : /*EMPT*/ | FMAL_PAR_PART ; FMAL_PAR_PART : HBEGPAR NO_TYPE MBEE_LISTV HENDPAR ; MBEE_LISTV : /*EMPT*/ | LISTV ; LISTV : HIDENTIFIER | FPP_CATEG HDOTDOTDOT | HIDENTIFIER {} HPAREXPSEPARATOR LISTV | FPP_SPEC | FPP_SPEC HPAREXPSEPARATOR LISTV ; FPP_HEADING : HBEGPAR NO_TYPE FPP_MBEE_LISTV HENDPAR ; FPP_MBEE_LISTV : /*EMPT*/ | FPP_LISTV ; FPP_LISTV : FPP_CATEG HDOTDOTDOT | FPP_SPEC | FPP_SPEC HPAREXPSEPARATOR LISTV ; FPP_SPEC : FPP_CATEG SPECIFIER HIDENTIFIER | FPP_CATEG FPP_PROC_DECL_IN_SPEC ; FPP_CATEG : HNAME HLABELSEPARATOR | HVALUE HLABELSEPARATOR | HVAR HLABELSEPARATOR | /*EMPT*/ ; FPP_PROC_DECL_IN_SPEC: MBEE_TYPE HPROCEDURE HIDENTIFIER {} FPP_HEADING {} { /* Yes, two "final" actions. */ } ; IDENTIFIER_LISTV: HIDENTIFIER | HDOTDOTDOT | HIDENTIFIER {} HPAREXPSEPARATOR IDENTIFIER_LISTV ; MBEE_MODE_PART : /*EMPT*/ | MODE_PART ; MODE_PART : NAME_PART | VALUE_PART | VAR_PART | NAME_PART VALUE_PART | VALUE_PART NAME_PART | NAME_PART VAR_PART | VAR_PART NAME_PART | VALUE_PART VAR_PART | VAR_PART VALUE_PART | VAR_PART NAME_PART VALUE_PART | NAME_PART VAR_PART VALUE_PART | NAME_PART VALUE_PART VAR_PART | VAR_PART VALUE_PART NAME_PART | VALUE_PART VAR_PART NAME_PART | VALUE_PART NAME_PART VAR_PART ; NAME_PART : HNAME {} IDENTIFIER_LISTV HSTATEMENTSEPARATOR ; VAR_PART : HVAR {} IDENTIFIER_LISTV HSTATEMENTSEPARATOR ; VALUE_PART : HVALUE {} IDENTIFIER_LISTV HSTATEMENTSEPARATOR ; MBEE_SPEC_PART : /*EMPT*/ | SPEC_PART ; SPEC_PART : ONE_SPEC | SPEC_PART ONE_SPEC ; ONE_SPEC : SPECIFIER IDENTIFIER_LIST HSTATEMENTSEPARATOR | NO_TYPE HPROCEDURE HIDENTIFIER HOBJRELOPERATOR {} PROC_DECL_IN_SPEC HSTATEMENTSEPARATOR | FPP_PROC_DECL_IN_SPEC HSTATEMENTSEPARATOR | MBEE_TYPE HPROCEDURE HIDENTIFIER HSTATEMENTSEPARATOR | MBEE_TYPE HPROCEDURE HIDENTIFIER HPAREXPSEPARATOR IDENTIFIER_LIST HSTATEMENTSEPARATOR ; SPECIFIER : TYPE | MBEE_TYPE HARRAY | HLABEL | HSWITCH ; PROC_DECL_IN_SPEC: MBEE_TYPE HPROCEDURE HIDENTIFIER {} HEADING {} MBEE_BEGIN_END ; MBEE_BEGIN_END : /* EMPTY */ | HBEGIN HEND ; MBEE_PROT_PART : /*EMPT*/ | PROTECTION_PART ; PROTECTION_PART : PROT_SPECIFIER IDENTIFIER_LIST HSTATEMENTSEPARATOR | PROTECTION_PART PROT_SPECIFIER IDENTIFIER_LIST HSTATEMENTSEPARATOR ; PROT_SPECIFIER : HHIDDEN | HPROTECTED | HHIDDEN HPROTECTED | HPROTECTED HHIDDEN ; MBEE_VIRT_PART : /*EMPT*/ | VIRTUAL_PART ; VIRTUAL_PART : HVIRTUAL HLABELSEPARATOR MBEE_SPEC_PART ; IDENTIFIER_LIST : HIDENTIFIER | IDENTIFIER_LIST HPAREXPSEPARATOR HIDENTIFIER ; IDENTIFIER_LISTC: HIDENTIFIER MBEE_CONSTANT | IDENTIFIER_LISTC HPAREXPSEPARATOR HIDENTIFIER MBEE_CONSTANT ; MBEE_CONSTANT : /* EMPTY */ | HVALRELOPERATOR {} EXPRESSION ; /* GRAMATIKK FOR UTTRYKK */ EXPRESSION : EXPRESSION_SIMP | HIF EXPRESSION HTHEN EXPRESSION HELSE EXPRESSION ; EXPRESSION_SIMP : EXPRESSION_SIMP HASSIGN EXPRESSION | EXPRESSION_SIMP HCONC EXPRESSION_SIMP | EXPRESSION_SIMP HOR HELSE EXPRESSION_SIMP %prec HORELSE | EXPRESSION_SIMP HAND HTHEN EXPRESSION_SIMP %prec HANDTHEN | EXPRESSION_SIMP HEQV EXPRESSION_SIMP | EXPRESSION_SIMP HIMP EXPRESSION_SIMP | EXPRESSION_SIMP HOR EXPRESSION_SIMP | EXPRESSION_SIMP HAND EXPRESSION_SIMP | HNOT EXPRESSION_SIMP | EXPRESSION_SIMP HVALRELOPERATOR EXPRESSION_SIMP | EXPRESSION_SIMP HREFRELOPERATOR EXPRESSION_SIMP | EXPRESSION_SIMP HOBJRELOPERATOR EXPRESSION_SIMP | HTERMOPERATOR EXPRESSION_SIMP %prec UNEAR | EXPRESSION_SIMP HTERMOPERATOR EXPRESSION_SIMP | EXPRESSION_SIMP HFACTOROPERATOR EXPRESSION_SIMP | EXPRESSION_SIMP HPRIMARYOPERATOR EXPRESSION_SIMP | HBEGPAR EXPRESSION HENDPAR | HTEXTKONST | HCHARACTERKONST | HREALKONST | HINTEGERKONST | HBOOLEANKONST | HNONE | HIDENTIFIER {} MBEE_ARG_R_PT | HTHIS HIDENTIFIER | HNEW HIDENTIFIER ARG_R_PT | EXPRESSION_SIMP HDOT EXPRESSION_SIMP | EXPRESSION_SIMP HQUA HIDENTIFIER ; ARG_R_PT : /*EMPTY*/ | HBEGPAR ARGUMENT_LIST HENDPAR ; MBEE_ARG_R_PT : /*EMPTY*/ | HBEGPAR ARGUMENT_LIST HENDPAR ; ARGUMENT_LIST : EXPRESSION | EXPRESSION HPAREXPSEPARATOR ARGUMENT_LIST ; %% ]]) # Pass plenty of options, to exercise plenty of code, even if we # don't actually check the output. But SEGV is watching us, and # so might do dmalloc. AT_CHECK([[bison --verbose --defines input.y]], 0, [], [[input.y: conflicts: 78 shift/reduce, 10 reduce/reduce ]]) AT_CHECK([[grep '^State.*conflicts:' input.output]], 0, [[State 64 conflicts: 14 shift/reduce State 164 conflicts: 1 shift/reduce State 201 conflicts: 33 shift/reduce, 4 reduce/reduce State 206 conflicts: 1 shift/reduce State 240 conflicts: 1 shift/reduce State 335 conflicts: 9 shift/reduce, 2 reduce/reduce State 356 conflicts: 1 shift/reduce State 360 conflicts: 9 shift/reduce, 2 reduce/reduce State 427 conflicts: 9 shift/reduce, 2 reduce/reduce ]]) AT_CLEANUP ## ----------------- ## ## GNU pic Grammar. ## ## ----------------- ## AT_SETUP([GNU pic Grammar]) # GNU pic, part of groff. # Bison once reported shift/reduce conflicts that it shouldn't have. AT_DATA([[input.y]], [[%union {} %token LABEL %token VARIABLE %token NUMBER %token TEXT %token COMMAND_LINE %token DELIMITED %token ORDINAL %token TH %token LEFT_ARROW_HEAD %token RIGHT_ARROW_HEAD %token DOUBLE_ARROW_HEAD %token LAST %token UP %token DOWN %token LEFT %token RIGHT %token BOX %token CIRCLE %token ELLIPSE %token ARC %token LINE %token ARROW %token MOVE %token SPLINE %token HEIGHT %token RADIUS %token WIDTH %token DIAMETER %token FROM %token TO %token AT %token WITH %token BY %token THEN %token SOLID %token DOTTED %token DASHED %token CHOP %token SAME %token INVISIBLE %token LJUST %token RJUST %token ABOVE %token BELOW %token OF %token THE %token WAY %token BETWEEN %token AND %token HERE %token DOT_N %token DOT_E %token DOT_W %token DOT_S %token DOT_NE %token DOT_SE %token DOT_NW %token DOT_SW %token DOT_C %token DOT_START %token DOT_END %token DOT_X %token DOT_Y %token DOT_HT %token DOT_WID %token DOT_RAD %token SIN %token COS %token ATAN2 %token LOG %token EXP %token SQRT %token K_MAX %token K_MIN %token INT %token RAND %token SRAND %token COPY %token THRU %token TOP %token BOTTOM %token UPPER %token LOWER %token SH %token PRINT %token CW %token CCW %token FOR %token DO %token IF %token ELSE %token ANDAND %token OROR %token NOTEQUAL %token EQUALEQUAL %token LESSEQUAL %token GREATEREQUAL %token LEFT_CORNER %token RIGHT_CORNER %token NORTH %token SOUTH %token EAST %token WEST %token CENTER %token END %token START %token RESET %token UNTIL %token PLOT %token THICKNESS %token FILL %token COLORED %token OUTLINED %token SHADED %token ALIGNED %token SPRINTF %token COMMAND %left '.' /* this ensures that plot 17 "%g" parses as (plot 17 "%g") */ %left PLOT %left TEXT SPRINTF /* give text adjustments higher precedence than TEXT, so that box "foo" above ljust == box ("foo" above ljust) */ %left LJUST RJUST ABOVE BELOW %left LEFT RIGHT /* Give attributes that take an optional expression a higher precedence than left and right, so that eg `line chop left' parses properly. */ %left CHOP SOLID DASHED DOTTED UP DOWN FILL COLORED OUTLINED %left LABEL %left VARIABLE NUMBER '(' SIN COS ATAN2 LOG EXP SQRT K_MAX K_MIN INT RAND SRAND LAST %left ORDINAL HERE '`' %left BOX CIRCLE ELLIPSE ARC LINE ARROW SPLINE '[' /* ] */ /* these need to be lower than '-' */ %left HEIGHT RADIUS WIDTH DIAMETER FROM TO AT THICKNESS /* these must have higher precedence than CHOP so that `label %prec CHOP' works */ %left DOT_N DOT_E DOT_W DOT_S DOT_NE DOT_SE DOT_NW DOT_SW DOT_C %left DOT_START DOT_END TOP BOTTOM LEFT_CORNER RIGHT_CORNER %left UPPER LOWER NORTH SOUTH EAST WEST CENTER START END %left ',' %left OROR %left ANDAND %left EQUALEQUAL NOTEQUAL %left '<' '>' LESSEQUAL GREATEREQUAL %left BETWEEN OF %left AND %left '+' '-' %left '*' '/' '%' %right '!' %right '^' %% top: optional_separator | element_list ; element_list: optional_separator middle_element_list optional_separator ; middle_element_list: element | middle_element_list separator element ; optional_separator: /* empty */ | separator ; separator: ';' | separator ';' ; placeless_element: VARIABLE '=' any_expr | VARIABLE ':' '=' any_expr | UP | DOWN | LEFT | RIGHT | COMMAND_LINE | COMMAND print_args | PRINT print_args | SH {} DELIMITED | COPY TEXT | COPY TEXT THRU {} DELIMITED {} until | COPY THRU {} DELIMITED {} until | FOR VARIABLE '=' expr TO expr optional_by DO {} DELIMITED | simple_if | simple_if ELSE {} DELIMITED | reset_variables | RESET ; reset_variables: RESET VARIABLE | reset_variables VARIABLE | reset_variables ',' VARIABLE ; print_args: print_arg | print_args print_arg ; print_arg: expr %prec ',' | text | position %prec ',' ; simple_if: IF any_expr THEN {} DELIMITED ; until: /* empty */ | UNTIL TEXT ; any_expr: expr | text_expr ; text_expr: text EQUALEQUAL text | text NOTEQUAL text | text_expr ANDAND text_expr | text_expr ANDAND expr | expr ANDAND text_expr | text_expr OROR text_expr | text_expr OROR expr | expr OROR text_expr | '!' text_expr ; optional_by: /* empty */ | BY expr | BY '*' expr ; element: object_spec | LABEL ':' optional_separator element | LABEL ':' optional_separator position_not_place | LABEL ':' optional_separator place | '{}' {} optional_element | placeless_element ; optional_element: /* empty */ | element ; object_spec: BOX | CIRCLE | ELLIPSE | ARC | LINE | ARROW | MOVE | SPLINE | text %prec TEXT | PLOT expr | PLOT expr text | '[' {} element_list ']' | object_spec HEIGHT expr | object_spec RADIUS expr | object_spec WIDTH expr | object_spec DIAMETER expr | object_spec expr %prec HEIGHT | object_spec UP | object_spec UP expr | object_spec DOWN | object_spec DOWN expr | object_spec RIGHT | object_spec RIGHT expr | object_spec LEFT | object_spec LEFT expr | object_spec FROM position | object_spec TO position | object_spec AT position | object_spec WITH path | object_spec WITH position %prec ',' | object_spec BY expr_pair | object_spec THEN | object_spec SOLID | object_spec DOTTED | object_spec DOTTED expr | object_spec DASHED | object_spec DASHED expr | object_spec FILL | object_spec FILL expr | object_spec SHADED text | object_spec COLORED text | object_spec OUTLINED text | object_spec CHOP | object_spec CHOP expr | object_spec SAME | object_spec INVISIBLE | object_spec LEFT_ARROW_HEAD | object_spec RIGHT_ARROW_HEAD | object_spec DOUBLE_ARROW_HEAD | object_spec CW | object_spec CCW | object_spec text %prec TEXT | object_spec LJUST | object_spec RJUST | object_spec ABOVE | object_spec BELOW | object_spec THICKNESS expr | object_spec ALIGNED ; text: TEXT | SPRINTF '(' TEXT sprintf_args ')' ; sprintf_args: /* empty */ | sprintf_args ',' expr ; position: position_not_place | place ; position_not_place: expr_pair | position '+' expr_pair | position '-' expr_pair | '(' position ',' position ')' | expr between position AND position | expr '<' position ',' position '>' ; between: BETWEEN | OF THE WAY BETWEEN ; expr_pair: expr ',' expr | '(' expr_pair ')' ; place: /* line at A left == line (at A) left */ label %prec CHOP | label corner | corner label | corner OF label | HERE ; label: LABEL | nth_primitive | label '.' LABEL ; ordinal: ORDINAL | '`' any_expr TH ; optional_ordinal_last: LAST | ordinal LAST ; nth_primitive: ordinal object_type | optional_ordinal_last object_type ; object_type: BOX | CIRCLE | ELLIPSE | ARC | LINE | ARROW | SPLINE | '[' ']' | TEXT ; label_path: '.' LABEL | label_path '.' LABEL ; relative_path: corner %prec CHOP /* give this a lower precedence than LEFT and RIGHT so that [A: box] with .A left == [A: box] with (.A left) */ | label_path %prec TEXT | label_path corner ; path: relative_path | '(' relative_path ',' relative_path ')' {} /* The rest of these rules are a compatibility sop. */ | ORDINAL LAST object_type relative_path | LAST object_type relative_path | ORDINAL object_type relative_path | LABEL relative_path ; corner: DOT_N | DOT_E | DOT_W | DOT_S | DOT_NE | DOT_SE | DOT_NW | DOT_SW | DOT_C | DOT_START | DOT_END | TOP | BOTTOM | LEFT | RIGHT | UPPER LEFT | LOWER LEFT | UPPER RIGHT | LOWER RIGHT | LEFT_CORNER | RIGHT_CORNER | UPPER LEFT_CORNER | LOWER LEFT_CORNER | UPPER RIGHT_CORNER | LOWER RIGHT_CORNER | NORTH | SOUTH | EAST | WEST | CENTER | START | END ; expr: VARIABLE | NUMBER | place DOT_X | place DOT_Y | place DOT_HT | place DOT_WID | place DOT_RAD | expr '+' expr | expr '-' expr | expr '*' expr | expr '/' expr | expr '%' expr | expr '^' expr | '-' expr %prec '!' | '(' any_expr ')' | SIN '(' any_expr ')' | COS '(' any_expr ')' | ATAN2 '(' any_expr ',' any_expr ')' | LOG '(' any_expr ')' | EXP '(' any_expr ')' | SQRT '(' any_expr ')' | K_MAX '(' any_expr ',' any_expr ')' | K_MIN '(' any_expr ',' any_expr ')' | INT '(' any_expr ')' | RAND '(' any_expr ')' | RAND '(' ')' | SRAND '(' any_expr ')' | expr '<' expr | expr LESSEQUAL expr | expr '>' expr | expr GREATEREQUAL expr | expr EQUALEQUAL expr | expr NOTEQUAL expr | expr ANDAND expr | expr OROR expr | '!' expr ; ]]) # Pass plenty of options, to exercise plenty of code, even if we # don't actually check the output. But SEGV is watching us, and # so might do dmalloc. AT_CHECK([[bison --verbose --defines input.y]], 0, [], []) AT_CLEANUP