/* YACC parser for C syntax and for Objective C. -*-c-*- Copyright (C) 1987, 1988, 1989, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004 Free Software Foundation, Inc. This file is part of GCC. GCC 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. GCC 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 GCC; see the file COPYING. If not, write to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* This file defines the grammar of C and that of Objective C. @@ifobjc ... @@end_ifobjc conditionals contain code for Objective C only. @@ifc ... @@end_ifc conditionals contain code for C only. Sed commands in Makefile.in are used to convert this file into c-parse.y and into objc-parse.y. */ /* To whomever it may concern: I have heard that such a thing was once written by AT&T, but I have never seen it. */ @@ifc %expect 13 /* shift/reduce conflicts, and no reduce/reduce conflicts. */ @@end_ifc %{ #include "config.h" #include "system.h" #include "coretypes.h" #include "tm.h" #include "tree.h" #include "langhooks.h" #include "input.h" #include "cpplib.h" #include "intl.h" #include "timevar.h" #include "c-pragma.h" /* For YYDEBUG definition, and parse_in. */ #include "c-tree.h" #include "flags.h" #include "varray.h" #include "output.h" #include "toplev.h" #include "ggc.h" #include "c-common.h" /* Like YYERROR but do call yyerror. */ #define YYERROR1 { yyerror ("syntax error"); YYERROR; } /* Like the default stack expander, except (1) use realloc when possible, (2) impose no hard maxiumum on stack size, (3) REALLY do not use alloca. Irritatingly, YYSTYPE is defined after this %{ %} block, so we cannot give malloced_yyvs its proper type. This is ok since all we need from it is to be able to free it. */ static short *malloced_yyss; static void *malloced_yyvs; #define yyoverflow(MSG, SS, SSSIZE, VS, VSSIZE, YYSSZ) \ do { \ size_t newsize; \ short *newss; \ YYSTYPE *newvs; \ newsize = *(YYSSZ) *= 2; \ if (malloced_yyss) \ { \ newss = really_call_realloc (*(SS), newsize * sizeof (short)); \ newvs = really_call_realloc (*(VS), newsize * sizeof (YYSTYPE)); \ } \ else \ { \ newss = really_call_malloc (newsize * sizeof (short)); \ newvs = really_call_malloc (newsize * sizeof (YYSTYPE)); \ if (newss) \ memcpy (newss, *(SS), (SSSIZE)); \ if (newvs) \ memcpy (newvs, *(VS), (VSSIZE)); \ } \ if (!newss || !newvs) \ { \ yyerror (MSG); \ return 2; \ } \ *(SS) = newss; \ *(VS) = newvs; \ malloced_yyss = newss; \ malloced_yyvs = (void *) newvs; \ } while (0) %} %start program %union {long itype; tree ttype; void *otype; struct c_expr exprtype; struct c_arg_info *arginfotype; struct c_declarator *dtrtype; struct c_type_name *typenametype; struct c_parm *parmtype; struct c_declspecs *dsptype; enum tree_code code; location_t location; } /* All identifiers that are not reserved words and are not declared typedefs in the current block */ %token IDENTIFIER /* All identifiers that are declared typedefs in the current block. In some contexts, they are treated just like IDENTIFIER, but they can also serve as typespecs in declarations. */ %token TYPENAME /* Reserved words that specify storage class. yylval contains an IDENTIFIER_NODE which indicates which one. */ %token SCSPEC /* Storage class other than static. */ %token STATIC /* Static storage class. */ /* Reserved words that specify type. yylval contains an IDENTIFIER_NODE which indicates which one. */ %token TYPESPEC /* Reserved words that qualify type: "const", "volatile", or "restrict". yylval contains an IDENTIFIER_NODE which indicates which one. */ %token TYPE_QUAL /* Objective-C protocol qualifiers. These acquire their magic powers only in certain contexts. */ %token OBJC_TYPE_QUAL /* Character or numeric constants. yylval is the node for the constant. */ %token CONSTANT /* String constants in raw form. yylval is a STRING_CST node. */ %token STRING /* "...", used for functions with variable arglists. */ %token ELLIPSIS /* the reserved words */ /* SCO include files test "ASM", so use something else. */ %token SIZEOF ENUM STRUCT UNION IF ELSE WHILE DO FOR SWITCH CASE DEFAULT %token BREAK CONTINUE RETURN GOTO ASM_KEYWORD TYPEOF ALIGNOF %token ATTRIBUTE EXTENSION LABEL %token REALPART IMAGPART VA_ARG CHOOSE_EXPR TYPES_COMPATIBLE_P %token PTR_VALUE PTR_BASE PTR_EXTENT %token FUNC_NAME OFFSETOF /* Add precedence rules to solve dangling else s/r conflict */ %nonassoc IF %nonassoc ELSE /* Define the operator tokens and their precedences. The value is an integer because, if used, it is the tree code to use in the expression made from the operator. */ %right ASSIGN '=' %right '?' ':' %left OROR %left ANDAND %left '|' %left '^' %left '&' %left EQCOMPARE %left ARITHCOMPARE %left LSHIFT RSHIFT %left '+' '-' %left '*' '/' '%' %right UNARY PLUSPLUS MINUSMINUS %left HYPERUNARY %left POINTSAT '.' '(' '[' /* The Objective-C keywords. These are included in C and in Objective C, so that the token codes are the same in both. */ %token AT_INTERFACE AT_IMPLEMENTATION AT_END AT_SELECTOR AT_DEFS AT_ENCODE %token CLASSNAME AT_PUBLIC AT_PRIVATE AT_PROTECTED AT_PROTOCOL %token OBJECTNAME AT_CLASS AT_ALIAS %token AT_THROW AT_TRY AT_CATCH AT_FINALLY AT_SYNCHRONIZED %token OBJC_STRING %type unop %type ENUM STRUCT UNION IF ELSE WHILE DO FOR SWITCH CASE DEFAULT %type BREAK CONTINUE RETURN GOTO ASM_KEYWORD SIZEOF TYPEOF ALIGNOF %type identifier IDENTIFIER TYPENAME CONSTANT STRING FUNC_NAME %type nonnull_exprlist exprlist %type expr expr_no_commas cast_expr unary_expr primary %type declspecs_nosc_nots_nosa_noea declspecs_nosc_nots_nosa_ea %type declspecs_nosc_nots_sa_noea declspecs_nosc_nots_sa_ea %type declspecs_nosc_ts_nosa_noea declspecs_nosc_ts_nosa_ea %type declspecs_nosc_ts_sa_noea declspecs_nosc_ts_sa_ea %type declspecs_sc_nots_nosa_noea declspecs_sc_nots_nosa_ea %type declspecs_sc_nots_sa_noea declspecs_sc_nots_sa_ea %type declspecs_sc_ts_nosa_noea declspecs_sc_ts_nosa_ea %type declspecs_sc_ts_sa_noea declspecs_sc_ts_sa_ea %type declspecs_ts declspecs_nots %type declspecs_ts_nosa declspecs_nots_nosa %type declspecs_nosc_ts declspecs_nosc_nots declspecs_nosc declspecs %type maybe_type_quals_attrs %type typespec_nonattr typespec_attr %type typespec_reserved_nonattr typespec_reserved_attr %type typespec_nonreserved_nonattr %type offsetof_member_designator %type scspec SCSPEC STATIC TYPESPEC TYPE_QUAL maybe_volatile %type initdecls notype_initdecls initdcl notype_initdcl %type init %type simple_asm_expr maybeasm asm_stmt asm_argument %type asm_operands nonnull_asm_operands asm_operand asm_clobbers %type maybe_attribute attributes attribute attribute_list attrib %type any_word %type compstmt compstmt_start compstmt_primary_start %type stmt label stmt_nocomp start_break start_continue %type c99_block_start c99_block_lineno_labeled_stmt %type if_statement_1 if_statement_2 %type declarator %type notype_declarator after_type_declarator %type parm_declarator %type parm_declarator_starttypename parm_declarator_nostarttypename %type array_declarator %type structsp_attr structsp_nonattr %type component_decl_list component_decl_list2 %type component_decl components components_notype component_declarator %type component_notype_declarator %type enumlist enumerator %type struct_head union_head enum_head %type typename %type absdcl absdcl1 absdcl1_ea absdcl1_noea direct_absdcl1 %type absdcl_maybe_attribute %type condition xexpr for_cond_expr for_incr_expr %type parm firstparm %type identifiers %type parms parmlist parmlist_1 parmlist_2 %type parmlist_or_identifiers parmlist_or_identifiers_1 %type identifiers_or_typenames %type setspecs setspecs_fp extension %type save_location %type save_obstack_position @@ifobjc /* the Objective-C nonterminals */ %type methoddecl unaryselector keywordselector selector %type methodtype %type keyworddecl receiver objcmessageexpr messageargs %type keywordexpr keywordarglist keywordarg %type optparmlist optparms reservedwords objcselectorexpr %type selectorarg keywordnamelist keywordname objcencodeexpr %type non_empty_protocolrefs protocolrefs identifier_list objcprotocolexpr %type CLASSNAME OBJECTNAME OBJC_STRING OBJC_TYPE_QUAL %type superclass objc_quals objc_qual objc_typename %type objc_try_catch_stmt optellipsis @@end_ifobjc %{ /* Declaration specifiers of the current declaration. */ static struct c_declspecs *current_declspecs; static GTY(()) tree prefix_attributes; /* List of all the attributes applying to the identifier currently being declared; includes prefix_attributes and possibly some more attributes just after a comma. */ static GTY(()) tree all_prefix_attributes; /* Structure to save declaration specifiers. */ struct c_declspec_stack { /* Saved value of current_declspecs. */ struct c_declspecs *current_declspecs; /* Saved value of prefix_attributes. */ tree prefix_attributes; /* Saved value of all_prefix_attributes. */ tree all_prefix_attributes; /* Next level of stack. */ struct c_declspec_stack *next; }; /* Stack of saved values of current_declspecs, prefix_attributes and all_prefix_attributes. */ static struct c_declspec_stack *declspec_stack; /* INDIRECT_REF with a TREE_TYPE of the type being queried for offsetof. */ static tree offsetof_base; /* PUSH_DECLSPEC_STACK is called from setspecs; POP_DECLSPEC_STACK should be called from the productions making use of setspecs. */ #define PUSH_DECLSPEC_STACK \ do { \ struct c_declspec_stack *t = XOBNEW (&parser_obstack, \ struct c_declspec_stack); \ t->current_declspecs = current_declspecs; \ t->prefix_attributes = prefix_attributes; \ t->all_prefix_attributes = all_prefix_attributes; \ t->next = declspec_stack; \ declspec_stack = t; \ } while (0) #define POP_DECLSPEC_STACK \ do { \ current_declspecs = declspec_stack->current_declspecs; \ prefix_attributes = declspec_stack->prefix_attributes; \ all_prefix_attributes = declspec_stack->all_prefix_attributes; \ declspec_stack = declspec_stack->next; \ } while (0) /* For __extension__, save/restore the warning flags which are controlled by __extension__. */ #define SAVE_EXT_FLAGS() \ (pedantic \ | (warn_pointer_arith << 1) \ | (warn_traditional << 2) \ | (flag_iso << 3)) #define RESTORE_EXT_FLAGS(val) \ do { \ pedantic = val & 1; \ warn_pointer_arith = (val >> 1) & 1; \ warn_traditional = (val >> 2) & 1; \ flag_iso = (val >> 3) & 1; \ } while (0) @@ifobjc /* Objective-C specific parser/lexer information */ static int objc_pq_context = 0; /* The following flag is needed to contextualize ObjC lexical analysis. In some cases (e.g., 'int NSObject;'), it is undesirable to bind an identifier to an ObjC class, even if a class with that name exists. */ static int objc_need_raw_identifier; #define OBJC_NEED_RAW_IDENTIFIER(VAL) objc_need_raw_identifier = VAL @@end_ifobjc @@ifc #define OBJC_NEED_RAW_IDENTIFIER(VAL) /* nothing */ @@end_ifc /* Tell yyparse how to print a token's value, if yydebug is set. */ #define YYPRINT(FILE,YYCHAR,YYLVAL) yyprint(FILE,YYCHAR,YYLVAL) static void yyprint (FILE *, int, YYSTYPE); static void yyerror (const char *); static int yylexname (void); static inline int _yylex (void); static int yylex (void); static void init_reswords (void); /* Initialisation routine for this file. */ void c_parse_init (void) { init_reswords (); } %} %% program: /* empty */ { if (pedantic) pedwarn ("ISO C forbids an empty source file"); } | extdefs ; /* the reason for the strange actions in this rule is so that notype_initdecls when reached via datadef can find valid declaration specifiers in $0. */ extdefs: save_obstack_position { $$ = NULL; } extdef { obstack_free (&parser_obstack, $1); } | extdefs save_obstack_position { $$ = NULL; ggc_collect(); } extdef { obstack_free (&parser_obstack, $2); } ; extdef: fndef | datadef | asmdef | extension extdef { RESTORE_EXT_FLAGS ($1); } @@ifobjc | objcdef @@end_ifobjc ; /* Record the current position of parser_obstack before a declaration to restore it afterwards. */ save_obstack_position: { $$ = obstack_alloc (&parser_obstack, 0); } ; datadef: setspecs notype_initdecls ';' { if (pedantic) error ("ISO C forbids data definition with no type or storage class"); else warning ("data definition has no type or storage class"); POP_DECLSPEC_STACK; } | declspecs_nots setspecs notype_initdecls ';' { POP_DECLSPEC_STACK; } | declspecs_ts setspecs initdecls ';' { POP_DECLSPEC_STACK; } | declspecs ';' { shadow_tag ($1); } | error ';' | error '}' | ';' { if (pedantic) pedwarn ("ISO C does not allow extra `;' outside of a function"); } ; fndef: declspecs_ts setspecs declarator { if (! start_function (current_declspecs, $3, all_prefix_attributes)) YYERROR1; } old_style_parm_decls save_location { DECL_SOURCE_LOCATION (current_function_decl) = $6; store_parm_decls (); } compstmt_or_error { finish_function (); POP_DECLSPEC_STACK; } | declspecs_ts setspecs declarator error { POP_DECLSPEC_STACK; } | declspecs_nots setspecs notype_declarator { if (! start_function (current_declspecs, $3, all_prefix_attributes)) YYERROR1; } old_style_parm_decls save_location { DECL_SOURCE_LOCATION (current_function_decl) = $6; store_parm_decls (); } compstmt_or_error { finish_function (); POP_DECLSPEC_STACK; } | declspecs_nots setspecs notype_declarator error { POP_DECLSPEC_STACK; } | setspecs notype_declarator { if (! start_function (current_declspecs, $2, all_prefix_attributes)) YYERROR1; } old_style_parm_decls save_location { DECL_SOURCE_LOCATION (current_function_decl) = $5; store_parm_decls (); } compstmt_or_error { finish_function (); POP_DECLSPEC_STACK; } | setspecs notype_declarator error { POP_DECLSPEC_STACK; } ; identifier: IDENTIFIER | TYPENAME @@ifobjc | OBJECTNAME | CLASSNAME @@end_ifobjc ; unop: '&' { $$ = ADDR_EXPR; } | '-' { $$ = NEGATE_EXPR; } | '+' { $$ = CONVERT_EXPR; @@ifc if (warn_traditional && !in_system_header) warning ("traditional C rejects the unary plus operator"); @@end_ifc } | PLUSPLUS { $$ = PREINCREMENT_EXPR; } | MINUSMINUS { $$ = PREDECREMENT_EXPR; } | '~' { $$ = BIT_NOT_EXPR; } | '!' { $$ = TRUTH_NOT_EXPR; } ; expr: expr_no_commas | expr ',' expr_no_commas { $$.value = build_compound_expr ($1.value, $3.value); $$.original_code = COMPOUND_EXPR; } ; exprlist: /* empty */ { $$ = NULL_TREE; } | nonnull_exprlist ; nonnull_exprlist: expr_no_commas { $$ = build_tree_list (NULL_TREE, $1.value); } | nonnull_exprlist ',' expr_no_commas { chainon ($1, build_tree_list (NULL_TREE, $3.value)); } ; unary_expr: primary | '*' cast_expr %prec UNARY { $$.value = build_indirect_ref ($2.value, "unary *"); $$.original_code = ERROR_MARK; } /* __extension__ turns off -pedantic for following primary. */ | extension cast_expr %prec UNARY { $$ = $2; RESTORE_EXT_FLAGS ($1); } | unop cast_expr %prec UNARY { $$.value = build_unary_op ($1, $2.value, 0); overflow_warning ($$.value); $$.original_code = ERROR_MARK; } /* Refer to the address of a label as a pointer. */ | ANDAND identifier { $$.value = finish_label_address_expr ($2); $$.original_code = ERROR_MARK; } | sizeof unary_expr %prec UNARY { skip_evaluation--; in_sizeof--; if (TREE_CODE ($2.value) == COMPONENT_REF && DECL_C_BIT_FIELD (TREE_OPERAND ($2.value, 1))) error ("`sizeof' applied to a bit-field"); $$ = c_expr_sizeof_expr ($2); } | sizeof '(' typename ')' %prec HYPERUNARY { skip_evaluation--; in_sizeof--; $$ = c_expr_sizeof_type ($3); } | alignof unary_expr %prec UNARY { skip_evaluation--; in_alignof--; $$.value = c_alignof_expr ($2.value); $$.original_code = ERROR_MARK; } | alignof '(' typename ')' %prec HYPERUNARY { skip_evaluation--; in_alignof--; $$.value = c_alignof (groktypename ($3)); $$.original_code = ERROR_MARK; } | REALPART cast_expr %prec UNARY { $$.value = build_unary_op (REALPART_EXPR, $2.value, 0); $$.original_code = ERROR_MARK; } | IMAGPART cast_expr %prec UNARY { $$.value = build_unary_op (IMAGPART_EXPR, $2.value, 0); $$.original_code = ERROR_MARK; } ; sizeof: SIZEOF { skip_evaluation++; in_sizeof++; } ; alignof: ALIGNOF { skip_evaluation++; in_alignof++; } ; typeof: TYPEOF { skip_evaluation++; in_typeof++; } ; cast_expr: unary_expr | '(' typename ')' cast_expr %prec UNARY { $$.value = c_cast_expr ($2, $4.value); $$.original_code = ERROR_MARK; } ; expr_no_commas: cast_expr | expr_no_commas '+' expr_no_commas { $$ = parser_build_binary_op ($2, $1, $3); } | expr_no_commas '-' expr_no_commas { $$ = parser_build_binary_op ($2, $1, $3); } | expr_no_commas '*' expr_no_commas { $$ = parser_build_binary_op ($2, $1, $3); } | expr_no_commas '/' expr_no_commas { $$ = parser_build_binary_op ($2, $1, $3); } | expr_no_commas '%' expr_no_commas { $$ = parser_build_binary_op ($2, $1, $3); } | expr_no_commas LSHIFT expr_no_commas { $$ = parser_build_binary_op ($2, $1, $3); } | expr_no_commas RSHIFT expr_no_commas { $$ = parser_build_binary_op ($2, $1, $3); } | expr_no_commas ARITHCOMPARE expr_no_commas { $$ = parser_build_binary_op ($2, $1, $3); } | expr_no_commas EQCOMPARE expr_no_commas { $$ = parser_build_binary_op ($2, $1, $3); } | expr_no_commas '&' expr_no_commas { $$ = parser_build_binary_op ($2, $1, $3); } | expr_no_commas '|' expr_no_commas { $$ = parser_build_binary_op ($2, $1, $3); } | expr_no_commas '^' expr_no_commas { $$ = parser_build_binary_op ($2, $1, $3); } | expr_no_commas ANDAND { $1.value = lang_hooks.truthvalue_conversion (default_conversion ($1.value)); skip_evaluation += $1.value == truthvalue_false_node; } expr_no_commas { skip_evaluation -= $1.value == truthvalue_false_node; $$ = parser_build_binary_op (TRUTH_ANDIF_EXPR, $1, $4); } | expr_no_commas OROR { $1.value = lang_hooks.truthvalue_conversion (default_conversion ($1.value)); skip_evaluation += $1.value == truthvalue_true_node; } expr_no_commas { skip_evaluation -= $1.value == truthvalue_true_node; $$ = parser_build_binary_op (TRUTH_ORIF_EXPR, $1, $4); } | expr_no_commas '?' { $1.value = lang_hooks.truthvalue_conversion (default_conversion ($1.value)); skip_evaluation += $1.value == truthvalue_false_node; } expr ':' { skip_evaluation += (($1.value == truthvalue_true_node) - ($1.value == truthvalue_false_node)); } expr_no_commas { skip_evaluation -= $1.value == truthvalue_true_node; $$.value = build_conditional_expr ($1.value, $4.value, $7.value); $$.original_code = ERROR_MARK; } | expr_no_commas '?' { if (pedantic) pedwarn ("ISO C forbids omitting the middle term of a ?: expression"); /* Make sure first operand is calculated only once. */ $2 = save_expr (default_conversion ($1.value)); $1.value = lang_hooks.truthvalue_conversion ($2); skip_evaluation += $1.value == truthvalue_true_node; } ':' expr_no_commas { skip_evaluation -= $1.value == truthvalue_true_node; $$.value = build_conditional_expr ($1.value, $2, $5.value); $$.original_code = ERROR_MARK; } | expr_no_commas '=' expr_no_commas { $$.value = build_modify_expr ($1.value, NOP_EXPR, $3.value); $$.original_code = MODIFY_EXPR; } | expr_no_commas ASSIGN expr_no_commas { $$.value = build_modify_expr ($1.value, $2, $3.value); TREE_NO_WARNING ($$.value) = 1; $$.original_code = ERROR_MARK; } ; primary: IDENTIFIER { if (yychar == YYEMPTY) yychar = YYLEX; $$.value = build_external_ref ($1, yychar == '('); $$.original_code = ERROR_MARK; } | CONSTANT { $$.value = $1; $$.original_code = ERROR_MARK; } | STRING { $$.value = $1; $$.original_code = STRING_CST; } | FUNC_NAME { $$.value = fname_decl (C_RID_CODE ($1), $1); $$.original_code = ERROR_MARK; } | '(' typename ')' '{' { start_init (NULL_TREE, NULL, 0); $$ = groktypename ($2); really_start_incremental_init ($$); } initlist_maybe_comma '}' %prec UNARY { struct c_expr init = pop_init_level (0); tree constructor = init.value; tree type = $5; finish_init (); maybe_warn_string_init (type, init); if (pedantic && ! flag_isoc99) pedwarn ("ISO C90 forbids compound literals"); $$.value = build_compound_literal (type, constructor); $$.original_code = ERROR_MARK; } | '(' expr ')' { $$.value = $2.value; if (TREE_CODE ($$.value) == MODIFY_EXPR) TREE_NO_WARNING ($$.value) = 1; $$.original_code = ERROR_MARK; } | '(' error ')' { $$.value = error_mark_node; $$.original_code = ERROR_MARK; } | compstmt_primary_start compstmt_nostart ')' { if (pedantic) pedwarn ("ISO C forbids braced-groups within expressions"); $$.value = c_finish_stmt_expr ($1); $$.original_code = ERROR_MARK; } | compstmt_primary_start error ')' { c_finish_stmt_expr ($1); $$.value = error_mark_node; $$.original_code = ERROR_MARK; } | primary '(' exprlist ')' %prec '.' { $$.value = build_function_call ($1.value, $3); $$.original_code = ERROR_MARK; } | VA_ARG '(' expr_no_commas ',' typename ')' { $$.value = build_va_arg ($3.value, groktypename ($5)); $$.original_code = ERROR_MARK; } | OFFSETOF '(' typename ',' { tree type = groktypename ($3); if (type == error_mark_node) offsetof_base = error_mark_node; else offsetof_base = build1 (INDIRECT_REF, type, NULL); } offsetof_member_designator ')' { $$.value = fold_offsetof ($6); $$.original_code = ERROR_MARK; } | OFFSETOF '(' error ')' { $$.value = error_mark_node; $$.original_code = ERROR_MARK; } | CHOOSE_EXPR '(' expr_no_commas ',' expr_no_commas ',' expr_no_commas ')' { tree c; c = fold ($3.value); STRIP_NOPS (c); if (TREE_CODE (c) != INTEGER_CST) error ("first argument to __builtin_choose_expr not" " a constant"); $$ = integer_zerop (c) ? $7 : $5; } | CHOOSE_EXPR '(' error ')' { $$.value = error_mark_node; $$.original_code = ERROR_MARK; } | TYPES_COMPATIBLE_P '(' typename ',' typename ')' { tree e1, e2; e1 = TYPE_MAIN_VARIANT (groktypename ($3)); e2 = TYPE_MAIN_VARIANT (groktypename ($5)); $$.value = comptypes (e1, e2) ? build_int_cst (NULL_TREE, 1) : build_int_cst (NULL_TREE, 0); $$.original_code = ERROR_MARK; } | TYPES_COMPATIBLE_P '(' error ')' { $$.value = error_mark_node; $$.original_code = ERROR_MARK; } | primary '[' expr ']' %prec '.' { $$.value = build_array_ref ($1.value, $3.value); $$.original_code = ERROR_MARK; } | primary '.' identifier { $$.value = build_component_ref ($1.value, $3); $$.original_code = ERROR_MARK; } | primary POINTSAT identifier { tree expr = build_indirect_ref ($1.value, "->"); $$.value = build_component_ref (expr, $3); $$.original_code = ERROR_MARK; } | primary PLUSPLUS { $$.value = build_unary_op (POSTINCREMENT_EXPR, $1.value, 0); $$.original_code = ERROR_MARK; } | primary MINUSMINUS { $$.value = build_unary_op (POSTDECREMENT_EXPR, $1.value, 0); $$.original_code = ERROR_MARK; } @@ifobjc | objcmessageexpr { $$.value = objc_build_message_expr ($1); $$.original_code = ERROR_MARK; } | objcselectorexpr { $$.value = objc_build_selector_expr ($1); $$.original_code = ERROR_MARK; } | objcprotocolexpr { $$.value = objc_build_protocol_expr ($1); $$.original_code = ERROR_MARK; } | objcencodeexpr { $$.value = objc_build_encode_expr ($1); $$.original_code = ERROR_MARK; } | OBJC_STRING { $$.value = objc_build_string_object ($1); $$.original_code = ERROR_MARK; } @@end_ifobjc ; /* This is the second argument to __builtin_offsetof. We must have one identifier, and beyond that we want to accept sub structure and sub array references. */ offsetof_member_designator: identifier { $$ = build_component_ref (offsetof_base, $1); } | offsetof_member_designator '.' identifier { $$ = build_component_ref ($1, $3); } | offsetof_member_designator '[' expr ']' { $$ = build_array_ref ($1, $3.value); } ; old_style_parm_decls: /* empty */ | datadecls ; /* The following are analogous to lineno_decl, decls and decl except that they do not allow nested functions. They are used for old-style parm decls. */ lineno_datadecl: save_location datadecl { } ; datadecls: lineno_datadecl | errstmt | datadecls lineno_datadecl | lineno_datadecl errstmt ; /* We don't allow prefix attributes here because they cause reduce/reduce conflicts: we can't know whether we're parsing a function decl with attribute suffix, or function defn with attribute prefix on first old style parm. */ datadecl: declspecs_ts_nosa setspecs initdecls ';' { POP_DECLSPEC_STACK; } | declspecs_nots_nosa setspecs notype_initdecls ';' { POP_DECLSPEC_STACK; } | declspecs_ts_nosa ';' { shadow_tag_warned ($1, 1); pedwarn ("empty declaration"); } | declspecs_nots_nosa ';' { pedwarn ("empty declaration"); } ; /* This combination which saves a lineno before a decl is the normal thing to use, rather than decl itself. This is to avoid shift/reduce conflicts in contexts where statement labels are allowed. */ lineno_decl: save_location decl { } ; /* records the type and storage class specs to use for processing the declarators that follow. Maintains a stack of outer-level values of current_declspecs, for the sake of parm declarations nested in function declarators. */ setspecs: /* empty */ { pending_xref_error (); PUSH_DECLSPEC_STACK; if ($0) { prefix_attributes = $0->attrs; $0->attrs = NULL_TREE; current_declspecs = $0; } else { prefix_attributes = NULL_TREE; current_declspecs = build_null_declspecs (); } all_prefix_attributes = prefix_attributes; } ; /* Possibly attributes after a comma, which should reset all_prefix_attributes to prefix_attributes with these ones chained on the front. */ maybe_resetattrs: maybe_attribute { all_prefix_attributes = chainon ($1, prefix_attributes); } ; decl: declspecs_ts setspecs initdecls ';' { POP_DECLSPEC_STACK; } | declspecs_nots setspecs notype_initdecls ';' { POP_DECLSPEC_STACK; } | declspecs_ts setspecs nested_function { POP_DECLSPEC_STACK; } | declspecs_nots setspecs notype_nested_function { POP_DECLSPEC_STACK; } | declspecs ';' { shadow_tag ($1); } | extension decl { RESTORE_EXT_FLAGS ($1); } ; /* A list of declaration specifiers. These are: - Storage class specifiers (scspec), which for GCC currently includes function specifiers ("inline"). - Type specifiers (typespec_*). - Type qualifiers (TYPE_QUAL). - Attribute specifier lists (attributes). The various cases below are classified according to: (a) Whether a storage class specifier is included or not; some places in the grammar disallow storage class specifiers (_sc or _nosc). (b) Whether a type specifier has been seen; after a type specifier, a typedef name is an identifier to redeclare (_ts or _nots). (c) Whether the list starts with an attribute; in certain places, the grammar requires specifiers that don't start with an attribute (_sa or _nosa). (d) Whether the list ends with an attribute (or a specifier such that any following attribute would have been parsed as part of that specifier); this avoids shift-reduce conflicts in the parsing of attributes (_ea or _noea). TODO: (i) Distinguish between function specifiers and storage class specifiers, at least for the purpose of warnings about obsolescent usage. (ii) Halve the number of productions here by eliminating the _sc/_nosc distinction and instead checking where required that storage class specifiers aren't present. */ /* Declspecs which contain at least one type specifier or typedef name. (Just `const' or `volatile' is not enough.) A typedef'd name following these is taken as a name to be declared. */ declspecs_nosc_nots_nosa_noea: TYPE_QUAL { $$ = declspecs_add_qual (build_null_declspecs (), $1); } | declspecs_nosc_nots_nosa_noea TYPE_QUAL { $$ = declspecs_add_qual ($1, $2); } | declspecs_nosc_nots_nosa_ea TYPE_QUAL { $$ = declspecs_add_qual ($1, $2); } ; declspecs_nosc_nots_nosa_ea: declspecs_nosc_nots_nosa_noea attributes { $$ = declspecs_add_attrs ($1, $2); } ; declspecs_nosc_nots_sa_noea: declspecs_nosc_nots_sa_noea TYPE_QUAL { $$ = declspecs_add_qual ($1, $2); } | declspecs_nosc_nots_sa_ea TYPE_QUAL { $$ = declspecs_add_qual ($1, $2); } ; declspecs_nosc_nots_sa_ea: attributes { $$ = declspecs_add_attrs (build_null_declspecs (), $1); } | declspecs_nosc_nots_sa_noea attributes { $$ = declspecs_add_attrs ($1, $2); } ; declspecs_nosc_ts_nosa_noea: typespec_nonattr { $$ = declspecs_add_type (build_null_declspecs (), $1); } | declspecs_nosc_ts_nosa_noea TYPE_QUAL { $$ = declspecs_add_qual ($1, $2); } | declspecs_nosc_ts_nosa_ea TYPE_QUAL { $$ = declspecs_add_qual ($1, $2); } | declspecs_nosc_ts_nosa_noea typespec_reserved_nonattr { $$ = declspecs_add_type ($1, $2); } | declspecs_nosc_ts_nosa_ea typespec_reserved_nonattr { $$ = declspecs_add_type ($1, $2); } | declspecs_nosc_nots_nosa_noea typespec_nonattr { $$ = declspecs_add_type ($1, $2); } | declspecs_nosc_nots_nosa_ea typespec_nonattr { $$ = declspecs_add_type ($1, $2); } ; declspecs_nosc_ts_nosa_ea: typespec_attr { $$ = declspecs_add_type (build_null_declspecs (), $1); } | declspecs_nosc_ts_nosa_noea attributes { $$ = declspecs_add_attrs ($1, $2); } | declspecs_nosc_ts_nosa_noea typespec_reserved_attr { $$ = declspecs_add_type ($1, $2); } | declspecs_nosc_ts_nosa_ea typespec_reserved_attr { $$ = declspecs_add_type ($1, $2); } | declspecs_nosc_nots_nosa_noea typespec_attr { $$ = declspecs_add_type ($1, $2); } | declspecs_nosc_nots_nosa_ea typespec_attr { $$ = declspecs_add_type ($1, $2); } ; declspecs_nosc_ts_sa_noea: declspecs_nosc_ts_sa_noea TYPE_QUAL { $$ = declspecs_add_qual ($1, $2); } | declspecs_nosc_ts_sa_ea TYPE_QUAL { $$ = declspecs_add_qual ($1, $2); } | declspecs_nosc_ts_sa_noea typespec_reserved_nonattr { $$ = declspecs_add_type ($1, $2); } | declspecs_nosc_ts_sa_ea typespec_reserved_nonattr { $$ = declspecs_add_type ($1, $2); } | declspecs_nosc_nots_sa_noea typespec_nonattr { $$ = declspecs_add_type ($1, $2); } | declspecs_nosc_nots_sa_ea typespec_nonattr { $$ = declspecs_add_type ($1, $2); } ; declspecs_nosc_ts_sa_ea: declspecs_nosc_ts_sa_noea attributes { $$ = declspecs_add_attrs ($1, $2); } | declspecs_nosc_ts_sa_noea typespec_reserved_attr { $$ = declspecs_add_type ($1, $2); } | declspecs_nosc_ts_sa_ea typespec_reserved_attr { $$ = declspecs_add_type ($1, $2); } | declspecs_nosc_nots_sa_noea typespec_attr { $$ = declspecs_add_type ($1, $2); } | declspecs_nosc_nots_sa_ea typespec_attr { $$ = declspecs_add_type ($1, $2); } ; declspecs_sc_nots_nosa_noea: scspec { $$ = declspecs_add_scspec (build_null_declspecs (), $1); } | declspecs_sc_nots_nosa_noea TYPE_QUAL { $$ = declspecs_add_qual ($1, $2); } | declspecs_sc_nots_nosa_ea TYPE_QUAL { $$ = declspecs_add_qual ($1, $2); } | declspecs_nosc_nots_nosa_noea scspec { $$ = declspecs_add_scspec ($1, $2); } | declspecs_nosc_nots_nosa_ea scspec { $$ = declspecs_add_scspec ($1, $2); } | declspecs_sc_nots_nosa_noea scspec { $$ = declspecs_add_scspec ($1, $2); } | declspecs_sc_nots_nosa_ea scspec { $$ = declspecs_add_scspec ($1, $2); } ; declspecs_sc_nots_nosa_ea: declspecs_sc_nots_nosa_noea attributes { $$ = declspecs_add_attrs ($1, $2); } ; declspecs_sc_nots_sa_noea: declspecs_sc_nots_sa_noea TYPE_QUAL { $$ = declspecs_add_qual ($1, $2); } | declspecs_sc_nots_sa_ea TYPE_QUAL { $$ = declspecs_add_qual ($1, $2); } | declspecs_nosc_nots_sa_noea scspec { $$ = declspecs_add_scspec ($1, $2); } | declspecs_nosc_nots_sa_ea scspec { $$ = declspecs_add_scspec ($1, $2); } | declspecs_sc_nots_sa_noea scspec { $$ = declspecs_add_scspec ($1, $2); } | declspecs_sc_nots_sa_ea scspec { $$ = declspecs_add_scspec ($1, $2); } ; declspecs_sc_nots_sa_ea: declspecs_sc_nots_sa_noea attributes { $$ = declspecs_add_attrs ($1, $2); } ; declspecs_sc_ts_nosa_noea: declspecs_sc_ts_nosa_noea TYPE_QUAL { $$ = declspecs_add_qual ($1, $2); } | declspecs_sc_ts_nosa_ea TYPE_QUAL { $$ = declspecs_add_qual ($1, $2); } | declspecs_sc_ts_nosa_noea typespec_reserved_nonattr { $$ = declspecs_add_type ($1, $2); } | declspecs_sc_ts_nosa_ea typespec_reserved_nonattr { $$ = declspecs_add_type ($1, $2); } | declspecs_sc_nots_nosa_noea typespec_nonattr { $$ = declspecs_add_type ($1, $2); } | declspecs_sc_nots_nosa_ea typespec_nonattr { $$ = declspecs_add_type ($1, $2); } | declspecs_nosc_ts_nosa_noea scspec { $$ = declspecs_add_scspec ($1, $2); } | declspecs_nosc_ts_nosa_ea scspec { $$ = declspecs_add_scspec ($1, $2); } | declspecs_sc_ts_nosa_noea scspec { $$ = declspecs_add_scspec ($1, $2); } | declspecs_sc_ts_nosa_ea scspec { $$ = declspecs_add_scspec ($1, $2); } ; declspecs_sc_ts_nosa_ea: declspecs_sc_ts_nosa_noea attributes { $$ = declspecs_add_attrs ($1, $2); } | declspecs_sc_ts_nosa_noea typespec_reserved_attr { $$ = declspecs_add_type ($1, $2); } | declspecs_sc_ts_nosa_ea typespec_reserved_attr { $$ = declspecs_add_type ($1, $2); } | declspecs_sc_nots_nosa_noea typespec_attr { $$ = declspecs_add_type ($1, $2); } | declspecs_sc_nots_nosa_ea typespec_attr { $$ = declspecs_add_type ($1, $2); } ; declspecs_sc_ts_sa_noea: declspecs_sc_ts_sa_noea TYPE_QUAL { $$ = declspecs_add_qual ($1, $2); } | declspecs_sc_ts_sa_ea TYPE_QUAL { $$ = declspecs_add_qual ($1, $2); } | declspecs_sc_ts_sa_noea typespec_reserved_nonattr { $$ = declspecs_add_type ($1, $2); } | declspecs_sc_ts_sa_ea typespec_reserved_nonattr { $$ = declspecs_add_type ($1, $2); } | declspecs_sc_nots_sa_noea typespec_nonattr { $$ = declspecs_add_type ($1, $2); } | declspecs_sc_nots_sa_ea typespec_nonattr { $$ = declspecs_add_type ($1, $2); } | declspecs_nosc_ts_sa_noea scspec { $$ = declspecs_add_scspec ($1, $2); } | declspecs_nosc_ts_sa_ea scspec { $$ = declspecs_add_scspec ($1, $2); } | declspecs_sc_ts_sa_noea scspec { $$ = declspecs_add_scspec ($1, $2); } | declspecs_sc_ts_sa_ea scspec { $$ = declspecs_add_scspec ($1, $2); } ; declspecs_sc_ts_sa_ea: declspecs_sc_ts_sa_noea attributes { $$ = declspecs_add_attrs ($1, $2); } | declspecs_sc_ts_sa_noea typespec_reserved_attr { $$ = declspecs_add_type ($1, $2); } | declspecs_sc_ts_sa_ea typespec_reserved_attr { $$ = declspecs_add_type ($1, $2); } | declspecs_sc_nots_sa_noea typespec_attr { $$ = declspecs_add_type ($1, $2); } | declspecs_sc_nots_sa_ea typespec_attr { $$ = declspecs_add_type ($1, $2); } ; /* Particular useful classes of declspecs. */ declspecs_ts: declspecs_nosc_ts_nosa_noea | declspecs_nosc_ts_nosa_ea | declspecs_nosc_ts_sa_noea | declspecs_nosc_ts_sa_ea | declspecs_sc_ts_nosa_noea | declspecs_sc_ts_nosa_ea | declspecs_sc_ts_sa_noea | declspecs_sc_ts_sa_ea ; declspecs_nots: declspecs_nosc_nots_nosa_noea | declspecs_nosc_nots_nosa_ea | declspecs_nosc_nots_sa_noea | declspecs_nosc_nots_sa_ea | declspecs_sc_nots_nosa_noea | declspecs_sc_nots_nosa_ea | declspecs_sc_nots_sa_noea | declspecs_sc_nots_sa_ea ; declspecs_ts_nosa: declspecs_nosc_ts_nosa_noea | declspecs_nosc_ts_nosa_ea | declspecs_sc_ts_nosa_noea | declspecs_sc_ts_nosa_ea ; declspecs_nots_nosa: declspecs_nosc_nots_nosa_noea | declspecs_nosc_nots_nosa_ea | declspecs_sc_nots_nosa_noea | declspecs_sc_nots_nosa_ea ; declspecs_nosc_ts: declspecs_nosc_ts_nosa_noea | declspecs_nosc_ts_nosa_ea | declspecs_nosc_ts_sa_noea | declspecs_nosc_ts_sa_ea ; declspecs_nosc_nots: declspecs_nosc_nots_nosa_noea | declspecs_nosc_nots_nosa_ea | declspecs_nosc_nots_sa_noea | declspecs_nosc_nots_sa_ea ; declspecs_nosc: declspecs_nosc_ts_nosa_noea | declspecs_nosc_ts_nosa_ea | declspecs_nosc_ts_sa_noea | declspecs_nosc_ts_sa_ea | declspecs_nosc_nots_nosa_noea | declspecs_nosc_nots_nosa_ea | declspecs_nosc_nots_sa_noea | declspecs_nosc_nots_sa_ea ; declspecs: declspecs_nosc_nots_nosa_noea | declspecs_nosc_nots_nosa_ea | declspecs_nosc_nots_sa_noea | declspecs_nosc_nots_sa_ea | declspecs_nosc_ts_nosa_noea | declspecs_nosc_ts_nosa_ea | declspecs_nosc_ts_sa_noea | declspecs_nosc_ts_sa_ea | declspecs_sc_nots_nosa_noea | declspecs_sc_nots_nosa_ea | declspecs_sc_nots_sa_noea | declspecs_sc_nots_sa_ea | declspecs_sc_ts_nosa_noea | declspecs_sc_ts_nosa_ea | declspecs_sc_ts_sa_noea | declspecs_sc_ts_sa_ea ; /* A (possibly empty) sequence of type qualifiers and attributes. */ maybe_type_quals_attrs: /* empty */ { $$ = NULL; } | declspecs_nosc_nots { $$ = $1; } ; /* A type specifier (but not a type qualifier). Once we have seen one of these in a declaration, if a typedef name appears then it is being redeclared. The _reserved versions start with a reserved word and may appear anywhere in the declaration specifiers; the _nonreserved versions may only appear before any other type specifiers, and after that are (if names) being redeclared. FIXME: should the _nonreserved version be restricted to names being redeclared only? The other entries there relate only the GNU extensions and Objective C, and are historically parsed thus, and don't make sense after other type specifiers, but it might be cleaner to count them as _reserved. _attr means: specifiers that either end with attributes, or are such that any following attributes would be parsed as part of the specifier. _nonattr: other specifiers not ending with attributes. */ typespec_nonattr: typespec_reserved_nonattr | typespec_nonreserved_nonattr ; typespec_attr: typespec_reserved_attr ; typespec_reserved_nonattr: TYPESPEC { OBJC_NEED_RAW_IDENTIFIER (1); } | structsp_nonattr ; typespec_reserved_attr: structsp_attr ; typespec_nonreserved_nonattr: TYPENAME { /* For a typedef name, record the meaning, not the name. In case of `foo foo, bar;'. */ $$ = lookup_name ($1); } @@ifobjc | CLASSNAME protocolrefs { $$ = objc_get_protocol_qualified_type ($1, $2); } | OBJECTNAME protocolrefs { $$ = objc_get_protocol_qualified_type ($1, $2); } /* Make "" equivalent to "id " - nisse@lysator.liu.se */ | non_empty_protocolrefs { $$ = objc_get_protocol_qualified_type (NULL_TREE, $1); } @@end_ifobjc | typeof '(' expr ')' { skip_evaluation--; in_typeof--; if (TREE_CODE ($3.value) == COMPONENT_REF && DECL_C_BIT_FIELD (TREE_OPERAND ($3.value, 1))) error ("`typeof' applied to a bit-field"); $$ = TREE_TYPE ($3.value); pop_maybe_used (variably_modified_type_p ($$, NULL_TREE)); } | typeof '(' typename ')' { skip_evaluation--; in_typeof--; $$ = groktypename ($3); pop_maybe_used (variably_modified_type_p ($$, NULL_TREE)); } ; /* typespec_nonreserved_attr does not exist. */ initdecls: initdcl | initdecls ',' maybe_resetattrs initdcl ; notype_initdecls: notype_initdcl | notype_initdecls ',' maybe_resetattrs notype_initdcl ; initdcl: declarator maybeasm maybe_attribute '=' { $$ = start_decl ($1, current_declspecs, true, chainon ($3, all_prefix_attributes)); start_init ($$, $2, global_bindings_p ()); } init /* Note how the declaration of the variable is in effect while its init is parsed! */ { finish_init (); maybe_warn_string_init (TREE_TYPE ($5), $6); finish_decl ($5, $6.value, $2); } | declarator maybeasm maybe_attribute { tree d = start_decl ($1, current_declspecs, false, chainon ($3, all_prefix_attributes)); finish_decl (d, NULL_TREE, $2); } ; notype_initdcl: notype_declarator maybeasm maybe_attribute '=' { $$ = start_decl ($1, current_declspecs, true, chainon ($3, all_prefix_attributes)); start_init ($$, $2, global_bindings_p ()); } init /* Note how the declaration of the variable is in effect while its init is parsed! */ { finish_init (); maybe_warn_string_init (TREE_TYPE ($5), $6); finish_decl ($5, $6.value, $2); } | notype_declarator maybeasm maybe_attribute { tree d = start_decl ($1, current_declspecs, false, chainon ($3, all_prefix_attributes)); finish_decl (d, NULL_TREE, $2); } ; /* the * rules are dummies to accept the Apollo extended syntax so that the header files compile. */ maybe_attribute: /* empty */ { $$ = NULL_TREE; } | attributes { $$ = $1; } ; attributes: attribute { $$ = $1; } | attributes attribute { $$ = chainon ($1, $2); } ; attribute: ATTRIBUTE stop_string_translation '(' '(' attribute_list ')' ')' start_string_translation { $$ = $5; } | ATTRIBUTE error start_string_translation {} ; attribute_list: attrib { $$ = $1; } | attribute_list ',' attrib { $$ = chainon ($1, $3); } ; attrib: /* empty */ { $$ = NULL_TREE; } | any_word { $$ = build_tree_list ($1, NULL_TREE); } | any_word '(' IDENTIFIER ')' { $$ = build_tree_list ($1, build_tree_list (NULL_TREE, $3)); } | any_word '(' IDENTIFIER ',' nonnull_exprlist ')' { $$ = build_tree_list ($1, tree_cons (NULL_TREE, $3, $5)); } | any_word '(' exprlist ')' { $$ = build_tree_list ($1, $3); } ; /* This still leaves out most reserved keywords, shouldn't we include them? */ any_word: identifier | scspec | TYPESPEC | TYPE_QUAL ; scspec: STATIC | SCSPEC ; /* Initializers. `init' is the entry point. */ init: expr_no_commas { $$ = $1; } | '{' { really_start_incremental_init (NULL_TREE); } initlist_maybe_comma '}' { $$ = pop_init_level (0); } | error { $$.value = error_mark_node; $$.original_code = ERROR_MARK; } ; /* `initlist_maybe_comma' is the guts of an initializer in braces. */ initlist_maybe_comma: /* empty */ { if (pedantic) pedwarn ("ISO C forbids empty initializer braces"); } | initlist1 maybecomma ; initlist1: initelt | initlist1 ',' initelt ; /* `initelt' is a single element of an initializer. It may use braces. */ initelt: designator_list '=' initval { if (pedantic && ! flag_isoc99) pedwarn ("ISO C90 forbids specifying subobject to initialize"); } | designator initval { if (pedantic) pedwarn ("obsolete use of designated initializer without `='"); } | identifier ':' { set_init_label ($1); if (pedantic) pedwarn ("obsolete use of designated initializer with `:'"); } initval {} | initval ; initval: '{' { push_init_level (0); } initlist_maybe_comma '}' { process_init_element (pop_init_level (0)); } | expr_no_commas { process_init_element ($1); } | error ; designator_list: designator | designator_list designator ; designator: '.' identifier { set_init_label ($2); } | '[' expr_no_commas ELLIPSIS expr_no_commas ']' { set_init_index ($2.value, $4.value); if (pedantic) pedwarn ("ISO C forbids specifying range of elements to initialize"); } | '[' expr_no_commas ']' { set_init_index ($2.value, NULL_TREE); } ; nested_function: declarator { if (pedantic) pedwarn ("ISO C forbids nested functions"); push_function_context (); if (! start_function (current_declspecs, $1, all_prefix_attributes)) { pop_function_context (); YYERROR1; } } old_style_parm_decls save_location { tree decl = current_function_decl; DECL_SOURCE_LOCATION (decl) = $4; store_parm_decls (); } /* This used to use compstmt_or_error. That caused a bug with input `f(g) int g {}', where the use of YYERROR1 above caused an error which then was handled by compstmt_or_error. There followed a repeated execution of that same rule, which called YYERROR1 again, and so on. */ compstmt { tree decl = current_function_decl; add_stmt ($6); finish_function (); pop_function_context (); add_stmt (build_stmt (DECL_EXPR, decl)); } ; notype_nested_function: notype_declarator { if (pedantic) pedwarn ("ISO C forbids nested functions"); push_function_context (); if (! start_function (current_declspecs, $1, all_prefix_attributes)) { pop_function_context (); YYERROR1; } } old_style_parm_decls save_location { tree decl = current_function_decl; DECL_SOURCE_LOCATION (decl) = $4; store_parm_decls (); } /* This used to use compstmt_or_error. That caused a bug with input `f(g) int g {}', where the use of YYERROR1 above caused an error which then was handled by compstmt_or_error. There followed a repeated execution of that same rule, which called YYERROR1 again, and so on. */ compstmt { tree decl = current_function_decl; add_stmt ($6); finish_function (); pop_function_context (); add_stmt (build_stmt (DECL_EXPR, decl)); } ; /* Any kind of declarator (thus, all declarators allowed after an explicit typespec). */ declarator: after_type_declarator | notype_declarator ; /* A declarator that is allowed only after an explicit typespec. */ after_type_declarator: '(' maybe_attribute after_type_declarator ')' { $$ = $2 ? build_attrs_declarator ($2, $3) : $3; } | after_type_declarator '(' parmlist_or_identifiers %prec '.' { $$ = build_function_declarator ($3, $1); } | after_type_declarator array_declarator %prec '.' { $$ = set_array_declarator_inner ($2, $1, false); } | '*' maybe_type_quals_attrs after_type_declarator %prec UNARY { $$ = make_pointer_declarator ($2, $3); } | TYPENAME { $$ = build_id_declarator ($1); } @@ifobjc | OBJECTNAME { $$ = build_id_declarator ($1); } @@end_ifobjc ; /* Kinds of declarator that can appear in a parameter list in addition to notype_declarator. This is like after_type_declarator but does not allow a typedef name in parentheses as an identifier (because it would conflict with a function with that typedef as arg). */ parm_declarator: parm_declarator_starttypename | parm_declarator_nostarttypename ; parm_declarator_starttypename: parm_declarator_starttypename '(' parmlist_or_identifiers %prec '.' { $$ = build_function_declarator ($3, $1); } | parm_declarator_starttypename array_declarator %prec '.' { $$ = set_array_declarator_inner ($2, $1, false); } | TYPENAME { $$ = build_id_declarator ($1); } @@ifobjc | OBJECTNAME { $$ = build_id_declarator ($1); } @@end_ifobjc ; parm_declarator_nostarttypename: parm_declarator_nostarttypename '(' parmlist_or_identifiers %prec '.' { $$ = build_function_declarator ($3, $1); } | parm_declarator_nostarttypename array_declarator %prec '.' { $$ = set_array_declarator_inner ($2, $1, false); } | '*' maybe_type_quals_attrs parm_declarator_starttypename %prec UNARY { $$ = make_pointer_declarator ($2, $3); } | '*' maybe_type_quals_attrs parm_declarator_nostarttypename %prec UNARY { $$ = make_pointer_declarator ($2, $3); } | '(' maybe_attribute parm_declarator_nostarttypename ')' { $$ = $2 ? build_attrs_declarator ($2, $3) : $3; } ; /* A declarator allowed whether or not there has been an explicit typespec. These cannot redeclare a typedef-name. */ notype_declarator: notype_declarator '(' parmlist_or_identifiers %prec '.' { $$ = build_function_declarator ($3, $1); } | '(' maybe_attribute notype_declarator ')' { $$ = $2 ? build_attrs_declarator ($2, $3) : $3; } | '*' maybe_type_quals_attrs notype_declarator %prec UNARY { $$ = make_pointer_declarator ($2, $3); } | notype_declarator array_declarator %prec '.' { $$ = set_array_declarator_inner ($2, $1, false); } | IDENTIFIER { $$ = build_id_declarator ($1); } ; struct_head: STRUCT { $$ = NULL_TREE; } | STRUCT attributes { $$ = $2; } ; union_head: UNION { $$ = NULL_TREE; } | UNION attributes { $$ = $2; } ; enum_head: ENUM { $$ = NULL_TREE; } | ENUM attributes { $$ = $2; } ; /* structsp_attr: struct/union/enum specifiers that either end with attributes, or are such that any following attributes would be parsed as part of the struct/union/enum specifier. structsp_nonattr: other struct/union/enum specifiers. */ structsp_attr: struct_head identifier '{' { $$ = start_struct (RECORD_TYPE, $2); /* Start scope of tag before parsing components. */ } component_decl_list '}' maybe_attribute { $$ = finish_struct ($4, nreverse ($5), chainon ($1, $7)); } | struct_head '{' component_decl_list '}' maybe_attribute { $$ = finish_struct (start_struct (RECORD_TYPE, NULL_TREE), nreverse ($3), chainon ($1, $5)); } | union_head identifier '{' { $$ = start_struct (UNION_TYPE, $2); } component_decl_list '}' maybe_attribute { $$ = finish_struct ($4, nreverse ($5), chainon ($1, $7)); } | union_head '{' component_decl_list '}' maybe_attribute { $$ = finish_struct (start_struct (UNION_TYPE, NULL_TREE), nreverse ($3), chainon ($1, $5)); } | enum_head identifier '{' { $$ = start_enum ($2); } enumlist maybecomma_warn '}' maybe_attribute { $$ = finish_enum ($4, nreverse ($5), chainon ($1, $8)); } | enum_head '{' { $$ = start_enum (NULL_TREE); } enumlist maybecomma_warn '}' maybe_attribute { $$ = finish_enum ($3, nreverse ($4), chainon ($1, $7)); } ; structsp_nonattr: struct_head identifier { $$ = xref_tag (RECORD_TYPE, $2); } | union_head identifier { $$ = xref_tag (UNION_TYPE, $2); } | enum_head identifier { $$ = xref_tag (ENUMERAL_TYPE, $2); /* In ISO C, enumerated types can be referred to only if already defined. */ if (pedantic && !COMPLETE_TYPE_P ($$)) pedwarn ("ISO C forbids forward references to `enum' types"); } ; maybecomma: /* empty */ | ',' ; maybecomma_warn: /* empty */ | ',' { if (pedantic && ! flag_isoc99) pedwarn ("comma at end of enumerator list"); } ; /* We chain the components in reverse order. They are put in forward order in structsp_attr. Note that component_declarator returns single decls, so components and components_notype can use TREE_CHAIN directly, wheras components and components_notype return lists (of comma separated decls), so component_decl_list and component_decl_list2 must use chainon. The theory behind all this is that there will be more semicolon separated fields than comma separated fields, and so we'll be minimizing the number of node traversals required by chainon. */ component_decl_list: component_decl_list2 { $$ = $1; } | component_decl_list2 component_decl { $$ = chainon ($2, $1); pedwarn ("no semicolon at end of struct or union"); } ; component_decl_list2: /* empty */ { $$ = NULL_TREE; } | component_decl_list2 component_decl ';' { $$ = chainon ($2, $1); } | component_decl_list2 ';' { if (pedantic) pedwarn ("extra semicolon in struct or union specified"); } @@ifobjc /* foo(sizeof(struct{ @defs(ClassName)})); */ | AT_DEFS '(' CLASSNAME ')' { $$ = nreverse (objc_get_class_ivars ($3)); } @@end_ifobjc ; component_decl: declspecs_nosc_ts setspecs components { $$ = $3; POP_DECLSPEC_STACK; } | declspecs_nosc_ts setspecs { /* Support for unnamed structs or unions as members of structs or unions (which is [a] useful and [b] supports MS P-SDK). */ if (pedantic) pedwarn ("ISO C doesn't support unnamed structs/unions"); $$ = grokfield (build_id_declarator (NULL_TREE), current_declspecs, NULL_TREE); POP_DECLSPEC_STACK; } | declspecs_nosc_nots setspecs components_notype { $$ = $3; POP_DECLSPEC_STACK; } | declspecs_nosc_nots { if (pedantic) pedwarn ("ISO C forbids member declarations with no members"); shadow_tag_warned ($1, pedantic); $$ = NULL_TREE; } | error { $$ = NULL_TREE; } | extension component_decl { $$ = $2; RESTORE_EXT_FLAGS ($1); } ; components: component_declarator | components ',' maybe_resetattrs component_declarator { TREE_CHAIN ($4) = $1; $$ = $4; } ; components_notype: component_notype_declarator | components_notype ',' maybe_resetattrs component_notype_declarator { TREE_CHAIN ($4) = $1; $$ = $4; } ; component_declarator: declarator maybe_attribute { $$ = grokfield ($1, current_declspecs, NULL_TREE); decl_attributes (&$$, chainon ($2, all_prefix_attributes), 0); } | declarator ':' expr_no_commas maybe_attribute { $$ = grokfield ($1, current_declspecs, $3.value); decl_attributes (&$$, chainon ($4, all_prefix_attributes), 0); } | ':' expr_no_commas maybe_attribute { $$ = grokfield (build_id_declarator (NULL_TREE), current_declspecs, $2.value); decl_attributes (&$$, chainon ($3, all_prefix_attributes), 0); } ; component_notype_declarator: notype_declarator maybe_attribute { $$ = grokfield ($1, current_declspecs, NULL_TREE); decl_attributes (&$$, chainon ($2, all_prefix_attributes), 0); } | notype_declarator ':' expr_no_commas maybe_attribute { $$ = grokfield ($1, current_declspecs, $3.value); decl_attributes (&$$, chainon ($4, all_prefix_attributes), 0); } | ':' expr_no_commas maybe_attribute { $$ = grokfield (build_id_declarator (NULL_TREE), current_declspecs, $2.value); decl_attributes (&$$, chainon ($3, all_prefix_attributes), 0); } ; /* We chain the enumerators in reverse order. They are put in forward order in structsp_attr. */ enumlist: enumerator | enumlist ',' enumerator { if ($1 == error_mark_node) $$ = $1; else TREE_CHAIN ($3) = $1, $$ = $3; } | error { $$ = error_mark_node; } ; enumerator: identifier { $$ = build_enumerator ($1, NULL_TREE); } | identifier '=' expr_no_commas { $$ = build_enumerator ($1, $3.value); } ; typename: declspecs_nosc { pending_xref_error (); $$ = $1; } absdcl { $$ = XOBNEW (&parser_obstack, struct c_type_name); $$->specs = $2; $$->declarator = $3; } ; absdcl: /* an absolute declarator */ /* empty */ { $$ = build_id_declarator (NULL_TREE); } | absdcl1 ; absdcl_maybe_attribute: /* absdcl maybe_attribute, but not just attributes */ /* empty */ { $$ = build_c_parm (current_declspecs, all_prefix_attributes, build_id_declarator (NULL_TREE)); } | absdcl1 { $$ = build_c_parm (current_declspecs, all_prefix_attributes, $1); } | absdcl1_noea attributes { $$ = build_c_parm (current_declspecs, chainon ($2, all_prefix_attributes), $1); } ; absdcl1: /* a nonempty absolute declarator */ absdcl1_ea | absdcl1_noea ; absdcl1_noea: direct_absdcl1 | '*' maybe_type_quals_attrs absdcl1_noea { $$ = make_pointer_declarator ($2, $3); } ; absdcl1_ea: '*' maybe_type_quals_attrs { $$ = make_pointer_declarator ($2, build_id_declarator (NULL_TREE)); } | '*' maybe_type_quals_attrs absdcl1_ea { $$ = make_pointer_declarator ($2, $3); } ; direct_absdcl1: '(' maybe_attribute absdcl1 ')' { $$ = $2 ? build_attrs_declarator ($2, $3) : $3; } | direct_absdcl1 '(' parmlist { $$ = build_function_declarator ($3, $1); } | direct_absdcl1 array_declarator { $$ = set_array_declarator_inner ($2, $1, true); } | '(' parmlist { $$ = build_function_declarator ($2, build_id_declarator (NULL_TREE)); } | array_declarator { $$ = set_array_declarator_inner ($1, build_id_declarator (NULL_TREE), true); } ; /* The [...] part of a declarator for an array type. */ array_declarator: '[' maybe_type_quals_attrs expr_no_commas ']' { $$ = build_array_declarator ($3.value, $2, false, false); } | '[' maybe_type_quals_attrs ']' { $$ = build_array_declarator (NULL_TREE, $2, false, false); } | '[' maybe_type_quals_attrs '*' ']' { $$ = build_array_declarator (NULL_TREE, $2, false, true); } | '[' STATIC maybe_type_quals_attrs expr_no_commas ']' { $$ = build_array_declarator ($4.value, $3, true, false); } /* declspecs_nosc_nots is a synonym for type_quals_attrs. */ | '[' declspecs_nosc_nots STATIC expr_no_commas ']' { $$ = build_array_declarator ($4.value, $2, true, false); } ; /* A nonempty series of declarations and statements (possibly followed by some labels) that can form the body of a compound statement. NOTE: we don't allow labels on declarations; this might seem like a natural extension, but there would be a conflict between attributes on the label and prefix attributes on the declaration. */ stmts_and_decls: lineno_stmt_decl_or_labels_ending_stmt | lineno_stmt_decl_or_labels_ending_decl | lineno_stmt_decl_or_labels_ending_label { error ("label at end of compound statement"); } | lineno_stmt_decl_or_labels_ending_error ; lineno_stmt_decl_or_labels_ending_stmt: lineno_stmt | lineno_stmt_decl_or_labels_ending_stmt lineno_stmt | lineno_stmt_decl_or_labels_ending_decl lineno_stmt | lineno_stmt_decl_or_labels_ending_label lineno_stmt | lineno_stmt_decl_or_labels_ending_error lineno_stmt ; lineno_stmt_decl_or_labels_ending_decl: lineno_decl | lineno_stmt_decl_or_labels_ending_stmt lineno_decl { if ((pedantic && !flag_isoc99) || warn_declaration_after_statement) pedwarn_c90 ("ISO C90 forbids mixed declarations and code"); } | lineno_stmt_decl_or_labels_ending_decl lineno_decl | lineno_stmt_decl_or_labels_ending_error lineno_decl ; lineno_stmt_decl_or_labels_ending_label: lineno_label | lineno_stmt_decl_or_labels_ending_stmt lineno_label | lineno_stmt_decl_or_labels_ending_decl lineno_label | lineno_stmt_decl_or_labels_ending_label lineno_label | lineno_stmt_decl_or_labels_ending_error lineno_label ; lineno_stmt_decl_or_labels_ending_error: errstmt | lineno_stmt_decl_or_labels errstmt ; lineno_stmt_decl_or_labels: lineno_stmt_decl_or_labels_ending_stmt | lineno_stmt_decl_or_labels_ending_decl | lineno_stmt_decl_or_labels_ending_label | lineno_stmt_decl_or_labels_ending_error ; errstmt: error ';' ; /* Start and end blocks created for the new scopes of C99. */ c99_block_start: /* empty */ { $$ = c_begin_compound_stmt (flag_isoc99); } ; /* Read zero or more forward-declarations for labels that nested functions can jump to. */ maybe_label_decls: /* empty */ | label_decls { if (pedantic) pedwarn ("ISO C forbids label declarations"); } ; label_decls: label_decl | label_decls label_decl ; label_decl: LABEL identifiers_or_typenames ';' { tree link; for (link = $2; link; link = TREE_CHAIN (link)) { tree label = declare_label (TREE_VALUE (link)); C_DECLARED_LABEL_FLAG (label) = 1; add_stmt (build_stmt (DECL_EXPR, label)); } } ; /* This is the body of a function definition. It causes syntax errors to ignore to the next openbrace. */ compstmt_or_error: compstmt { add_stmt ($1); } | error compstmt ; compstmt_start: '{' { $$ = c_begin_compound_stmt (true); } ; compstmt_nostart: '}' | maybe_label_decls compstmt_contents_nonempty '}' ; compstmt_contents_nonempty: stmts_and_decls | error ; compstmt_primary_start: '(' '{' { if (current_function_decl == 0) { error ("braced-group within expression allowed " "only inside a function"); YYERROR; } $$ = c_begin_stmt_expr (); } ; compstmt: compstmt_start compstmt_nostart { $$ = c_end_compound_stmt ($1, true); } ; /* The forced readahead in here is because we might be at the end of a line, and the line and file won't be bumped until yylex absorbs the first token on the next line. */ save_location: { if (yychar == YYEMPTY) yychar = YYLEX; $$ = input_location; } ; lineno_labels: /* empty */ | lineno_labels lineno_label ; /* A labeled statement. In C99 it also generates an implicit block. */ c99_block_lineno_labeled_stmt: c99_block_start lineno_labels lineno_stmt { $$ = c_end_compound_stmt ($1, flag_isoc99); } ; lineno_stmt: save_location stmt { /* Two cases cannot and do not have line numbers associated: If stmt is degenerate, such as "2;", then stmt is an INTEGER_CST, which cannot hold line numbers. But that's ok because the statement will either be changed to a MODIFY_EXPR during gimplification of the statement expr, or discarded. If stmt was compound, but without new variables, we will have skipped the creation of a BIND and will have a bare STATEMENT_LIST. But that's ok because (recursively) all of the component statments should already have line numbers assigned. */ if ($2 && EXPR_P ($2)) SET_EXPR_LOCATION ($2, $1); } ; lineno_label: save_location label { if ($2) SET_EXPR_LOCATION ($2, $1); } ; condition: save_location expr { $$ = lang_hooks.truthvalue_conversion ($2.value); if (EXPR_P ($$)) SET_EXPR_LOCATION ($$, $1); } ; /* Implement -Wparenthesis by special casing IF statement directly nested within IF statement. This requires some amount of duplication of the productions under c99_block_lineno_labeled_stmt in order to work out. But it's still likely more maintainable than lots of state outside the parser... */ if_statement_1: c99_block_start lineno_labels if_statement { $$ = c_end_compound_stmt ($1, flag_isoc99); } ; if_statement_2: c99_block_start lineno_labels ';' { if (extra_warnings) add_stmt (build (NOP_EXPR, NULL_TREE, NULL_TREE)); $$ = c_end_compound_stmt ($1, flag_isoc99); } | c99_block_lineno_labeled_stmt ; if_statement: IF c99_block_start save_location '(' condition ')' if_statement_1 ELSE if_statement_2 { c_finish_if_stmt ($3, $5, $7, $9, true); add_stmt (c_end_compound_stmt ($2, flag_isoc99)); } | IF c99_block_start save_location '(' condition ')' if_statement_2 ELSE if_statement_2 { c_finish_if_stmt ($3, $5, $7, $9, false); add_stmt (c_end_compound_stmt ($2, flag_isoc99)); } | IF c99_block_start save_location '(' condition ')' if_statement_1 %prec IF { c_finish_if_stmt ($3, $5, $7, NULL, true); add_stmt (c_end_compound_stmt ($2, flag_isoc99)); } | IF c99_block_start save_location '(' condition ')' if_statement_2 %prec IF { c_finish_if_stmt ($3, $5, $7, NULL, false); add_stmt (c_end_compound_stmt ($2, flag_isoc99)); } ; start_break: /* empty */ { $$ = c_break_label; c_break_label = NULL; } ; start_continue: /* empty */ { $$ = c_cont_label; c_cont_label = NULL; } ; while_statement: WHILE c99_block_start save_location '(' condition ')' start_break start_continue c99_block_lineno_labeled_stmt { c_finish_loop ($3, $5, NULL, $9, c_break_label, c_cont_label, true); add_stmt (c_end_compound_stmt ($2, flag_isoc99)); c_break_label = $7; c_cont_label = $8; } ; do_statement: DO c99_block_start save_location start_break start_continue c99_block_lineno_labeled_stmt WHILE { $$ = c_break_label; c_break_label = $4; } { $$ = c_cont_label; c_cont_label = $5; } '(' condition ')' ';' { c_finish_loop ($3, $11, NULL, $6, $8, $9, false); add_stmt (c_end_compound_stmt ($2, flag_isoc99)); } ; xexpr: /* empty */ { $$ = NULL_TREE; } | expr { $$ = $1.value; } ; for_init_stmt: xexpr ';' { c_finish_expr_stmt ($1); } | decl { check_for_loop_decls (); } ; for_cond_expr: save_location xexpr { if ($2) { $$ = lang_hooks.truthvalue_conversion ($2); if (EXPR_P ($$)) SET_EXPR_LOCATION ($$, $1); } else $$ = NULL; } ; for_incr_expr: xexpr { $$ = c_process_expr_stmt ($1); } ; for_statement: FOR c99_block_start '(' for_init_stmt save_location for_cond_expr ';' for_incr_expr ')' start_break start_continue c99_block_lineno_labeled_stmt { c_finish_loop ($5, $6, $8, $12, c_break_label, c_cont_label, true); add_stmt (c_end_compound_stmt ($2, flag_isoc99)); c_break_label = $10; c_cont_label = $11; } ; switch_statement: SWITCH c99_block_start '(' expr ')' { $$ = c_start_case ($4.value); } start_break c99_block_lineno_labeled_stmt { c_finish_case ($8); if (c_break_label) add_stmt (build (LABEL_EXPR, void_type_node, c_break_label)); c_break_label = $7; add_stmt (c_end_compound_stmt ($2, flag_isoc99)); } ; /* Parse a single real statement, not including any labels or compounds. */ stmt_nocomp: expr ';' { $$ = c_finish_expr_stmt ($1.value); } | if_statement { $$ = NULL_TREE; } | while_statement { $$ = NULL_TREE; } | do_statement { $$ = NULL_TREE; } | for_statement { $$ = NULL_TREE; } | switch_statement { $$ = NULL_TREE; } | BREAK ';' { $$ = c_finish_bc_stmt (&c_break_label, true); } | CONTINUE ';' { $$ = c_finish_bc_stmt (&c_cont_label, false); } | RETURN ';' { $$ = c_finish_return (NULL_TREE); } | RETURN expr ';' { $$ = c_finish_return ($2.value); } | asm_stmt | GOTO identifier ';' { $$ = c_finish_goto_label ($2); } | GOTO '*' expr ';' { $$ = c_finish_goto_ptr ($3.value); } | ';' { $$ = NULL_TREE; } @@ifobjc | AT_THROW expr ';' { $$ = objc_build_throw_stmt ($2.value); } | AT_THROW ';' { $$ = objc_build_throw_stmt (NULL_TREE); } | objc_try_catch_stmt { $$ = NULL_TREE; } | AT_SYNCHRONIZED save_location '(' expr ')' compstmt { objc_build_synchronized ($2, $4.value, $6); $$ = NULL_TREE; } ; objc_catch_prefix: AT_CATCH '(' parm ')' { objc_begin_catch_clause (grokparm ($3)); } ; objc_catch_clause: objc_catch_prefix '{' compstmt_nostart { objc_finish_catch_clause (); } | objc_catch_prefix '{' error '}' { objc_finish_catch_clause (); } ; objc_opt_catch_list: /* empty */ | objc_opt_catch_list objc_catch_clause ; objc_try_catch_clause: AT_TRY save_location compstmt { objc_begin_try_stmt ($2, $3); } objc_opt_catch_list ; objc_finally_clause: AT_FINALLY save_location compstmt { objc_build_finally_clause ($2, $3); } ; objc_try_catch_stmt: objc_try_catch_clause { objc_finish_try_stmt (); } | objc_try_catch_clause objc_finally_clause { objc_finish_try_stmt (); } @@end_ifobjc ; /* Parse a single or compound real statement, not including any labels. */ stmt: compstmt { add_stmt ($1); $$ = NULL_TREE; } | stmt_nocomp ; /* Any kind of label, including jump labels and case labels. ANSI C accepts labels only before statements, but we allow them also at the end of a compound statement. */ label: CASE expr_no_commas ':' { $$ = do_case ($2.value, NULL_TREE); } | CASE expr_no_commas ELLIPSIS expr_no_commas ':' { $$ = do_case ($2.value, $4.value); } | DEFAULT ':' { $$ = do_case (NULL_TREE, NULL_TREE); } | identifier save_location ':' maybe_attribute { tree label = define_label ($2, $1); if (label) { decl_attributes (&label, $4, 0); $$ = add_stmt (build_stmt (LABEL_EXPR, label)); } else $$ = NULL_TREE; } ; /* Asm expressions and statements */ /* simple_asm_expr is used in restricted contexts, where a full expression with inputs and outputs does not make sense. */ simple_asm_expr: ASM_KEYWORD stop_string_translation '(' STRING ')' start_string_translation { $$ = $4; } ; /* maybeasm: used for assembly names for declarations */ maybeasm: /* empty */ { $$ = NULL_TREE; } | simple_asm_expr ; /* asmdef: asm() outside a function body. */ asmdef: simple_asm_expr ';' { assemble_asm ($1); } | ASM_KEYWORD error start_string_translation ';' {} ; /* Full-blown asm statement with inputs, outputs, clobbers, and volatile tag allowed. */ asm_stmt: ASM_KEYWORD maybe_volatile stop_string_translation '(' asm_argument ')' start_string_translation ';' { $$ = build_asm_stmt ($2, $5); } ; asm_argument: /* no operands */ STRING { $$ = build_asm_expr ($1, 0, 0, 0, true); } /* output operands */ | STRING ':' asm_operands { $$ = build_asm_expr ($1, $3, 0, 0, false); } /* output and input operands */ | STRING ':' asm_operands ':' asm_operands { $$ = build_asm_expr ($1, $3, $5, 0, false); } /* output and input operands and clobbers */ | STRING ':' asm_operands ':' asm_operands ':' asm_clobbers { $$ = build_asm_expr ($1, $3, $5, $7, false); } ; /* Either 'volatile' or nothing. First thing in an `asm' statement. */ maybe_volatile: /* empty */ { $$ = 0; } | TYPE_QUAL { if ($1 != ridpointers[RID_VOLATILE]) { warning ("%E qualifier ignored on asm", $1); $$ = 0; } else $$ = $1; } ; /* These are the operands other than the first string and colon in asm ("addextend %2,%1": "=dm" (x), "0" (y), "g" (*x)) */ asm_operands: /* empty */ { $$ = NULL_TREE; } | nonnull_asm_operands ; nonnull_asm_operands: asm_operand | nonnull_asm_operands ',' asm_operand { $$ = chainon ($1, $3); } ; asm_operand: STRING start_string_translation '(' expr ')' stop_string_translation { $$ = build_tree_list (build_tree_list (NULL_TREE, $1), $4.value); } | '[' identifier ']' STRING start_string_translation '(' expr ')' stop_string_translation { $2 = build_string (IDENTIFIER_LENGTH ($2), IDENTIFIER_POINTER ($2)); $$ = build_tree_list (build_tree_list ($2, $4), $7.value); } ; asm_clobbers: STRING { $$ = tree_cons (NULL_TREE, $1, NULL_TREE); } | asm_clobbers ',' STRING { $$ = tree_cons (NULL_TREE, $3, $1); } ; stop_string_translation: { c_lex_string_translate = 0; } ; start_string_translation: { c_lex_string_translate = 1; } ; /* This is what appears inside the parens in a function declarator. Its value is a list of ..._TYPE nodes. Attributes must appear here to avoid a conflict with their appearance after an open parenthesis in an abstract declarator, as in "void bar (int (__attribute__((__mode__(SI))) int foo));". */ parmlist: maybe_attribute { push_scope (); declare_parm_level (); } parmlist_1 { $$ = $3; pop_scope (); } ; parmlist_1: parmlist_2 ')' | parms ';' { mark_forward_parm_decls (); } maybe_attribute { /* Dummy action so attributes are in known place on parser stack. */ } parmlist_1 { $$ = $6; } | error ')' { $$ = XOBNEW (&parser_obstack, struct c_arg_info); $$->parms = 0; $$->tags = 0; $$->types = 0; $$->others = 0; } ; /* This is what appears inside the parens in a function declarator. Its value is represented in the format that grokdeclarator expects. */ parmlist_2: /* empty */ { $$ = XOBNEW (&parser_obstack, struct c_arg_info); $$->parms = 0; $$->tags = 0; $$->types = 0; $$->others = 0; } | ELLIPSIS { $$ = XOBNEW (&parser_obstack, struct c_arg_info); $$->parms = 0; $$->tags = 0; $$->others = 0; /* Suppress -Wold-style-definition for this case. */ $$->types = error_mark_node; error ("ISO C requires a named argument before `...'"); } | parms { $$ = get_parm_info (/*ellipsis=*/false); } | parms ',' ELLIPSIS { $$ = get_parm_info (/*ellipsis=*/true); } ; parms: firstparm { push_parm_decl ($1); } | parms ',' parm { push_parm_decl ($3); } ; /* A single parameter declaration or parameter type name, as found in a parmlist. */ parm: declspecs_ts setspecs parm_declarator maybe_attribute { $$ = build_c_parm (current_declspecs, chainon ($4, all_prefix_attributes), $3); POP_DECLSPEC_STACK; } | declspecs_ts setspecs notype_declarator maybe_attribute { $$ = build_c_parm (current_declspecs, chainon ($4, all_prefix_attributes), $3); POP_DECLSPEC_STACK; } | declspecs_ts setspecs absdcl_maybe_attribute { $$ = $3; POP_DECLSPEC_STACK; } | declspecs_nots setspecs notype_declarator maybe_attribute { $$ = build_c_parm (current_declspecs, chainon ($4, all_prefix_attributes), $3); POP_DECLSPEC_STACK; } | declspecs_nots setspecs absdcl_maybe_attribute { $$ = $3; POP_DECLSPEC_STACK; } ; /* The first parm, which must suck attributes from off the top of the parser stack. */ firstparm: declspecs_ts_nosa setspecs_fp parm_declarator maybe_attribute { $$ = build_c_parm (current_declspecs, chainon ($4, all_prefix_attributes), $3); POP_DECLSPEC_STACK; } | declspecs_ts_nosa setspecs_fp notype_declarator maybe_attribute { $$ = build_c_parm (current_declspecs, chainon ($4, all_prefix_attributes), $3); POP_DECLSPEC_STACK; } | declspecs_ts_nosa setspecs_fp absdcl_maybe_attribute { $$ = $3; POP_DECLSPEC_STACK; } | declspecs_nots_nosa setspecs_fp notype_declarator maybe_attribute { $$ = build_c_parm (current_declspecs, chainon ($4, all_prefix_attributes), $3); POP_DECLSPEC_STACK; } | declspecs_nots_nosa setspecs_fp absdcl_maybe_attribute { $$ = $3; POP_DECLSPEC_STACK; } ; setspecs_fp: setspecs { prefix_attributes = chainon (prefix_attributes, $-2); all_prefix_attributes = prefix_attributes; } ; /* This is used in a function definition where either a parmlist or an identifier list is ok. Its value is a list of ..._TYPE nodes or a list of identifiers. */ parmlist_or_identifiers: maybe_attribute { push_scope (); declare_parm_level (); } parmlist_or_identifiers_1 { $$ = $3; pop_scope (); } ; parmlist_or_identifiers_1: parmlist_1 | identifiers ')' { $$ = XOBNEW (&parser_obstack, struct c_arg_info); $$->parms = 0; $$->tags = 0; $$->types = $1; $$->others = 0; /* Make sure we have a parmlist after attributes. */ if ($-1 != 0) YYERROR1; } ; /* A nonempty list of identifiers. */ identifiers: IDENTIFIER { $$ = build_tree_list (NULL_TREE, $1); } | identifiers ',' IDENTIFIER { $$ = chainon ($1, build_tree_list (NULL_TREE, $3)); } ; /* A nonempty list of identifiers, including typenames. */ identifiers_or_typenames: identifier { $$ = build_tree_list (NULL_TREE, $1); } | identifiers_or_typenames ',' identifier { $$ = chainon ($1, build_tree_list (NULL_TREE, $3)); } ; extension: EXTENSION { $$ = SAVE_EXT_FLAGS(); pedantic = 0; warn_pointer_arith = 0; warn_traditional = 0; flag_iso = 0; } ; @@ifobjc /* Objective-C productions. */ objcdef: classdef | classdecl | aliasdecl | protocoldef | methoddef | AT_END { objc_finish_implementation (); } ; /* A nonempty list of identifiers. */ identifier_list: identifier { $$ = build_tree_list (NULL_TREE, $1); } | identifier_list ',' identifier { $$ = chainon ($1, build_tree_list (NULL_TREE, $3)); } ; classdecl: AT_CLASS identifier_list ';' { objc_declare_class ($2); } ; aliasdecl: AT_ALIAS identifier identifier ';' { objc_declare_alias ($2, $3); } ; superclass: ':' identifier { $$ = $2; } | /* NULL */ %prec HYPERUNARY { $$ = NULL_TREE; } ; class_ivars: '{' ivar_decl_list '}' | /* NULL */ ; classdef: AT_INTERFACE identifier superclass protocolrefs { objc_start_class_interface ($2, $3, $4); } class_ivars { objc_continue_interface (); } methodprotolist AT_END { objc_finish_interface (); } | AT_IMPLEMENTATION identifier superclass { objc_start_class_implementation ($2, $3); } class_ivars { objc_continue_implementation (); } | AT_INTERFACE identifier '(' identifier ')' protocolrefs { objc_start_category_interface ($2, $4, $6); } methodprotolist AT_END { objc_finish_interface (); } | AT_IMPLEMENTATION identifier '(' identifier ')' { objc_start_category_implementation ($2, $4); } ; protocoldef: AT_PROTOCOL identifier protocolrefs { objc_pq_context = 1; objc_start_protocol ($2, $3); } methodprotolist AT_END { objc_pq_context = 0; objc_finish_interface (); } /* The @protocol forward-declaration production introduces a reduce/reduce conflict on ';', which should be resolved in favor of the production 'identifier_list -> identifier'. */ | AT_PROTOCOL identifier_list ';' { objc_declare_protocols ($2); } ; protocolrefs: /* empty */ { $$ = NULL_TREE; } | non_empty_protocolrefs ; non_empty_protocolrefs: ARITHCOMPARE identifier_list ARITHCOMPARE { if ($1 == LT_EXPR && $3 == GT_EXPR) $$ = $2; else YYERROR1; } ; ivar_decl_list: /* empty */ | ivar_decl_list visibility_spec ivar_decls ; visibility_spec: /* empty */ | AT_PRIVATE { objc_set_visibility (2); } | AT_PROTECTED { objc_set_visibility (0); } | AT_PUBLIC { objc_set_visibility (1); } ; ivar_decls: /* empty */ | ivar_decls ivar_decl ';' | ivar_decls ';' { if (pedantic) pedwarn ("extra semicolon in struct or union specified"); } ; ivar_decl: component_decl { /* Comma-separated ivars are chained together in reverse order; add them one by one. */ tree ivar = nreverse ($1); for (; ivar; ivar = TREE_CHAIN (ivar)) objc_add_instance_variable (copy_node (ivar)); } ; opt_semi: /* NULL */ | ';' { if (pedantic) pedwarn ("extra semicolon in method definition specified"); } ; methodtype: '+' | '-' ; methoddef: methodtype { objc_set_method_type ($1); objc_pq_context = 1; } methoddecl opt_semi { objc_pq_context = 0; objc_start_method_definition ($3); } compstmt_or_error { objc_finish_method_definition (current_function_decl); } ; /* the reason for the strange actions in this rule is so that notype_initdecls when reached via datadef can find a valid list of type and sc specs in $0. */ methodprotolist: /* empty */ | methodprotolist methodproto | methodprotolist { $$ = NULL_TREE; } datadef ; semi_or_error: ';' | error ; methodproto: methodtype { objc_set_method_type ($1); /* Remember protocol qualifiers in prototypes. */ objc_pq_context = 1; } methoddecl { /* Forget protocol qualifiers here. */ objc_pq_context = 0; objc_add_method_declaration ($3); } semi_or_error ; methoddecl: '(' objc_typename ')' unaryselector { $$ = objc_build_method_signature ($2, $4, NULL_TREE); } | unaryselector { $$ = objc_build_method_signature (NULL_TREE, $1, NULL_TREE); } | '(' objc_typename ')' keywordselector optparmlist { $$ = objc_build_method_signature ($2, $4, $5); } | keywordselector optparmlist { $$ = objc_build_method_signature (NULL_TREE, $1, $2); } ; /* Optional ObjC method parameters follow the C syntax, and may include '...' to denote a variable number of arguments. */ optparmlist: optparms optellipsis { TREE_OVERFLOW ($$) = $2; } ; optparms: /* NULL */ { $$ = make_node (TREE_LIST); } | optparms ',' parm { $$ = chainon ($1, build_tree_list (NULL_TREE, grokparm ($3))); } ; optellipsis: /* NULL */ { $$ = 0; } | ',' ELLIPSIS { $$ = 1; } ; unaryselector: selector ; keywordselector: keyworddecl | keywordselector keyworddecl { $$ = chainon ($1, $2); } ; selector: IDENTIFIER | TYPENAME | CLASSNAME | OBJECTNAME | reservedwords ; reservedwords: ENUM | STRUCT | UNION | IF | ELSE | WHILE | DO | FOR | SWITCH | CASE | DEFAULT | BREAK | CONTINUE | RETURN | GOTO | ASM_KEYWORD | SIZEOF | TYPEOF | ALIGNOF | TYPESPEC | TYPE_QUAL ; objc_qual: OBJC_TYPE_QUAL ; objc_quals: objc_quals objc_qual { $$ = chainon ($1, build_tree_list (NULL_TREE, $2)); } | /* NULL */ { $$ = NULL_TREE; } ; objc_typename: objc_quals typename { $$ = build_tree_list ($1, groktypename ($2)); } | objc_quals { $$ = build_tree_list ($1, NULL_TREE); } ; keyworddecl: selector ':' '(' objc_typename ')' identifier { $$ = objc_build_keyword_decl ($1, $4, $6); } | selector ':' identifier { $$ = objc_build_keyword_decl ($1, NULL_TREE, $3); } | ':' '(' objc_typename ')' identifier { $$ = objc_build_keyword_decl (NULL_TREE, $3, $5); } | ':' identifier { $$ = objc_build_keyword_decl (NULL_TREE, NULL_TREE, $2); } ; messageargs: selector | keywordarglist ; keywordarglist: keywordarg | keywordarglist keywordarg { $$ = chainon ($1, $2); } ; keywordexpr: nonnull_exprlist { if (TREE_CHAIN ($1) == NULL_TREE) /* just return the expr., remove a level of indirection */ $$ = TREE_VALUE ($1); else /* we have a comma expr., we will collapse later */ $$ = $1; } ; keywordarg: selector ':' keywordexpr { $$ = build_tree_list ($1, $3); } | ':' keywordexpr { $$ = build_tree_list (NULL_TREE, $2); } ; receiver: expr { $$ = $1.value; } | CLASSNAME { $$ = objc_get_class_reference ($1); } | TYPENAME { $$ = objc_get_class_reference ($1); } ; objcmessageexpr: '[' receiver messageargs ']' { $$ = build_tree_list ($2, $3); } ; selectorarg: selector | keywordnamelist ; keywordnamelist: keywordname | keywordnamelist keywordname { $$ = chainon ($1, $2); } ; keywordname: selector ':' { $$ = build_tree_list ($1, NULL_TREE); } | ':' { $$ = build_tree_list (NULL_TREE, NULL_TREE); } ; objcselectorexpr: AT_SELECTOR '(' selectorarg ')' { $$ = $3; } ; objcprotocolexpr: AT_PROTOCOL '(' identifier ')' { $$ = $3; } ; /* extension to support C-structures in the archiver */ objcencodeexpr: AT_ENCODE '(' typename ')' { $$ = groktypename ($3); } ; @@end_ifobjc %% /* yylex() is a thin wrapper around c_lex(), all it does is translate cpplib.h's token codes into yacc's token codes. */ static enum cpp_ttype last_token; /* The reserved keyword table. */ struct resword { const char *word; ENUM_BITFIELD(rid) rid : 16; unsigned int disable : 16; }; /* Disable mask. Keywords are disabled if (reswords[i].disable & mask) is _true_. */ #define D_C89 0x01 /* not in C89 */ #define D_EXT 0x02 /* GCC extension */ #define D_EXT89 0x04 /* GCC extension incorporated in C99 */ #define D_OBJC 0x08 /* Objective C only */ static const struct resword reswords[] = { { "_Bool", RID_BOOL, 0 }, { "_Complex", RID_COMPLEX, 0 }, { "__FUNCTION__", RID_FUNCTION_NAME, 0 }, { "__PRETTY_FUNCTION__", RID_PRETTY_FUNCTION_NAME, 0 }, { "__alignof", RID_ALIGNOF, 0 }, { "__alignof__", RID_ALIGNOF, 0 }, { "__asm", RID_ASM, 0 }, { "__asm__", RID_ASM, 0 }, { "__attribute", RID_ATTRIBUTE, 0 }, { "__attribute__", RID_ATTRIBUTE, 0 }, { "__builtin_choose_expr", RID_CHOOSE_EXPR, 0 }, { "__builtin_offsetof", RID_OFFSETOF, 0 }, { "__builtin_types_compatible_p", RID_TYPES_COMPATIBLE_P, 0 }, { "__builtin_va_arg", RID_VA_ARG, 0 }, { "__complex", RID_COMPLEX, 0 }, { "__complex__", RID_COMPLEX, 0 }, { "__const", RID_CONST, 0 }, { "__const__", RID_CONST, 0 }, { "__extension__", RID_EXTENSION, 0 }, { "__func__", RID_C99_FUNCTION_NAME, 0 }, { "__imag", RID_IMAGPART, 0 }, { "__imag__", RID_IMAGPART, 0 }, { "__inline", RID_INLINE, 0 }, { "__inline__", RID_INLINE, 0 }, { "__label__", RID_LABEL, 0 }, { "__ptrbase", RID_PTRBASE, 0 }, { "__ptrbase__", RID_PTRBASE, 0 }, { "__ptrextent", RID_PTREXTENT, 0 }, { "__ptrextent__", RID_PTREXTENT, 0 }, { "__ptrvalue", RID_PTRVALUE, 0 }, { "__ptrvalue__", RID_PTRVALUE, 0 }, { "__real", RID_REALPART, 0 }, { "__real__", RID_REALPART, 0 }, { "__restrict", RID_RESTRICT, 0 }, { "__restrict__", RID_RESTRICT, 0 }, { "__signed", RID_SIGNED, 0 }, { "__signed__", RID_SIGNED, 0 }, { "__thread", RID_THREAD, 0 }, { "__typeof", RID_TYPEOF, 0 }, { "__typeof__", RID_TYPEOF, 0 }, { "__volatile", RID_VOLATILE, 0 }, { "__volatile__", RID_VOLATILE, 0 }, { "asm", RID_ASM, D_EXT }, { "auto", RID_AUTO, 0 }, { "break", RID_BREAK, 0 }, { "case", RID_CASE, 0 }, { "char", RID_CHAR, 0 }, { "const", RID_CONST, 0 }, { "continue", RID_CONTINUE, 0 }, { "default", RID_DEFAULT, 0 }, { "do", RID_DO, 0 }, { "double", RID_DOUBLE, 0 }, { "else", RID_ELSE, 0 }, { "enum", RID_ENUM, 0 }, { "extern", RID_EXTERN, 0 }, { "float", RID_FLOAT, 0 }, { "for", RID_FOR, 0 }, { "goto", RID_GOTO, 0 }, { "if", RID_IF, 0 }, { "inline", RID_INLINE, D_EXT89 }, { "int", RID_INT, 0 }, { "long", RID_LONG, 0 }, { "register", RID_REGISTER, 0 }, { "restrict", RID_RESTRICT, D_C89 }, { "return", RID_RETURN, 0 }, { "short", RID_SHORT, 0 }, { "signed", RID_SIGNED, 0 }, { "sizeof", RID_SIZEOF, 0 }, { "static", RID_STATIC, 0 }, { "struct", RID_STRUCT, 0 }, { "switch", RID_SWITCH, 0 }, { "typedef", RID_TYPEDEF, 0 }, { "typeof", RID_TYPEOF, D_EXT }, { "union", RID_UNION, 0 }, { "unsigned", RID_UNSIGNED, 0 }, { "void", RID_VOID, 0 }, { "volatile", RID_VOLATILE, 0 }, { "while", RID_WHILE, 0 }, @@ifobjc { "id", RID_ID, D_OBJC }, /* These objc keywords are recognized only immediately after an '@'. */ { "class", RID_AT_CLASS, D_OBJC }, { "compatibility_alias", RID_AT_ALIAS, D_OBJC }, { "defs", RID_AT_DEFS, D_OBJC }, { "encode", RID_AT_ENCODE, D_OBJC }, { "end", RID_AT_END, D_OBJC }, { "implementation", RID_AT_IMPLEMENTATION, D_OBJC }, { "interface", RID_AT_INTERFACE, D_OBJC }, { "private", RID_AT_PRIVATE, D_OBJC }, { "protected", RID_AT_PROTECTED, D_OBJC }, { "protocol", RID_AT_PROTOCOL, D_OBJC }, { "public", RID_AT_PUBLIC, D_OBJC }, { "selector", RID_AT_SELECTOR, D_OBJC }, { "throw", RID_AT_THROW, D_OBJC }, { "try", RID_AT_TRY, D_OBJC }, { "catch", RID_AT_CATCH, D_OBJC }, { "finally", RID_AT_FINALLY, D_OBJC }, { "synchronized", RID_AT_SYNCHRONIZED, D_OBJC }, /* These are recognized only in protocol-qualifier context (see above) */ { "bycopy", RID_BYCOPY, D_OBJC }, { "byref", RID_BYREF, D_OBJC }, { "in", RID_IN, D_OBJC }, { "inout", RID_INOUT, D_OBJC }, { "oneway", RID_ONEWAY, D_OBJC }, { "out", RID_OUT, D_OBJC }, @@end_ifobjc }; #define N_reswords (sizeof reswords / sizeof (struct resword)) /* Table mapping from RID_* constants to yacc token numbers. Unfortunately we have to have entries for all the keywords in all three languages. */ static const short rid_to_yy[RID_MAX] = { /* RID_STATIC */ STATIC, /* RID_UNSIGNED */ TYPESPEC, /* RID_LONG */ TYPESPEC, /* RID_CONST */ TYPE_QUAL, /* RID_EXTERN */ SCSPEC, /* RID_REGISTER */ SCSPEC, /* RID_TYPEDEF */ SCSPEC, /* RID_SHORT */ TYPESPEC, /* RID_INLINE */ SCSPEC, /* RID_VOLATILE */ TYPE_QUAL, /* RID_SIGNED */ TYPESPEC, /* RID_AUTO */ SCSPEC, /* RID_RESTRICT */ TYPE_QUAL, /* C extensions */ /* RID_COMPLEX */ TYPESPEC, /* RID_THREAD */ SCSPEC, /* C++ */ /* RID_FRIEND */ 0, /* RID_VIRTUAL */ 0, /* RID_EXPLICIT */ 0, /* RID_EXPORT */ 0, /* RID_MUTABLE */ 0, /* ObjC */ /* RID_IN */ OBJC_TYPE_QUAL, /* RID_OUT */ OBJC_TYPE_QUAL, /* RID_INOUT */ OBJC_TYPE_QUAL, /* RID_BYCOPY */ OBJC_TYPE_QUAL, /* RID_BYREF */ OBJC_TYPE_QUAL, /* RID_ONEWAY */ OBJC_TYPE_QUAL, /* C */ /* RID_INT */ TYPESPEC, /* RID_CHAR */ TYPESPEC, /* RID_FLOAT */ TYPESPEC, /* RID_DOUBLE */ TYPESPEC, /* RID_VOID */ TYPESPEC, /* RID_ENUM */ ENUM, /* RID_STRUCT */ STRUCT, /* RID_UNION */ UNION, /* RID_IF */ IF, /* RID_ELSE */ ELSE, /* RID_WHILE */ WHILE, /* RID_DO */ DO, /* RID_FOR */ FOR, /* RID_SWITCH */ SWITCH, /* RID_CASE */ CASE, /* RID_DEFAULT */ DEFAULT, /* RID_BREAK */ BREAK, /* RID_CONTINUE */ CONTINUE, /* RID_RETURN */ RETURN, /* RID_GOTO */ GOTO, /* RID_SIZEOF */ SIZEOF, /* C extensions */ /* RID_ASM */ ASM_KEYWORD, /* RID_TYPEOF */ TYPEOF, /* RID_ALIGNOF */ ALIGNOF, /* RID_ATTRIBUTE */ ATTRIBUTE, /* RID_VA_ARG */ VA_ARG, /* RID_EXTENSION */ EXTENSION, /* RID_IMAGPART */ IMAGPART, /* RID_REALPART */ REALPART, /* RID_LABEL */ LABEL, /* RID_PTRBASE */ PTR_BASE, /* RID_PTREXTENT */ PTR_EXTENT, /* RID_PTRVALUE */ PTR_VALUE, /* RID_CHOOSE_EXPR */ CHOOSE_EXPR, /* RID_TYPES_COMPATIBLE_P */ TYPES_COMPATIBLE_P, /* RID_FUNCTION_NAME */ FUNC_NAME, /* RID_PRETTY_FUNCTION_NAME */ FUNC_NAME, /* RID_C99_FUNCTION_NAME */ FUNC_NAME, /* C++ */ /* RID_BOOL */ TYPESPEC, /* RID_WCHAR */ 0, /* RID_CLASS */ 0, /* RID_PUBLIC */ 0, /* RID_PRIVATE */ 0, /* RID_PROTECTED */ 0, /* RID_TEMPLATE */ 0, /* RID_NULL */ 0, /* RID_CATCH */ 0, /* RID_DELETE */ 0, /* RID_FALSE */ 0, /* RID_NAMESPACE */ 0, /* RID_NEW */ 0, /* RID_OFFSETOF */ OFFSETOF, /* RID_OPERATOR */ 0, /* RID_THIS */ 0, /* RID_THROW */ 0, /* RID_TRUE */ 0, /* RID_TRY */ 0, /* RID_TYPENAME */ 0, /* RID_TYPEID */ 0, /* RID_USING */ 0, /* casts */ /* RID_CONSTCAST */ 0, /* RID_DYNCAST */ 0, /* RID_REINTCAST */ 0, /* RID_STATCAST */ 0, /* Objective C */ /* RID_ID */ OBJECTNAME, /* RID_AT_ENCODE */ AT_ENCODE, /* RID_AT_END */ AT_END, /* RID_AT_CLASS */ AT_CLASS, /* RID_AT_ALIAS */ AT_ALIAS, /* RID_AT_DEFS */ AT_DEFS, /* RID_AT_PRIVATE */ AT_PRIVATE, /* RID_AT_PROTECTED */ AT_PROTECTED, /* RID_AT_PUBLIC */ AT_PUBLIC, /* RID_AT_PROTOCOL */ AT_PROTOCOL, /* RID_AT_SELECTOR */ AT_SELECTOR, /* RID_AT_THROW */ AT_THROW, /* RID_AT_TRY */ AT_TRY, /* RID_AT_CATCH */ AT_CATCH, /* RID_AT_FINALLY */ AT_FINALLY, /* RID_AT_SYNCHRONIZED */ AT_SYNCHRONIZED, /* RID_AT_INTERFACE */ AT_INTERFACE, /* RID_AT_IMPLEMENTATION */ AT_IMPLEMENTATION }; static void init_reswords (void) { unsigned int i; tree id; int mask = (flag_isoc99 ? 0 : D_C89) | (flag_no_asm ? (flag_isoc99 ? D_EXT : D_EXT|D_EXT89) : 0); if (!c_dialect_objc ()) mask |= D_OBJC; ridpointers = GGC_CNEWVEC (tree, (int) RID_MAX); for (i = 0; i < N_reswords; i++) { /* If a keyword is disabled, do not enter it into the table and so create a canonical spelling that isn't a keyword. */ if (reswords[i].disable & mask) continue; id = get_identifier (reswords[i].word); C_RID_CODE (id) = reswords[i].rid; C_IS_RESERVED_WORD (id) = 1; ridpointers [(int) reswords[i].rid] = id; } } #define NAME(type) cpp_type2name (type) static void yyerror (const char *msgid) { c_parse_error (msgid, last_token, yylval.ttype); } static int yylexname (void) { tree decl; @@ifobjc int objc_force_identifier = objc_need_raw_identifier; OBJC_NEED_RAW_IDENTIFIER (0); @@end_ifobjc if (C_IS_RESERVED_WORD (yylval.ttype)) { enum rid rid_code = C_RID_CODE (yylval.ttype); @@ifobjc /* Turn non-typedefed refs to "id" into plain identifiers; this allows constructs like "void foo(id id);" to work. */ if (rid_code == RID_ID) { decl = lookup_name (yylval.ttype); if (decl == NULL_TREE || TREE_CODE (decl) != TYPE_DECL) return IDENTIFIER; } if (!OBJC_IS_AT_KEYWORD (rid_code) && (!OBJC_IS_PQ_KEYWORD (rid_code) || objc_pq_context)) @@end_ifobjc { /* Return the canonical spelling for this keyword. */ yylval.ttype = ridpointers[(int) rid_code]; return rid_to_yy[(int) rid_code]; } } decl = lookup_name (yylval.ttype); if (decl) { if (TREE_CODE (decl) == TYPE_DECL) return TYPENAME; } @@ifobjc else { tree objc_interface_decl = objc_is_class_name (yylval.ttype); /* ObjC class names are in the same namespace as variables and typedefs, and hence are shadowed by local declarations. */ if (objc_interface_decl && (global_bindings_p () || (!objc_force_identifier && !decl))) { yylval.ttype = objc_interface_decl; return CLASSNAME; } } @@end_ifobjc return IDENTIFIER; } static inline int _yylex (void) { get_next: last_token = c_lex (&yylval.ttype); switch (last_token) { case CPP_EQ: return '='; case CPP_NOT: return '!'; case CPP_GREATER: yylval.code = GT_EXPR; return ARITHCOMPARE; case CPP_LESS: yylval.code = LT_EXPR; return ARITHCOMPARE; case CPP_PLUS: yylval.code = PLUS_EXPR; return '+'; case CPP_MINUS: yylval.code = MINUS_EXPR; return '-'; case CPP_MULT: yylval.code = MULT_EXPR; return '*'; case CPP_DIV: yylval.code = TRUNC_DIV_EXPR; return '/'; case CPP_MOD: yylval.code = TRUNC_MOD_EXPR; return '%'; case CPP_AND: yylval.code = BIT_AND_EXPR; return '&'; case CPP_OR: yylval.code = BIT_IOR_EXPR; return '|'; case CPP_XOR: yylval.code = BIT_XOR_EXPR; return '^'; case CPP_RSHIFT: yylval.code = RSHIFT_EXPR; return RSHIFT; case CPP_LSHIFT: yylval.code = LSHIFT_EXPR; return LSHIFT; case CPP_COMPL: return '~'; case CPP_AND_AND: return ANDAND; case CPP_OR_OR: return OROR; case CPP_QUERY: return '?'; case CPP_OPEN_PAREN: return '('; case CPP_EQ_EQ: yylval.code = EQ_EXPR; return EQCOMPARE; case CPP_NOT_EQ: yylval.code = NE_EXPR; return EQCOMPARE; case CPP_GREATER_EQ:yylval.code = GE_EXPR; return ARITHCOMPARE; case CPP_LESS_EQ: yylval.code = LE_EXPR; return ARITHCOMPARE; case CPP_PLUS_EQ: yylval.code = PLUS_EXPR; return ASSIGN; case CPP_MINUS_EQ: yylval.code = MINUS_EXPR; return ASSIGN; case CPP_MULT_EQ: yylval.code = MULT_EXPR; return ASSIGN; case CPP_DIV_EQ: yylval.code = TRUNC_DIV_EXPR; return ASSIGN; case CPP_MOD_EQ: yylval.code = TRUNC_MOD_EXPR; return ASSIGN; case CPP_AND_EQ: yylval.code = BIT_AND_EXPR; return ASSIGN; case CPP_OR_EQ: yylval.code = BIT_IOR_EXPR; return ASSIGN; case CPP_XOR_EQ: yylval.code = BIT_XOR_EXPR; return ASSIGN; case CPP_RSHIFT_EQ: yylval.code = RSHIFT_EXPR; return ASSIGN; case CPP_LSHIFT_EQ: yylval.code = LSHIFT_EXPR; return ASSIGN; case CPP_OPEN_SQUARE: return '['; case CPP_CLOSE_SQUARE: return ']'; case CPP_OPEN_BRACE: return '{'; case CPP_CLOSE_BRACE: return '}'; case CPP_ELLIPSIS: return ELLIPSIS; case CPP_PLUS_PLUS: return PLUSPLUS; case CPP_MINUS_MINUS: return MINUSMINUS; case CPP_DEREF: return POINTSAT; case CPP_DOT: return '.'; /* The following tokens may affect the interpretation of any identifiers following, if doing Objective-C. */ case CPP_COLON: OBJC_NEED_RAW_IDENTIFIER (0); return ':'; case CPP_COMMA: OBJC_NEED_RAW_IDENTIFIER (0); return ','; case CPP_CLOSE_PAREN: OBJC_NEED_RAW_IDENTIFIER (0); return ')'; case CPP_SEMICOLON: OBJC_NEED_RAW_IDENTIFIER (0); return ';'; case CPP_EOF: return 0; case CPP_NAME: return yylexname (); case CPP_AT_NAME: /* This only happens in Objective-C; it must be a keyword. */ return rid_to_yy [(int) C_RID_CODE (yylval.ttype)]; case CPP_NUMBER: case CPP_CHAR: case CPP_WCHAR: return CONSTANT; case CPP_STRING: case CPP_WSTRING: return STRING; case CPP_OBJC_STRING: return OBJC_STRING; /* These tokens are C++ specific (and will not be generated in C mode, but let's be cautious). */ case CPP_SCOPE: case CPP_DEREF_STAR: case CPP_DOT_STAR: case CPP_MIN_EQ: case CPP_MAX_EQ: case CPP_MIN: case CPP_MAX: /* These tokens should not survive translation phase 4. */ case CPP_HASH: case CPP_PASTE: error ("syntax error at '%s' token", NAME(last_token)); goto get_next; default: abort (); } /* NOTREACHED */ } static int yylex (void) { int r; timevar_push (TV_LEX); r = _yylex(); timevar_pop (TV_LEX); return r; } /* Function used when yydebug is set, to print a token in more detail. */ static void yyprint (FILE *file, int yychar, YYSTYPE yyl) { tree t = yyl.ttype; fprintf (file, " [%s]", NAME(last_token)); switch (yychar) { case IDENTIFIER: case TYPENAME: case OBJECTNAME: case TYPESPEC: case TYPE_QUAL: case SCSPEC: case STATIC: if (IDENTIFIER_POINTER (t)) fprintf (file, " `%s'", IDENTIFIER_POINTER (t)); break; case CONSTANT: fprintf (file, " %s", GET_MODE_NAME (TYPE_MODE (TREE_TYPE (t)))); if (TREE_CODE (t) == INTEGER_CST) { fputs (" ", file); fprintf (file, HOST_WIDE_INT_PRINT_DOUBLE_HEX, TREE_INT_CST_HIGH (t), TREE_INT_CST_LOW (t)); } break; } } /* This is not the ideal place to put this, but we have to get it out of c-lex.c because cp/lex.c has its own version. */ /* Parse the file. */ void c_parse_file (void) { yyparse (); if (malloced_yyss) { free (malloced_yyss); free (malloced_yyvs); malloced_yyss = 0; } } #include "gt-c-parse.h"