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%token TYPEDEF EXTERN STATIC AUTO REGISTER
%token CHAR SHORT INT LONG SIGNED UNSIGNED FLOAT DOUBLE CONST VOLATILE VOID
%token STRUCT UNION ENUM ELLIPSIS
%token CASE DEFAULT IF ELSE SWITCH WHILE DO FOR GOTO CONTINUE BREAK RETURN

%start begin

%%

primary_expression : IDENTIFIER | CONSTANT | STRING_LITERAL | '(' expression ')' ;

postfix_expression : primary_expression | postfix_expression '[' expression ']' | postfix_expression '(' ')' | postfix_expression '(' argument_expression_list ')' | postfix_expression '.' IDENTIFIER | postfix_expression PTR_OP IDENTIFIER | postfix_expression INC_OP | postfix_expression DEC_OP ;

argument_expression_list : assignment_expression | argument_expression_list ',' assignment_expression ;

unary_expression : postfix_expression | INC_OP unary_expression | DEC_OP unary_expression | unary_operator cast_expression | SIZEOF unary_expression | SIZEOF '(' type_name ')' ;

unary_operator : '&' | '*' | '+' | '-' | '~' | '!' ;

cast_expression : unary_expression | '(' type_name ')' cast_expression ;

multiplicative_expression : cast_expression | multiplicative_expression '*' cast_expression | multiplicative_expression '/' cast_expression | multiplicative_expression '%' cast_expression ;

additive_expression : multiplicative_expression | additive_expression '+' multiplicative_expression | additive_expression '-' multiplicative_expression ;

shift_expression : additive_expression | shift_expression LEFT_OP additive_expression | shift_expression RIGHT_OP additive_expression ;

relational_expression : shift_expression | relational_expression '<' shift_expression | relational_expression '>' shift_expression | relational_expression LE_OP shift_expression | relational_expression GE_OP shift_expression ;

equality_expression : relational_expression | equality_expression EQ_OP relational_expression | equality_expression NE_OP relational_expression ;

and_expression : equality_expression | and_expression '&' equality_expression ;

exclusive_or_expression : and_expression | exclusive_or_expression '^' and_expression ;

inclusive_or_expression : exclusive_or_expression | inclusive_or_expression '|' exclusive_or_expression ;

logical_and_expression : inclusive_or_expression | logical_and_expression AND_OP inclusive_or_expression ;

logical_or_expression : logical_and_expression | logical_or_expression OR_OP logical_and_expression ;

conditional_expression : logical_or_expression | logical_or_expression '?' expression ':' conditional_expression ;

assignment_expression : conditional_expression | unary_expression assignment_operator assignment_expression ;

assignment_operator : '=' | MUL_ASSIGN | DIV_ASSIGN | MOD_ASSIGN | ADD_ASSIGN | SUB_ASSIGN | LEFT_ASSIGN | RIGHT_ASSIGN | AND_ASSIGN | XOR_ASSIGN | OR_ASSIGN ;

expression : assignment_expression | expression ',' assignment_expression ;

constant_expression : conditional_expression ;

declaration : declaration_specifiers ';' | declaration_specifiers init_declarator_list ';' | error ';' { yyerrok; } ;

declaration_specifiers : storage_class_specifier | storage_class_specifier declaration_specifiers | type_specifier | type_specifier declaration_specifiers | type_qualifier | type_qualifier declaration_specifiers ;

init_declarator_list : init_declarator | init_declarator_list ',' init_declarator ;

init_declarator : declarator | declarator '=' initializer ;

storage_class_specifier : TYPEDEF | EXTERN | STATIC | AUTO | REGISTER ;

type_specifier : VOID | CHAR | SHORT | INT | LONG | FLOAT | DOUBLE | SIGNED | UNSIGNED | struct_or_union_specifier | enum_specifier | TYPE_NAME ;

struct_or_union_specifier : struct_or_union IDENTIFIER '{' struct_declaration_list '}' | struct_or_union '{' struct_declaration_list '}' | struct_or_union IDENTIFIER ;

struct_or_union : STRUCT | UNION ;

struct_declaration_list : struct_declaration | struct_declaration_list struct_declaration ;

struct_declaration : specifier_qualifier_list struct_declarator_list ';' | error ';' { yyerrok; } ;

specifier_qualifier_list : type_specifier specifier_qualifier_list | type_specifier | type_qualifier specifier_qualifier_list | type_qualifier ;

struct_declarator_list : struct_declarator | struct_declarator_list ',' struct_declarator ;

struct_declarator : declarator | ':' constant_expression | declarator ':' constant_expression ;

enum_specifier : ENUM '{' enumerator_list '}' | ENUM IDENTIFIER '{' enumerator_list '}' | ENUM IDENTIFIER ;

enumerator_list : enumerator | enumerator_list ',' enumerator ;

enumerator : IDENTIFIER | IDENTIFIER '=' constant_expression ;

type_qualifier : CONST | VOLATILE ;

declarator : pointer direct_declarator | direct_declarator ;

direct_declarator : IDENTIFIER | '(' declarator ')' | direct_declarator '[' constant_expression ']' | direct_declarator '[' ']' | direct_declarator '(' parameter_type_list ')' | direct_declarator '(' identifier_list ')' | direct_declarator '(' ')' ;

pointer : '' | '' type_qualifier_list | '' pointer | '' type_qualifier_list pointer ;

type_qualifier_list : type_qualifier | type_qualifier_list type_qualifier ;

parameter_type_list : parameter_list | parameter_list ',' ELLIPSIS ;

parameter_list : parameter_declaration | parameter_list ',' parameter_declaration ;

parameter_declaration : declaration_specifiers declarator | declaration_specifiers abstract_declarator | declaration_specifiers ;


identifier_list : IDENTIFIER | identifier_list ',' IDENTIFIER ;

type_name : specifier_qualifier_list | specifier_qualifier_list abstract_declarator ;

abstract_declarator : pointer | direct_abstract_declarator | pointer direct_abstract_declarator ;

direct_abstract_declarator : '(' abstract_declarator ')' | '[' ']' | '[' constant_expression ']' | direct_abstract_declarator '[' ']' | direct_abstract_declarator '[' constant_expression ']' | '(' ')' | '(' parameter_type_list ')' | direct_abstract_declarator '(' ')' | direct_abstract_declarator '(' parameter_type_list ')' ;

initializer : assignment_expression | '{' initializer_list '}' | '{' initializer_list ',' '}' ;

initializer_list : initializer | initializer_list ',' initializer ;

statement : labeled_statement | compound_statement | expression_statement | selection_statement | iteration_statement | jump_statement ;

labeled_statement : IDENTIFIER ':' statement | CASE constant_expression ':' statement | DEFAULT ':' statement ;

compound_statement : '{' '}' | '{' statement_list '}' | '{' declaration_list '}' | '{' declaration_list statement_list '}' ;

declaration_list : declaration | declaration_list declaration ;

statement_list : statement | statement_list statement ;

expression_statement : ';' | expression ';' | error ';' { yyerrok; } ;

selection_statement : IF '(' expression ')' statement | IF '(' expression ')' statement ELSE statement | SWITCH '(' expression ')' statement ;

iteration_statement : WHILE '(' expression ')' statement | DO statement WHILE '(' expression ')' ';' | FOR '(' expression_statement expression_statement ')' statement | FOR '(' expression_statement expression_statement expression ')' statement ;

jump_statement : GOTO IDENTIFIER ';' | CONTINUE ';' | BREAK ';' | RETURN ';' | RETURN expression ';' ;

begin : preprocessor_directive translation_unit;

preprocessor_directive : include_statements define_statements;

include_statements : HASH INCLUDE '<' IDENTIFIER '.' IDENTIFIER '>' | HASH INCLUDE '<' IDENTIFIER '>' | HASH INCLUDE '"' IDENTIFIER '.' IDENTIFIER '>' | HASH INCLUDE '"' IDENTIFIER '"' ;

define_statements : HASH DEFINE define_value | /* You can choose to not define anything */ ;

define_value : IDENTIFIER | CONSTANT | STRING_LITERAL ;

translation_unit : external_declaration | translation_unit external_declaration ;

external_declaration : function_definition | declaration ;

function_definition : declaration_specifiers declarator declaration_list compound_statement | declaration_specifiers declarator compound_statement | declarator declaration_list compound_statement | declarator compound_statement ;

%%
/* include */

int main()
{
    yyparse();
    return 0;
}
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closed as not constructive by marc_s, bensiu, DigitalRoss, john.k.doe, User1 Apr 14 '13 at 17:50

As it currently stands, this question is not a good fit for our Q&A format. We expect answers to be supported by facts, references, or expertise, but this question will likely solicit debate, arguments, polling, or extended discussion. If you feel that this question can be improved and possibly reopened, visit the help center for guidance.If this question can be reworded to fit the rules in the help center, please edit the question.

    
Ahem ...... what!?!?!? –  marc_s Apr 13 '13 at 21:17
    
Welcome to Stack Overflow. Please read the FAQ soon. Also note the noble of art of creating an SSCCE (Short, Self-Contained, Correct Example). What you've presented is intimidating, and is likely to garner down-votes. We'll help, but your question needs to be comprehensible. –  Jonathan Leffler Apr 14 '13 at 0:28

1 Answer 1

The reduce/reduce conflicts are caused by the error tokens in both the declaration and the expressions_statement. These two non-terminals are competing with each other in the compound_statement, so if an error occurs it is ambiguous where the recovery should take place. Loosing the error non-terminal in either one of these non-terminals solves the reduce/reduce conflicts. You may however also place the error tokens after some unambiguous pieces of both non-terminals has been parsed.

The shift/reduce conflict is caused by the infamous IF/THEN optional ELSE problem. The grammar is ambiguous to which IF statement an ELSE belongs in case of nested IFs. By default (shift is preferred over reduce), the ELSE will be assigned to the nested IF instead of the outer IF. If that is acceptable, which is kind of the standard, then you can ignore this shift/reduce conflict.

HINT: Run bison -v on your grammar and study the locations of the conflicts.

Under the motto SSCCE follows an illustration of the problem in your grammar:

%token DECL STMT
%left '+'
%%
compound : '{' declaration '}' | '{' statement '}';
declaration : DECL expression | error ';';
statement : STMT expression | error ';';
expression : expression '+' expression | '(' expression ')' | '1';
%%

The competition starts in compound and the reduce/reduce conflict occurs again with the error non-terminals. As you can see { error ; } can be both a declaration and a statement surrounded by braces. As this example shows a reduce/reduce conflict is not innocent, as bison will warn that the error containing rule of statement will never be used. Loosing one of the error rules will resolve the problem, but you should be aware that it will recover (in a sense) from both statement and declaration.

In the following example the error rules have been disambiguated and it contains no more conflicts:

%token DECL STMT
%left '+'
%%
compound : '{' declaration '}' | '{' statement '}';
declaration : DECL expression | DECL error ';';
statement : STMT expression | STMT error ';';
expression : expression '+' expression | '(' expression ')' | '1';
%%
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