#ifndef SYMBOL_H #define SYMBOL_H /* * Basic symbol and namespace definitions. * * Copyright (C) 2003 Transmeta Corp. * 2003 Linus Torvalds * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #include "token.h" #include "target.h" /* * An identifier with semantic meaning is a "symbol". * * There's a 1:n relationship: each symbol is always * associated with one identifier, while each identifier * can have one or more semantic meanings due to C scope * rules. * * The progression is symbol -> token -> identifier. The * token contains the information on where the symbol was * declared. */ enum namespace { NS_NONE = 0, NS_MACRO = 1, NS_TYPEDEF = 2, NS_STRUCT = 4, // Also used for unions and enums. NS_LABEL = 8, NS_SYMBOL = 16, NS_ITERATOR = 32, NS_PREPROCESSOR = 64, NS_UNDEF = 128, NS_KEYWORD = 256, }; enum type { SYM_UNINITIALIZED, SYM_PREPROCESSOR, SYM_BASETYPE, SYM_NODE, SYM_PTR, SYM_FN, SYM_ARRAY, SYM_STRUCT, SYM_UNION, SYM_ENUM, SYM_TYPEDEF, SYM_TYPEOF, SYM_MEMBER, SYM_BITFIELD, SYM_LABEL, SYM_RESTRICT, SYM_FOULED, SYM_KEYWORD, SYM_BAD, }; enum keyword { KW_SPECIFIER = 1 << 0, KW_MODIFIER = 1 << 1, KW_QUALIFIER = 1 << 2, KW_ATTRIBUTE = 1 << 3, KW_STATEMENT = 1 << 4, KW_ASM = 1 << 5, KW_MODE = 1 << 6, KW_SHORT = 1 << 7, KW_LONG = 1 << 8, KW_EXACT = 1 << 9, }; struct context { struct expression *context; unsigned int in, out; }; extern struct context *alloc_context(void); DECLARE_PTR_LIST(context_list, struct context); struct ctype { unsigned long modifiers; unsigned long alignment; struct context_list *contexts; struct ident *as; struct symbol *base_type; }; struct decl_state { struct ctype ctype; struct ident **ident; struct symbol_op *mode; unsigned char prefer_abstract, is_inline, storage_class, is_tls; unsigned char is_ext_visible; }; struct symbol_op { enum keyword type; int (*evaluate)(struct expression *); int (*expand)(struct expression *, int); int (*args)(struct expression *); /* keywords */ struct token *(*declarator)(struct token *token, struct decl_state *ctx); struct token *(*statement)(struct token *token, struct statement *stmt); struct token *(*toplevel)(struct token *token, struct symbol_list **list); struct token *(*attribute)(struct token *token, struct symbol *attr, struct decl_state *ctx); struct symbol *(*to_mode)(struct symbol *); void (*asm_modifier)(struct token *token, unsigned long *mods); int test, set, class; }; #define SYM_ATTR_WEAK 0 #define SYM_ATTR_NORMAL 1 #define SYM_ATTR_STRONG 2 struct symbol { enum type type:8; enum namespace namespace:9; unsigned char used:1, attr:2, enum_member:1, bound:1; struct position pos; /* Where this symbol was declared */ struct position endpos; /* Where this symbol ends*/ struct ident *ident; /* What identifier this symbol is associated with */ struct symbol *next_id; /* Next semantic symbol that shares this identifier */ struct symbol *replace; /* What is this symbol shadowed by in copy-expression */ struct scope *scope; union { struct symbol *same_symbol; struct symbol *next_subobject; }; struct symbol_op *op; union { struct /* NS_MACRO */ { struct token *expansion; struct token *arglist; struct scope *used_in; void (*expander)(struct token *); }; struct /* NS_PREPROCESSOR */ { int (*handler)(struct stream *, struct token **, struct token *); int normal; }; struct /* NS_SYMBOL */ { unsigned long offset; int bit_size; unsigned int bit_offset:8, variadic:1, initialized:1, examined:1, expanding:1, evaluated:1, string:1, designated_init:1, forced_arg:1, accessed:1, builtin:1, torename:1, transparent_union:1; struct expression *array_size; struct ctype ctype; struct symbol_list *arguments; struct statement *stmt; struct symbol_list *symbol_list; struct statement *inline_stmt; struct symbol_list *inline_symbol_list; struct expression *initializer; struct entrypoint *ep; struct symbol *definition; }; }; union /* backend */ { struct basic_block *bb_target; /* label */ void *aux; /* Auxiliary info, e.g. backend information */ struct { /* sparse ctags */ char kind; unsigned char visited:1; }; }; pseudo_t pseudo; }; /* Modifiers */ #define MOD_AUTO 0x00000001 #define MOD_REGISTER 0x00000002 #define MOD_STATIC 0x00000004 #define MOD_EXTERN 0x00000008 #define MOD_TOPLEVEL 0x00000010 // scoping.. #define MOD_TLS 0x00000020 #define MOD_ASM_GOTO MOD_TLS // never used together #define MOD_INLINE 0x00000040 #define MOD_ASSIGNED 0x00000080 #define MOD_ADDRESSABLE 0x00000100 #define MOD_CONST 0x00000200 #define MOD_VOLATILE 0x00000400 #define MOD_RESTRICT 0x00000800 #define MOD_ATOMIC 0x00001000 #define MOD_SIGNED 0x00002000 #define MOD_UNSIGNED 0x00004000 #define MOD_EXPLICITLY_SIGNED 0x00008000 #define MOD_TYPE 0x00010000 #define MOD_USERTYPE 0x00020000 #define MOD_CHAR 0x00040000 #define MOD_SHORT 0x00080000 #define MOD_LONG 0x00100000 #define MOD_LONGLONG 0x00200000 #define MOD_LONGLONGLONG 0x00400000 #define MOD_SAFE 0x00800000 // non-null/non-trapping pointer #define MOD_PURE 0x01000000 #define MOD_BITWISE 0x02000000 #define MOD_NOCAST 0x04000000 #define MOD_NODEREF 0x08000000 #define MOD_NORETURN 0x10000000 #define MOD_EXT_VISIBLE 0x20000000 #define MOD_ACCESS (MOD_ASSIGNED | MOD_ADDRESSABLE) #define MOD_NONLOCAL (MOD_EXTERN | MOD_TOPLEVEL) #define MOD_STORAGE (MOD_AUTO | MOD_REGISTER | MOD_STATIC | MOD_EXTERN | MOD_INLINE | MOD_TOPLEVEL) #define MOD_SIGNEDNESS (MOD_SIGNED | MOD_UNSIGNED | MOD_EXPLICITLY_SIGNED) #define MOD_LONG_ALL (MOD_LONG | MOD_LONGLONG | MOD_LONGLONGLONG) #define MOD_SPECIFIER (MOD_CHAR | MOD_SHORT | MOD_LONG_ALL | MOD_SIGNEDNESS) #define MOD_SIZE (MOD_CHAR | MOD_SHORT | MOD_LONG_ALL) #define MOD_IGNORE (MOD_STORAGE | MOD_ACCESS | MOD_USERTYPE | MOD_EXPLICITLY_SIGNED | MOD_EXT_VISIBLE) #define MOD_QUALIFIER (MOD_CONST | MOD_VOLATILE | MOD_RESTRICT | MOD_ATOMIC) #define MOD_PTRINHERIT (MOD_QUALIFIER | MOD_NODEREF | MOD_NORETURN | MOD_NOCAST) /* modifiers preserved by typeof() operator */ #define MOD_TYPEOF (MOD_QUALIFIER | MOD_NOCAST | MOD_SPECIFIER) /* Current parsing/evaluation function */ extern struct symbol *current_fn; /* Abstract types */ extern struct symbol int_type, fp_type; /* C types */ extern struct symbol bool_ctype, void_ctype, type_ctype, char_ctype, schar_ctype, uchar_ctype, short_ctype, sshort_ctype, ushort_ctype, int_ctype, sint_ctype, uint_ctype, long_ctype, slong_ctype, ulong_ctype, llong_ctype, sllong_ctype, ullong_ctype, lllong_ctype, slllong_ctype, ulllong_ctype, float_ctype, double_ctype, ldouble_ctype, string_ctype, ptr_ctype, lazy_ptr_ctype, incomplete_ctype, label_ctype, bad_ctype, null_ctype; extern struct symbol int_ptr_ctype, uint_ptr_ctype; extern struct symbol long_ptr_ctype, ulong_ptr_ctype; extern struct symbol llong_ptr_ctype, ullong_ptr_ctype; extern struct symbol float32_ctype, float32x_ctype; extern struct symbol float64_ctype, float64x_ctype; extern struct symbol float128_ctype; extern struct symbol const_void_ctype, const_char_ctype; extern struct symbol const_ptr_ctype, const_string_ctype; #define uintptr_ctype size_t_ctype #define intptr_ctype ssize_t_ctype /* Special internal symbols */ extern struct symbol zero_int; #define __IDENT(n,str,res) \ extern struct ident n #include "ident-list.h" extern struct symbol_list *translation_unit_used_list; extern void access_symbol(struct symbol *); extern const char * type_difference(struct ctype *c1, struct ctype *c2, unsigned long mod1, unsigned long mod2); extern struct symbol *lookup_symbol(struct ident *, enum namespace); extern struct symbol *create_symbol(int stream, const char *name, int type, int namespace); extern void init_symbols(void); extern void init_builtins(int stream); extern void declare_builtins(void); extern void init_ctype(void); extern void init_target(void); extern struct symbol *alloc_symbol(struct position, int type); extern void show_type(struct symbol *); extern const char *modifier_string(unsigned long mod); extern void show_symbol(struct symbol *); extern int show_symbol_expr_init(struct symbol *sym); extern void show_type_list(struct symbol *); extern void show_symbol_list(struct symbol_list *, const char *); extern void add_symbol(struct symbol_list **, struct symbol *); extern void bind_symbol(struct symbol *, struct ident *, enum namespace); extern struct symbol *examine_symbol_type(struct symbol *); extern struct symbol *examine_pointer_target(struct symbol *); extern const char *show_as(struct ident *as); extern const char *show_typename(struct symbol *sym); extern const char *builtin_typename(struct symbol *sym); extern const char *builtin_type_suffix(struct symbol *sym); extern const char *builtin_ctypename(struct ctype *ctype); extern const char* get_type_name(enum type type); extern void debug_symbol(struct symbol *); extern void merge_type(struct symbol *sym, struct symbol *base_type); extern void check_declaration(struct symbol *sym); extern void check_duplicates(struct symbol *sym); static inline int valid_type(const struct symbol *ctype) { return ctype && ctype != &bad_ctype; } static inline struct symbol *get_base_type(const struct symbol *sym) { return examine_symbol_type(sym->ctype.base_type); } /// // test if type is an integer type // // @return: ``1`` for plain integer type, enums & bitfields // but ``0`` for bitwise types! static inline int is_int_type(const struct symbol *type) { if (type->type == SYM_NODE) type = type->ctype.base_type; if (type->type == SYM_ENUM) type = type->ctype.base_type; return type->type == SYM_BITFIELD || type->ctype.base_type == &int_type; } static inline int is_enum_type(const struct symbol *type) { if (type->type == SYM_NODE) type = type->ctype.base_type; return (type->type == SYM_ENUM); } static inline int is_signed_type(struct symbol *sym) { if (sym->type == SYM_NODE) sym = sym->ctype.base_type; if (sym->type == SYM_PTR) return 0; return !(sym->ctype.modifiers & MOD_UNSIGNED); } static inline int is_type_type(struct symbol *type) { return (type->ctype.modifiers & MOD_TYPE) != 0; } static inline int is_ptr_type(struct symbol *type) { if (!type) return 0; if (type->type == SYM_NODE) type = type->ctype.base_type; return type->type == SYM_PTR || type->type == SYM_ARRAY || type->type == SYM_FN; } static inline int is_func_type(struct symbol *type) { if (type->type == SYM_NODE) type = type->ctype.base_type; return type->type == SYM_FN; } static inline int is_array_type(struct symbol *type) { if (type->type == SYM_NODE) type = type->ctype.base_type; return type->type == SYM_ARRAY; } static inline int is_float_type(struct symbol *type) { if (type->type == SYM_NODE) type = type->ctype.base_type; return type->ctype.base_type == &fp_type; } static inline int is_byte_type(struct symbol *type) { return type->bit_size == bits_in_char && type->type != SYM_BITFIELD; } static inline int is_void_type(struct symbol *type) { if (type->type == SYM_NODE) type = type->ctype.base_type; return type == &void_ctype; } static inline int is_bool_type(struct symbol *type) { if (type->type == SYM_NODE) type = type->ctype.base_type; return type == &bool_ctype; } static inline int is_scalar_type(struct symbol *type) { if (type->type == SYM_NODE) type = type->ctype.base_type; switch (type->type) { case SYM_ENUM: case SYM_BITFIELD: case SYM_PTR: case SYM_RESTRICT: // OK, always integer types return 1; default: break; } if (type->ctype.base_type == &int_type) return 1; if (type->ctype.base_type == &fp_type) return 1; return 0; } /// return true for integer & pointer types static inline bool is_integral_type(struct symbol *type) { if (type->type == SYM_NODE) type = type->ctype.base_type; switch (type->type) { case SYM_ENUM: case SYM_PTR: case SYM_RESTRICT: // OK, always integer types return 1; default: break; } if (type->ctype.base_type == &int_type) return 1; return 0; } static inline int is_function(struct symbol *type) { return type && type->type == SYM_FN; } static inline int is_extern_inline(struct symbol *sym) { return (sym->ctype.modifiers & MOD_EXTERN) && (sym->ctype.modifiers & MOD_INLINE) && is_function(sym->ctype.base_type); } static inline int get_sym_type(struct symbol *type) { if (type->type == SYM_NODE) type = type->ctype.base_type; if (type->type == SYM_ENUM) type = type->ctype.base_type; return type->type; } static inline long long extend_value(long long val, struct symbol *ctype) { int is_signed = !(ctype->ctype.modifiers & MOD_UNSIGNED); unsigned size = ctype->bit_size; return bits_extend(val, size, is_signed); } static inline struct symbol *lookup_keyword(struct ident *ident, enum namespace ns) { if (!ident->keyword) return NULL; return lookup_symbol(ident, ns); } #define is_restricted_type(type) (get_sym_type(type) == SYM_RESTRICT) #define is_fouled_type(type) (get_sym_type(type) == SYM_FOULED) #define is_bitfield_type(type) (get_sym_type(type) == SYM_BITFIELD) void create_fouled(struct symbol *type); struct symbol *befoul(struct symbol *type); extern struct ident bad_address_space; static inline bool valid_as(struct ident *as) { return as && as != &bad_address_space; } static inline void combine_address_space(struct position pos, struct ident **tas, struct ident *sas) { struct ident *as; if (!sas) return; as = *tas; if (!as) *tas = sas; else if (as != sas) { *tas = &bad_address_space; sparse_error(pos, "multiple address spaces given"); } } #endif /* SYMBOL_H */