/* This is a yacc-able parser for the entire ANSI C++ grammar with no unresolved conflicts. */ /* The parse is SYNTACTICALLY consistent and requires no template or type name assistance. * The grammar in the C++ standard notes that its grammar is a superset of the true * grammar requiring semantic constraints to resolve ambiguities. This grammar is a really big * superset unifying expressions and declarations, eliminating the type/non-type distinction, * and iterating to find a consistent solution to the template/arith,metoic < ambiguity. * As a result the grammar is much simpler, but requires the missing semantic constraints to be * performed in a subsequent semantic pass, which is of course where they belong. This grammar will * support conversion of C++ tokens into an Abstract Syntax Tree. A lot of further work is required to * make that tree useful. * * Author: E.D.Willink Ed.Willink@rrl.co.uk * Date: 19-Nov-1999 */ /*StartTester*/ %{ #include %} /*EndTester*/ /* * The lexer (and/or a preprocessor) is expected to identify the following * * Punctuation: */ %type '+' '-' '*' '/' '%' '^' '&' '|' '~' '!' '<' '>' '=' ':' '[' ']' '{' '}' '(' ')' %type '?' '.' '\'' '\"' '\\' '@' '$' ';' ',' /* * Punctuation sequences */ %term ARROW ARROW_STAR DEC EQ GE INC LE LOG_AND LOG_OR NE SHL SHR %term ASS_ADD ASS_AND ASS_DIV ASS_MOD ASS_MUL ASS_OR ASS_SHL ASS_SHR ASS_SUB ASS_XOR %term DOT_STAR ELLIPSIS SCOPE /* * Reserved words */ %term PRIVATE PROTECTED PUBLIC %term BOOL CHAR DOUBLE FLOAT INT LONG SHORT SIGNED UNSIGNED VOID WCHAR_T %term CLASS ENUM NAMESPACE STRUCT TYPENAME UNION %term CONST VOLATILE %term AUTO EXPLICIT EXPORT EXTERN FRIEND INLINE MUTABLE REGISTER STATIC TEMPLATE TYPEDEF USING VIRTUAL %term ASM BREAK CASE CATCH CONST_CAST CONTINUE DEFAULT DELETE DO DYNAMIC_CAST %term ELSE FALSE FOR GOTO IF NEW OPERATOR REINTERPRET_CAST RETURN %term SIZEOF STATIC_CAST SWITCH THIS THROW TRUE TRY TYPEID WHILE /* * Parametric values. */ %term CharacterLiteral %term FloatingLiteral %term Identifier %term IntegerLiteral %term NumberLiteral %term StringLiteral /* * The lexer need not treat '0' as distinct from IntegerLiteral in the hope that pure-specifier can * be distinguished, It isn't. Semantic rescue from = constant-expression is necessary. * * The lexer is not required to distinguish template or type names, although a slight simplification to the * grammar and elaboration of the action rules could make good use of template name information. * * In return for not needing to use semantic information, the lexer must support back-tracking, which * is easily achieved by a simple linear buffer, a reference implementation of which may be found in the * accompanying CxxParsing.cxx. Back-tracking is used to support: * * Binary search for a consistent parse of the template/arithmetic ambiguity. * start_search() initialises the search * advance_search() iterates the search * end_search() cleans up after a search * template_test() maintains context during a search * * Lookahead to resolve the inheritance/anonymous bit-field similarity * mark() saves the starting context * unmark() pops it * rewind_colon() restores the context and forces the missing : * * Lookahead to resolve type 1 function parameter ambiguities * mark_type1() potentially marks the starting position * mark() marks the pre { position * remark() rewinds to the starting position * unmark() pops the starting position * * Note that lookaheads may nest. */ /* * The parsing philosophy is unusual. The major ambiguities are resolved by creating a unified superset * grammar rather than non-overlapping subgrammars. Thus the grammar for parameter-declaration covers an * assignment-expression. Minor ambiguities whose resolution by supersetting would create more * ambiguities are resolved the normal way with partitioned subgrammars. * This eliminates the traditional expression/declaration and constructor/parenthesised declarator * ambiguities at the syntactic level. A subsequent semantic level has to sort the problems out. * The generality introduces four bogus ambiguities and defers the cast ambiguity for resolution * once semantic information is available. * * The C++ grammar comprises 558 rules and uses 894 states in yacc, with 0 unresolved conflicts. * 24 conflicts from 10 ambiguities are resolved by 8 %prec's, so that yacc and bison report 0 conflicts. * * The ambiguities are: * 1) dangling else resolved to inner-most if * 1 conflict in 1 state on else * 2) < as start-template or less-than * 1 conflict in 2 states on < * 3) a :: b :: c resolved to favour a::b::c rather than a::b ::c or a ::b::c * 1 conflicts in 1 state for :: * 4) pointer operators maximised at end of conversion id/new in preference to binary operators * 2 conflicts in 4 states on * and & * 5a) (a)@b resolved to favour binary a@b rather than cast unary (a)(@b) * 5b) (a)(b) resolved to favour cast rather than call * 8 conflicts in 1 state for the 8 prefix operators: 6 unaries and ( and [. * 6) enum name { resolved to enum-specifier rather than function * 1 conflict in 1 state on { * 7) class name { resolved to class-specifier rather than function * 1 conflict in 1 state on { * 8) extern "C" resolved to linkage-specification rather than declaration * 1 conflict in 1 state on StringLiteral * 9) class X : forced to go through base-clause look-ahead * 1 conflict in 1 state on : * 10) id : forced to label_statement rather than constructor_head * 0 conflicts - but causes a double state for 2) * of which * 1 is a fundamental C conflict - always correctly resolved * can be removed - see the Java spec * 2, 3, 4 are fundamental C++ conflicts * 2 always consistently resolved by iteration * 3 always correctly resolved * 4 always correctly resolved * 5 is a result of not using type information - deferred for semantic repair * 6,7 are caused by parsing over-generous superset - always correctly resolved * 8 is caused by parsing over-generous superset - always correctly resolved * can be removed at the expense of 7 rules and 5 states. * 9 is a look-ahead trick - always correctly resolved * could be removed by marking one token sooner * 10 is caused by parsing over-generous superset - always correctly resolved * * The hard problem of distinguishing * class A { class B : C, D, E { -- A::B privately inherits C, D and E * class A { class B : C, D, E ; -- C is width of anon bit-field * is resolved by using a lookahead that assumes inheritance and rewinds for the bit-field. * * The potential shift-reduce conflict on > is resolved by flattening part of the expression grammar * to know when the next > is template end or arithmetic >. * * The grammar is SYNTACTICALLY context-free with respect to type. No semantic assistance is required * during syntactic analysis. However the cast ambiguity is deferred and must be recovered * after syntactic analysis of a statement has completed. * * The grammar is SYNTACTICALLY context-free with respect to template-names. This is achieved by * organising a binary search over all possible template/arithmetic ambiguities with respect to * the enclosing statement. This is potentially exponentially inefficient but well-behaved in practice. * Approximately 1% of statements trigger a search and approximately 1% of those are misparsed, * requiring the semantic analysis to check and correct once template information is available. * 1.5 parse attempts are required on average per ambiguous statement. * * The grammar supports type I function declarations at severe impediment to efficiency. A lookahead * has to be performed after almost every non-statement close parenthesis. A one-line plus corollary * change to postfix_expression is commented and strongly recommended to make this grammar as * efficient as the rather large number of reduction levels permits. * * Error recovery occurs mostly at the statement/declaration level. Recovery also occurs at * the list-element level where this poses no hazard to statement/declaration level recovery. * Note that since error propagation interacts with the lookaheads for template iteration or * type 1 function arguments, introduction of finer grained error recovery may repair a false * parse and so cause a misparse. * * The following syntactic analysis errors occur, but are correctable semantically: * (cast)unary-op expr is parsed as (parenthesised)binary-op expr * The semantic test should look for a binary/call with a (type) as its left child. * (parenthesised)(arguments) is parsed as (cast)(parenthesised) * The semantic test should look for a cast with a non-type as its left child. * template < and arithmetic < may be cross-parsed (unless semnatic help is provided) * approximately 0.01% are misparsed, and must be sorted out - not easy. * * The syntactic analysis defers the following ambiguities for semantic resolution: * declaration/expression is parsed as a unified concept * Use type and context to complete the parse. * ~class-name is parsed as unary~ name * The semantic test should look for ~ with a type as its child. * delete[] expr is parsed as delete []expr * The semantic test should look for delete with a [] cast of its child. * operator new/delete[] are parsed as array of operator new/delete * The semantic test should look for array of operator new/delete * or activate the two extra commented rules in operator * template of an explicit_instantiation is buried deep in the tree * dig it out * pure-specifier and constant-initializer are covered by assignment-expression * just another of the deferred declaration/expression ambiguities * sizeof and typeid don't distinguish type/value syntaxes * probably makes life polymorphically easier */ /* Action code is supplied by a large number of YACC_xxx macros that can be redefined * by rewriting the include file rather than the grammar. The number of macros is * slightly reduced by using the following protocols * * YACC_LIST(0,0) create empty list (may safely return 0). * YACC_LIST(0,E) create new list with content E (may return 0 if above returned non-0). * YACC_LIST(L,E) add E to L * YACC_LIST(L,0) error propagation, adding nothing to L. */ %type bang %type colon_mark mark mark_type1 %type nest %type access_specifier %type base_specifier %type base_specifier_list %type built_in_type_id built_in_type_specifier %type <_class> class_specifier_head %type class_key %type condition condition.opt %type cv_qualifier cv_qualifier_seq.opt %type decl_specifier_affix decl_specifier_prefix decl_specifier_suffix function_specifier storage_class_specifier %type accessibility_specifier asm_definition block_declaration declaration explicit_specialization %type looped_declaration looping_declaration namespace_alias_definition %type specialised_block_declaration specialised_declaration template_declaration using_directive %type compound_declaration declaration_seq.opt %type nested_ptr_operator ptr_operator %type enumerator_definition %type enumerator_clause enumerator_list enumerator_list_head %type exception_declaration %type exception_specification %type abstract_declarator.opt abstract_expression abstract_parameter_declaration abstract_pointer_declaration %type additive_expression and_expression assignment_expression %type bit_field_declaration bit_field_init_declaration bit_field_width boolean_literal %type cast_expression conditional_expression constant_expression conversion_type_id ctor_definition %type delete_expression direct_abstract_declarator direct_abstract_declarator.opt direct_new_declarator %type equality_expression exclusive_or_expression expression expression.opt %type for_init_statement func_definition function_definition %type inclusive_or_expression init_declaration literal logical_and_expression logical_or_expression %type multiplicative_expression new_declarator new_expression new_type_id %type pm_expression postfix_expression primary_expression ptr_operator_seq ptr_operator_seq.opt %type relational_expression shift_expression simple_declaration special_parameter_declaration %type templated_throw_expression throw_expression templated_abstract_declaration templated_and_expression %type templated_assignment_expression templated_conditional_expression templated_equality_expression %type templated_exclusive_or_expression templated_expression templated_inclusive_or_expression templated_logical_and_expression %type templated_logical_or_expression templated_relational_expression type_id unary_expression %type constructor_head expression_list expression_list.opt init_declarations %type new_initializer.opt templated_expression_list type_id_list %type function_block function_body function_try_block try_block %type handler %type handler_seq %type braced_initializer initializer_clause looped_initializer_clause looping_initializer_clause %type initializer_list %type assignment_operator %type start_search start_search1 %type mem_initializer %type ctor_initializer ctor_initializer.opt mem_initializer_list mem_initializer_list_head %type class_specifier conversion_function_id declarator_id destructor_id %type elaborated_class_specifier elaborated_enum_specifier elaborated_type_specifier elaborate_type_specifier %type enum_specifier enumerator global_scope id id_scope identifier linkage_specification mem_initializer_id %type namespace_definition nested_id nested_pseudo_destructor_id nested_special_function_id %type operator operator_function_id pseudo_destructor_id scoped_id scoped_pseudo_destructor_id scoped_special_function_id %type simple_type_specifier special_function_id suffix_built_in_decl_specifier suffix_named_decl_specifier.bi %type suffix_built_in_decl_specifier.raw suffix_decl_specified_ids suffix_named_decl_specifiers %type suffix_named_decl_specifiers.sf suffix_decl_specified_scope suffix_named_decl_specifier %type template_id type_specifier %type parameter_declaration templated_parameter_declaration %type parameters_clause parameter_declaration_clause parameter_declaration_list %type parenthesis_clause %type star_ptr_operator %type simple_type_parameter %type compound_statement control_statement declaration_statement iteration_statement jump_statement %type labeled_statement looped_statement looping_statement selection_statement statement %type statement_seq.opt %type string %type template_argument %type template_argument_list %type template_parameter %type template_parameter_clause template_parameter_list %type templated_type_parameter %type type1_parameters %type util /* * C++ productions replaced by more generalised FOG productions */ %type looped_member_declaration looping_member_declaration member_declaration using_declaration %type member_specification.opt %type member_init_declaration simple_member_declaration %type member_init_declarations %nonassoc SHIFT_THERE %nonassoc SCOPE ELSE INC DEC '+' '-' '*' '&' '[' '{' '<' ':' StringLiteral %nonassoc REDUCE_HERE_MOSTLY %nonassoc '(' /*%nonassoc REDUCE_HERE */ %start translation_unit %% /* * The %prec resolves the $014.2-3 ambiguity: * Identifier '<' is forced to go through the is-it-a-template-name test * All names absorb TEMPLATE with the name, so that no template_test is performed for them. * This requires all potential declarations within an expression to perpetuate this policy * and thereby guarantee the ultimate coverage of explicit_instantiation. * * The %prec also resolves a conflict in identifier : which is forced to be a shift of a label for * a labeled-statement rather than a reduction for the name of a bit-field or generalised constructor. * This is pretty dubious syntactically but correct for all semantic possibilities. * The shift is only activated when the ambiguity exists at the start of a statement. In this context * a bit-field declaration or constructor definition are not allowed. */ identifier: Identifier { $$ = $1; } id: identifier %prec SHIFT_THERE /* Force < through test */ { $$ = YACC_NAME($1); } | identifier template_test '+' template_argument_list '>' { $$ = YACC_TEMPLATE_NAME($1, $4); } | identifier template_test '-' /* requeued < follows */ { $$ = YACC_NAME($1); } | template_id template_test: '<' /* Queue '+' or '-' < as follow on */ { template_test(); } global_scope: SCOPE { $$ = 0; } | TEMPLATE global_scope { $$ = YACC_SET_TEMPLATE_SCOPE($2); } id_scope: id SCOPE { $$ = YACC_NESTED_SCOPE($1); } /* * A :: B :: C; is ambiguous How much is type and how much name ? * The %prec maximises the (type) length which is the $07.1-2 semantic constraint. */ nested_id: id %prec SHIFT_THERE /* Maximise length */ | id_scope nested_id { $$ = YACC_NESTED_ID($1, $2); } scoped_id: nested_id | global_scope nested_id { $$ = YACC_SCOPED_ID($1, $2); } /* * destructor_id has to be held back to avoid a conflict with a one's complement as per $05.3.1-9, * It gets put back only when scoped or in a declarator_id, which is only used as an explicit member name. * Declarations of an unscoped destructor are always parsed as a one's complement. */ destructor_id: '~' id { $$ = YACC_DESTRUCTOR_ID($2); } | TEMPLATE destructor_id { $$ = YACC_SET_TEMPLATE_ID($2); } special_function_id: conversion_function_id | operator_function_id | TEMPLATE special_function_id { $$ = YACC_SET_TEMPLATE_ID($2); } nested_special_function_id: special_function_id | id_scope destructor_id { $$ = YACC_NESTED_ID($1, $2); } | id_scope nested_special_function_id { $$ = YACC_NESTED_ID($1, $2); } scoped_special_function_id: nested_special_function_id | global_scope nested_special_function_id { $$ = YACC_SCOPED_ID($1, $2); } /* declarator-id is all names in all scopes, except reserved words */ declarator_id: scoped_id | scoped_special_function_id | destructor_id /* The standard defines pseudo-destructors in terms of type-name, which is class/enum/typedef, of which * class-name is covered by a normal destructor. pseudo-destructors are supposed to support ~int() in * templates, so the grammar here covers built-in names. Other names are covered by the lack of * identifier/type discrimination. */ built_in_type_id: built_in_type_specifier | built_in_type_id built_in_type_specifier { $$ = YACC_BUILT_IN_IDS($1, $2); } pseudo_destructor_id: built_in_type_id SCOPE '~' built_in_type_id { $$ = YACC_PSEUDO_DESTRUCTOR_ID($1, $4); } | '~' built_in_type_id { $$ = YACC_PSEUDO_DESTRUCTOR_ID(0, $2); } | TEMPLATE pseudo_destructor_id { $$ = YACC_SET_TEMPLATE_ID($2); } nested_pseudo_destructor_id: pseudo_destructor_id | id_scope nested_pseudo_destructor_id { $$ = YACC_NESTED_ID($1, $2); } scoped_pseudo_destructor_id: nested_pseudo_destructor_id | global_scope scoped_pseudo_destructor_id { $$ = YACC_SCOPED_ID($1, $2); } /*--------------------------------------------------------------------------------------------------- * A.2 Lexical conventions *---------------------------------------------------------------------------------------------------*/ /* * String concatenation is a phase 6, not phase 7 activity so does not really belong in the grammar. * However it may be convenient to have it here to make this grammar fully functional. * Unfortunately it introduces a conflict with the generalised parsing of extern "C" which * is correctly resolved to maximise the string length as the token source should do anyway. */ string: StringLiteral { $$ = YACC_STRINGS($1, 0); } /*string: StringLiteral %prec SHIFT_THERE { $$ = YACC_STRINGS($1, 0); } */ /* | StringLiteral string -- Perverse order avoids conflicts -- { $$ = YACC_STRINGS($1, $2); } */ literal: IntegerLiteral { $$ = YACC_INTEGER_LITERAL_EXPRESSION($1); } | CharacterLiteral { $$ = YACC_CHARACTER_LITERAL_EXPRESSION($1); } | FloatingLiteral { $$ = YACC_FLOATING_LITERAL_EXPRESSION($1); } | string { $$ = YACC_STRING_LITERAL_EXPRESSION($1); } | boolean_literal boolean_literal: FALSE { $$ = YACC_FALSE_EXPRESSION(); } | TRUE { $$ = YACC_TRUE_EXPRESSION(); } /*--------------------------------------------------------------------------------------------------- * A.3 Basic concepts *---------------------------------------------------------------------------------------------------*/ translation_unit: declaration_seq.opt { YACC_RESULT($1); } /*--------------------------------------------------------------------------------------------------- * A.4 Expressions *--------------------------------------------------------------------------------------------------- * primary_expression covers an arbitrary sequence of all names with the exception of an unscoped destructor, * which is parsed as its unary expression which is the correct disambiguation (when ambiguous). * This eliminates the traditional A(B) meaning A B ambiguity, since we never have to tack an A onto * the front of something that might start with (. The name length got maximised ab initio. The downside * is that semantic interpretation must split the names up again. * * Unification of the declaration and expression syntax means that unary and binary pointer declarator operators: * int * * name * are parsed as binary and unary arithmetic operators (int) * (*name). Since type information is not used * ambiguities resulting from a cast * (cast)*(value) * are resolved to favour the binary rather than the cast unary to ease AST clean-up. * The cast-call ambiguity must be resolved to the cast to ensure that (a)(b)c can be parsed. * * The problem of the functional cast ambiguity * name(arg) * as call or declaration is avoided by maximising the name within the parsing kernel. So * primary_id_expression picks up * extern long int const var = 5; * as an assignment to the syntax parsed as "extern long int const var". The presence of two names is * parsed so that "extern long into const" is distinguished from "var" considerably simplifying subsequent * semantic resolution. * * The generalised name is a concatenation of potential type-names (scoped identifiers or built-in sequences) * plus optionally one of the special names such as an operator-function-id, conversion-function-id or * destructor as the final name. */ primary_expression: literal | THIS { $$ = YACC_THIS_EXPRESSION(); } | suffix_decl_specified_ids { $$ = $1; } /* | SCOPE identifier -- covered by suffix_decl_specified_ids */ /* | SCOPE operator_function_id -- covered by suffix_decl_specified_ids */ /* | SCOPE qualified_id -- covered by suffix_decl_specified_ids */ | abstract_expression %prec REDUCE_HERE_MOSTLY /* Prefer binary to unary ops, cast to call */ /* | id_expression -- covered by suffix_decl_specified_ids */ /* * Abstract-expression covers the () and [] of abstract-declarators. */ abstract_expression: parenthesis_clause { $$ = YACC_ABSTRACT_FUNCTION_EXPRESSION($1); } | '[' expression.opt ']' { $$ = YACC_ABSTRACT_ARRAY_EXPRESSION($2); } | TEMPLATE abstract_expression { $$ = YACC_SET_TEMPLATE_EXPRESSION($2); } /* Type I function parameters are ambiguous with respect to the generalised name, so we have to do a lookahead following * any function-like parentheses. This unfortunately hits normal code, so kill the -- lines and add the ++ lines for efficiency. * Supporting Type I code under the superset causes perhaps 25% of lookahead parsing. Sometimes complete class definitions * get traversed since they are valid generalised type I parameters! */ type1_parameters: /*----*/ parameter_declaration_list ';' { $$ = YACC_TYPE1_PARAMETERS(0, $1); } | /*----*/ type1_parameters parameter_declaration_list ';' { $$ = YACC_TYPE1_PARAMETERS($1, $2); } mark_type1: /* empty */ { $$ = mark_type1(); yyclearin; } postfix_expression: primary_expression /* | /++++++/ postfix_expression parenthesis_clause { $$ = YACC_CALL_EXPRESSION($1, $2); } */ | /*----*/ postfix_expression parenthesis_clause mark_type1 '-' { $$ = YACC_CALL_EXPRESSION($1, $2); } | /*----*/ postfix_expression parenthesis_clause mark_type1 '+' type1_parameters mark '{' error /*----*/ { yyerrok; yyclearin; remark_type1($6); unmark(); unmark($5); $$ = YACC_TYPE1_EXPRESSION($1, $2, $5); } | /*----*/ postfix_expression parenthesis_clause mark_type1 '+' type1_parameters mark error /*----*/ { yyerrok; yyclearin; remark_type1($3); unmark(); unmark(); $$ = YACC_CALL_EXPRESSION($1, $2); } | /*----*/ postfix_expression parenthesis_clause mark_type1 '+' error /*----*/ { yyerrok; yyclearin; remark_type1($3); unmark(); $$ = YACC_CALL_EXPRESSION($1, $2); } | postfix_expression '[' expression.opt ']' { $$ = YACC_ARRAY_EXPRESSION($1, $3); } /* | destructor_id '[' expression.opt ']' -- not semantically valid */ /* | destructor_id parenthesis_clause -- omitted to resolve known ambiguity */ /* | simple_type_specifier '(' expression_list.opt ')' -- simple_type_specifier is a primary_expression */ | postfix_expression '.' declarator_id { $$ = YACC_DOT_EXPRESSION($1, $3); } /* | postfix_expression '.' TEMPLATE declarator_id -- TEMPLATE absorbed into declarator_id. */ | postfix_expression '.' scoped_pseudo_destructor_id { $$ = YACC_DOT_EXPRESSION($1, $3); } | postfix_expression ARROW declarator_id { $$ = YACC_ARROW_EXPRESSION($1, $3); } /* | postfix_expression ARROW TEMPLATE declarator_id -- TEMPLATE absorbed into declarator_id. */ | postfix_expression ARROW scoped_pseudo_destructor_id { $$ = YACC_ARROW_EXPRESSION($1, $3); } | postfix_expression INC { $$ = YACC_POST_INCREMENT_EXPRESSION($1); } | postfix_expression DEC { $$ = YACC_POST_DECREMENT_EXPRESSION($1); } | DYNAMIC_CAST '<' type_id '>' '(' expression ')' { $$ = YACC_DYNAMIC_CAST_EXPRESSION($3, $6); } | STATIC_CAST '<' type_id '>' '(' expression ')' { $$ = YACC_STATIC_CAST_EXPRESSION($3, $6); } | REINTERPRET_CAST '<' type_id '>' '(' expression ')' { $$ = YACC_REINTERPRET_CAST_EXPRESSION($3, $6); } | CONST_CAST '<' type_id '>' '(' expression ')' { $$ = YACC_CONST_CAST_EXPRESSION($3, $6); } | TYPEID parameters_clause { $$ = YACC_TYPEID_EXPRESSION($2); } /* | TYPEID '(' expression ')' -- covered by parameters_clause */ /* | TYPEID '(' type_id ')' -- covered by parameters_clause */ expression_list.opt: /* empty */ { $$ = YACC_EXPRESSIONS(0, 0); } | expression_list expression_list: assignment_expression { $$ = YACC_EXPRESSIONS(0, $1); } | expression_list ',' assignment_expression { $$ = YACC_EXPRESSIONS($1, $3); } unary_expression: postfix_expression | INC cast_expression { $$ = YACC_PRE_INCREMENT_EXPRESSION($2); } | DEC cast_expression { $$ = YACC_PRE_DECREMENT_EXPRESSION($2); } | ptr_operator cast_expression { $$ = YACC_POINTER_EXPRESSION($1, $2); } /* | '*' cast_expression -- covered by ptr_operator */ /* | '&' cast_expression -- covered by ptr_operator */ /* | decl_specifier_seq '*' cast_expression -- covered by binary operator */ /* | decl_specifier_seq '&' cast_expression -- covered by binary operator */ | suffix_decl_specified_scope star_ptr_operator cast_expression /* covers e.g int ::type::* const t = 4 */ { $$ = YACC_SCOPED_POINTER_EXPRESSION($1, $2, $3); } | '+' cast_expression { $$ = YACC_PLUS_EXPRESSION($2); } | '-' cast_expression { $$ = YACC_MINUS_EXPRESSION($2); } | '!' cast_expression { $$ = YACC_NOT_EXPRESSION($2); } | '~' cast_expression { $$ = YACC_COMPLEMENT_EXPRESSION($2); } | SIZEOF unary_expression { $$ = YACC_SIZEOF_EXPRESSION($2); } /* | SIZEOF '(' type_id ')' -- covered by unary_expression */ | new_expression | global_scope new_expression { $$ = YACC_GLOBAL_EXPRESSION($2); } | delete_expression | global_scope delete_expression { $$ = YACC_GLOBAL_EXPRESSION($2); } /* | DELETE '[' ']' cast_expression -- covered by DELETE cast_expression since cast_expression covers ... */ /* | SCOPE DELETE '[' ']' cast_expression // ... abstract_expression cast_expression and so [] cast_expression */ delete_expression: DELETE cast_expression /* also covers DELETE[] cast_expression */ { $$ = YACC_DELETE_EXPRESSION($2); } new_expression: NEW new_type_id new_initializer.opt { $$ = YACC_NEW_TYPE_ID_EXPRESSION(0, $2, $3); } | NEW parameters_clause new_type_id new_initializer.opt { $$ = YACC_NEW_TYPE_ID_EXPRESSION($2, $3, $4); } | NEW parameters_clause { $$ = YACC_NEW_EXPRESSION($2, 0, 0); } /* | NEW '(' type-id ')' -- covered by parameters_clause */ | NEW parameters_clause parameters_clause new_initializer.opt { $$ = YACC_NEW_EXPRESSION($2, $3, $4); } /* | NEW '(' type-id ')' new_initializer -- covered by parameters_clause parameters_clause */ /* | NEW parameters_clause '(' type-id ')' -- covered by parameters_clause parameters_clause */ /* ptr_operator_seq.opt production reused to save a %prec */ new_type_id: type_specifier ptr_operator_seq.opt { $$ = YACC_TYPED_EXPRESSION($1, $2); } | type_specifier new_declarator { $$ = YACC_TYPED_EXPRESSION($1, $2); } | type_specifier new_type_id { $$ = YACC_TYPED_EXPRESSION($1, $2); } new_declarator: ptr_operator new_declarator { $$ = YACC_POINTER_EXPRESSION($1, $2); } | direct_new_declarator direct_new_declarator: '[' expression ']' { $$ = YACC_ABSTRACT_ARRAY_EXPRESSION($2); } | direct_new_declarator '[' constant_expression ']' { $$ = YACC_ARRAY_EXPRESSION($1, $3); } new_initializer.opt: /* empty */ { $$ = YACC_EXPRESSIONS(0, 0); } | '(' expression_list.opt ')' { $$ = $2; } /* cast-expression is generalised to support a [] as well as a () prefix. This covers the omission of DELETE[] which when * followed by a parenthesised expression was ambiguous. It also covers the gcc indexed array initialisation for free. */ cast_expression: unary_expression | abstract_expression cast_expression { $$ = YACC_CAST_EXPRESSION($1, $2); } /* | '(' type_id ')' cast_expression -- covered by abstract_expression */ pm_expression: cast_expression | pm_expression DOT_STAR cast_expression { $$ = YACC_DOT_STAR_EXPRESSION($1, $3); } | pm_expression ARROW_STAR cast_expression { $$ = YACC_ARROW_STAR_EXPRESSION($1, $3); } multiplicative_expression: pm_expression | multiplicative_expression star_ptr_operator pm_expression { $$ = YACC_MULTIPLY_EXPRESSION($1, $2, $3); } | multiplicative_expression '/' pm_expression { $$ = YACC_DIVIDE_EXPRESSION($1, $3); } | multiplicative_expression '%' pm_expression { $$ = YACC_MODULUS_EXPRESSION($1, $3); } additive_expression: multiplicative_expression | additive_expression '+' multiplicative_expression { $$ = YACC_ADD_EXPRESSION($1, $3); } | additive_expression '-' multiplicative_expression { $$ = YACC_SUBTRACT_EXPRESSION($1, $3); } shift_expression: additive_expression | shift_expression SHL additive_expression { $$ = YACC_SHIFT_LEFT_EXPRESSION($1, $3); } | shift_expression SHR additive_expression { $$ = YACC_SHIFT_RIGHT_EXPRESSION($1, $3); } relational_expression: shift_expression | relational_expression '<' shift_expression { $$ = YACC_LESS_THAN_EXPRESSION($1, $3); } | relational_expression '>' shift_expression { $$ = YACC_GREATER_THAN_EXPRESSION($1, $3); } | relational_expression LE shift_expression { $$ = YACC_LESS_EQUAL_EXPRESSION($1, $3); } | relational_expression GE shift_expression { $$ = YACC_GREATER_EQUAL_EXPRESSION($1, $3); } equality_expression: relational_expression | equality_expression EQ relational_expression { $$ = YACC_EQUAL_EXPRESSION($1, $3); } | equality_expression NE relational_expression { $$ = YACC_NOT_EQUAL_EXPRESSION($1, $3); } and_expression: equality_expression | and_expression '&' equality_expression { $$ = YACC_AND_EXPRESSION($1, $3); } exclusive_or_expression: and_expression | exclusive_or_expression '^' and_expression { $$ = YACC_EXCLUSIVE_OR_EXPRESSION($1, $3); } inclusive_or_expression: exclusive_or_expression | inclusive_or_expression '|' exclusive_or_expression { $$ = YACC_INCLUSIVE_OR_EXPRESSION($1, $3); } logical_and_expression: inclusive_or_expression | logical_and_expression LOG_AND inclusive_or_expression { $$ = YACC_LOGICAL_AND_EXPRESSION($1, $3); } logical_or_expression: logical_and_expression | logical_or_expression LOG_OR logical_and_expression { $$ = YACC_LOGICAL_OR_EXPRESSION($1, $3); } conditional_expression: logical_or_expression | logical_or_expression '?' expression ':' assignment_expression { $$ = YACC_CONDITIONAL_EXPRESSION($1, $3, $5); } /* assignment-expression is generalised to cover the simple assignment of a braced initializer in order to contribute to the * coverage of parameter-declaration and init-declaration. */ assignment_expression: conditional_expression | logical_or_expression assignment_operator assignment_expression { $$ = YACC_ASSIGNMENT_EXPRESSION($1, $2, $3); } | logical_or_expression '=' braced_initializer { $$ = YACC_ASSIGNMENT_EXPRESSION($1, $2, $3); } | throw_expression assignment_operator: '=' | ASS_ADD | ASS_AND | ASS_DIV | ASS_MOD | ASS_MUL | ASS_OR | ASS_SHL | ASS_SHR | ASS_SUB | ASS_XOR /* expression is widely used and usually single-element, so the reductions are arranged so that a * single-element expression is returned as is. Multi-element expressions are parsed as a list that * may then behave polymorphically as an element or be compacted to an element. */ expression.opt: /* empty */ { $$ = YACC_EXPRESSION(0); } | expression expression: assignment_expression | expression_list ',' assignment_expression { $$ = YACC_EXPRESSION(YACC_EXPRESSIONS($1, $3)); } constant_expression: conditional_expression /* The grammar is repeated for when the parser stack knows that the next > must end a template. */ templated_relational_expression: shift_expression | templated_relational_expression '<' shift_expression { $$ = YACC_LESS_THAN_EXPRESSION($1, $3); } | templated_relational_expression LE shift_expression { $$ = YACC_LESS_EQUAL_EXPRESSION($1, $3); } | templated_relational_expression GE shift_expression { $$ = YACC_GREATER_EQUAL_EXPRESSION($1, $3); } templated_equality_expression: templated_relational_expression | templated_equality_expression EQ templated_relational_expression { $$ = YACC_EQUAL_EXPRESSION($1, $3); } | templated_equality_expression NE templated_relational_expression { $$ = YACC_NOT_EQUAL_EXPRESSION($1, $3); } templated_and_expression: templated_equality_expression | templated_and_expression '&' templated_equality_expression { $$ = YACC_AND_EXPRESSION($1, $3); } templated_exclusive_or_expression: templated_and_expression | templated_exclusive_or_expression '^' templated_and_expression { $$ = YACC_EXCLUSIVE_OR_EXPRESSION($1, $3); } templated_inclusive_or_expression: templated_exclusive_or_expression | templated_inclusive_or_expression '|' templated_exclusive_or_expression { $$ = YACC_INCLUSIVE_OR_EXPRESSION($1, $3); } templated_logical_and_expression: templated_inclusive_or_expression | templated_logical_and_expression LOG_AND templated_inclusive_or_expression { $$ = YACC_LOGICAL_AND_EXPRESSION($1, $3); } templated_logical_or_expression: templated_logical_and_expression | templated_logical_or_expression LOG_OR templated_logical_and_expression { $$ = YACC_LOGICAL_OR_EXPRESSION($1, $3); } templated_conditional_expression: templated_logical_or_expression | templated_logical_or_expression '?' templated_expression ':' templated_assignment_expression { $$ = YACC_CONDITIONAL_EXPRESSION($1, $3, $5); } templated_assignment_expression: templated_conditional_expression | templated_logical_or_expression assignment_operator templated_assignment_expression { $$ = YACC_ASSIGNMENT_EXPRESSION($1, $2, $3); } | templated_throw_expression templated_expression: templated_assignment_expression | templated_expression_list ',' templated_assignment_expression { $$ = YACC_EXPRESSION(YACC_EXPRESSIONS($1, $3)); } templated_expression_list: templated_assignment_expression { $$ = YACC_EXPRESSIONS(0, $1); } | templated_expression_list ',' templated_assignment_expression { $$ = YACC_EXPRESSIONS($1, $3); } /*--------------------------------------------------------------------------------------------------- * A.5 Statements *--------------------------------------------------------------------------------------------------- * Parsing statements is easy once simple_declaration has been generalised to cover expression_statement. */ looping_statement: start_search looped_statement { $$ = YACC_LINED_STATEMENT($2, $1); end_search($$); } looped_statement: statement | advance_search '+' looped_statement { $$ = $3; } | advance_search '-' { $$ = 0; } statement: control_statement /* | expression_statement -- covered by declaration_statement */ | compound_statement | declaration_statement | try_block { $$ = YACC_TRY_BLOCK_STATEMENT($1); } control_statement: labeled_statement | selection_statement | iteration_statement | jump_statement labeled_statement: identifier ':' looping_statement { $$ = YACC_LABEL_STATEMENT($1, $3); } | CASE constant_expression ':' looping_statement { $$ = YACC_CASE_STATEMENT($2, $4); } | DEFAULT ':' looping_statement { $$ = YACC_DEFAULT_STATEMENT($3); } /*expression_statement: expression.opt ';' -- covered by declaration_statement */ compound_statement: '{' statement_seq.opt '}' { $$ = YACC_COMPOUND_STATEMENT($2); } | '{' statement_seq.opt looping_statement '#' bang error '}' { $$ = $2; YACC_UNBANG($5, "Bad statement-seq."); } statement_seq.opt: /* empty */ { $$ = YACC_STATEMENTS(0, 0); } | statement_seq.opt looping_statement { $$ = YACC_STATEMENTS($1, YACC_COMPILE_STATEMENT($2)); } | statement_seq.opt looping_statement '#' bang error ';' { $$ = $1; YACC_UNBANG($4, "Bad statement."); } /* * The dangling else conflict is resolved to the innermost if. */ selection_statement: IF '(' condition ')' looping_statement %prec SHIFT_THERE { $$ = YACC_IF_STATEMENT($3, $5, 0); } | IF '(' condition ')' looping_statement ELSE looping_statement { $$ = YACC_IF_STATEMENT($3, $5, $7); } | SWITCH '(' condition ')' looping_statement { $$ = YACC_SWITCH_STATEMENT($3, $5); } condition.opt: /* empty */ { $$ = YACC_CONDITION(0); } | condition condition: parameter_declaration_list { $$ = YACC_CONDITION($1); } /* | expression -- covered by parameter_declaration_list */ /* | type_specifier_seq declarator '=' assignment_expression -- covered by parameter_declaration_list */ iteration_statement: WHILE '(' condition ')' looping_statement { $$ = YACC_WHILE_STATEMENT($3, $5); } | DO looping_statement WHILE '(' expression ')' ';' { $$ = YACC_DO_WHILE_STATEMENT($2, $5); } | FOR '(' for_init_statement condition.opt ';' expression.opt ')' looping_statement { $$ = YACC_FOR_STATEMENT($3, $4, $6, $8); } for_init_statement: simple_declaration /* | expression_statement -- covered by simple_declaration */ jump_statement: BREAK ';' { $$ = YACC_BREAK_STATEMENT(); } | CONTINUE ';' { $$ = YACC_CONTINUE_STATEMENT(); } | RETURN expression.opt ';' { $$ = YACC_RETURN_STATEMENT($2); } | GOTO identifier ';' { $$ = YACC_GOTO_STATEMENT($2); } declaration_statement: block_declaration { $$ = YACC_DECLARATION_STATEMENT($1); } /*--------------------------------------------------------------------------------------------------- * A.6 Declarations *---------------------------------------------------------------------------------------------------*/ compound_declaration: '{' nest declaration_seq.opt '}' { $$ = $3; unnest($2); } | '{' nest declaration_seq.opt util looping_declaration '#' bang error '}' { $$ = $3; unnest($2); YACC_UNBANG($7, "Bad declaration-seq."); } declaration_seq.opt: /* empty */ { $$ = YACC_DECLARATIONS(0, 0); } | declaration_seq.opt util looping_declaration { $$ = YACC_DECLARATIONS($1, YACC_COMPILE_DECLARATION($2, $3)); } | declaration_seq.opt util looping_declaration '#' bang error ';' { $$ = $1; YACC_UNBANG($5, "Bad declaration."); } looping_declaration: start_search1 looped_declaration { $$ = YACC_LINED_DECLARATION($2, $1); end_search($$); } looped_declaration: declaration | advance_search '+' looped_declaration { $$ = $3; } | advance_search '-' { $$ = 0; } declaration: block_declaration | function_definition { $$ = YACC_SIMPLE_DECLARATION($1); } | template_declaration /* | explicit_instantiation -- covered by relevant declarations */ | explicit_specialization | specialised_declaration specialised_declaration: linkage_specification { $$ = YACC_LINKAGE_SPECIFICATION($1); } | namespace_definition { $$ = YACC_NAMESPACE_DECLARATION($1); } | TEMPLATE specialised_declaration { $$ = YACC_SET_TEMPLATE_DECLARATION($2); } block_declaration: simple_declaration { $$ = YACC_SIMPLE_DECLARATION($1); } | specialised_block_declaration specialised_block_declaration: asm_definition | namespace_alias_definition | using_declaration | using_directive | TEMPLATE specialised_block_declaration { $$ = YACC_SET_TEMPLATE_DECLARATION($2); } simple_declaration: ';' { $$ = YACC_EXPRESSION(0); } | init_declaration ';' | init_declarations ';' { $$ = $1; } | decl_specifier_prefix simple_declaration { $$ = YACC_DECL_SPECIFIER_EXPRESSION($2, $1); } /* A decl-specifier following a ptr_operator provokes a shift-reduce conflict for * * const name * which is resolved in favour of the pointer, and implemented by providing versions * of decl-specifier guaranteed not to start with a cv_qualifier. * * decl-specifiers are implemented type-centrically. That is the semantic constraint * that there must be a type is exploited to impose structure, but actually eliminate * very little syntax. built-in types are multi-name and so need a different policy. * * non-type decl-specifiers are bound to the left-most type in a decl-specifier-seq, * by parsing from the right and attaching suffixes to the right-hand type. Finally * residual prefixes attach to the left. */ suffix_built_in_decl_specifier.raw: built_in_type_specifier { $$ = $1; } | suffix_built_in_decl_specifier.raw built_in_type_specifier { $$ = YACC_BUILT_IN_NAME($1, $2); } | suffix_built_in_decl_specifier.raw decl_specifier_suffix { $$ = YACC_DECL_SPECIFIER_NAME($1, $2); } suffix_built_in_decl_specifier: suffix_built_in_decl_specifier.raw { $$ = $1; } | TEMPLATE suffix_built_in_decl_specifier { $$ = YACC_SET_TEMPLATE_NAME($2); } suffix_named_decl_specifier: scoped_id { $$ = $1; } | elaborate_type_specifier { $$ = $1; } | suffix_named_decl_specifier decl_specifier_suffix { $$ = YACC_DECL_SPECIFIER_NAME($1, $2); } suffix_named_decl_specifier.bi: suffix_named_decl_specifier { $$ = YACC_NAME_EXPRESSION($1); } | suffix_named_decl_specifier suffix_built_in_decl_specifier.raw { $$ = YACC_TYPED_NAME($1, $2); } suffix_named_decl_specifiers: suffix_named_decl_specifier.bi | suffix_named_decl_specifiers suffix_named_decl_specifier.bi { $$ = YACC_TYPED_NAME($1, $2); } suffix_named_decl_specifiers.sf: scoped_special_function_id /* operators etc */ { $$ = YACC_NAME_EXPRESSION($1); } | suffix_named_decl_specifiers | suffix_named_decl_specifiers scoped_special_function_id { $$ = YACC_TYPED_NAME($1, $2); } suffix_decl_specified_ids: suffix_built_in_decl_specifier | suffix_built_in_decl_specifier suffix_named_decl_specifiers.sf { $$ = YACC_TYPED_NAME($1, $2); } | suffix_named_decl_specifiers.sf suffix_decl_specified_scope: suffix_named_decl_specifiers SCOPE | suffix_built_in_decl_specifier suffix_named_decl_specifiers SCOPE { $$ = YACC_TYPED_NAME($1, $2); } | suffix_built_in_decl_specifier SCOPE { $$ = YACC_NAME_EXPRESSION($1); } decl_specifier_affix: storage_class_specifier | function_specifier | FRIEND | TYPEDEF | cv_qualifier { $$ = $1; } decl_specifier_suffix: decl_specifier_affix decl_specifier_prefix: decl_specifier_affix | TEMPLATE decl_specifier_prefix { $$ = YACC_SET_TEMPLATE_DECL_SPECIFIER($2); } storage_class_specifier: REGISTER | STATIC | MUTABLE | EXTERN %prec SHIFT_THERE /* Prefer linkage specification */ | AUTO function_specifier: EXPLICIT | INLINE | VIRTUAL type_specifier: simple_type_specifier | elaborate_type_specifier | cv_qualifier { $$ = YACC_CV_DECL_SPECIFIER($1); } elaborate_type_specifier: class_specifier | enum_specifier | elaborated_type_specifier | TEMPLATE elaborate_type_specifier { $$ = YACC_SET_TEMPLATE_ID($2); } simple_type_specifier: scoped_id | built_in_type_specifier { $$ = YACC_BUILT_IN_ID_ID($1); } built_in_type_specifier: CHAR | WCHAR_T | BOOL | SHORT | INT | LONG | SIGNED | UNSIGNED | FLOAT | DOUBLE | VOID /* * The over-general use of declaration_expression to cover decl-specifier-seq.opt declarator in a function-definition means that * class X {}; * could be a function-definition or a class-specifier. * enum X {}; * could be a function-definition or an enum-specifier. * The function-definition is not syntactically valid so resolving the false conflict in favour of the * elaborated_type_specifier is correct. */ elaborated_type_specifier: elaborated_class_specifier | elaborated_enum_specifier | TYPENAME scoped_id { $$ = YACC_ELABORATED_TYPE_SPECIFIER($1, $2); } elaborated_enum_specifier: ENUM scoped_id %prec SHIFT_THERE { $$ = YACC_ELABORATED_TYPE_SPECIFIER($1, $2); } enum_specifier: ENUM scoped_id enumerator_clause { $$ = YACC_ENUM_SPECIFIER_ID($2, $3); } | ENUM enumerator_clause { $$ = YACC_ENUM_SPECIFIER_ID(0, $2); } enumerator_clause: '{' enumerator_list_ecarb { $$ = YACC_ENUMERATORS(0, 0); } | '{' enumerator_list enumerator_list_ecarb { $$ = $2; } | '{' enumerator_list ',' enumerator_definition_ecarb { $$ = $2; } enumerator_list_ecarb: '}' { } | bang error '}' { YACC_UNBANG($1, "Bad enumerator-list."); } enumerator_definition_ecarb: '}' { } | bang error '}' { YACC_UNBANG($1, "Bad enumerator-definition."); } enumerator_definition_filler: /* empty */ | bang error ',' { YACC_UNBANG($1, "Bad enumerator-definition."); } enumerator_list_head: enumerator_definition_filler { $$ = YACC_ENUMERATORS(0, 0); } | enumerator_list ',' enumerator_definition_filler enumerator_list: enumerator_list_head enumerator_definition { $$ = YACC_ENUMERATORS($1, $2); } enumerator_definition: enumerator { $$ = YACC_ENUMERATOR($1, 0); } | enumerator '=' constant_expression { $$ = YACC_ENUMERATOR($1, $3); } enumerator: identifier namespace_definition: NAMESPACE scoped_id compound_declaration { $$ = YACC_NAMESPACE_DEFINITION($2, $3); } | NAMESPACE compound_declaration { $$ = YACC_NAMESPACE_DEFINITION(0, $2); } namespace_alias_definition: NAMESPACE scoped_id '=' scoped_id ';' { $$ = YACC_NAMESPACE_ALIAS_DEFINITION($2, $4); } using_declaration: USING declarator_id ';' { $$ = YACC_USING_DECLARATION(false, $2); } | USING TYPENAME declarator_id ';' { $$ = YACC_USING_DECLARATION(true, $3); } using_directive: USING NAMESPACE scoped_id ';' { $$ = YACC_USING_DIRECTIVE($3); } asm_definition: ASM '(' string ')' ';' { $$ = YACC_ASM_DEFINITION($3); } linkage_specification: EXTERN string looping_declaration { $$ = YACC_LINKAGE_SPECIFIER($2, $3); } | EXTERN string compound_declaration { $$ = YACC_LINKAGE_SPECIFIER($2, $3); } /*--------------------------------------------------------------------------------------------------- * A.7 Declarators *---------------------------------------------------------------------------------------------------*/ /*init-declarator is named init_declaration to reflect the embedded decl-specifier-seq.opt*/ init_declarations: assignment_expression ',' init_declaration { $$ = YACC_EXPRESSIONS(YACC_EXPRESSIONS(0, $1), $3); } | init_declarations ',' init_declaration { $$ = YACC_EXPRESSIONS($1, $3); } init_declaration: assignment_expression /* | assignment_expression '=' initializer_clause -- covered by assignment_expression */ /* | assignment_expression '(' expression_list ')' -- covered by another set of call arguments */ /*declarator: -- covered by assignment_expression */ /*direct_declarator: -- covered by postfix_expression */ star_ptr_operator: '*' { $$ = YACC_POINTER_DECLARATOR(); } | star_ptr_operator cv_qualifier { $$ = YACC_CV_DECLARATOR($1, $2); } nested_ptr_operator: star_ptr_operator { $$ = $1; } | id_scope nested_ptr_operator { $$ = YACC_NESTED_DECLARATOR($1, $2); } ptr_operator: '&' { $$ = YACC_REFERENCE_DECLARATOR(); } | nested_ptr_operator { $$ = $1; } | global_scope nested_ptr_operator { $$ = YACC_GLOBAL_DECLARATOR($1, $2); } ptr_operator_seq: ptr_operator { $$ = YACC_POINTER_EXPRESSION($1, 0); } | ptr_operator ptr_operator_seq { $$ = YACC_POINTER_EXPRESSION($1, $2); } /* Independently coded to localise the shift-reduce conflict: sharing just needs another %prec */ ptr_operator_seq.opt: /* empty */ %prec SHIFT_THERE /* Maximise type length */ { $$ = YACC_EXPRESSION(0); } | ptr_operator ptr_operator_seq.opt { $$ = YACC_POINTER_EXPRESSION($1, $2); } cv_qualifier_seq.opt: /* empty */ { $$ = YACC_CV_QUALIFIERS(0, 0); } | cv_qualifier_seq.opt cv_qualifier { $$ = YACC_CV_QUALIFIERS($1, $2); } cv_qualifier: CONST | VOLATILE /*type_id -- also covered by parameter declaration */ type_id: type_specifier abstract_declarator.opt { $$ = YACC_TYPED_EXPRESSION($1, $2); } | type_specifier type_id { $$ = YACC_TYPED_EXPRESSION($1, $2); } /*abstract_declarator: -- also covered by parameter declaration */ abstract_declarator.opt: /* empty */ { $$ = 0; } | ptr_operator abstract_declarator.opt { $$ = YACC_POINTER_EXPRESSION($1, $2); } | direct_abstract_declarator direct_abstract_declarator.opt: /* empty */ { $$ = 0; } | direct_abstract_declarator direct_abstract_declarator: direct_abstract_declarator.opt parenthesis_clause { $$ = YACC_CALL_EXPRESSION($1, $2); } | direct_abstract_declarator.opt '[' ']' { $$ = YACC_ARRAY_EXPRESSION($1, 0); } | direct_abstract_declarator.opt '[' constant_expression ']' { $$ = YACC_ARRAY_EXPRESSION($1, $3); } /* | '(' abstract_declarator ')' -- covered by parenthesis_clause */ parenthesis_clause: parameters_clause cv_qualifier_seq.opt { $$ = YACC_PARENTHESISED($1, $2, 0); } | parameters_clause cv_qualifier_seq.opt exception_specification { $$ = YACC_PARENTHESISED($1, $2, $3); } parameters_clause: '(' parameter_declaration_clause ')' { $$ = $2; } /* parameter_declaration_clause also covers init_declaration, type_id, declarator and abstract_declarator. */ parameter_declaration_clause: /* empty */ { $$ = YACC_PARAMETERS(0, 0); } | parameter_declaration_list | parameter_declaration_list ELLIPSIS { $$ = YACC_PARAMETERS($1, YACC_ELLIPSIS_EXPRESSION()); } parameter_declaration_list: parameter_declaration { $$ = YACC_PARAMETERS(0, $1); } | parameter_declaration_list ',' parameter_declaration { $$ = YACC_PARAMETERS($1, $3); } /* * A typed abstract qualifier such as * Class * ... * looks like a multiply, so pointers are parsed as their binary operation equivalents that * ultimately terminate with a degenerate right hand term. */ abstract_pointer_declaration: ptr_operator_seq | multiplicative_expression star_ptr_operator ptr_operator_seq.opt { $$ = YACC_MULTIPLY_EXPRESSION($1, $2, $3); } abstract_parameter_declaration: abstract_pointer_declaration | and_expression '&' { $$ = YACC_LOGICAL_AND_EXPRESSION($1, 0); } | and_expression '&' abstract_pointer_declaration { $$ = YACC_LOGICAL_AND_EXPRESSION($1, $3); } special_parameter_declaration: abstract_parameter_declaration | abstract_parameter_declaration '=' assignment_expression { $$ = YACC_ASSIGNMENT_EXPRESSION($1, $2, $3); } | ELLIPSIS { $$ = YACC_ELLIPSIS_EXPRESSION(); } parameter_declaration: assignment_expression { $$ = YACC_EXPRESSION_PARAMETER($1); } | special_parameter_declaration { $$ = YACC_EXPRESSION_PARAMETER($1); } | decl_specifier_prefix parameter_declaration { $$ = YACC_DECL_SPECIFIER_PARAMETER($2, $1); } /* The grammar is repeated for use within template <> */ templated_parameter_declaration: templated_assignment_expression { $$ = YACC_EXPRESSION_PARAMETER($1); } | templated_abstract_declaration { $$ = YACC_EXPRESSION_PARAMETER($1); } | templated_abstract_declaration '=' templated_assignment_expression { $$ = YACC_EXPRESSION_PARAMETER(YACC_ASSIGNMENT_EXPRESSION($1, $2, $3)); } | decl_specifier_prefix templated_parameter_declaration { $$ = YACC_DECL_SPECIFIER_PARAMETER($2, $1); } templated_abstract_declaration: abstract_pointer_declaration | templated_and_expression '&' { $$ = YACC_LOGICAL_AND_EXPRESSION($1, 0); } | templated_and_expression '&' abstract_pointer_declaration { $$ = YACC_LOGICAL_AND_EXPRESSION($1, $3); } /* function_definition includes constructor, destructor, implicit int definitions too. * A local destructor is successfully parsed as a function-declaration but the ~ was treated as a unary operator. * constructor_head is the prefix ambiguity between a constructor and a member-init-list starting with a bit-field. */ function_definition: ctor_definition | func_definition func_definition: assignment_expression function_try_block { $$ = YACC_FUNCTION_DEFINITION($1, $2); } | assignment_expression function_body { $$ = YACC_FUNCTION_DEFINITION($1, $2); } | decl_specifier_prefix func_definition { $$ = YACC_DECL_SPECIFIER_EXPRESSION($2, $1); } ctor_definition: constructor_head function_try_block { $$ = YACC_FUNCTION_DEFINITION($1, $2); } | constructor_head function_body { $$ = YACC_FUNCTION_DEFINITION($1, $2); } | decl_specifier_prefix ctor_definition { $$ = YACC_DECL_SPECIFIER_EXPRESSION($2, $1); } constructor_head: bit_field_init_declaration { $$ = YACC_EXPRESSIONS(0, $1); } | constructor_head ',' assignment_expression { $$ = YACC_EXPRESSIONS($1, $3); } function_try_block: TRY function_block handler_seq { $$ = YACC_TRY_FUNCTION_BLOCK($2, $3); } function_block: ctor_initializer.opt function_body { $$ = YACC_CTOR_FUNCTION_BLOCK($2, $1); } function_body: compound_statement { $$ = YACC_FUNCTION_BLOCK($1); } /* * An = initializer looks like an extended assignment_expression. * An () initializer looks like a function call. * initializer is therefore flattened into its generalised customers. *initializer: '=' initializer_clause -- flattened into caller * | '(' expression_list ')' -- flattened into caller */ initializer_clause: assignment_expression { $$ = YACC_INITIALIZER_EXPRESSION_CLAUSE($1); } | braced_initializer braced_initializer: '{' initializer_list '}' { $$ = YACC_INITIALIZER_LIST_CLAUSE($2); } | '{' initializer_list ',' '}' { $$ = YACC_INITIALIZER_LIST_CLAUSE($2); } | '{' '}' { $$ = YACC_INITIALIZER_LIST_CLAUSE(0); } | '{' looping_initializer_clause '#' bang error '}' { $$ = 0; YACC_UNBANG($4, "Bad initializer_clause."); } | '{' initializer_list ',' looping_initializer_clause '#' bang error '}' { $$ = $2; YACC_UNBANG($6, "Bad initializer_clause."); } initializer_list: looping_initializer_clause { $$ = YACC_INITIALIZER_CLAUSES(0, $1); } | initializer_list ',' looping_initializer_clause { $$ = YACC_INITIALIZER_CLAUSES($1, $3); } looping_initializer_clause: start_search looped_initializer_clause { $$ = $2; end_search($$); } looped_initializer_clause: initializer_clause | advance_search '+' looped_initializer_clause { $$ = $3; } | advance_search '-' { $$ = 0; } /*--------------------------------------------------------------------------------------------------- * A.8 Classes *--------------------------------------------------------------------------------------------------- * * An anonymous bit-field declaration may look very like inheritance: * const int B = 3; * class A : B ; * The two usages are too distant to try to create and enforce a common prefix so we have to resort to * a parser hack by backtracking. Inheritance is much the most likely so we mark the input stream context * and try to parse a base-clause. If we successfully reach a { the base-clause is ok and inheritance was * the correct choice so we unmark and continue. If we fail to find the { an error token causes back-tracking * to the alternative parse in elaborated_type_specifier which regenerates the : and declares unconditional success. */ colon_mark: ':' { $$ = mark(); } elaborated_class_specifier: class_key scoped_id %prec SHIFT_THERE { $$ = YACC_ELABORATED_TYPE_SPECIFIER($1, $2); } | class_key scoped_id colon_mark error { $$ = YACC_ELABORATED_TYPE_SPECIFIER($1, $2); rewind_colon($3); } class_specifier_head: class_key scoped_id colon_mark base_specifier_list '{' { unmark($4); $$ = YACC_CLASS_SPECIFIER_ID($1, $2, $4); } | class_key ':' base_specifier_list '{' { $$ = YACC_CLASS_SPECIFIER_ID($1, 0, $3); } | class_key scoped_id '{' { $$ = YACC_CLASS_SPECIFIER_ID($1, $2, 0); } | class_key '{' { $$ = YACC_CLASS_SPECIFIER_ID($1, 0, 0); } class_key: CLASS | STRUCT | UNION class_specifier: class_specifier_head member_specification.opt '}' { $$ = YACC_CLASS_MEMBERS($1, $2); } | class_specifier_head member_specification.opt util looping_member_declaration '#' bang error '}' { $$ = YACC_CLASS_MEMBERS($1, $2); YACC_UNBANG($6, "Bad member_specification.opt."); } member_specification.opt: /* empty */ { $$ = YACC_MEMBER_DECLARATIONS(0, 0); } | member_specification.opt util looping_member_declaration { $$ = YACC_MEMBER_DECLARATIONS($1, YACC_COMPILE_DECLARATION($2, $3)); } | member_specification.opt util looping_member_declaration '#' bang error ';' { $$ = $1; YACC_UNBANG($5, "Bad member-declaration."); } looping_member_declaration: start_search looped_member_declaration { $$ = YACC_LINED_DECLARATION($2, $1); end_search($$); } looped_member_declaration: member_declaration | advance_search '+' looped_member_declaration { $$ = $3; } | advance_search '-' { $$ = 0; } member_declaration: accessibility_specifier | simple_member_declaration { $$ = YACC_SIMPLE_DECLARATION($1); } | function_definition { $$ = YACC_SIMPLE_DECLARATION($1); } /* | function_definition ';' -- trailing ; covered by null declaration */ /* | qualified_id ';' -- covered by simple_member_declaration */ | using_declaration | template_declaration /* The generality of constructor names (there need be no parenthesised argument list) means that that * name : f(g), h(i) * could be the start of a constructor or the start of an anonymous bit-field. An ambiguity is avoided by * parsing the ctor-initializer of a function_definition as a bit-field. */ simple_member_declaration: ';' { $$ = YACC_EXPRESSION(0); } | assignment_expression ';' | constructor_head ';' { $$ = $1; } | member_init_declarations ';' { $$ = $1; } | decl_specifier_prefix simple_member_declaration { $$ = YACC_DECL_SPECIFIER_EXPRESSION($2, $1); } member_init_declarations: assignment_expression ',' member_init_declaration { $$ = YACC_EXPRESSIONS(YACC_EXPRESSIONS(0, $1), $3); } | constructor_head ',' bit_field_init_declaration { $$ = YACC_EXPRESSIONS($1, $3); } | member_init_declarations ',' member_init_declaration { $$ = YACC_EXPRESSIONS($1, $3); } member_init_declaration: assignment_expression /* | assignment_expression '=' initializer_clause -- covered by assignment_expression */ /* | assignment_expression '(' expression_list ')' -- covered by another set of call arguments */ | bit_field_init_declaration accessibility_specifier: access_specifier ':' { $$ = YACC_ACCESSIBILITY_DECLARATION($1); } bit_field_declaration: assignment_expression ':' bit_field_width { $$ = YACC_BIT_FIELD_EXPRESSION($1, $3); } | ':' bit_field_width { $$ = YACC_BIT_FIELD_EXPRESSION(0, $2); } bit_field_width: logical_or_expression /* | logical_or_expression '?' expression ':' assignment_expression -- has SR conflict w.r.t later = */ | logical_or_expression '?' bit_field_width ':' bit_field_width { $$ = YACC_CONDITIONAL_EXPRESSION($1, $3, $5); } bit_field_init_declaration: bit_field_declaration | bit_field_declaration '=' initializer_clause { $$ = YACC_ASSIGNMENT_EXPRESSION($1, $2, $3); } /*--------------------------------------------------------------------------------------------------- * A.9 Derived classes *---------------------------------------------------------------------------------------------------*/ /*base_clause: ':' base_specifier_list -- flattened */ base_specifier_list: base_specifier { $$ = YACC_BASE_SPECIFIERS(0, $1); } | base_specifier_list ',' base_specifier { $$ = YACC_BASE_SPECIFIERS($1, $3); } base_specifier: scoped_id { $$ = YACC_BASE_SPECIFIER($1); } | access_specifier base_specifier { $$ = YACC_ACCESS_BASE_SPECIFIER($2, $1); } | VIRTUAL base_specifier { $$ = YACC_VIRTUAL_BASE_SPECIFIER($2); } access_specifier: PRIVATE | PROTECTED | PUBLIC /*--------------------------------------------------------------------------------------------------- * A.10 Special member functions *---------------------------------------------------------------------------------------------------*/ conversion_function_id: OPERATOR conversion_type_id { $$ = YACC_CONVERSION_FUNCTION_ID($2); } conversion_type_id: type_specifier ptr_operator_seq.opt { $$ = YACC_TYPED_EXPRESSION($1, $2); } | type_specifier conversion_type_id { $$ = YACC_TYPED_EXPRESSION($1, $2); } /* * Ctor-initialisers can look like a bit field declaration, given the generalisation of names: * Class(Type) : m1(1), m2(2) {} * NonClass(bit_field) : int(2), second_variable, ... * The grammar below is used within a function_try_block or function_definition. * See simple_member_declaration for use in normal member function_definition. */ ctor_initializer.opt: /* empty */ { $$ = YACC_MEM_INITIALIZERS(0, 0); } | ctor_initializer ctor_initializer: ':' mem_initializer_list { $$ = $2; } | ':' mem_initializer_list bang error { $$ = $2; YACC_UNBANG($3, "Bad ctor-initializer."); } mem_initializer_list: mem_initializer { $$ = YACC_MEM_INITIALIZERS(0, $1); } | mem_initializer_list_head mem_initializer { $$ = YACC_MEM_INITIALIZERS($1, $2); } mem_initializer_list_head: mem_initializer_list ',' | mem_initializer_list bang error ',' { YACC_UNBANG($2, "Bad mem-initializer."); } mem_initializer: mem_initializer_id '(' expression_list.opt ')' { $$ = YACC_MEM_INITIALIZER($1, $3); } mem_initializer_id: scoped_id /*--------------------------------------------------------------------------------------------------- * A.11 Overloading *---------------------------------------------------------------------------------------------------*/ operator_function_id: OPERATOR operator { $$ = YACC_OPERATOR_FUNCTION_ID($2); } /* * It is not clear from the ANSI standard whether spaces are permitted in delete[]. If not then it can * be recognised and returned as DELETE_ARRAY by the lexer. Assuming spaces are permitted there is an * ambiguity created by the over generalised nature of expressions. operator new is a valid delarator-id * which we may have an undimensioned array of. Semantic rubbish, but syntactically valid. Since the * array form is covered by the declarator consideration we can exclude the operator here. The need * for a semantic rescue can be eliminated at the expense of a couple of shift-reduce conflicts by * removing the comments on the next four lines. */ operator: /*++++*/ NEW { $$ = YACC_OPERATOR_NEW_ID(); } | /*++++*/ DELETE { $$ = YACC_OPERATOR_DELETE_ID(); } /* | / ---- / NEW %prec SHIFT_THERE { $$ = YACC_OPERATOR_NEW_ID(); } /* | / ---- / DELETE %prec SHIFT_THERE { $$ = YACC_OPERATOR_DELETE_ID(); } /* | / ---- / NEW '[' ']' -- Covered by array of OPERATOR NEW */ /* | / ---- / DELETE '[' ']' -- Covered by array of OPERATOR DELETE */ | '+' { $$ = YACC_OPERATOR_ADD_ID(); } | '-' { $$ = YACC_OPERATOR_SUB_ID(); } | '*' { $$ = YACC_OPERATOR_MUL_ID(); } | '/' { $$ = YACC_OPERATOR_DIV_ID(); } | '%' { $$ = YACC_OPERATOR_MOD_ID(); } | '^' { $$ = YACC_OPERATOR_XOR_ID(); } | '&' { $$ = YACC_OPERATOR_BIT_AND_ID(); } | '|' { $$ = YACC_OPERATOR_BIT_OR_ID(); } | '~' { $$ = YACC_OPERATOR_BIT_NOT_ID(); } | '!' { $$ = YACC_OPERATOR_LOG_NOT_ID(); } | '=' { $$ = YACC_OPERATOR_ASS_ID(); } | '<' { $$ = YACC_OPERATOR_LT_ID(); } | '>' { $$ = YACC_OPERATOR_GT_ID(); } | ASS_ADD { $$ = YACC_OPERATOR_ASS_ADD_ID(); } | ASS_SUB { $$ = YACC_OPERATOR_ASS_SUB_ID(); } | ASS_MUL { $$ = YACC_OPERATOR_ASS_MUL_ID(); } | ASS_DIV { $$ = YACC_OPERATOR_ASS_DIV_ID(); } | ASS_MOD { $$ = YACC_OPERATOR_ASS_MOD_ID(); } | ASS_XOR { $$ = YACC_OPERATOR_ASS_XOR_ID(); } | ASS_AND { $$ = YACC_OPERATOR_ASS_BIT_AND_ID(); } | ASS_OR { $$ = YACC_OPERATOR_ASS_BIT_OR_ID(); } | SHL { $$ = YACC_OPERATOR_SHL_ID(); } | SHR { $$ = YACC_OPERATOR_SHR_ID(); } | ASS_SHR { $$ = YACC_OPERATOR_ASS_SHR_ID(); } | ASS_SHL { $$ = YACC_OPERATOR_ASS_SHL_ID(); } | EQ { $$ = YACC_OPERATOR_EQ_ID(); } | NE { $$ = YACC_OPERATOR_NE_ID(); } | LE { $$ = YACC_OPERATOR_LE_ID(); } | GE { $$ = YACC_OPERATOR_GE_ID(); } | LOG_AND { $$ = YACC_OPERATOR_LOG_AND_ID(); } | LOG_OR { $$ = YACC_OPERATOR_LOG_OR_ID(); } | INC { $$ = YACC_OPERATOR_INC_ID(); } | DEC { $$ = YACC_OPERATOR_DEC_ID(); } | ',' { $$ = YACC_OPERATOR_COMMA_ID(); } | ARROW_STAR { $$ = YACC_OPERATOR_ARROW_STAR_ID(); } | ARROW { $$ = YACC_OPERATOR_ARROW_ID(); } | '(' ')' { $$ = YACC_OPERATOR_CALL_ID(); } | '[' ']' { $$ = YACC_OPERATOR_INDEX_ID(); } /*--------------------------------------------------------------------------------------------------- * A.12 Templates *---------------------------------------------------------------------------------------------------*/ template_declaration: template_parameter_clause declaration { $$ = YACC_TEMPLATE_DECLARATION($1, $2); } | EXPORT template_declaration { $$ = YACC_DECL_SPECIFIER_DECLARATION($2, $1); } template_parameter_clause: TEMPLATE '<' template_parameter_list '>' { $$ = $3; } template_parameter_list: template_parameter { $$ = YACC_TEMPLATE_PARAMETERS(0, $1); } | template_parameter_list ',' template_parameter { $$ = YACC_TEMPLATE_PARAMETERS($1, $3); } template_parameter: simple_type_parameter { $$ = YACC_TYPE_TEMPLATE_PARAMETER($1, 0); } | simple_type_parameter '=' type_id { $$ = YACC_TYPE_TEMPLATE_PARAMETER($1, $3); } | templated_type_parameter { $$ = YACC_TEMPLATED_TEMPLATE_PARAMETER($1, 0); } | templated_type_parameter '=' identifier { $$ = YACC_TEMPLATED_TEMPLATE_PARAMETER($1, $3); } | templated_parameter_declaration { $$ = YACC_TEMPLATE_PARAMETER($1); } | bang error { $$ = 0; YACC_UNBANG($1, "Bad template-parameter."); } simple_type_parameter: CLASS { $$ = YACC_CLASS_TEMPLATE_PARAMETER(0); } /* | CLASS identifier -- covered by parameter_declaration */ | TYPENAME { $$ = YACC_TYPENAME_TEMPLATE_PARAMETER(0); } /* | TYPENAME identifier -- covered by parameter_declaration */ templated_type_parameter: template_parameter_clause CLASS { $$ = YACC_TEMPLATED_TYPE_PARAMETER($1, 0); } | template_parameter_clause CLASS identifier { $$ = YACC_TEMPLATED_TYPE_PARAMETER($1, $3); } template_id: TEMPLATE identifier '<' template_argument_list '>' { $$ = YACC_TEMPLATE_NAME($2, $4); } | TEMPLATE template_id { $$ = $2; } /* * template-argument is evaluated using a templated...expression so that > resolves to end of template. */ template_argument_list: template_argument { $$ = YACC_TEMPLATE_ARGUMENTS(0, $1); } | template_argument_list ',' template_argument { $$ = YACC_TEMPLATE_ARGUMENTS($1, $3); } template_argument: templated_parameter_declaration { $$ = YACC_TEMPLATE_ARGUMENT($1); } /* | type_id -- covered by templated_parameter_declaration */ /* | template_name -- covered by templated_parameter_declaration */ /* | error -- must allow template failure to re-search */ /* * Generalised naming makes identifier a valid declaration, so TEMPLATE identifier is too. * The TEMPLATE prefix is therefore folded into all names, parenthesis_clause and decl_specifier_prefix. */ /*explicit_instantiation: TEMPLATE declaration */ explicit_specialization: TEMPLATE '<' '>' declaration { $$ = YACC_EXPLICIT_SPECIALIZATION($4); } /*--------------------------------------------------------------------------------------------------- * A.13 Exception Handling *---------------------------------------------------------------------------------------------------*/ try_block: TRY compound_statement handler_seq { $$ = YACC_TRY_BLOCK($2, $3); } /*function_try_block: -- moved near function_block */ handler_seq: handler { $$ = YACC_HANDLERS(0, $1); } | handler handler_seq { $$ = YACC_HANDLERS($2, $1); } handler: CATCH '(' exception_declaration ')' compound_statement { $$ = YACC_HANDLER($3, $5); } exception_declaration: parameter_declaration { $$ = YACC_EXCEPTION_DECLARATION($1); } /* ELLIPSIS -- covered by parameter_declaration */ throw_expression: THROW { $$ = YACC_THROW_EXPRESSION(0); } | THROW assignment_expression { $$ = YACC_THROW_EXPRESSION($2); } templated_throw_expression: THROW { $$ = YACC_THROW_EXPRESSION(0); } | THROW templated_assignment_expression { $$ = YACC_THROW_EXPRESSION($2); } exception_specification: THROW '(' ')' { $$ = YACC_EXCEPTION_SPECIFICATION(0); } | THROW '(' type_id_list ')' { $$ = YACC_EXCEPTION_SPECIFICATION($3); } type_id_list: type_id { $$ = YACC_EXPRESSIONS(0, $1); } | type_id_list ',' type_id { $$ = YACC_EXPRESSIONS($1, $3); } /*--------------------------------------------------------------------------------------------------- * Back-tracking and context support *---------------------------------------------------------------------------------------------------*/ advance_search: error { yyerrok; yyclearin; advance_search(); } /* Rewind and queue '+' or '-' '#' */ bang: /* empty */ { $$ = YACC_BANG(); } /* set flag to suppress "parse error" */ mark: /* empty */ { $$ = mark(); } /* Push lookahead and input token stream context onto a stack */ nest: /* empty */ { $$ = nest(); } /* Push a declaration nesting depth onto the parse stack */ start_search: /* empty */ { $$ = YACC_LINE(); start_search(false); } /* Create/reset binary search context */ start_search1: /* empty */ { $$ = YACC_LINE(); start_search(true); } /* Create/reset binary search context */ util: /* empty */ { $$ = YACC_UTILITY_MODE(); } /* Get current utility mode */ /*StartTester*/ %% #include /*EndTester*/