/* Definitions for C++ parsing and type checking. Copyright (C) 1987, 92-97, 1998, 1999 Free Software Foundation, Inc. Hacked by Michael Tiemann (tiemann@cygnus.com) This file is part of GNU CC. GNU CC 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. GNU CC 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 GNU CC; see the file COPYING. If not, write to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifndef _CP_TREE_H #define _CP_TREE_H /* Usage of TREE_LANG_FLAG_?: 0: BINFO_MARKED (BINFO nodes). COMPOUND_STMT_NO_SCOPE (in COMPOUND_STMT). NEW_EXPR_USE_GLOBAL (in NEW_EXPR). DELETE_EXPR_USE_GLOBAL (in DELETE_EXPR). LOOKUP_EXPR_GLOBAL (in LOOKUP_EXPR). TREE_NEGATED_INT (in INTEGER_CST). TREE_INDIRECT_USING (in NAMESPACE_DECL). IDENTIFIER_MARKED (used by search routines). LOCAL_BINDING_P (in CPLUS_BINDING) 1: IDENTIFIER_VIRTUAL_P. TI_PENDING_TEMPLATE_FLAG. TEMPLATE_PARMS_FOR_INLINE. DELETE_EXPR_USE_VEC (in DELETE_EXPR). (TREE_CALLS_NEW) (in _EXPR or _REF) (commented-out). TYPE_USES_COMPLEX_INHERITANCE (in _TYPE). C_DECLARED_LABEL_FLAG. INHERITED_VALUE_BINDING_P (in CPLUS_BINDING) BASELINK_P (in TREE_LIST) 2: IDENTIFIER_OPNAME_P. BINFO_VBASE_MARKED. BINFO_FIELDS_MARKED. TYPE_VIRTUAL_P. 3: TYPE_USES_VIRTUAL_BASECLASSES (in a class TYPE). BINFO_VTABLE_PATH_MARKED. BINFO_PUSHDECLS_MARKED. (TREE_REFERENCE_EXPR) (in NON_LVALUE_EXPR) (commented-out). 4: BINFO_NEW_VTABLE_MARKED. TREE_HAS_CONSTRUCTOR (in INDIRECT_REF, SAVE_EXPR, CONSTRUCTOR, or FIELD_DECL). 5: TYPE_USES_PVBASES (in a class TYPE). 6: SIZEOF_PTR_DERIVED (for the bounds checker, string types) Usage of TYPE_LANG_FLAG_?: 0: C_TYPE_FIELDS_READONLY (in RECORD_TYPE or UNION_TYPE). 1: TYPE_HAS_CONSTRUCTOR. 2: TYPE_HAS_DESTRUCTOR. 3: TYPE_FOR_JAVA. 4: TYPE_NEEDS_DESTRUCTOR. 5: IS_AGGR_TYPE. 6: TYPE_BUILT_IN. Usage of DECL_LANG_FLAG_?: 0: DECL_ERROR_REPORTED (in VAR_DECL). DECL_TEMPLATE_PARM_P (in CONST_DECL, TYPE_DECL, or TEMPLATE_DECL) 1: C_TYPEDEF_EXPLICITLY_SIGNED (in TYPE_DECL). DECL_TEMPLATE_INSTANTIATED (in a VAR_DECL or a FUNCTION_DECL) 2: DECL_THIS_EXTERN (in VAR_DECL or FUNCTION_DECL). 3: DECL_IN_AGGR_P. 4: DECL_MAYBE_TEMPLATE. 5: DECL_INTERFACE_KNOWN. 6: DECL_THIS_STATIC (in VAR_DECL or FUNCTION_DECL). 7: DECL_DEAD_FOR_LOCAL (in VAR_DECL). Usage of language-independent fields in a language-dependent manner: TYPE_ALIAS_SET This field is used by TYPENAME_TYPEs, TEMPLATE_TYPE_PARMs, and so forth as a substitute for the mark bits provided in `lang_type'. At present, only the six low-order bits are used. TYPE_BINFO For an ENUMERAL_TYPE, this is ENUM_TEMPLATE_INFO. For a TYPENAME_TYPE, this is TYPENAME_TYPE_FULLNAME. For a TEMPLATE_TEMPLATE_PARM, this is TEMPLATE_TEMPLATE_PARM_TEMPLATE_INFO. DECL_SAVED_INSNS/DECL_FIELD_SIZE For a static VAR_DECL, this is DECL_INIT_PRIORITY. */ /* Language-dependent contents of an identifier. */ struct lang_identifier { struct tree_identifier ignore; tree namespace_bindings; tree bindings; tree class_value; tree class_template_info; struct lang_id2 *x; }; struct lang_id2 { tree label_value, implicit_decl; tree error_locus; }; typedef struct { tree t; int new_type_flag; } flagged_type_tree; typedef struct { char common[sizeof (struct tree_common)]; struct rtx_def *rtl; /* Unused, but required to match up with what the middle-end expects. */ HOST_WIDE_INT index; HOST_WIDE_INT level; HOST_WIDE_INT orig_level; tree decl; } template_parm_index; typedef struct ptrmem_cst { char common[sizeof (struct tree_common)]; tree member; }* ptrmem_cst_t; /* Nonzero if this binding is for a local scope, as opposed to a class or namespace scope. */ #define LOCAL_BINDING_P(NODE) TREE_LANG_FLAG_0(NODE) /* Nonzero if BINDING_VALUE is from a base class of the class which is currently being defined. */ #define INHERITED_VALUE_BINDING_P(NODE) TREE_LANG_FLAG_1(NODE) /* For a binding between a name and an entity at a non-local scope, defines the scope where the binding is declared. (Either a class _TYPE node, or a NAMESPACE_DECL.) This macro should be used only for namespace-level bindings; on the IDENTIFIER_BINDING list BINDING_LEVEL is used instead. */ #define BINDING_SCOPE(NODE) (((struct tree_binding*)NODE)->scope.scope) /* This is the declaration bound to the name. Possible values: variable, overloaded function, namespace, template, enumerator. */ #define BINDING_VALUE(NODE) (((struct tree_binding*)NODE)->value) /* If name is bound to a type, this is the type (struct, union, enum). */ #define BINDING_TYPE(NODE) TREE_TYPE(NODE) #define IDENTIFIER_GLOBAL_VALUE(NODE) \ namespace_binding (NODE, global_namespace) #define SET_IDENTIFIER_GLOBAL_VALUE(NODE, VAL) \ set_namespace_binding (NODE, global_namespace, VAL) #define IDENTIFIER_NAMESPACE_VALUE(NODE) \ namespace_binding (NODE, current_namespace) #define SET_IDENTIFIER_NAMESPACE_VALUE(NODE, VAL) \ set_namespace_binding (NODE, current_namespace, VAL) struct tree_binding { char common[sizeof (struct tree_common)]; union { tree scope; struct binding_level *level; } scope; tree value; }; /* The overloaded FUNCTION_DECL. */ #define OVL_FUNCTION(NODE) (((struct tree_overload*)NODE)->function) #define OVL_CHAIN(NODE) TREE_CHAIN(NODE) /* Polymorphic access to FUNCTION and CHAIN. */ #define OVL_CURRENT(NODE) \ ((TREE_CODE(NODE)==OVERLOAD) ? OVL_FUNCTION(NODE) : NODE) #define OVL_NEXT(NODE) \ ((TREE_CODE(NODE)==OVERLOAD) ? TREE_CHAIN(NODE) : NULL_TREE) /* If set, this was imported in a using declaration. This is not to confuse with being used somewhere, which is not important for this node. */ #define OVL_USED(NODE) TREE_USED(NODE) struct tree_overload { char common[sizeof (struct tree_common)]; tree function; }; /* A `baselink' is a TREE_LIST whose TREE_PURPOSE is a BINFO indicating a particular base class, and whose TREE_VALUE is a (possibly overloaded) function from that base class. */ #define BASELINK_P(NODE) \ (TREE_CODE ((NODE)) == TREE_LIST && TREE_LANG_FLAG_1 ((NODE))) #define SET_BASELINK_P(NODE) \ (TREE_LANG_FLAG_1 ((NODE)) = 1) #define WRAPPER_PTR(NODE) (((struct tree_wrapper*)NODE)->u.ptr) #define WRAPPER_INT(NODE) (((struct tree_wrapper*)NODE)->u.i) struct tree_wrapper { char common[sizeof (struct tree_common)]; union { void *ptr; int i; } u; }; #define SRCLOC_FILE(NODE) (((struct tree_srcloc*)NODE)->filename) #define SRCLOC_LINE(NODE) (((struct tree_srcloc*)NODE)->linenum) struct tree_srcloc { char common[sizeof (struct tree_common)]; char *filename; int linenum; }; /* To identify to the debug emitters if it should pay attention to the flag `-Wtemplate-debugging'. */ #define HAVE_TEMPLATES 1 /* Macros for access to language-specific slots in an identifier. */ #define IDENTIFIER_NAMESPACE_BINDINGS(NODE) \ (((struct lang_identifier *)(NODE))->namespace_bindings) #define IDENTIFIER_TEMPLATE(NODE) \ (((struct lang_identifier *)(NODE))->class_template_info) /* The IDENTIFIER_BINDING is the innermost CPLUS_BINDING for the identifier. It's TREE_CHAIN is the next outermost binding. Each BINDING_VALUE is a DECL for the associated declaration. Thus, name lookup consists simply of pulling off the node at the front of the list (modulo oddities for looking up the names of types, and such.) You can use BINDING_SCOPE or BINDING_LEVEL to determine the scope that bound the name. */ #define IDENTIFIER_BINDING(NODE) \ (((struct lang_identifier*) (NODE))->bindings) /* The IDENTIFIER_VALUE is the value of the IDENTIFIER_BINDING, or NULL_TREE if there is no binding. */ #define IDENTIFIER_VALUE(NODE) \ (IDENTIFIER_BINDING (NODE) \ ? BINDING_VALUE (IDENTIFIER_BINDING (NODE)) \ : NULL_TREE) /* If IDENTIFIER_CLASS_VALUE is set, then NODE is bound in the current class, and IDENTIFIER_CLASS_VALUE is the value binding. This is just a pointer to the BINDING_VALUE of one of the bindings in the IDENTIFIER_BINDINGs list, so any time that this is non-NULL so is IDENTIFIER_BINDING. */ #define IDENTIFIER_CLASS_VALUE(NODE) \ (((struct lang_identifier *) (NODE))->class_value) /* The amount of time used by the file whose special "time identifier" is NODE, represented as an INTEGER_CST. See get_time_identifier. */ #define TIME_IDENTIFIER_TIME(NODE) IDENTIFIER_BINDING(NODE) /* For a "time identifier" this is a INTEGER_CST. The TREE_INT_CST_LOW is 1 if the corresponding file is "interface only". The TRE_INT_CST_HIGH is 1 if it is "interface unknown". */ #define TIME_IDENTIFIER_FILEINFO(NODE) IDENTIFIER_CLASS_VALUE (NODE) /* TREE_TYPE only indicates on local and class scope the current type. For namespace scope, the presence of a type in any namespace is indicated with global_type_node, and the real type behind must be found through lookup. */ #define IDENTIFIER_TYPE_VALUE(NODE) (identifier_type_value(NODE)) #define REAL_IDENTIFIER_TYPE_VALUE(NODE) (TREE_TYPE (NODE)) #define SET_IDENTIFIER_TYPE_VALUE(NODE,TYPE) (TREE_TYPE (NODE) = TYPE) #define IDENTIFIER_HAS_TYPE_VALUE(NODE) (IDENTIFIER_TYPE_VALUE (NODE) ? 1 : 0) #define LANG_ID_FIELD(NAME,NODE) \ (((struct lang_identifier *)(NODE))->x \ ? ((struct lang_identifier *)(NODE))->x->NAME : 0) #define SET_LANG_ID(NODE,VALUE,NAME) \ (((struct lang_identifier *)(NODE))->x == 0 \ ? ((struct lang_identifier *)(NODE))->x \ = (struct lang_id2 *)perm_calloc (1, sizeof (struct lang_id2)) : 0, \ ((struct lang_identifier *)(NODE))->x->NAME = (VALUE)) #define IDENTIFIER_LABEL_VALUE(NODE) LANG_ID_FIELD(label_value, NODE) #define SET_IDENTIFIER_LABEL_VALUE(NODE,VALUE) \ SET_LANG_ID(NODE, VALUE, label_value) #define IDENTIFIER_IMPLICIT_DECL(NODE) LANG_ID_FIELD(implicit_decl, NODE) #define SET_IDENTIFIER_IMPLICIT_DECL(NODE,VALUE) \ SET_LANG_ID(NODE, VALUE, implicit_decl) #define IDENTIFIER_ERROR_LOCUS(NODE) LANG_ID_FIELD(error_locus, NODE) #define SET_IDENTIFIER_ERROR_LOCUS(NODE,VALUE) \ SET_LANG_ID(NODE, VALUE, error_locus) #define IDENTIFIER_VIRTUAL_P(NODE) TREE_LANG_FLAG_1(NODE) /* Nonzero if this identifier is the prefix for a mangled C++ operator name. */ #define IDENTIFIER_OPNAME_P(NODE) TREE_LANG_FLAG_2(NODE) /* Nonzero if this identifier is the name of a type-conversion operator. */ #define IDENTIFIER_TYPENAME_P(NODE) \ (! strncmp (IDENTIFIER_POINTER (NODE), \ OPERATOR_TYPENAME_FORMAT, \ strlen (OPERATOR_TYPENAME_FORMAT))) /* Nonzero means reject anything that ANSI standard C forbids. */ extern int pedantic; /* In a RECORD_TYPE or UNION_TYPE, nonzero if any component is read-only. */ #define C_TYPE_FIELDS_READONLY(type) TYPE_LANG_FLAG_0 (type) /* Record in each node resulting from a binary operator what operator was specified for it. */ #define C_EXP_ORIGINAL_CODE(exp) ((enum tree_code) TREE_COMPLEXITY (exp)) /* Store a value in that field. */ #define C_SET_EXP_ORIGINAL_CODE(exp, code) \ (TREE_COMPLEXITY (exp) = (int)(code)) /* If non-zero, a VAR_DECL whose cleanup will cause a throw to the next exception handler. */ extern tree exception_throw_decl; extern tree double_type_node, long_double_type_node, float_type_node; extern tree char_type_node, unsigned_char_type_node, signed_char_type_node; extern tree ptrdiff_type_node; extern tree short_integer_type_node, short_unsigned_type_node; extern tree long_integer_type_node, long_unsigned_type_node; extern tree long_long_integer_type_node, long_long_unsigned_type_node; extern tree unsigned_type_node; extern tree string_type_node, char_array_type_node, int_array_type_node; extern tree wchar_array_type_node; extern tree wchar_type_node, signed_wchar_type_node, unsigned_wchar_type_node; extern tree complex_integer_type_node; extern tree complex_float_type_node; extern tree complex_double_type_node; extern tree complex_long_double_type_node; extern tree intQI_type_node, unsigned_intQI_type_node; extern tree intHI_type_node, unsigned_intHI_type_node; extern tree intSI_type_node, unsigned_intSI_type_node; extern tree intDI_type_node, unsigned_intDI_type_node; #if HOST_BITS_PER_WIDE_INT >= 64 extern tree intTI_type_node, unsigned_intTI_type_node; #endif extern tree java_byte_type_node; extern tree java_short_type_node; extern tree java_int_type_node; extern tree java_long_type_node; extern tree java_float_type_node; extern tree java_double_type_node; extern tree java_char_type_node; extern tree java_boolean_type_node; extern int current_function_returns_value; extern int current_function_returns_null; extern tree current_function_return_value; extern tree current_namespace; extern tree global_namespace; extern tree ridpointers[]; extern tree ansi_opname[]; extern tree ansi_assopname[]; /* Nonzero means `$' can be in an identifier. */ extern int dollars_in_ident; /* Nonzero means allow type mismatches in conditional expressions; just make their values `void'. */ extern int flag_cond_mismatch; /* Nonzero means don't recognize the keyword `asm'. */ extern int flag_no_asm; /* For cross referencing. */ extern int flag_gnu_xref; /* For environments where you can use GNU binutils (as, ld in particular). */ extern int flag_gnu_binutils; /* Nonzero means warn about implicit declarations. */ extern int warn_implicit; /* Nonzero means warn about usage of long long when `-pedantic'. */ extern int warn_long_long; /* Nonzero means warn when all ctors or dtors are private, and the class has no friends. */ extern int warn_ctor_dtor_privacy; /* Nonzero means warn about function definitions that default the return type or that use a null return and have a return-type other than void. */ extern int warn_return_type; /* Nonzero means give string constants the type `const char *', as mandated by the standard. */ extern int flag_const_strings; /* Nonzero means warn about deprecated conversion from string constant to `char *'. */ extern int warn_write_strings; /* Nonzero means warn about sizeof(function) or addition/subtraction of function pointers. */ extern int warn_pointer_arith; /* Nonzero means warn about suggesting putting in ()'s. */ extern int warn_parentheses; /* Nonzero means warn about multiple (redundant) decls for the same single variable or function. */ extern int warn_redundant_decls; /* Warn if initializer is not completely bracketed. */ extern int warn_missing_braces; /* Warn about comparison of signed and unsigned values. */ extern int warn_sign_compare; /* Warn about a subscript that has type char. */ extern int warn_char_subscripts; /* Nonzero means warn about pointer casts that can drop a type qualifier from the pointer target type. */ extern int warn_cast_qual; /* Warn about *printf or *scanf format/argument anomalies. */ extern int warn_format; /* Nonzero means warn about static buffer abuse. */ extern int warn_bounded; /* Nonzero means warn about non virtual destructors in classes that have virtual functions. */ extern int warn_nonvdtor; /* Non-zero means warn when we convert a pointer to member function into a pointer to (void or function). */ extern int warn_pmf2ptr; /* Nonzero means warn about violation of some Effective C++ style rules. */ extern int warn_ecpp; /* Nonzero means warn where overload resolution chooses a promotion from unsigned to signed over a conversion to an unsigned of the same size. */ extern int warn_sign_promo; /* Non-zero means warn when a function is declared extern and later inline. */ extern int warn_extern_inline; /* Non-zero means warn when an old-style cast is used. */ extern int warn_old_style_cast; /* Nonzero means to treat bitfields as unsigned unless they say `signed'. */ extern int flag_signed_bitfields; /* 3 means write out only virtuals function tables `defined' in this implementation file. 2 means write out only specific virtual function tables and give them (C) public access. 1 means write out virtual function tables and give them (C) public access. 0 means write out virtual function tables and give them (C) static access (default). -1 means declare virtual function tables extern. */ extern int write_virtuals; /* True for more efficient but incompatible (not fully tested) vtable implementation (using thunks). 0 is old behavior; 1 is new behavior; 3 adds vlist arguments; 2 is 3 plus backwards-compatibility to 1. */ extern int flag_vtable_thunks, flag_vtable_thunks_compat; /* INTERFACE_ONLY nonzero means that we are in an "interface" section of the compiler. INTERFACE_UNKNOWN nonzero means we cannot trust the value of INTERFACE_ONLY. If INTERFACE_UNKNOWN is zero and INTERFACE_ONLY is zero, it means that we are responsible for exporting definitions that others might need. */ extern int interface_only, interface_unknown; /* Nonzero means we should attempt to elide constructors when possible. */ extern int flag_elide_constructors; /* Nonzero means enable obscure ANSI features and disable GNU extensions that might cause ANSI-compliant code to be miscompiled. */ extern int flag_ansi; /* Nonzero means recognize and handle signature language constructs. */ extern int flag_handle_signatures; /* Nonzero means that member functions defined in class scope are inline by default. */ extern int flag_default_inline; /* The name-mangling scheme to use. Versions of gcc before 2.8 use version 0. */ extern int name_mangling_version; /* Nonzero means that guiding declarations are allowed. */ extern int flag_guiding_decls; /* Nonzero if squashed mangling is to be performed. This uses the B and K codes to reference previously seen class types and class qualifiers. */ extern int flag_do_squangling; /* Nonzero means generate separate instantiation control files and juggle them at link time. */ extern int flag_use_repository; /* Nonzero if we want to issue diagnostics that the standard says are not required. */ extern int flag_optional_diags; /* Nonzero means do not consider empty argument prototype to mean function takes no arguments. */ extern int flag_strict_prototype; /* Nonzero means output .vtable_{entry,inherit} for use in doing vtable gc. */ extern int flag_vtable_gc; /* Nonzero means make the default pedwarns warnings instead of errors. The value of this flag is ignored if -pedantic is specified. */ extern int flag_permissive; /* Nonzero if we want to obey access control semantics. */ extern int flag_access_control; /* C++ language-specific tree codes. */ #define DEFTREECODE(SYM, NAME, TYPE, LENGTH) SYM, enum cplus_tree_code { __DUMMY = LAST_AND_UNUSED_TREE_CODE, #include "cp-tree.def" LAST_CPLUS_TREE_CODE }; #undef DEFTREECODE enum languages { lang_c, lang_cplusplus, lang_java }; /* Macros to make error reporting functions' lives easier. */ #define TYPE_IDENTIFIER(NODE) (DECL_NAME (TYPE_NAME (NODE))) #define TYPE_NAME_STRING(NODE) (IDENTIFIER_POINTER (TYPE_IDENTIFIER (NODE))) #define TYPE_NAME_LENGTH(NODE) (IDENTIFIER_LENGTH (TYPE_IDENTIFIER (NODE))) #define TYPE_ASSEMBLER_NAME_STRING(NODE) (IDENTIFIER_POINTER (DECL_ASSEMBLER_NAME (TYPE_NAME (NODE)))) #define TYPE_ASSEMBLER_NAME_LENGTH(NODE) (IDENTIFIER_LENGTH (DECL_ASSEMBLER_NAME (TYPE_NAME (NODE)))) /* The _DECL for this _TYPE. */ #define TYPE_MAIN_DECL(NODE) (TYPE_STUB_DECL (TYPE_MAIN_VARIANT (NODE))) /* Nonzero if T is a class (or struct or union) type. Also nonzero for template type parameters and typename types. Despite its name, this macro has nothing to do with the definition of aggregate given in the standard. Think of this macro as MAYBE_CLASS_TYPE_P. */ #define IS_AGGR_TYPE(t) \ (TREE_CODE (t) == TEMPLATE_TYPE_PARM \ || TREE_CODE (t) == TYPENAME_TYPE \ || TREE_CODE (t) == TYPEOF_TYPE \ || TYPE_LANG_FLAG_5 (t)) /* Set IS_AGGR_TYPE for T to VAL. T must be a class, struct, or union type. */ #define SET_IS_AGGR_TYPE(T, VAL) \ (TYPE_LANG_FLAG_5 (T) = (VAL)) /* Nonzero if T is a class type. Zero for template type parameters, typename types, and so forth. */ #define CLASS_TYPE_P(t) \ (IS_AGGR_TYPE_CODE (TREE_CODE (t)) && IS_AGGR_TYPE (t)) #define IS_AGGR_TYPE_CODE(t) (t == RECORD_TYPE || t == UNION_TYPE) #define IS_AGGR_TYPE_2(TYPE1,TYPE2) \ (TREE_CODE (TYPE1) == TREE_CODE (TYPE2) \ && IS_AGGR_TYPE (TYPE1)&IS_AGGR_TYPE (TYPE2)) #define IS_OVERLOAD_TYPE(t) \ (IS_AGGR_TYPE (t) || TREE_CODE (t) == ENUMERAL_TYPE) /* In a *_TYPE, nonzero means a built-in type. */ #define TYPE_BUILT_IN(NODE) TYPE_LANG_FLAG_6(NODE) /* True if this a "Java" type, defined in 'extern "Java"'. */ #define TYPE_FOR_JAVA(NODE) TYPE_LANG_FLAG_3(NODE) /* The type qualifiers for this type, including the qualifiers on the elements for an array type. */ #define CP_TYPE_QUALS(NODE) \ ((TREE_CODE (NODE) != ARRAY_TYPE) \ ? TYPE_QUALS (NODE) : cp_type_quals (NODE)) /* Nonzero if this type is const-qualified. */ #define CP_TYPE_CONST_P(NODE) \ ((CP_TYPE_QUALS (NODE) & TYPE_QUAL_CONST) != 0) /* Nonzero if this type is volatile-qualified. */ #define CP_TYPE_VOLATILE_P(NODE) \ ((CP_TYPE_QUALS (NODE) & TYPE_QUAL_VOLATILE) != 0) /* Nonzero if this type is restrict-qualified. */ #define CP_TYPE_RESTRICT_P(NODE) \ ((CP_TYPE_QUALS (NODE) & TYPE_QUAL_RESTRICT) != 0) /* Nonzero if this type is const-qualified, but not volatile-qualified. Other qualifiers are ignored. This macro is used to test whether or not it is OK to bind an rvalue to a reference. */ #define CP_TYPE_CONST_NON_VOLATILE_P(NODE) \ ((CP_TYPE_QUALS (NODE) & (TYPE_QUAL_CONST | TYPE_QUAL_VOLATILE)) \ == TYPE_QUAL_CONST) #define DELTA_FROM_VTABLE_ENTRY(ENTRY) \ (!flag_vtable_thunks ? \ TREE_VALUE (CONSTRUCTOR_ELTS (ENTRY)) \ : TREE_CODE (TREE_OPERAND ((ENTRY), 0)) != THUNK_DECL ? integer_zero_node \ : build_int_2 (THUNK_DELTA (TREE_OPERAND ((ENTRY), 0)), 0)) /* Virtual function addresses can be gotten from a virtual function table entry using this macro. */ #define FNADDR_FROM_VTABLE_ENTRY(ENTRY) \ (!flag_vtable_thunks ? \ TREE_VALUE (TREE_CHAIN (TREE_CHAIN (CONSTRUCTOR_ELTS (ENTRY)))) \ : TREE_CODE (TREE_OPERAND ((ENTRY), 0)) != THUNK_DECL ? (ENTRY) \ : DECL_INITIAL (TREE_OPERAND ((ENTRY), 0))) #define SET_FNADDR_FROM_VTABLE_ENTRY(ENTRY,VALUE) \ (TREE_VALUE (TREE_CHAIN (TREE_CHAIN (CONSTRUCTOR_ELTS (ENTRY)))) = (VALUE)) #define FUNCTION_ARG_CHAIN(NODE) (TREE_CHAIN (TYPE_ARG_TYPES (TREE_TYPE (NODE)))) #define PROMOTES_TO_AGGR_TYPE(NODE,CODE) \ (((CODE) == TREE_CODE (NODE) \ && IS_AGGR_TYPE (TREE_TYPE (NODE))) \ || IS_AGGR_TYPE (NODE)) /* Nonzero iff TYPE is uniquely derived from PARENT. Under MI, PARENT can be an ambiguous base class of TYPE, and this macro will be false. */ #define UNIQUELY_DERIVED_FROM_P(PARENT, TYPE) (get_base_distance (PARENT, TYPE, 0, (tree *)0) >= 0) #define ACCESSIBLY_DERIVED_FROM_P(PARENT, TYPE) (get_base_distance (PARENT, TYPE, -1, (tree *)0) >= 0) #define ACCESSIBLY_UNIQUELY_DERIVED_P(PARENT, TYPE) (get_base_distance (PARENT, TYPE, 1, (tree *)0) >= 0) #define DERIVED_FROM_P(PARENT, TYPE) (get_base_distance (PARENT, TYPE, 0, (tree *)0) != -1) /* This structure provides additional information above and beyond what is provide in the ordinary tree_type. In the past, we used it for the types of class types, template parameters types, typename types, and so forth. However, there can be many (tens to hundreds of thousands) of template parameter types in a compilation, and there's no need for this additional information in that case. Therefore, we now use this data structure only for class types. In the past, it was thought that there would be relatively few class types. However, in the presence of heavy use of templates, many (i.e., thousands) of classes can easily be generated. Therefore, we should endeavor to keep the size of this structure to a minimum. */ struct lang_type { struct { unsigned has_type_conversion : 1; unsigned has_init_ref : 1; unsigned has_default_ctor : 1; unsigned uses_multiple_inheritance : 1; unsigned const_needs_init : 1; unsigned ref_needs_init : 1; unsigned has_const_assign_ref : 1; unsigned anon_union : 1; unsigned has_nonpublic_ctor : 2; unsigned has_nonpublic_assign_ref : 2; unsigned vtable_needs_writing : 1; unsigned has_assign_ref : 1; unsigned gets_new : 2; unsigned gets_delete : 2; unsigned has_call_overloaded : 1; unsigned has_array_ref_overloaded : 1; unsigned has_arrow_overloaded : 1; unsigned interface_only : 1; unsigned interface_unknown : 1; unsigned needs_virtual_reinit : 1; unsigned marks: 6; unsigned vec_delete_takes_size : 1; unsigned declared_class : 1; unsigned being_defined : 1; unsigned redefined : 1; unsigned debug_requested : 1; unsigned use_template : 2; unsigned got_semicolon : 1; unsigned ptrmemfunc_flag : 1; unsigned is_signature : 1; unsigned is_signature_pointer : 1; unsigned is_signature_reference : 1; unsigned has_opaque_typedecls : 1; unsigned sigtable_has_been_generated : 1; unsigned was_anonymous : 1; unsigned has_real_assign_ref : 1; unsigned has_const_init_ref : 1; unsigned has_complex_init_ref : 1; unsigned has_complex_assign_ref : 1; unsigned has_abstract_assign_ref : 1; unsigned non_aggregate : 1; unsigned is_partial_instantiation : 1; unsigned has_mutable : 1; unsigned com_interface : 1; /* When adding a flag here, consider whether or not it ought to apply to a template instance if it applies to the template. If so, make sure to copy it in instantiate_class_template! */ /* The MIPS compiler gets it wrong if this struct also does not fill out to a multiple of 4 bytes. Add a member `dummy' with new bits if you go over the edge. */ unsigned dummy : 10; } type_flags; int vsize; int vfield_parent; union tree_node *vfields; union tree_node *vbases; union tree_node *tags; union tree_node *search_slot; unsigned char align; /* Room for another three unsigned chars. */ union tree_node *size; union tree_node *abstract_virtuals; union tree_node *friend_classes; union tree_node *rtti; union tree_node *methods; union tree_node *signature; union tree_node *signature_pointer_to; union tree_node *signature_reference_to; union tree_node *template_info; tree befriending_classes; }; /* Indicates whether or not (and how) a template was expanded for this class. 0=no information yet/non-template class 1=implicit template instantiation 2=explicit template specialization 3=explicit template instantiation */ #define CLASSTYPE_USE_TEMPLATE(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.use_template) /* Fields used for storing information before the class is defined. After the class is defined, these fields hold other information. */ /* List of friends which were defined inline in this class definition. */ #define CLASSTYPE_INLINE_FRIENDS(NODE) (TYPE_NONCOPIED_PARTS (NODE)) /* Nonzero for _CLASSTYPE means that operator new and delete are defined, respectively. */ #define TYPE_GETS_NEW(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.gets_new) #define TYPE_GETS_DELETE(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.gets_delete) #define TYPE_GETS_REG_DELETE(NODE) (TYPE_GETS_DELETE (NODE) & 1) /* Nonzero for _CLASSTYPE means that operator vec delete is defined and takes the optional size_t argument. */ #define TYPE_VEC_DELETE_TAKES_SIZE(NODE) \ (TYPE_LANG_SPECIFIC(NODE)->type_flags.vec_delete_takes_size) #define TYPE_VEC_NEW_USES_COOKIE(NODE) \ (TYPE_NEEDS_DESTRUCTOR (NODE) \ || (TYPE_LANG_SPECIFIC (NODE) && TYPE_VEC_DELETE_TAKES_SIZE (NODE))) /* Nonzero means that this _CLASSTYPE node defines ways of converting itself to other types. */ #define TYPE_HAS_CONVERSION(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.has_type_conversion) /* Nonzero means that this _CLASSTYPE node overloads operator=(X&). */ #define TYPE_HAS_ASSIGN_REF(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.has_assign_ref) #define TYPE_HAS_CONST_ASSIGN_REF(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.has_const_assign_ref) /* Nonzero means that this _CLASSTYPE node has an X(X&) constructor. */ #define TYPE_HAS_INIT_REF(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.has_init_ref) #define TYPE_HAS_CONST_INIT_REF(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.has_const_init_ref) /* Nonzero means that this type is being defined. I.e., the left brace starting the definition of this type has been seen. */ #define TYPE_BEING_DEFINED(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.being_defined) /* Nonzero means that this type has been redefined. In this case, if convenient, don't reprocess any methods that appear in its redefinition. */ #define TYPE_REDEFINED(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.redefined) /* Nonzero means that this type is a signature. */ # define IS_SIGNATURE(NODE) (TYPE_LANG_SPECIFIC(NODE)?TYPE_LANG_SPECIFIC(NODE)->type_flags.is_signature:0) # define SET_SIGNATURE(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.is_signature=1) # define CLEAR_SIGNATURE(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.is_signature=0) /* Nonzero means that this type is a signature pointer type. */ # define IS_SIGNATURE_POINTER(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.is_signature_pointer) /* Nonzero means that this type is a signature reference type. */ # define IS_SIGNATURE_REFERENCE(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.is_signature_reference) /* Nonzero means that this signature contains opaque type declarations. */ #define SIGNATURE_HAS_OPAQUE_TYPEDECLS(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.has_opaque_typedecls) /* Nonzero means that a signature table has been generated for this signature. */ #define SIGTABLE_HAS_BEEN_GENERATED(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.sigtable_has_been_generated) /* If NODE is a class, this is the signature type that contains NODE's signature after it has been computed using sigof(). */ #define CLASSTYPE_SIGNATURE(NODE) (TYPE_LANG_SPECIFIC(NODE)->signature) /* If NODE is a signature pointer or signature reference, this is the signature type the pointer/reference points to. */ #define SIGNATURE_TYPE(NODE) (TYPE_LANG_SPECIFIC(NODE)->signature) /* If NODE is a signature, this is a vector of all methods defined in the signature or in its base types together with their default implementations. */ #define SIGNATURE_METHOD_VEC(NODE) (TYPE_LANG_SPECIFIC(NODE)->signature) /* If NODE is a signature, this is the _TYPE node that contains NODE's signature pointer type. */ #define SIGNATURE_POINTER_TO(NODE) (TYPE_LANG_SPECIFIC(NODE)->signature_pointer_to) /* If NODE is a signature, this is the _TYPE node that contains NODE's signature reference type. */ #define SIGNATURE_REFERENCE_TO(NODE) (TYPE_LANG_SPECIFIC(NODE)->signature_reference_to) /* The is the basetype that contains NODE's rtti. */ #define CLASSTYPE_RTTI(NODE) (TYPE_LANG_SPECIFIC(NODE)->rtti) /* Nonzero means that this _CLASSTYPE node overloads operator(). */ #define TYPE_OVERLOADS_CALL_EXPR(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.has_call_overloaded) /* Nonzero means that this _CLASSTYPE node overloads operator[]. */ #define TYPE_OVERLOADS_ARRAY_REF(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.has_array_ref_overloaded) /* Nonzero means that this _CLASSTYPE node overloads operator->. */ #define TYPE_OVERLOADS_ARROW(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.has_arrow_overloaded) /* Nonzero means that this _CLASSTYPE (or one of its ancestors) uses multiple inheritance. If this is 0 for the root of a type hierarchy, then we can use more efficient search techniques. */ #define TYPE_USES_MULTIPLE_INHERITANCE(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.uses_multiple_inheritance) /* Nonzero means that this _CLASSTYPE (or one of its ancestors) uses virtual base classes. If this is 0 for the root of a type hierarchy, then we can use more efficient search techniques. */ #define TYPE_USES_VIRTUAL_BASECLASSES(NODE) (TREE_LANG_FLAG_3(NODE)) /* Nonzero means that this _CLASSTYPE uses polymorphic virtual bases. This flag is set only when we use vtable thunks. */ #define TYPE_USES_PVBASES(NODE) (TREE_LANG_FLAG_5(NODE)) /* Used to track constants derived from sizeof(pointer) operations */ #define SIZEOF_PTR_DERIVED(NODE) (TREE_LANG_FLAG_6((NODE))) /* Vector member functions defined in this class. Each element is either a FUNCTION_DECL, a TEMPLATE_DECL, or an OVERLOAD. All functions with the same name end up in the same slot. The first two elements are for constructors, and destructors, respectively. These are followed by ordinary member functions. There may be empty entries at the end of the vector. */ #define CLASSTYPE_METHOD_VEC(NODE) (TYPE_LANG_SPECIFIC(NODE)->methods) /* The first type conversion operator in the class (the others can be searched with TREE_CHAIN), or the first non-constructor function if there are no type conversion operators. */ #define CLASSTYPE_FIRST_CONVERSION(NODE) \ TREE_VEC_LENGTH (CLASSTYPE_METHOD_VEC (NODE)) > 2 \ ? TREE_VEC_ELT (CLASSTYPE_METHOD_VEC (NODE), 2) \ : NULL_TREE; /* Mark bits for depth-first and breath-first searches. */ /* Get the value of the Nth mark bit. */ #define CLASSTYPE_MARKED_N(NODE, N) \ (((CLASS_TYPE_P (NODE) ? TYPE_LANG_SPECIFIC (NODE)->type_flags.marks \ : TYPE_ALIAS_SET (NODE)) & (1 << N)) != 0) /* Set the Nth mark bit. */ #define SET_CLASSTYPE_MARKED_N(NODE, N) \ (CLASS_TYPE_P (NODE) \ ? (TYPE_LANG_SPECIFIC (NODE)->type_flags.marks |= (1 << (N))) \ : (TYPE_ALIAS_SET (NODE) |= (1 << (N)))) /* Clear the Nth mark bit. */ #define CLEAR_CLASSTYPE_MARKED_N(NODE, N) \ (CLASS_TYPE_P (NODE) \ ? (TYPE_LANG_SPECIFIC (NODE)->type_flags.marks &= ~(1 << (N))) \ : (TYPE_ALIAS_SET (NODE) &= ~(1 << (N)))) /* Get the value of the mark bits. */ #define CLASSTYPE_MARKED(NODE) CLASSTYPE_MARKED_N(NODE, 0) #define CLASSTYPE_MARKED2(NODE) CLASSTYPE_MARKED_N(NODE, 1) #define CLASSTYPE_MARKED3(NODE) CLASSTYPE_MARKED_N(NODE, 2) #define CLASSTYPE_MARKED4(NODE) CLASSTYPE_MARKED_N(NODE, 3) #define CLASSTYPE_MARKED5(NODE) CLASSTYPE_MARKED_N(NODE, 4) #define CLASSTYPE_MARKED6(NODE) CLASSTYPE_MARKED_N(NODE, 5) /* Macros to modify the above flags */ #define SET_CLASSTYPE_MARKED(NODE) SET_CLASSTYPE_MARKED_N(NODE, 0) #define CLEAR_CLASSTYPE_MARKED(NODE) CLEAR_CLASSTYPE_MARKED_N(NODE, 0) #define SET_CLASSTYPE_MARKED2(NODE) SET_CLASSTYPE_MARKED_N(NODE, 1) #define CLEAR_CLASSTYPE_MARKED2(NODE) CLEAR_CLASSTYPE_MARKED_N(NODE, 1) #define SET_CLASSTYPE_MARKED3(NODE) SET_CLASSTYPE_MARKED_N(NODE, 2) #define CLEAR_CLASSTYPE_MARKED3(NODE) CLEAR_CLASSTYPE_MARKED_N(NODE, 2) #define SET_CLASSTYPE_MARKED4(NODE) SET_CLASSTYPE_MARKED_N(NODE, 3) #define CLEAR_CLASSTYPE_MARKED4(NODE) CLEAR_CLASSTYPE_MARKED_N(NODE, 3) #define SET_CLASSTYPE_MARKED5(NODE) SET_CLASSTYPE_MARKED_N(NODE, 4) #define CLEAR_CLASSTYPE_MARKED5(NODE) CLEAR_CLASSTYPE_MARKED_N(NODE, 4) #define SET_CLASSTYPE_MARKED6(NODE) SET_CLASSTYPE_MARKED_N(NODE, 5) #define CLEAR_CLASSTYPE_MARKED6(NODE) CLEAR_CLASSTYPE_MARKED_N(NODE, 5) /* A list of the nested tag-types (class, struct, union, or enum) found within this class. The TREE_PURPOSE of each node is the name of the type; the TREE_VALUE is the type itself. This list includes nested member class templates. */ #define CLASSTYPE_TAGS(NODE) (TYPE_LANG_SPECIFIC(NODE)->tags) /* If this class has any bases, this is the number of the base class from which our VFIELD is based, -1 otherwise. If this class has no base classes, this is not used. In D : B1, B2, PARENT would be 0, if D's vtable came from B1, 1, if D's vtable came from B2. */ #define CLASSTYPE_VFIELD_PARENT(NODE) (TYPE_LANG_SPECIFIC(NODE)->vfield_parent) /* Remove when done merging. */ #define CLASSTYPE_VFIELD(NODE) TYPE_VFIELD(NODE) /* The number of virtual functions defined for this _CLASSTYPE node. */ #define CLASSTYPE_VSIZE(NODE) (TYPE_LANG_SPECIFIC(NODE)->vsize) /* The list of binfos of virtual base classes that this type uses. */ #define CLASSTYPE_VBASECLASSES(NODE) (TYPE_LANG_SPECIFIC(NODE)->vbases) /* The virtual function pointer fields that this type contains. */ #define CLASSTYPE_VFIELDS(NODE) (TYPE_LANG_SPECIFIC(NODE)->vfields) /* Number of baseclasses defined for this type. 0 means no base classes. */ #define CLASSTYPE_N_BASECLASSES(NODE) \ (TYPE_BINFO_BASETYPES (NODE) ? TREE_VEC_LENGTH (TYPE_BINFO_BASETYPES(NODE)) : 0) /* Used for keeping search-specific information. Any search routine which uses this must define what exactly this slot is used for. */ #define CLASSTYPE_SEARCH_SLOT(NODE) (TYPE_LANG_SPECIFIC(NODE)->search_slot) /* These are the size, mode and alignment of the type without its virtual base classes, for when we use this type as a base itself. */ #define CLASSTYPE_SIZE(NODE) (TYPE_LANG_SPECIFIC(NODE)->size) #define CLASSTYPE_ALIGN(NODE) (TYPE_LANG_SPECIFIC(NODE)->align) /* A cons list of virtual functions which cannot be inherited by derived classes. When deriving from this type, the derived class must provide its own definition for each of these functions. */ #define CLASSTYPE_ABSTRACT_VIRTUALS(NODE) (TYPE_LANG_SPECIFIC(NODE)->abstract_virtuals) /* Nonzero means that this aggr type has been `closed' by a semicolon. */ #define CLASSTYPE_GOT_SEMICOLON(NODE) (TYPE_LANG_SPECIFIC (NODE)->type_flags.got_semicolon) /* Nonzero means that the main virtual function table pointer needs to be set because base constructors have placed the wrong value there. If this is zero, it means that they placed the right value there, and there is no need to change it. */ #define CLASSTYPE_NEEDS_VIRTUAL_REINIT(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.needs_virtual_reinit) /* Nonzero means that if this type has virtual functions, that the virtual function table will be written out. */ #define CLASSTYPE_VTABLE_NEEDS_WRITING(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.vtable_needs_writing) /* Nonzero means that this type has an X() constructor. */ #define TYPE_HAS_DEFAULT_CONSTRUCTOR(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.has_default_ctor) /* Nonzero means the type declared a ctor as private or protected. We use this to make sure we don't try to generate a copy ctor for a class that has a member of type NODE. */ #define TYPE_HAS_NONPUBLIC_CTOR(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.has_nonpublic_ctor) /* Ditto, for operator=. */ #define TYPE_HAS_NONPUBLIC_ASSIGN_REF(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.has_nonpublic_assign_ref) /* Nonzero means that this type contains a mutable member */ #define CLASSTYPE_HAS_MUTABLE(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.has_mutable) #define TYPE_HAS_MUTABLE_P(NODE) (cp_has_mutable_p (NODE)) /* Nonzero means that this type is meant for communication via COM. */ #define CLASSTYPE_COM_INTERFACE(NODE) \ (TYPE_LANG_SPECIFIC(NODE)->type_flags.com_interface) /* A list of class types of which this type is a friend. The TREE_VALUE is normally a TYPE, but will be a TEMPLATE_DECL in the case of a template friend. */ #define CLASSTYPE_FRIEND_CLASSES(NODE) (TYPE_LANG_SPECIFIC(NODE)->friend_classes) /* A list of the classes which grant friendship to this class. */ #define CLASSTYPE_BEFRIENDING_CLASSES(NODE) \ (TYPE_LANG_SPECIFIC (NODE)->befriending_classes) /* Say whether this node was declared as a "class" or a "struct". */ #define CLASSTYPE_DECLARED_CLASS(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.declared_class) /* Nonzero if this class has const members which have no specified initialization. */ #define CLASSTYPE_READONLY_FIELDS_NEED_INIT(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.const_needs_init) /* Nonzero if this class has ref members which have no specified initialization. */ #define CLASSTYPE_REF_FIELDS_NEED_INIT(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.ref_needs_init) /* Nonzero if this class is included from a header file which employs `#pragma interface', and it is not included in its implementation file. */ #define CLASSTYPE_INTERFACE_ONLY(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.interface_only) /* Same as above, but for classes whose purpose we do not know. */ #define CLASSTYPE_INTERFACE_UNKNOWN(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.interface_unknown) #define CLASSTYPE_INTERFACE_KNOWN(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.interface_unknown == 0) #define SET_CLASSTYPE_INTERFACE_UNKNOWN_X(NODE,X) (TYPE_LANG_SPECIFIC(NODE)->type_flags.interface_unknown = !!(X)) #define SET_CLASSTYPE_INTERFACE_UNKNOWN(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.interface_unknown = 1) #define SET_CLASSTYPE_INTERFACE_KNOWN(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.interface_unknown = 0) /* Nonzero if a _DECL node requires us to output debug info for this class. */ #define CLASSTYPE_DEBUG_REQUESTED(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.debug_requested) /* Additional macros for inheritance information. */ /* The BINFO_INHERITANCE_CHAIN is used opposite to the description in gcc/tree.h. In particular if D is derived from B then the BINFO for B (in D) will have a BINFO_INHERITANCE_CHAIN pointing to D. In tree.h, this pointer is described as pointing in other direction. There is a different BINFO for each path to a virtual base; BINFOs for virtual bases are not shared. In addition, shared versions of each of the virtual class BINFOs are stored in CLASSTYPE_VBASECLASSES. We use TREE_VIA_PROTECTED and TREE_VIA_PUBLIC, but private inheritance is indicated by the absence of the other two flags, not by TREE_VIAR_PRIVATE, which is unused. The TREE_CHAIN is for scratch space in search.c. */ /* Nonzero means marked by DFS or BFS search, including searches by `get_binfo' and `get_base_distance'. */ #define BINFO_MARKED(NODE) (TREE_VIA_VIRTUAL(NODE)?CLASSTYPE_MARKED(BINFO_TYPE(NODE)):TREE_LANG_FLAG_0(NODE)) /* Macros needed because of C compilers that don't allow conditional expressions to be lvalues. Grr! */ #define SET_BINFO_MARKED(NODE) (TREE_VIA_VIRTUAL(NODE)?SET_CLASSTYPE_MARKED(BINFO_TYPE(NODE)):(TREE_LANG_FLAG_0(NODE)=1)) #define CLEAR_BINFO_MARKED(NODE) (TREE_VIA_VIRTUAL(NODE)?CLEAR_CLASSTYPE_MARKED(BINFO_TYPE(NODE)):(TREE_LANG_FLAG_0(NODE)=0)) /* Nonzero means marked in search through virtual inheritance hierarchy. */ #define BINFO_VBASE_MARKED(NODE) CLASSTYPE_MARKED2 (BINFO_TYPE (NODE)) /* Modifier macros */ #define SET_BINFO_VBASE_MARKED(NODE) SET_CLASSTYPE_MARKED2 (BINFO_TYPE (NODE)) #define CLEAR_BINFO_VBASE_MARKED(NODE) CLEAR_CLASSTYPE_MARKED2 (BINFO_TYPE (NODE)) /* Nonzero means marked in search for members or member functions. */ #define BINFO_FIELDS_MARKED(NODE) \ (TREE_VIA_VIRTUAL(NODE)?CLASSTYPE_MARKED2 (BINFO_TYPE (NODE)):TREE_LANG_FLAG_2(NODE)) #define SET_BINFO_FIELDS_MARKED(NODE) (TREE_VIA_VIRTUAL(NODE)?SET_CLASSTYPE_MARKED2(BINFO_TYPE(NODE)):(TREE_LANG_FLAG_2(NODE)=1)) #define CLEAR_BINFO_FIELDS_MARKED(NODE) (TREE_VIA_VIRTUAL(NODE)?CLEAR_CLASSTYPE_MARKED2(BINFO_TYPE(NODE)):(TREE_LANG_FLAG_2(NODE)=0)) /* Nonzero means that this class is on a path leading to a new vtable. */ #define BINFO_VTABLE_PATH_MARKED(NODE) \ (TREE_VIA_VIRTUAL(NODE)?CLASSTYPE_MARKED3(BINFO_TYPE(NODE)):TREE_LANG_FLAG_3(NODE)) #define SET_BINFO_VTABLE_PATH_MARKED(NODE) (TREE_VIA_VIRTUAL(NODE)?SET_CLASSTYPE_MARKED3(BINFO_TYPE(NODE)):(TREE_LANG_FLAG_3(NODE)=1)) #define CLEAR_BINFO_VTABLE_PATH_MARKED(NODE) (TREE_VIA_VIRTUAL(NODE)?CLEAR_CLASSTYPE_MARKED3(BINFO_TYPE(NODE)):(TREE_LANG_FLAG_3(NODE)=0)) /* Nonzero means that this class has a new vtable. */ #define BINFO_NEW_VTABLE_MARKED(NODE) \ (TREE_VIA_VIRTUAL(NODE)?CLASSTYPE_MARKED4(BINFO_TYPE(NODE)):TREE_LANG_FLAG_4(NODE)) #define SET_BINFO_NEW_VTABLE_MARKED(NODE) (TREE_VIA_VIRTUAL(NODE)?SET_CLASSTYPE_MARKED4(BINFO_TYPE(NODE)):(TREE_LANG_FLAG_4(NODE)=1)) #define CLEAR_BINFO_NEW_VTABLE_MARKED(NODE) (TREE_VIA_VIRTUAL(NODE)?CLEAR_CLASSTYPE_MARKED4(BINFO_TYPE(NODE)):(TREE_LANG_FLAG_4(NODE)=0)) /* Nonzero means this class has done dfs_pushdecls. */ #define BINFO_PUSHDECLS_MARKED(NODE) BINFO_VTABLE_PATH_MARKED (NODE) #define SET_BINFO_PUSHDECLS_MARKED(NODE) SET_BINFO_VTABLE_PATH_MARKED (NODE) #define CLEAR_BINFO_PUSHDECLS_MARKED(NODE) CLEAR_BINFO_VTABLE_PATH_MARKED (NODE) /* Used by various search routines. */ #define IDENTIFIER_MARKED(NODE) TREE_LANG_FLAG_0 (NODE) /* Accessor macros for the vfield slots in structures. */ /* Get the assoc info that caused this vfield to exist. */ #define VF_BINFO_VALUE(NODE) TREE_PURPOSE (NODE) /* Get that same information as a _TYPE. */ #define VF_BASETYPE_VALUE(NODE) TREE_VALUE (NODE) /* Get the value of the top-most type dominating the non-`normal' vfields. */ #define VF_DERIVED_VALUE(NODE) (VF_BINFO_VALUE (NODE) ? BINFO_TYPE (VF_BINFO_VALUE (NODE)) : NULL_TREE) /* Get the value of the top-most type that's `normal' for the vfield. */ #define VF_NORMAL_VALUE(NODE) TREE_TYPE (NODE) /* Nonzero for TREE_LIST node means that this list of things is a list of parameters, as opposed to a list of expressions. */ #define TREE_PARMLIST(NODE) ((NODE)->common.unsigned_flag) /* overloaded! */ /* For FUNCTION_TYPE or METHOD_TYPE, a list of the exceptions that this type can raise. Each TREE_VALUE is a _TYPE. The TREE_VALUE will be NULL_TREE to indicate a throw specification of `(...)', or, equivalently, no throw specification. */ #define TYPE_RAISES_EXCEPTIONS(NODE) TYPE_NONCOPIED_PARTS (NODE) /* For FUNCTION_TYPE or METHOD_TYPE, return 1 iff it is declared `throw()'. */ #define TYPE_NOTHROW_P(NODE) \ (TYPE_RAISES_EXCEPTIONS (NODE) \ && TREE_VALUE (TYPE_RAISES_EXCEPTIONS (NODE)) == NULL_TREE) /* The binding level associated with the namespace. */ #define NAMESPACE_LEVEL(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.level) /* If a DECL has DECL_LANG_SPECIFIC, it is either a lang_decl_flags or a lang_decl (which has lang_decl_flags as its initial prefix). A FUNCTION_DECL, NAMESPACE_DECL, TYPE_DECL, or USING_DECL may have a full lang_decl. A FIELD_DECL, or a static data member VAR_DECL, will have only lang_decl_flags. Thus, one should only access the members of lang_decl that are not in lang_decl_flags for DECLs that are not FIELD_DECLs or VAR_DECLs. */ struct lang_decl_flags { #ifdef ONLY_INT_FIELDS int language : 8; #else enum languages language : 8; #endif unsigned operator_attr : 1; unsigned constructor_attr : 1; unsigned friend_attr : 1; unsigned static_function : 1; unsigned const_memfunc : 1; unsigned volatile_memfunc : 1; unsigned abstract_virtual : 1; unsigned permanent_attr : 1 ; unsigned mutable_flag : 1; unsigned is_default_implementation : 1; unsigned saved_inline : 1; unsigned use_template : 2; unsigned nonconverting : 1; unsigned declared_inline : 1; unsigned not_really_extern : 1; unsigned needs_final_overrider : 1; unsigned bitfield : 1; unsigned defined_in_class : 1; unsigned constructor_for_vbase_attr : 2; unsigned dummy : 3; tree access; tree context; tree memfunc_pointer_to; tree template_info; struct binding_level *level; }; struct lang_decl { struct lang_decl_flags decl_flags; tree main_decl_variant; tree befriending_classes; struct pending_inline *pending_inline_info; }; /* Non-zero if NODE is a _DECL with TREE_READONLY set. */ #define TREE_READONLY_DECL_P(NODE) \ (TREE_READONLY (NODE) && TREE_CODE_CLASS (TREE_CODE (NODE)) == 'd') /* Non-zero iff DECL is memory-based. The DECL_RTL of certain const variables might be a CONST_INT, or a REG in some cases. We cannot use `memory_operand' as a test here because on most RISC machines, a variable's address is not, by itself, a legitimate address. */ #define DECL_IN_MEMORY_P(NODE) \ (DECL_RTL (NODE) != NULL_RTX && GET_CODE (DECL_RTL (NODE)) == MEM) /* For FUNCTION_DECLs: return the language in which this decl was declared. */ #define DECL_LANGUAGE(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.language) /* For FUNCTION_DECLs: nonzero means that this function is a constructor. */ #define DECL_CONSTRUCTOR_P(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.constructor_attr) /* There ought to be a better way to find out whether or not something is a destructor. */ #define DECL_DESTRUCTOR_P(NODE) \ (DESTRUCTOR_NAME_P (DECL_ASSEMBLER_NAME (NODE)) \ && DECL_LANGUAGE (NODE) == lang_cplusplus) #define DECL_CONV_FN_P(NODE) \ (IDENTIFIER_TYPENAME_P (DECL_NAME (NODE)) && TREE_TYPE (DECL_NAME (NODE))) #define CONSTRUCTOR_FOR_VBASE 1 #define CONSTRUCTOR_FOR_PVBASE 2 #define DESTRUCTOR_FOR_PVBASE 3 /* For FUNCTION_DECLs: nonzero means that this function is a con/destructor for an object with virtual baseclasses. */ #define DECL_CONSTRUCTOR_FOR_VBASE(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.constructor_for_vbase_attr) /* Nonzero means that this function is a constructor for an object with virtual baseclasses. */ #define DECL_CONSTRUCTOR_FOR_VBASE_P(NODE) \ (DECL_CONSTRUCTOR_FOR_VBASE (NODE) == CONSTRUCTOR_FOR_VBASE) /* Nonzero means that this function is a constructor for an object with virtual baseclasses which have virtual functions. */ #define DECL_CONSTRUCTOR_FOR_PVBASE_P(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.constructor_for_vbase_attr == CONSTRUCTOR_FOR_PVBASE) /* Nonzero means that this function is a destructor for an object with virtual baseclasses which have virtual functions. */ #define DECL_DESTRUCTOR_FOR_PVBASE_P(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.constructor_for_vbase_attr == DESTRUCTOR_FOR_PVBASE) /* Nonzero means that this function is a wrapper around a PVBASE ctor. */ #define DECL_VLIST_CTOR_WRAPPER_P(NODE) \ (DECL_CONSTRUCTOR_FOR_VBASE_P (NODE) && DECL_VLIST_CTOR_WRAPPED (NODE)\ && TREE_CODE (DECL_VLIST_CTOR_WRAPPED (NODE)) == FUNCTION_DECL \ && DECL_CONSTRUCTOR_FOR_PVBASE_P (DECL_VLIST_CTOR_WRAPPED (NODE))) /* Refers to original function that NODE wraps. */ #define DECL_VLIST_CTOR_WRAPPED(NODE) DECL_MEMFUNC_POINTER_TO (NODE) /* Non-zero for a FUNCTION_DECL that declares a type-info function. */ #define DECL_TINFO_FN_P(NODE) \ (TREE_CODE (NODE) == FUNCTION_DECL \ && DECL_ARTIFICIAL (NODE) \ && DECL_LANG_SPECIFIC(NODE)->decl_flags.mutable_flag) /* Mark NODE as a type-info function. */ #define SET_DECL_TINFO_FN_P(NODE) \ (DECL_LANG_SPECIFIC((NODE))->decl_flags.mutable_flag = 1) /* For FUNCTION_DECLs: nonzero means that this function is a default implementation of a signature method. */ #define IS_DEFAULT_IMPLEMENTATION(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.is_default_implementation) /* Nonzero for _DECL means that this decl appears in (or will appear in) as a member in a RECORD_TYPE or UNION_TYPE node. It is also for detecting circularity in case members are multiply defined. In the case of a VAR_DECL, it is also used to determine how program storage should be allocated. */ #define DECL_IN_AGGR_P(NODE) (DECL_LANG_FLAG_3(NODE)) /* Nonzero if the DECL was defined in the class definition itself, rather than outside the class. */ #define DECL_DEFINED_IN_CLASS_P(DECL) \ (DECL_LANG_SPECIFIC (DECL)->decl_flags.defined_in_class) /* Nonzero for FUNCTION_DECL means that this decl is just a friend declaration, and should not be added to the list of member functions for this class. */ #define DECL_FRIEND_P(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.friend_attr) /* A TREE_LIST of the types which have befriended this FUNCTION_DECL. */ #define DECL_BEFRIENDING_CLASSES(NODE) \ (DECL_LANG_SPECIFIC(NODE)->befriending_classes) /* Nonzero for FUNCTION_DECL means that this decl is a static member function. */ #define DECL_STATIC_FUNCTION_P(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.static_function) /* Nonzero for a class member means that it is shared between all objects of that class. */ #define SHARED_MEMBER_P(NODE) \ (TREE_CODE (NODE) == VAR_DECL || TREE_CODE (NODE) == TYPE_DECL \ || TREE_CODE (NODE) == CONST_DECL) /* Nonzero for FUNCTION_DECL means that this decl is a non-static member function. */ #define DECL_NONSTATIC_MEMBER_FUNCTION_P(NODE) \ (TREE_CODE (TREE_TYPE (NODE)) == METHOD_TYPE) /* Nonzero for FUNCTION_DECL means that this decl is a member function (static or non-static). */ #define DECL_FUNCTION_MEMBER_P(NODE) \ (DECL_NONSTATIC_MEMBER_FUNCTION_P (NODE) || DECL_STATIC_FUNCTION_P (NODE)) /* Nonzero for FUNCTION_DECL means that this member function has `this' as const X *const. */ #define DECL_CONST_MEMFUNC_P(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.const_memfunc) /* Nonzero for FUNCTION_DECL means that this member function has `this' as volatile X *const. */ #define DECL_VOLATILE_MEMFUNC_P(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.volatile_memfunc) /* Nonzero for a DECL means that this member is a non-static member. */ #define DECL_NONSTATIC_MEMBER_P(NODE) \ ((TREE_CODE (NODE) == FUNCTION_DECL \ && DECL_NONSTATIC_MEMBER_FUNCTION_P (NODE)) \ || TREE_CODE (NODE) == FIELD_DECL) /* Nonzero for _DECL means that this member object type is mutable. */ #define DECL_MUTABLE_P(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.mutable_flag) /* Nonzero for _DECL means that this constructor is a non-converting constructor. */ #define DECL_NONCONVERTING_P(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.nonconverting) /* Nonzero for FUNCTION_DECL means that this member function exists as part of an abstract class's interface. */ #define DECL_ABSTRACT_VIRTUAL_P(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.abstract_virtual) /* Nonzero for FUNCTION_DECL means that this member function must be overridden by derived classes. */ #define DECL_NEEDS_FINAL_OVERRIDER_P(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.needs_final_overrider) /* Nonzero if allocated on permanent_obstack. */ #define LANG_DECL_PERMANENT(LANGDECL) ((LANGDECL)->decl_flags.permanent_attr) /* The _TYPE context in which this _DECL appears. This field holds the class where a virtual function instance is actually defined, and the lexical scope of a friend function defined in a class body. */ #define DECL_CLASS_CONTEXT(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.context) #define DECL_REAL_CONTEXT(NODE) \ ((TREE_CODE (NODE) == FUNCTION_DECL && DECL_FUNCTION_MEMBER_P (NODE)) \ ? DECL_CLASS_CONTEXT (NODE) : CP_DECL_CONTEXT (NODE)) /* NULL_TREE in DECL_CONTEXT represents the global namespace. */ #define CP_DECL_CONTEXT(NODE) \ (DECL_CONTEXT (NODE) ? DECL_CONTEXT (NODE) : global_namespace) #define FROB_CONTEXT(NODE) ((NODE) == global_namespace ? NULL_TREE : (NODE)) /* For a virtual function, the base where we find its vtable entry. For a non-virtual function, the base where it is defined. */ #define DECL_VIRTUAL_CONTEXT(NODE) DECL_CONTEXT (NODE) /* 1 iff NODE has namespace scope, including the global namespace. */ #define DECL_NAMESPACE_SCOPE_P(NODE) \ (DECL_CONTEXT (NODE) == NULL_TREE \ || TREE_CODE (DECL_CONTEXT (NODE)) == NAMESPACE_DECL) /* 1 iff NODE is a class member. */ #define DECL_CLASS_SCOPE_P(NODE) \ (DECL_CONTEXT (NODE) \ && TREE_CODE_CLASS (TREE_CODE (DECL_CONTEXT (NODE))) == 't') /* 1 iff NODE is function-local. */ #define DECL_FUNCTION_SCOPE_P(NODE) \ (DECL_CONTEXT (NODE) \ && TREE_CODE (DECL_CONTEXT (NODE)) == FUNCTION_DECL) /* For a NAMESPACE_DECL: the list of using namespace directives The PURPOSE is the used namespace, the value is the namespace that is the common ancestor. */ #define DECL_NAMESPACE_USING(NODE) DECL_VINDEX(NODE) /* In a NAMESPACE_DECL, the DECL_INITIAL is used to record all users of a namespace, to record the transitive closure of using namespace. */ #define DECL_NAMESPACE_USERS(NODE) DECL_INITIAL (NODE) /* In a NAMESPACE_DECL, points to the original namespace if this is a namespace alias. */ #define DECL_NAMESPACE_ALIAS(NODE) DECL_ABSTRACT_ORIGIN (NODE) #define ORIGINAL_NAMESPACE(NODE) \ (DECL_NAMESPACE_ALIAS (NODE) ? DECL_NAMESPACE_ALIAS (NODE) : (NODE)) /* In a non-local VAR_DECL with static storage duration, this is the initialization priority. If this value is zero, the NODE will be initialized at the DEFAULT_INIT_PRIORITY. */ #define DECL_INIT_PRIORITY(NODE) (DECL_FIELD_SIZE ((NODE))) /* In a TREE_LIST concatenating using directives, indicate indirekt directives */ #define TREE_INDIRECT_USING(NODE) ((NODE)->common.lang_flag_0) /* In a VAR_DECL for a variable declared in a for statement, this is the shadowed (local) variable. */ #define DECL_SHADOWED_FOR_VAR(NODE) DECL_RESULT(NODE) /* Points back to the decl which caused this lang_decl to be allocated. */ #define DECL_MAIN_VARIANT(NODE) (DECL_LANG_SPECIFIC(NODE)->main_decl_variant) /* For a FUNCTION_DECL: if this function was declared inline inside of a class declaration, this is where the text for the function is squirreled away. */ #define DECL_PENDING_INLINE_INFO(NODE) (DECL_LANG_SPECIFIC(NODE)->pending_inline_info) /* True if on the saved_inlines (see decl2.c) list. */ #define DECL_SAVED_INLINE(DECL) \ (DECL_LANG_SPECIFIC(DECL)->decl_flags.saved_inline) /* For a FUNCTION_DECL: if this function was declared inside a signature declaration, this is the corresponding member function pointer that was created for it. */ #define DECL_MEMFUNC_POINTER_TO(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.memfunc_pointer_to) /* For a FIELD_DECL: this points to the signature member function from which this signature member function pointer was created. */ #define DECL_MEMFUNC_POINTING_TO(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.memfunc_pointer_to) /* For a VAR_DECL or FUNCTION_DECL: template-specific information. */ #define DECL_TEMPLATE_INFO(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.template_info) /* Template information for a RECORD_TYPE or UNION_TYPE. */ #define CLASSTYPE_TEMPLATE_INFO(NODE) (TYPE_LANG_SPECIFIC(NODE)->template_info) /* Template information for an ENUMERAL_TYPE. Although an enumeration may not be a primary template, it may be declared within the scope of a primary template and the enumeration constants may depend on non-type template parameters. */ #define ENUM_TEMPLATE_INFO(NODE) (TYPE_BINFO (NODE)) /* Template information for a template template parameter. */ #define TEMPLATE_TEMPLATE_PARM_TEMPLATE_INFO(NODE) (TYPE_BINFO (NODE)) /* Template information for an ENUMERAL_, RECORD_, or UNION_TYPE. */ #define TYPE_TEMPLATE_INFO(NODE) \ (TREE_CODE (NODE) == ENUMERAL_TYPE \ ? ENUM_TEMPLATE_INFO (NODE) : \ (TREE_CODE (NODE) == TEMPLATE_TEMPLATE_PARM \ ? TEMPLATE_TEMPLATE_PARM_TEMPLATE_INFO (NODE) \ : CLASSTYPE_TEMPLATE_INFO (NODE))) /* Set the template information for an ENUMERAL_, RECORD_, or UNION_TYPE to VAL. */ #define SET_TYPE_TEMPLATE_INFO(NODE, VAL) \ (TREE_CODE (NODE) == ENUMERAL_TYPE \ ? (ENUM_TEMPLATE_INFO (NODE) = VAL) \ : (CLASSTYPE_TEMPLATE_INFO (NODE) = VAL)) #define TI_TEMPLATE(NODE) (TREE_PURPOSE (NODE)) #define TI_ARGS(NODE) (TREE_VALUE (NODE)) #define TI_SPEC_INFO(NODE) (TREE_CHAIN (NODE)) #define TI_PENDING_TEMPLATE_FLAG(NODE) TREE_LANG_FLAG_1 (NODE) /* The TEMPLATE_DECL instantiated or specialized by NODE. This TEMPLATE_DECL will be the immediate parent, not the most general template. For example, in: template struct S { template void f(U); } the FUNCTION_DECL for S::f will have, as its DECL_TI_TEMPLATE, `template S::f'. As a special case, for a member friend template of a template class, this value will not be a TEMPLATE_DECL, but rather a LOOKUP_EXPR or IDENTIFIER_NODE indicating the name of the template and any explicit template arguments provided. For example, in: template struct S { friend void f(int, double); } the DECL_TI_TEMPLATE will be a LOOKUP_EXPR for `f' and the DECL_TI_ARGS will be {int}. */ #define DECL_TI_TEMPLATE(NODE) TI_TEMPLATE (DECL_TEMPLATE_INFO (NODE)) /* The template arguments used to obtain this decl from the most general form of DECL_TI_TEMPLATE. For the example given for DECL_TI_TEMPLATE, the DECL_TI_ARGS will be {int, double}. These are always the full set of arguments required to instantiate this declaration from the most general template specialized here. */ #define DECL_TI_ARGS(NODE) TI_ARGS (DECL_TEMPLATE_INFO (NODE)) #define CLASSTYPE_TI_TEMPLATE(NODE) TI_TEMPLATE (CLASSTYPE_TEMPLATE_INFO (NODE)) #define CLASSTYPE_TI_ARGS(NODE) TI_ARGS (CLASSTYPE_TEMPLATE_INFO (NODE)) #define CLASSTYPE_TI_SPEC_INFO(NODE) TI_SPEC_INFO (CLASSTYPE_TEMPLATE_INFO (NODE)) #define ENUM_TI_TEMPLATE(NODE) \ TI_TEMPLATE (ENUM_TEMPLATE_INFO (NODE)) #define ENUM_TI_ARGS(NODE) \ TI_ARGS (ENUM_TEMPLATE_INFO (NODE)) /* Like DECL_TI_TEMPLATE, but for an ENUMERAL_, RECORD_, or UNION_TYPE. */ #define TYPE_TI_TEMPLATE(NODE) \ (TI_TEMPLATE (TYPE_TEMPLATE_INFO (NODE))) /* Like DECL_TI_ARGS, , but for an ENUMERAL_, RECORD_, or UNION_TYPE. */ #define TYPE_TI_ARGS(NODE) \ (TI_ARGS (TYPE_TEMPLATE_INFO (NODE))) #define INNERMOST_TEMPLATE_PARMS(NODE) TREE_VALUE(NODE) /* Nonzero if the NODE corresponds to the template parameters for a member template, whose inline definition is being processed after the class definition is complete. */ #define TEMPLATE_PARMS_FOR_INLINE(NODE) TREE_LANG_FLAG_1 (NODE) #define DECL_SAVED_TREE(NODE) DECL_MEMFUNC_POINTER_TO (NODE) #define COMPOUND_STMT_NO_SCOPE(NODE) TREE_LANG_FLAG_0 (NODE) #define NEW_EXPR_USE_GLOBAL(NODE) TREE_LANG_FLAG_0 (NODE) #define DELETE_EXPR_USE_GLOBAL(NODE) TREE_LANG_FLAG_0 (NODE) #define DELETE_EXPR_USE_VEC(NODE) TREE_LANG_FLAG_1 (NODE) #define LOOKUP_EXPR_GLOBAL(NODE) TREE_LANG_FLAG_0 (NODE) /* The TYPE_MAIN_DECL for a class template type is a TYPE_DECL, not a TEMPLATE_DECL. This macro determines whether or not a given class type is really a template type, as opposed to an instantiation or specialization of one. */ #define CLASSTYPE_IS_TEMPLATE(NODE) \ (CLASSTYPE_TEMPLATE_INFO (NODE) \ && !CLASSTYPE_USE_TEMPLATE (NODE) \ && PRIMARY_TEMPLATE_P (CLASSTYPE_TI_TEMPLATE (NODE))) /* The name used by the user to name the typename type. Typically, this is an IDENTIFIER_NODE, and the same as the DECL_NAME on the corresponding TYPE_DECL. However, this may also be a TEMPLATE_ID_EXPR if we had something like `typename X::Y'. */ #define TYPENAME_TYPE_FULLNAME(NODE) TYPE_BINFO (NODE) /* Nonzero if NODE is an implicit typename. */ #define IMPLICIT_TYPENAME_P(NODE) \ (TREE_CODE (NODE) == TYPENAME_TYPE && TREE_TYPE (NODE)) /* Nonzero in INTEGER_CST means that this int is negative by dint of using a twos-complement negated operand. */ #define TREE_NEGATED_INT(NODE) (TREE_LANG_FLAG_0 (NODE)) #if 0 /* UNUSED */ /* Nonzero in any kind of _EXPR or _REF node means that it is a call to a storage allocation routine. If, later, alternate storage is found to hold the object, this call can be ignored. */ #define TREE_CALLS_NEW(NODE) (TREE_LANG_FLAG_1 (NODE)) #endif /* Nonzero in any kind of _TYPE that uses multiple inheritance or virtual baseclasses. */ #define TYPE_USES_COMPLEX_INHERITANCE(NODE) (TREE_LANG_FLAG_1 (NODE)) #if 0 /* UNUSED */ /* Nonzero in IDENTIFIER_NODE means that this name is not the name the user gave; it's a DECL_NESTED_TYPENAME. Someone may want to set this on mangled function names, too, but it isn't currently. */ #define TREE_MANGLED(NODE) (FOO) #endif #if 0 /* UNUSED */ /* Nonzero in IDENTIFIER_NODE means that this name is overloaded, and should be looked up in a non-standard way. */ #define DECL_OVERLOADED(NODE) (FOO) #endif /* Nonzero if this (non-TYPE)_DECL has its virtual attribute set. For a FUNCTION_DECL, this is when the function is a virtual function. For a VAR_DECL, this is when the variable is a virtual function table. For a FIELD_DECL, when the field is the field for the virtual function table. For an IDENTIFIER_NODE, nonzero if any function with this name has been declared virtual. For a _TYPE if it uses virtual functions (or is derived from one that does). */ #define TYPE_VIRTUAL_P(NODE) (TREE_LANG_FLAG_2 (NODE)) extern int flag_new_for_scope; /* This flag is true of a local VAR_DECL if it was declared in a for statement, but we are no longer in the scope of the for. */ #define DECL_DEAD_FOR_LOCAL(NODE) DECL_LANG_FLAG_7 (NODE) /* This flag is set on a VAR_DECL that is a DECL_DEAD_FOR_LOCAL if we already emitted a warning about using it. */ #define DECL_ERROR_REPORTED(NODE) DECL_LANG_FLAG_0 (NODE) /* This _DECL represents a compiler-generated entity. */ #define SET_DECL_ARTIFICIAL(NODE) (DECL_ARTIFICIAL (NODE) = 1) /* Record whether a typedef for type `int' was actually `signed int'. */ #define C_TYPEDEF_EXPLICITLY_SIGNED(exp) DECL_LANG_FLAG_1 ((exp)) /* In a FIELD_DECL, nonzero if the decl was originally a bitfield. */ #define DECL_C_BIT_FIELD(NODE) \ (DECL_LANG_SPECIFIC (NODE) && DECL_LANG_SPECIFIC (NODE)->decl_flags.bitfield) #define SET_DECL_C_BIT_FIELD(NODE) \ (DECL_LANG_SPECIFIC (NODE)->decl_flags.bitfield = 1) /* Nonzero if the type T promotes to itself. ANSI C states explicitly the list of types that promote; in particular, short promotes to int even if they have the same width. */ #define C_PROMOTING_INTEGER_TYPE_P(t) \ (TREE_CODE ((t)) == INTEGER_TYPE \ && (TYPE_MAIN_VARIANT (t) == char_type_node \ || TYPE_MAIN_VARIANT (t) == signed_char_type_node \ || TYPE_MAIN_VARIANT (t) == unsigned_char_type_node \ || TYPE_MAIN_VARIANT (t) == short_integer_type_node \ || TYPE_MAIN_VARIANT (t) == short_unsigned_type_node)) #define INTEGRAL_CODE_P(CODE) \ (CODE == INTEGER_TYPE || CODE == ENUMERAL_TYPE || CODE == BOOLEAN_TYPE) #define ARITHMETIC_TYPE_P(TYPE) (INTEGRAL_TYPE_P (TYPE) || FLOAT_TYPE_P (TYPE)) /* Mark which labels are explicitly declared. These may be shadowed, and may be referenced from nested functions. */ #define C_DECLARED_LABEL_FLAG(label) TREE_LANG_FLAG_1 (label) /* Nonzero for _TYPE means that the _TYPE defines at least one constructor. */ #define TYPE_HAS_CONSTRUCTOR(NODE) (TYPE_LANG_FLAG_1(NODE)) /* When appearing in an INDIRECT_REF, it means that the tree structure underneath is actually a call to a constructor. This is needed when the constructor must initialize local storage (which can be automatically destroyed), rather than allowing it to allocate space from the heap. When appearing in a SAVE_EXPR, it means that underneath is a call to a constructor. When appearing in a CONSTRUCTOR, it means that it was a GNU C constructor expression. When appearing in a FIELD_DECL, it means that this field has been duly initialized in its constructor. */ #define TREE_HAS_CONSTRUCTOR(NODE) (TREE_LANG_FLAG_4(NODE)) #define EMPTY_CONSTRUCTOR_P(NODE) (TREE_CODE (NODE) == CONSTRUCTOR \ && CONSTRUCTOR_ELTS (NODE) == NULL_TREE \ && ! TREE_HAS_CONSTRUCTOR (NODE)) #if 0 /* Indicates that a NON_LVALUE_EXPR came from a C++ reference. Used to generate more helpful error message in case somebody tries to take its address. */ #define TREE_REFERENCE_EXPR(NODE) (TREE_LANG_FLAG_3(NODE)) #endif /* Nonzero for _TYPE means that the _TYPE defines a destructor. */ #define TYPE_HAS_DESTRUCTOR(NODE) (TYPE_LANG_FLAG_2(NODE)) #if 0 /* Nonzero for _TYPE node means that creating an object of this type will involve a call to a constructor. This can apply to objects of ARRAY_TYPE if the type of the elements needs a constructor. */ #define TYPE_NEEDS_CONSTRUCTING(NODE) ... defined in ../tree.h ... #endif /* Nonzero means that an object of this type can not be initialized using an initializer list. */ #define CLASSTYPE_NON_AGGREGATE(NODE) \ (TYPE_LANG_SPECIFIC (NODE)->type_flags.non_aggregate) #define TYPE_NON_AGGREGATE_CLASS(NODE) \ (IS_AGGR_TYPE (NODE) && CLASSTYPE_NON_AGGREGATE (NODE)) /* Nonzero if there is a user-defined X::op=(x&) for this class. */ #define TYPE_HAS_REAL_ASSIGN_REF(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.has_real_assign_ref) #define TYPE_HAS_COMPLEX_ASSIGN_REF(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.has_complex_assign_ref) #define TYPE_HAS_ABSTRACT_ASSIGN_REF(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.has_abstract_assign_ref) #define TYPE_HAS_COMPLEX_INIT_REF(NODE) (TYPE_LANG_SPECIFIC(NODE)->type_flags.has_complex_init_ref) /* Nonzero for _TYPE node means that destroying an object of this type will involve a call to a destructor. This can apply to objects of ARRAY_TYPE is the type of the elements needs a destructor. */ #define TYPE_NEEDS_DESTRUCTOR(NODE) (TYPE_LANG_FLAG_4(NODE)) /* Nonzero for class type means that initialization of this type can use a bitwise copy. */ #define TYPE_HAS_TRIVIAL_INIT_REF(NODE) \ (TYPE_HAS_INIT_REF (NODE) && ! TYPE_HAS_COMPLEX_INIT_REF (NODE)) /* Nonzero for class type means that assignment of this type can use a bitwise copy. */ #define TYPE_HAS_TRIVIAL_ASSIGN_REF(NODE) \ (TYPE_HAS_ASSIGN_REF (NODE) && ! TYPE_HAS_COMPLEX_ASSIGN_REF (NODE)) #define TYPE_PTRMEM_P(NODE) \ (TREE_CODE (NODE) == POINTER_TYPE \ && TREE_CODE (TREE_TYPE (NODE)) == OFFSET_TYPE) #define TYPE_PTR_P(NODE) \ (TREE_CODE (NODE) == POINTER_TYPE \ && TREE_CODE (TREE_TYPE (NODE)) != OFFSET_TYPE) #define TYPE_PTROB_P(NODE) \ (TYPE_PTR_P (NODE) && TREE_CODE (TREE_TYPE (NODE)) != FUNCTION_TYPE \ && TREE_CODE (TREE_TYPE (NODE)) != VOID_TYPE) #define TYPE_PTROBV_P(NODE) \ (TYPE_PTR_P (NODE) && TREE_CODE (TREE_TYPE (NODE)) != FUNCTION_TYPE) #define TYPE_PTRFN_P(NODE) \ (TREE_CODE (NODE) == POINTER_TYPE \ && TREE_CODE (TREE_TYPE (NODE)) == FUNCTION_TYPE) /* Nonzero for _TYPE node means that this type is a pointer to member function type. */ #define TYPE_PTRMEMFUNC_P(NODE) \ (TREE_CODE(NODE) == RECORD_TYPE && TYPE_PTRMEMFUNC_FLAG (NODE)) #define TYPE_PTRMEMFUNC_FLAG(NODE) \ (TYPE_LANG_SPECIFIC(NODE)->type_flags.ptrmemfunc_flag) /* A pointer-to-function member type looks like: struct { short __delta; short __index; union { P __pfn; short __delta2; } __pfn_or_delta2; }; where P is a POINTER_TYPE to a METHOD_TYPE appropriate for the pointer to member. The fields are used as follows: If __INDEX is -1, then the function to call is non-virtual, and is located at the address given by __PFN. If __INDEX is zero, then this a NULL pointer-to-member. Otherwise, the function to call is virtual. Then, __DELTA2 gives the offset from an instance of the object to the virtual function table, and __INDEX - 1 is the index into the vtable to use to find the function. The value to use for the THIS parameter is the address of the object plus __DELTA. For example, given: struct B1 { int i; }; struct B2 { double d; void f(); }; struct S : public B1, B2 {}; the pointer-to-member for `&S::f' looks like: { 4, -1, { &f__2B2 } }; The `4' means that given an `S*' you have to add 4 bytes to get to the address of the `B2*'. Then, the -1 indicates that this is a non-virtual function. Of course, `&f__2B2' is the name of that function. (Of course, the exactl values may differ depending on the mangling scheme, sizes of types, and such.). */ /* Get the POINTER_TYPE to the METHOD_TYPE associated with this pointer to member function. TYPE_PTRMEMFUNC_P _must_ be true, before using this macro. */ #define TYPE_PTRMEMFUNC_FN_TYPE(NODE) (TREE_TYPE (TYPE_FIELDS (TREE_TYPE (TREE_CHAIN (TREE_CHAIN (TYPE_FIELDS (NODE))))))) /* Returns `A' for a type like `int (A::*)(double)' */ #define TYPE_PTRMEMFUNC_OBJECT_TYPE(NODE) \ TYPE_METHOD_BASETYPE (TREE_TYPE (TYPE_PTRMEMFUNC_FN_TYPE (NODE))) /* These are use to manipulate the canonical RECORD_TYPE from the hashed POINTER_TYPE, and can only be used on the POINTER_TYPE. */ #define TYPE_GET_PTRMEMFUNC_TYPE(NODE) ((tree)TYPE_LANG_SPECIFIC(NODE)) #define TYPE_SET_PTRMEMFUNC_TYPE(NODE, VALUE) (TYPE_LANG_SPECIFIC(NODE) = ((struct lang_type *)(void*)(VALUE))) /* These are to get the delta2 and pfn fields from a TYPE_PTRMEMFUNC_P. */ #define DELTA2_FROM_PTRMEMFUNC(NODE) delta2_from_ptrmemfunc ((NODE)) #define PFN_FROM_PTRMEMFUNC(NODE) pfn_from_ptrmemfunc ((NODE)) /* For a pointer-to-member constant `X::Y' this is the RECORD_TYPE for `X'. */ #define PTRMEM_CST_CLASS(NODE) \ (TYPE_PTRMEM_P (TREE_TYPE (NODE)) \ ? TYPE_OFFSET_BASETYPE (TREE_TYPE (TREE_TYPE (NODE))) \ : TYPE_PTRMEMFUNC_OBJECT_TYPE (TREE_TYPE (NODE))) /* For a pointer-to-member constant `X::Y' this is the _DECL for `Y'. */ #define PTRMEM_CST_MEMBER(NODE) (((ptrmem_cst_t) NODE)->member) /* Nonzero for VAR_DECL and FUNCTION_DECL node means that `extern' was specified in its declaration. */ #define DECL_THIS_EXTERN(NODE) (DECL_LANG_FLAG_2(NODE)) /* Nonzero for VAR_DECL and FUNCTION_DECL node means that `static' was specified in its declaration. */ #define DECL_THIS_STATIC(NODE) (DECL_LANG_FLAG_6(NODE)) /* Nonzero in FUNCTION_DECL means it is really an operator. Just used to communicate formatting information to dbxout.c. */ #define DECL_OPERATOR(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.operator_attr) #define ANON_UNION_P(NODE) (DECL_NAME (NODE) == 0) /* Nonzero if TYPE is an anonymous union type. We have to use a flag for this because "A union for which objects or pointers are declared is not an anonymous union" [class.union]. */ #define ANON_UNION_TYPE_P(NODE) \ (TYPE_LANG_SPECIFIC (NODE) \ && TYPE_LANG_SPECIFIC (NODE)->type_flags.anon_union) #define SET_ANON_UNION_TYPE_P(NODE) \ (TYPE_LANG_SPECIFIC (NODE)->type_flags.anon_union = 1) #define UNKNOWN_TYPE LANG_TYPE /* Define fields and accessors for nodes representing declared names. */ #if 0 /* C++: A derived class may be able to directly use the virtual function table of a base class. When it does so, it may still have a decl node used to access the virtual function table (so that variables of this type can initialize their virtual function table pointers by name). When such thievery is committed, know exactly which base class's virtual function table is the one being stolen. This effectively computes the transitive closure. */ #define DECL_VPARENT(NODE) ((NODE)->decl.arguments) #endif #define TYPE_WAS_ANONYMOUS(NODE) (TYPE_LANG_SPECIFIC (NODE)->type_flags.was_anonymous) /* C++: all of these are overloaded! These apply only to TYPE_DECLs. */ /* The format of each node in the DECL_FRIENDLIST is as follows: The TREE_PURPOSE will be the name of a function, i.e., an IDENTIFIER_NODE. The TREE_VALUE will be itself a TREE_LIST, the list of functions with that name which are friends. The TREE_PURPOSE of each node in this sublist will be error_mark_node, if the function was declared a friend individually, in which case the TREE_VALUE will be the function_decl. If, however, all functions with a given name in a class were declared to be friends, the TREE_PUROSE will be the class type, and the TREE_VALUE will be NULL_TREE. */ #define DECL_FRIENDLIST(NODE) (DECL_INITIAL (NODE)) #define FRIEND_NAME(LIST) (TREE_PURPOSE (LIST)) #define FRIEND_DECLS(LIST) (TREE_VALUE (LIST)) /* The DECL_ACCESS, if non-NULL, is a TREE_LIST. The TREE_PURPOSE of each node is a type; the TREE_VALUE is the access granted for this DECL in that type. The DECL_ACCESS is set by access declarations. For example, if a member that would normally be public in a derived class is made protected, then the derived class and the protected_access_node will appear in the DECL_ACCESS for the node. */ #define DECL_ACCESS(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.access) /* C++: all of these are overloaded! These apply to PARM_DECLs and VAR_DECLs. */ #define DECL_REFERENCE_SLOT(NODE) ((tree)(NODE)->decl.arguments) #define SET_DECL_REFERENCE_SLOT(NODE,VAL) ((NODE)->decl.arguments=VAL) /* Accessor macros for C++ template decl nodes. */ /* The DECL_TEMPLATE_PARMS are a list. The TREE_PURPOSE of each node is a INT_CST whose TREE_INT_CST_HIGH indicates the level of the template parameters, with 1 being the outermost set of template parameters. The TREE_VALUE is a vector, whose elements are the template parameters at each level. Each element in the vector is a TREE_LIST, whose TREE_VALUE is a PARM_DECL (if the parameter is a non-type parameter), or a TYPE_DECL (if the parameter is a type parameter). The TREE_PURPOSE is the default value, if any. The TEMPLATE_PARM_INDEX for the parameter is avilable as the DECL_INITIAL (for a PARM_DECL) or as the TREE_TYPE (for a TYPE_DECL). */ #define DECL_TEMPLATE_PARMS(NODE) DECL_ARGUMENTS(NODE) #define DECL_INNERMOST_TEMPLATE_PARMS(NODE) \ INNERMOST_TEMPLATE_PARMS (DECL_TEMPLATE_PARMS (NODE)) #define DECL_NTPARMS(NODE) \ TREE_VEC_LENGTH (DECL_INNERMOST_TEMPLATE_PARMS (NODE)) /* For function, method, class-data templates. */ #define DECL_TEMPLATE_RESULT(NODE) DECL_RESULT(NODE) /* For a static member variable template, the DECL_TEMPLATE_INSTANTIATIONS list contains the explicitly and implicitly generated instantiations of the variable. There are no partial instantiations of static member variables, so all of these will be full instantiations. For a class template the DECL_TEMPLATE_INSTANTIATIONS lists holds all instantiations and specializations of the class type, including partial instantiations and partial specializations. In both cases, the TREE_PURPOSE of each node contains the arguments used; the TREE_VALUE contains the generated variable. The template arguments are always complete. For example, given: template struct S1 { template struct S2 {}; template struct S2 {}; }; the record for the partial specialization will contain, as its argument list, { {T}, {U*} }, and will be on the DECL_TEMPLATE_INSTANTIATIONS list for `template template struct S1::S2'. This list is not used for function templates. */ #define DECL_TEMPLATE_INSTANTIATIONS(NODE) DECL_VINDEX(NODE) /* For a function template, the DECL_TEMPLATE_SPECIALIZATIONS lists contains all instantiations and specializations of the function, including partial instantiations. For a partial instantiation which is a specialization, this list holds only full specializations of the template that are instantiations of the partial instantiation. For example, given: template struct S { template void f(U); template <> void f(T); }; the `S::f(int)' function will appear on the DECL_TEMPLATE_SPECIALIZATIONS list for both `template template void S::f(U)' and `template void S::f(T)'. In the latter case, however, it will have only the innermost set of arguments (T, in this case). The DECL_TI_TEMPLATE for the function declaration will point at the specialization, not the fully general template. For a class template, this list contains the partial specializations of this template. (Full specializations are not recorded on this list.) The TREE_PURPOSE holds the innermost arguments used in the partial specialization (e.g., for `template struct S' this will be `T*'.) The TREE_VALUE holds the innermost template parameters for the specialization (e.g., `T' in the example above.) The TREE_TYPE is the _TYPE node for the partial specialization. This list is not used for static variable templates. */ #define DECL_TEMPLATE_SPECIALIZATIONS(NODE) DECL_SIZE(NODE) #define DECL_TEMPLATE_INJECT(NODE) DECL_INITIAL(NODE) /* Nonzero for a DECL which is actually a template parameter. */ #define DECL_TEMPLATE_PARM_P(NODE) \ DECL_LANG_FLAG_0 (NODE) #define DECL_TEMPLATE_TEMPLATE_PARM_P(NODE) \ (TREE_CODE (NODE) == TEMPLATE_DECL && DECL_TEMPLATE_PARM_P (NODE)) #define DECL_FUNCTION_TEMPLATE_P(NODE) \ (TREE_CODE (NODE) == TEMPLATE_DECL \ && TREE_CODE (DECL_TEMPLATE_RESULT (NODE)) == FUNCTION_DECL) /* Nonzero for a DECL that represents a template class. */ #define DECL_CLASS_TEMPLATE_P(NODE) \ (TREE_CODE (NODE) == TEMPLATE_DECL \ && TREE_CODE (DECL_TEMPLATE_RESULT (NODE)) == TYPE_DECL \ && !DECL_TEMPLATE_TEMPLATE_PARM_P (NODE)) /* Nonzero if NODE which declares a type. */ #define DECL_DECLARES_TYPE_P(NODE) \ (TREE_CODE (NODE) == TYPE_DECL || DECL_CLASS_TEMPLATE_P (NODE)) /* A `primary' template is one that has its own template header. A member function of a class template is a template, but not primary. A member template is primary. Friend templates are primary, too. */ /* Returns the primary template corresponding to these parameters. */ #define DECL_PRIMARY_TEMPLATE(NODE) \ (TREE_TYPE (DECL_INNERMOST_TEMPLATE_PARMS (NODE))) /* Returns non-zero if NODE is a primary template. */ #define PRIMARY_TEMPLATE_P(NODE) (DECL_PRIMARY_TEMPLATE (NODE) == NODE) #define CLASSTYPE_TEMPLATE_LEVEL(NODE) \ (TREE_INT_CST_HIGH (TREE_PURPOSE (CLASSTYPE_TI_TEMPLATE (NODE)))) /* Indicates whether or not (and how) a template was expanded for this FUNCTION_DECL or VAR_DECL. 0=normal declaration, e.g. int min (int, int); 1=implicit template instantiation 2=explicit template specialization, e.g. int min (int, int); 3=explicit template instantiation, e.g. template int min (int, int); */ #define DECL_USE_TEMPLATE(NODE) (DECL_LANG_SPECIFIC(NODE)->decl_flags.use_template) #define DECL_TEMPLATE_INSTANTIATION(NODE) (DECL_USE_TEMPLATE (NODE) & 1) #define CLASSTYPE_TEMPLATE_INSTANTIATION(NODE) \ (CLASSTYPE_USE_TEMPLATE (NODE) & 1) #define DECL_TEMPLATE_SPECIALIZATION(NODE) (DECL_USE_TEMPLATE (NODE) == 2) #define SET_DECL_TEMPLATE_SPECIALIZATION(NODE) (DECL_USE_TEMPLATE (NODE) = 2) #define CLASSTYPE_TEMPLATE_SPECIALIZATION(NODE) \ (CLASSTYPE_USE_TEMPLATE (NODE) == 2) #define SET_CLASSTYPE_TEMPLATE_SPECIALIZATION(NODE) \ (CLASSTYPE_USE_TEMPLATE (NODE) = 2) #define DECL_IMPLICIT_INSTANTIATION(NODE) (DECL_USE_TEMPLATE (NODE) == 1) #define SET_DECL_IMPLICIT_INSTANTIATION(NODE) (DECL_USE_TEMPLATE (NODE) = 1) #define CLASSTYPE_IMPLICIT_INSTANTIATION(NODE) \ (CLASSTYPE_USE_TEMPLATE(NODE) == 1) #define SET_CLASSTYPE_IMPLICIT_INSTANTIATION(NODE) \ (CLASSTYPE_USE_TEMPLATE(NODE) = 1) #define DECL_EXPLICIT_INSTANTIATION(NODE) (DECL_USE_TEMPLATE (NODE) == 3) #define SET_DECL_EXPLICIT_INSTANTIATION(NODE) (DECL_USE_TEMPLATE (NODE) = 3) #define CLASSTYPE_EXPLICIT_INSTANTIATION(NODE) \ (CLASSTYPE_USE_TEMPLATE(NODE) == 3) #define SET_CLASSTYPE_EXPLICIT_INSTANTIATION(NODE) \ (CLASSTYPE_USE_TEMPLATE(NODE) = 3) /* Non-zero if DECL is a friend function which is an instantiation from the point of view of the compiler, but not from the point of view of the language. For example given: template struct S { friend void f(T) {}; }; the declaration of `void f(int)' generated when S is instantiated will not be a DECL_TEMPLATE_INSTANTIATION, but will be a DECL_FRIEND_PSUEDO_TEMPLATE_INSTANTIATION. */ #define DECL_FRIEND_PSEUDO_TEMPLATE_INSTANTIATION(DECL) \ (DECL_TEMPLATE_INFO (DECL) && !DECL_USE_TEMPLATE (DECL)) /* Non-zero if TYPE is a partial instantiation of a template class, i.e., an instantiation whose instantiation arguments involve template types. */ #define PARTIAL_INSTANTIATION_P(TYPE) \ (TYPE_LANG_SPECIFIC (TYPE)->type_flags.is_partial_instantiation) /* Non-zero iff we are currently processing a declaration for an entity with its own template parameter list, and which is not a full specialization. */ #define PROCESSING_REAL_TEMPLATE_DECL_P() \ (processing_template_decl > template_class_depth (current_class_type)) /* This function may be a guiding decl for a template. */ #define DECL_MAYBE_TEMPLATE(NODE) DECL_LANG_FLAG_4 (NODE) /* Nonzero if this VAR_DECL or FUNCTION_DECL has already been instantiated, i.e. its definition has been generated from the pattern given in the the template. */ #define DECL_TEMPLATE_INSTANTIATED(NODE) DECL_LANG_FLAG_1(NODE) /* We know what we're doing with this decl now. */ #define DECL_INTERFACE_KNOWN(NODE) DECL_LANG_FLAG_5 (NODE) /* This function was declared inline. This flag controls the linkage semantics of 'inline'; whether or not the function is inlined is controlled by DECL_INLINE. */ #define DECL_THIS_INLINE(NODE) \ (DECL_LANG_SPECIFIC (NODE)->decl_flags.declared_inline) /* DECL_EXTERNAL must be set on a decl until the decl is actually emitted, so that assemble_external will work properly. So we have this flag to tell us whether the decl is really not external. */ #define DECL_NOT_REALLY_EXTERN(NODE) \ (DECL_LANG_SPECIFIC (NODE)->decl_flags.not_really_extern) #define DECL_REALLY_EXTERN(NODE) \ (DECL_EXTERNAL (NODE) && ! DECL_NOT_REALLY_EXTERN (NODE)) #define THUNK_DELTA(DECL) ((DECL)->decl.frame_size.i) /* ...and for unexpanded-parameterized-type nodes. */ #define UPT_TEMPLATE(NODE) TREE_PURPOSE(TYPE_VALUES(NODE)) #define UPT_PARMS(NODE) TREE_VALUE(TYPE_VALUES(NODE)) /* An un-parsed default argument looks like an identifier. */ #define DEFARG_NODE_CHECK(t) TREE_CHECK(t, DEFAULT_ARG) #define DEFARG_LENGTH(NODE) (DEFARG_NODE_CHECK(NODE)->identifier.length) #define DEFARG_POINTER(NODE) (DEFARG_NODE_CHECK(NODE)->identifier.pointer) #define builtin_function(NAME, TYPE, CODE, LIBNAME) \ define_function (NAME, TYPE, CODE, (void (*) PROTO((tree)))pushdecl, LIBNAME) /* These macros provide convenient access to the various _STMT nodes created when parsing template declarations. */ #define IF_COND(NODE) TREE_OPERAND (NODE, 0) #define THEN_CLAUSE(NODE) TREE_OPERAND (NODE, 1) #define ELSE_CLAUSE(NODE) TREE_OPERAND (NODE, 2) #define WHILE_COND(NODE) TREE_OPERAND (NODE, 0) #define WHILE_BODY(NODE) TREE_OPERAND (NODE, 1) #define DO_COND(NODE) TREE_OPERAND (NODE, 0) #define DO_BODY(NODE) TREE_OPERAND (NODE, 1) #define RETURN_EXPR(NODE) TREE_OPERAND (NODE, 0) #define EXPR_STMT_EXPR(NODE) TREE_OPERAND (NODE, 0) #define FOR_INIT_STMT(NODE) TREE_OPERAND (NODE, 0) #define FOR_COND(NODE) TREE_OPERAND (NODE, 1) #define FOR_EXPR(NODE) TREE_OPERAND (NODE, 2) #define FOR_BODY(NODE) TREE_OPERAND (NODE, 3) #define SWITCH_COND(NODE) TREE_OPERAND (NODE, 0) #define SWITCH_BODY(NODE) TREE_OPERAND (NODE, 1) #define CASE_LOW(NODE) TREE_OPERAND (NODE, 0) #define CASE_HIGH(NODE) TREE_OPERAND (NODE, 1) #define GOTO_DESTINATION(NODE) TREE_OPERAND (NODE, 0) #define TRY_STMTS(NODE) TREE_OPERAND (NODE, 0) #define TRY_HANDLERS(NODE) TREE_OPERAND (NODE, 1) #define HANDLER_PARMS(NODE) TREE_OPERAND (NODE, 0) #define HANDLER_BODY(NODE) TREE_OPERAND (NODE, 1) #define COMPOUND_BODY(NODE) TREE_OPERAND (NODE, 0) #define ASM_CV_QUAL(NODE) TREE_OPERAND (NODE, 0) #define ASM_STRING(NODE) TREE_OPERAND (NODE, 1) #define ASM_OUTPUTS(NODE) TREE_OPERAND (NODE, 2) #define ASM_INPUTS(NODE) TREE_OPERAND (NODE, 3) #define ASM_CLOBBERS(NODE) TREE_OPERAND (NODE, 4) /* The parameters for a call-declarator. */ #define CALL_DECLARATOR_PARMS(NODE) \ (TREE_PURPOSE (TREE_OPERAND ((NODE), 1))) /* The cv-qualifiers for a call-declarator. */ #define CALL_DECLARATOR_QUALS(NODE) \ (TREE_VALUE (TREE_OPERAND ((NODE), 1))) /* The exception-specification for a call-declarator. */ #define CALL_DECLARATOR_EXCEPTION_SPEC(NODE) \ (TREE_TYPE ((NODE))) /* An enumeration of the kind of tags that C++ accepts. */ enum tag_types { record_type, class_type, union_type, enum_type, signature_type }; /* Zero means prototype weakly, as in ANSI C (no args means nothing). Each language context defines how this variable should be set. */ extern int strict_prototype; extern int strict_prototypes_lang_c, strict_prototypes_lang_cplusplus; /* Non-zero means that if a label exists, and no other identifier applies, use the value of the label. */ extern int flag_labels_ok; /* Non-zero means to collect statistics which might be expensive and to print them when we are done. */ extern int flag_detailed_statistics; /* Non-zero means warn in function declared in derived class has the same name as a virtual in the base class, but fails to match the type signature of any virtual function in the base class. */ extern int warn_overloaded_virtual; /* Nonzero means warn about use of multicharacter literals. */ extern int warn_multichar; /* Non-zero means warn if a non-templatized friend function is declared in a templatized class. This behavior is warned about with flag_guiding_decls in do_friend. */ extern int warn_nontemplate_friend; /* in c-common.c */ extern void declare_function_name PROTO((void)); extern void decl_attributes PROTO((tree, tree, tree)); extern void init_function_format_info PROTO((void)); extern void record_function_format PROTO((tree, tree, int, int, int)); extern void check_function_format PROTO((tree, tree, tree)); extern void check_function_bounds PROTO((tree, tree, tree)); /* Print an error message for invalid operands to arith operation CODE. NOP_EXPR is used as a special case (see truthvalue_conversion). */ extern void binary_op_error PROTO((enum tree_code)); extern tree cp_build_qualified_type PROTO((tree, int)); extern tree canonical_type_variant PROTO((tree)); extern void c_expand_expr_stmt PROTO((tree)); /* Validate the expression after `case' and apply default promotions. */ extern tree check_case_value PROTO((tree)); /* Concatenate a list of STRING_CST nodes into one STRING_CST. */ extern tree combine_strings PROTO((tree)); extern void constant_expression_warning PROTO((tree)); extern tree convert_and_check PROTO((tree, tree)); extern void overflow_warning PROTO((tree)); extern void unsigned_conversion_warning PROTO((tree, tree)); extern void c_apply_type_quals_to_decl PROTO((int, tree)); /* Read the rest of the current #-directive line. */ #if USE_CPPLIB extern char *get_directive_line PROTO((void)); #define GET_DIRECTIVE_LINE() get_directive_line () #else extern char *get_directive_line PROTO((FILE *)); #define GET_DIRECTIVE_LINE() get_directive_line (finput) #endif /* Subroutine of build_binary_op, used for comparison operations. See if the operands have both been converted from subword integer types and, if so, perhaps change them both back to their original type. */ extern tree shorten_compare PROTO((tree *, tree *, tree *, enum tree_code *)); /* Prepare expr to be an argument of a TRUTH_NOT_EXPR, or validate its data type for an `if' or `while' statement or ?..: exp. */ extern tree truthvalue_conversion PROTO((tree)); extern tree type_for_mode PROTO((enum machine_mode, int)); extern tree type_for_size PROTO((unsigned, int)); extern int c_get_alias_set PROTO((tree)); /* in decl{2}.c */ extern tree void_list_node; extern tree void_zero_node; extern tree default_function_type; extern tree vtable_entry_type; extern tree sigtable_entry_type; extern tree __t_desc_type_node; #if 0 extern tree __tp_desc_type_node; #endif extern tree __access_mode_type_node; extern tree __bltn_desc_type_node, __user_desc_type_node; extern tree __class_desc_type_node, __attr_desc_type_node; extern tree __ptr_desc_type_node, __func_desc_type_node; extern tree __ptmf_desc_type_node, __ptmd_desc_type_node; extern tree type_info_type_node; extern tree class_star_type_node; extern tree this_identifier; extern tree ctor_identifier, dtor_identifier; extern tree pfn_identifier; extern tree index_identifier; extern tree delta_identifier; extern tree delta2_identifier; extern tree pfn_or_delta2_identifier; extern tree tag_identifier; extern tree vt_off_identifier; extern tree in_charge_identifier; /* A node that is a list (length 1) of error_mark_nodes. */ extern tree error_mark_list; extern tree ptr_type_node; extern tree class_type_node, record_type_node, union_type_node, enum_type_node; extern tree unknown_type_node; extern tree opaque_type_node, signature_type_node; extern tree vlist_identifier, vlist_type_node, vlist_zero_node; /* Node for "pointer to (virtual) function". This may be distinct from ptr_type_node so gdb can distinguish them. */ #define vfunc_ptr_type_node \ (flag_vtable_thunks ? vtable_entry_type : ptr_type_node) /* The type of a vtbl, i.e., an array of vtable entries. */ extern tree vtbl_type_node; /* The type of a class vtbl pointer, i.e., a pointer to a vtable entry. */ extern tree vtbl_ptr_type_node; extern tree delta_type_node; extern tree std_node; extern tree long_long_integer_type_node, long_long_unsigned_type_node; /* For building calls to `delete'. */ extern tree integer_two_node, integer_three_node; extern tree boolean_type_node, boolean_true_node, boolean_false_node; extern tree null_node; extern tree anonymous_namespace_name; /* The FUNCTION_DECL for the default `::operator delete'. */ extern tree global_delete_fndecl; /* in pt.c */ /* These values are used for the `STRICT' parameter to type_unfication and fn_type_unification. Their meanings are described with the documentation for fn_type_unification. */ typedef enum unification_kind_t { DEDUCE_CALL, DEDUCE_CONV, DEDUCE_EXACT } unification_kind_t; extern tree current_template_parms; extern HOST_WIDE_INT processing_template_decl; extern tree last_tree; /* The template currently being instantiated, and where the instantiation was triggered. */ struct tinst_level { tree decl; int line; char *file; struct tinst_level *next; }; extern int minimal_parse_mode; extern void maybe_print_template_context PROTO ((void)); /* in class.c */ /* When parsing a class definition, the access specifier most recently given by the user, or, if no access specifier was given, the default value appropriate for the kind of class (i.e., struct, class, or union). */ extern tree current_access_specifier; extern tree current_class_name; extern tree current_class_type; extern tree current_class_ptr; extern tree previous_class_type; extern tree current_class_ref; extern int current_class_depth; extern tree current_lang_name; extern tree lang_name_cplusplus, lang_name_c, lang_name_java; /* The low-water mark on the class-cache obstack. */ extern char *class_cache_firstobj; /* Points to the name of that function. May not be the DECL_NAME of CURRENT_FUNCTION_DECL due to overloading */ extern tree original_function_name; /* in init.c */ extern tree global_base_init_list; extern tree current_base_init_list, current_member_init_list; extern int current_function_just_assigned_this; extern int current_function_parms_stored; /* Here's where we control how name mangling takes place. */ #define OPERATOR_ASSIGN_FORMAT "__a%s" #define OPERATOR_FORMAT "__%s" #define OPERATOR_TYPENAME_FORMAT "__op" /* Cannot use '$' up front, because this confuses gdb (names beginning with '$' are gdb-local identifiers). Note that all forms in which the '$' is significant are long enough for direct indexing (meaning that if we know there is a '$' at a particular location, we can index into the string at any other location that provides distinguishing characters). */ /* Define NO_DOLLAR_IN_LABEL in your favorite tm file if your assembler doesn't allow '$' in symbol names. */ #ifndef NO_DOLLAR_IN_LABEL #define JOINER '$' #define VPTR_NAME "$v" #define THROW_NAME "$eh_throw" #define DESTRUCTOR_DECL_PREFIX "_$_" #define AUTO_VTABLE_NAME "__vtbl$me__" #define AUTO_TEMP_NAME "_$tmp_" #define AUTO_TEMP_FORMAT "_$tmp_%d" #define VTABLE_BASE "$vb" #define VTABLE_NAME_FORMAT (flag_vtable_thunks ? "__vt_%s" : "_vt$%s") #define VCTABLE_NAME "__vc$" #define VLIST_NAME_FORMAT "__vl$%s" #define VFIELD_BASE "$vf" #define VFIELD_NAME "_vptr$" #define VFIELD_NAME_FORMAT "_vptr$%s" #define VBASE_NAME "_vb$" #define VBASE_NAME_FORMAT "_vb$%s" #define STATIC_NAME_FORMAT "_%s$%s" #define ANON_AGGRNAME_FORMAT "$_%d" #else /* NO_DOLLAR_IN_LABEL */ #ifndef NO_DOT_IN_LABEL #define JOINER '.' #define VPTR_NAME ".v" #define THROW_NAME ".eh_throw" #define DESTRUCTOR_DECL_PREFIX "_._" #define AUTO_VTABLE_NAME "__vtbl.me__" #define AUTO_TEMP_NAME "_.tmp_" #define AUTO_TEMP_FORMAT "_.tmp_%d" #define VTABLE_BASE ".vb" #define VTABLE_NAME_FORMAT (flag_vtable_thunks ? "__vt_%s" : "_vt.%s") #define VCTABLE_NAME "__vc." #define VLIST_NAME_FORMAT "__vl.%s" #define VFIELD_BASE ".vf" #define VFIELD_NAME "_vptr." #define VFIELD_NAME_FORMAT "_vptr.%s" #define VBASE_NAME "_vb." #define VBASE_NAME_FORMAT "_vb.%s" #define STATIC_NAME_FORMAT "_%s.%s" #define ANON_AGGRNAME_FORMAT "._%d" #else /* NO_DOT_IN_LABEL */ #define VPTR_NAME "__vptr" #define VPTR_NAME_P(ID_NODE) \ (!strncmp (IDENTIFIER_POINTER (ID_NODE), VPTR_NAME, sizeof (VPTR_NAME) - 1)) #define THROW_NAME "__eh_throw" #define DESTRUCTOR_DECL_PREFIX "__destr_" #define DESTRUCTOR_NAME_P(ID_NODE) \ (!strncmp (IDENTIFIER_POINTER (ID_NODE), DESTRUCTOR_DECL_PREFIX, \ sizeof (DESTRUCTOR_DECL_PREFIX) - 1)) #define IN_CHARGE_NAME "__in_chrg" #define AUTO_VTABLE_NAME "__vtbl_me__" #define AUTO_TEMP_NAME "__tmp_" #define TEMP_NAME_P(ID_NODE) \ (!strncmp (IDENTIFIER_POINTER (ID_NODE), AUTO_TEMP_NAME, \ sizeof (AUTO_TEMP_NAME) - 1)) #define AUTO_TEMP_FORMAT "__tmp_%d" #define VTABLE_BASE "__vtb" #define VTABLE_NAME "__vt_" #define VTABLE_NAME_FORMAT (flag_vtable_thunks ? "__vt_%s" : "_vt_%s") #define VTABLE_NAME_P(ID_NODE) \ (!strncmp (IDENTIFIER_POINTER (ID_NODE), VTABLE_NAME, \ sizeof (VTABLE_NAME) - 1)) #define VCTABLE_NAME "__vc_" #define VLIST_NAME_FORMAT "__vl_%s" #define VFIELD_BASE "__vfb" #define VFIELD_NAME "__vptr_" #define VFIELD_NAME_P(ID_NODE) \ (!strncmp (IDENTIFIER_POINTER (ID_NODE), VFIELD_NAME, \ sizeof (VFIELD_NAME) - 1)) #define VFIELD_NAME_FORMAT "_vptr_%s" #define VBASE_NAME "__vb_" #define VBASE_NAME_P(ID_NODE) \ (!strncmp (IDENTIFIER_POINTER (ID_NODE), VBASE_NAME, \ sizeof (VBASE_NAME) - 1)) #define VBASE_NAME_FORMAT "__vb_%s" #define STATIC_NAME_FORMAT "__static_%s_%s" #define ANON_AGGRNAME_PREFIX "__anon_" #define ANON_AGGRNAME_P(ID_NODE) \ (!strncmp (IDENTIFIER_POINTER (ID_NODE), ANON_AGGRNAME_PREFIX, \ sizeof (ANON_AGGRNAME_PREFIX) - 1)) #define ANON_AGGRNAME_FORMAT "__anon_%d" #define ANON_PARMNAME_FORMAT "__%d" #define ANON_PARMNAME_P(ID_NODE) (IDENTIFIER_POINTER (ID_NODE)[0] == '_' \ && IDENTIFIER_POINTER (ID_NODE)[1] == '_' \ && IDENTIFIER_POINTER (ID_NODE)[2] <= '9') #endif /* NO_DOT_IN_LABEL */ #endif /* NO_DOLLAR_IN_LABEL */ #define THIS_NAME "this" #define DESTRUCTOR_NAME_FORMAT "~%s" #define FILE_FUNCTION_PREFIX_LEN 9 #define CTOR_NAME "__ct" #define DTOR_NAME "__dt" #define IN_CHARGE_NAME "__in_chrg" #define VLIST_NAME "__vlist" #define VLIST1_NAME "__vlist1" #define VLIST_TYPE_NAME "6_Vlist" #define VTBL_PTR_TYPE "__vtbl_ptr_type" #define VTABLE_DELTA_NAME "__delta" #define VTABLE_INDEX_NAME "__index" #define VTABLE_PFN_NAME "__pfn" #define VTABLE_DELTA2_NAME "__delta2" #define SIGNATURE_FIELD_NAME "__s_" #define SIGNATURE_FIELD_NAME_FORMAT "__s_%s" #define SIGNATURE_OPTR_NAME "__optr" #define SIGNATURE_SPTR_NAME "__sptr" #define SIGNATURE_POINTER_NAME "__sp_" #define SIGNATURE_POINTER_NAME_FORMAT "__%s%s%ssp_%s" #define SIGNATURE_REFERENCE_NAME "__sr_" #define SIGNATURE_REFERENCE_NAME_FORMAT "__%s%s%ssr_%s" #define SIGTABLE_PTR_TYPE "__sigtbl_ptr_type" #define SIGTABLE_NAME_FORMAT "__st_%s_%s" #define SIGTABLE_NAME_FORMAT_LONG "__st_%s_%s_%d" #define SIGTABLE_TAG_NAME "__tag" #define SIGTABLE_VB_OFF_NAME "__vb_off" #define SIGTABLE_VT_OFF_NAME "__vt_off" #define EXCEPTION_CLEANUP_NAME "exception cleanup" #define THIS_NAME_P(ID_NODE) (strcmp(IDENTIFIER_POINTER (ID_NODE), "this") == 0) #if !defined(NO_DOLLAR_IN_LABEL) || !defined(NO_DOT_IN_LABEL) #define VPTR_NAME_P(ID_NODE) (IDENTIFIER_POINTER (ID_NODE)[0] == JOINER \ && IDENTIFIER_POINTER (ID_NODE)[1] == 'v') #define DESTRUCTOR_NAME_P(ID_NODE) (IDENTIFIER_POINTER (ID_NODE)[1] == JOINER \ && IDENTIFIER_POINTER (ID_NODE)[2] == '_') #define VTABLE_NAME_P(ID_NODE) (IDENTIFIER_POINTER (ID_NODE)[1] == 'v' \ && IDENTIFIER_POINTER (ID_NODE)[2] == 't' \ && IDENTIFIER_POINTER (ID_NODE)[3] == JOINER) #define VBASE_NAME_P(ID_NODE) (IDENTIFIER_POINTER (ID_NODE)[1] == 'v' \ && IDENTIFIER_POINTER (ID_NODE)[2] == 'b' \ && IDENTIFIER_POINTER (ID_NODE)[3] == JOINER) #define TEMP_NAME_P(ID_NODE) (!strncmp (IDENTIFIER_POINTER (ID_NODE), AUTO_TEMP_NAME, sizeof (AUTO_TEMP_NAME)-1)) #define VFIELD_NAME_P(ID_NODE) (!strncmp (IDENTIFIER_POINTER (ID_NODE), VFIELD_NAME, sizeof(VFIELD_NAME)-1)) /* For anonymous aggregate types, we need some sort of name to hold on to. In practice, this should not appear, but it should not be harmful if it does. */ #define ANON_AGGRNAME_P(ID_NODE) (IDENTIFIER_POINTER (ID_NODE)[0] == JOINER \ && IDENTIFIER_POINTER (ID_NODE)[1] == '_') #define ANON_PARMNAME_FORMAT "_%d" #define ANON_PARMNAME_P(ID_NODE) (IDENTIFIER_POINTER (ID_NODE)[0] == '_' \ && IDENTIFIER_POINTER (ID_NODE)[1] <= '9') #endif /* !defined(NO_DOLLAR_IN_LABEL) || !defined(NO_DOT_IN_LABEL) */ /* Store the vbase pointer field name for type TYPE into pointer BUF. */ #define FORMAT_VBASE_NAME(BUF,TYPE) do { \ char *wbuf = (char *) alloca (TYPE_ASSEMBLER_NAME_LENGTH (TYPE) \ + sizeof (VBASE_NAME) + 1); \ sprintf (wbuf, VBASE_NAME_FORMAT, TYPE_ASSEMBLER_NAME_STRING (TYPE)); \ (BUF) = wbuf; \ } while (0) /* Returns non-zero iff ID_NODE is an IDENTIFIER_NODE whose name is `main'. */ #define MAIN_NAME_P(ID_NODE) \ (strcmp (IDENTIFIER_POINTER (ID_NODE), "main") == 0) /* Returns non-zero iff NODE is a declaration for the global function `main'. */ #define DECL_MAIN_P(NODE) \ (TREE_CODE (NODE) == FUNCTION_DECL \ && DECL_LANGUAGE (NODE) == lang_c \ && DECL_NAME (NODE) != NULL_TREE \ && MAIN_NAME_P (DECL_NAME (NODE))) /* Define the sets of attributes that member functions and baseclasses can have. These are sensible combinations of {public,private,protected} cross {virtual,non-virtual}. */ /* in class.c. */ extern tree access_default_node; /* 0 */ extern tree access_public_node; /* 1 */ extern tree access_protected_node; /* 2 */ extern tree access_private_node; /* 3 */ extern tree access_default_virtual_node; /* 4 */ extern tree access_public_virtual_node; /* 5 */ extern tree access_protected_virtual_node; /* 6 */ extern tree access_private_virtual_node; /* 7 */ /* Things for handling inline functions. */ struct pending_inline { struct pending_inline *next; /* pointer to next in chain */ int lineno; /* line number we got the text from */ char *filename; /* name of file we were processing */ tree fndecl; /* FUNCTION_DECL that brought us here */ int token; /* token we were scanning */ int token_value; /* value of token we were scanning (YYSTYPE) */ char *buf; /* pointer to character stream */ int len; /* length of stream */ unsigned int can_free : 1; /* free this after we're done with it? */ unsigned int deja_vu : 1; /* set iff we don't want to see it again. */ unsigned int interface : 2; /* 0=interface 1=unknown 2=implementation */ }; /* in method.c */ extern struct pending_inline *pending_inlines; /* Positive values means that we cannot make optimizing assumptions about `this'. Negative values means we know `this' to be of static type. */ extern int flag_this_is_variable; /* Nonzero means generate 'rtti' that give run-time type information. */ extern int flag_rtti; /* Nonzero means do emit exported implementations of functions even if they can be inlined. */ extern int flag_implement_inlines; /* Nonzero means templates obey #pragma interface and implementation. */ extern int flag_external_templates; /* Nonzero means templates are emitted where they are instantiated. */ extern int flag_alt_external_templates; /* Nonzero means implicit template instantiations are emitted. */ extern int flag_implicit_templates; /* Nonzero if we want to emit defined symbols with common-like linkage as weak symbols where possible, in order to conform to C++ semantics. Otherwise, emit them as local symbols. */ extern int flag_weak; /* Nonzero to enable experimental ABI changes. */ extern int flag_new_abi; /* Nonzero to not ignore namespace std. */ extern int flag_honor_std; /* Nonzero if we're done parsing and into end-of-file activities. */ extern int at_eof; enum overload_flags { NO_SPECIAL = 0, DTOR_FLAG, OP_FLAG, TYPENAME_FLAG }; /* The following two can be derived from the previous one */ extern tree current_class_name; /* IDENTIFIER_NODE: name of current class */ /* Some macros for char-based bitfields. */ #define B_SET(a,x) (a[x>>3] |= (1 << (x&7))) #define B_CLR(a,x) (a[x>>3] &= ~(1 << (x&7))) #define B_TST(a,x) (a[x>>3] & (1 << (x&7))) /* These are uses as bits in flags passed to build_method_call to control its error reporting behavior. LOOKUP_PROTECT means flag access violations. LOOKUP_COMPLAIN mean complain if no suitable member function matching the arguments is found. LOOKUP_NORMAL is just a combination of these two. LOOKUP_NONVIRTUAL means make a direct call to the member function found LOOKUP_GLOBAL means search through the space of overloaded functions, as well as the space of member functions. LOOKUP_HAS_IN_CHARGE means that the "in charge" variable is already in the parameter list. LOOKUP_HAS_VLIST means that the "vlist" variable is already in the parameter list. LOOKUP_ONLYCONVERTING means that non-conversion constructors are not tried. DIRECT_BIND means that if a temporary is created, it should be created so that it lives as long as the current variable bindings; otherwise it only lives until the end of the complete-expression. LOOKUP_SPECULATIVELY means return NULL_TREE if we cannot find what we are after. Note, LOOKUP_COMPLAIN is checked and error messages printed before LOOKUP_SPECULATIVELY is checked. LOOKUP_NO_CONVERSION means that user-defined conversions are not permitted. Built-in conversions are permitted. LOOKUP_DESTRUCTOR means explicit call to destructor. LOOKUP_NO_TEMP_BIND means temporaries will not be bound to references. These are used in global lookup to support elaborated types and qualifiers. LOOKUP_PREFER_TYPES means not to accept objects, and possibly namespaces. LOOKUP_PREFER_NAMESPACES means not to accept objects, and possibly types. LOOKUP_PREFER_BOTH means class-or-namespace-name. LOOKUP_TEMPLATES_EXPECTED means that class templates also count as types. */ #define LOOKUP_PROTECT (1) #define LOOKUP_COMPLAIN (2) #define LOOKUP_NORMAL (3) /* #define LOOKUP_UNUSED (4) */ #define LOOKUP_NONVIRTUAL (8) #define LOOKUP_GLOBAL (16) #define LOOKUP_HAS_IN_CHARGE (32) #define LOOKUP_SPECULATIVELY (64) #define LOOKUP_ONLYCONVERTING (128) #define DIRECT_BIND (256) #define LOOKUP_NO_CONVERSION (512) #define LOOKUP_DESTRUCTOR (512) #define LOOKUP_NO_TEMP_BIND (1024) #define LOOKUP_PREFER_TYPES (2048) #define LOOKUP_PREFER_NAMESPACES (4096) #define LOOKUP_PREFER_BOTH (6144) #define LOOKUP_TEMPLATES_EXPECTED (8192) #define LOOKUP_HAS_VLIST (16384) #define LOOKUP_NAMESPACES_ONLY(f) \ (((f) & LOOKUP_PREFER_NAMESPACES) && !((f) & LOOKUP_PREFER_TYPES)) #define LOOKUP_TYPES_ONLY(f) \ (!((f) & LOOKUP_PREFER_NAMESPACES) && ((f) & LOOKUP_PREFER_TYPES)) #define LOOKUP_QUALIFIERS_ONLY(f) ((f) & LOOKUP_PREFER_BOTH) /* These flags are used by the conversion code. CONV_IMPLICIT : Perform implicit conversions (standard and user-defined). CONV_STATIC : Perform the explicit conversions for static_cast. CONV_CONST : Perform the explicit conversions for const_cast. CONV_REINTERPRET: Perform the explicit conversions for reinterpret_cast. CONV_PRIVATE : Perform upcasts to private bases. CONV_FORCE_TEMP : Require a new temporary when converting to the same aggregate type. */ #define CONV_IMPLICIT 1 #define CONV_STATIC 2 #define CONV_CONST 4 #define CONV_REINTERPRET 8 #define CONV_PRIVATE 16 /* #define CONV_NONCONVERTING 32 */ #define CONV_FORCE_TEMP 64 #define CONV_STATIC_CAST (CONV_IMPLICIT | CONV_STATIC | CONV_FORCE_TEMP) #define CONV_OLD_CONVERT (CONV_IMPLICIT | CONV_STATIC | CONV_CONST \ | CONV_REINTERPRET) #define CONV_C_CAST (CONV_IMPLICIT | CONV_STATIC | CONV_CONST \ | CONV_REINTERPRET | CONV_PRIVATE | CONV_FORCE_TEMP) /* Used by build_expr_type_conversion to indicate which types are acceptable as arguments to the expression under consideration. */ #define WANT_INT 1 /* integer types, including bool */ #define WANT_FLOAT 2 /* floating point types */ #define WANT_ENUM 4 /* enumerated types */ #define WANT_POINTER 8 /* pointer types */ #define WANT_NULL 16 /* null pointer constant */ #define WANT_ARITH (WANT_INT | WANT_FLOAT) /* Used with comptypes, and related functions, to guide type comparison. */ #define COMPARE_STRICT 0 /* Just check if the types are the same. */ #define COMPARE_BASE 1 /* Check to see if the second type is derived from the first, or if both are pointers (or references) and the types pointed to by the second type is derived from the pointed to by the first. */ #define COMPARE_RELAXED 2 /* Like COMPARE_DERIVED, but in reverse. Also treat enmeration types as the same as integer types of the same width. */ #define COMPARE_REDECLARATION 4 /* The comparsion is being done when another declaration of an existing entity is seen. */ #define COMPARE_NO_ATTRIBUTES 8 /* The comparison should ignore extra-linguistic type attributes. */ /* Used with push_overloaded_decl. */ #define PUSH_GLOBAL 0 /* Push the DECL into namespace scope, regardless of the current scope. */ #define PUSH_LOCAL 1 /* Push the DECL into the current scope. */ #define PUSH_USING 2 /* We are pushing this DECL as the result of a using declaration. */ /* Returns nonzero iff TYPE1 and TYPE2 are the same type, in the usual sense of `same'. */ #define same_type_p(type1, type2) \ comptypes ((type1), (type2), COMPARE_STRICT) /* Returns nonzero iff TYPE1 and TYPE2 are the same type, or if TYPE2 is derived from TYPE1, or if TYPE2 is a pointer (reference) to a class derived from the type pointed to (referred to) by TYPE1. */ #define same_or_base_type_p(type1, type2) \ comptypes ((type1), (type2), COMPARE_BASE) /* These macros are used to access a TEMPLATE_PARM_INDEX. */ #define TEMPLATE_PARM_IDX(NODE) (((template_parm_index*) NODE)->index) #define TEMPLATE_PARM_LEVEL(NODE) (((template_parm_index*) NODE)->level) #define TEMPLATE_PARM_DESCENDANTS(NODE) (TREE_CHAIN (NODE)) #define TEMPLATE_PARM_ORIG_LEVEL(NODE) (((template_parm_index*) NODE)->orig_level) #define TEMPLATE_PARM_DECL(NODE) (((template_parm_index*) NODE)->decl) /* These macros are for accessing the fields of TEMPLATE_TYPE_PARM and TEMPLATE_TEMPLATE_PARM nodes. */ #define TEMPLATE_TYPE_PARM_INDEX(NODE) (TYPE_FIELDS (NODE)) #define TEMPLATE_TYPE_IDX(NODE) \ (TEMPLATE_PARM_IDX (TEMPLATE_TYPE_PARM_INDEX (NODE))) #define TEMPLATE_TYPE_LEVEL(NODE) \ (TEMPLATE_PARM_LEVEL (TEMPLATE_TYPE_PARM_INDEX (NODE))) #define TEMPLATE_TYPE_ORIG_LEVEL(NODE) \ (TEMPLATE_PARM_ORIG_LEVEL (TEMPLATE_TYPE_PARM_INDEX (NODE))) #define TEMPLATE_TYPE_DECL(NODE) \ (TEMPLATE_PARM_DECL (TEMPLATE_TYPE_PARM_INDEX (NODE))) /* in lex.c */ /* Indexed by TREE_CODE, these tables give C-looking names to operators represented by TREE_CODES. For example, opname_tab[(int) MINUS_EXPR] == "-". */ extern char **opname_tab, **assignop_tab; /* in call.c */ extern int check_dtor_name PROTO((tree, tree)); extern int get_arglist_len_in_bytes PROTO((tree)); extern tree build_vfield_ref PROTO((tree, tree)); extern tree resolve_scope_to_name PROTO((tree, tree)); extern tree build_scoped_method_call PROTO((tree, tree, tree, tree)); extern tree build_addr_func PROTO((tree)); extern tree build_call PROTO((tree, tree, tree)); extern tree build_method_call PROTO((tree, tree, tree, tree, int)); extern int null_ptr_cst_p PROTO((tree)); extern tree type_decays_to PROTO((tree)); extern tree build_user_type_conversion PROTO((tree, tree, int)); extern tree build_new_function_call PROTO((tree, tree)); extern tree build_new_op PROTO((enum tree_code, int, tree, tree, tree)); extern tree build_op_new_call PROTO((enum tree_code, tree, tree, int)); extern tree build_op_delete_call PROTO((enum tree_code, tree, tree, int, tree)); extern int can_convert PROTO((tree, tree)); extern int can_convert_arg PROTO((tree, tree, tree)); extern int enforce_access PROTO((tree, tree)); extern tree convert_default_arg PROTO((tree, tree, tree)); extern tree convert_arg_to_ellipsis PROTO((tree)); extern int is_properly_derived_from PROTO((tree, tree)); /* in class.c */ extern tree build_vbase_path PROTO((enum tree_code, tree, tree, tree, int)); extern tree build_vtbl_ref PROTO((tree, tree)); extern tree build_vfn_ref PROTO((tree *, tree, tree)); extern void add_method PROTO((tree, tree *, tree)); extern int currently_open_class PROTO((tree)); extern tree get_vfield_offset PROTO((tree)); extern void duplicate_tag_error PROTO((tree)); extern tree finish_struct PROTO((tree, tree, int)); extern void finish_struct_1 PROTO((tree, int)); extern int resolves_to_fixed_type_p PROTO((tree, int *)); extern void init_class_processing PROTO((void)); extern int is_empty_class PROTO((tree)); extern void pushclass PROTO((tree, int)); extern void popclass PROTO((void)); extern void push_nested_class PROTO((tree, int)); extern void pop_nested_class PROTO((void)); extern void push_lang_context PROTO((tree)); extern void pop_lang_context PROTO((void)); extern tree instantiate_type PROTO((tree, tree, int)); extern void print_class_statistics PROTO((void)); extern void push_cache_obstack PROTO((void)); extern unsigned HOST_WIDE_INT skip_rtti_stuff PROTO((tree *, tree)); extern void build_self_reference PROTO((void)); extern void warn_hidden PROTO((tree)); extern tree get_enclosing_class PROTO((tree)); int is_base_of_enclosing_class PROTO((tree, tree)); extern void unreverse_member_declarations PROTO((tree)); extern void invalidate_class_lookup_cache PROTO((void)); extern void maybe_note_name_used_in_class PROTO((tree, tree)); extern void note_name_declared_in_class PROTO((tree, tree)); /* in cvt.c */ extern tree convert_to_reference PROTO((tree, tree, int, int, tree)); extern tree convert_from_reference PROTO((tree)); extern tree convert_pointer_to_real PROTO((tree, tree)); extern tree convert_pointer_to PROTO((tree, tree)); extern tree ocp_convert PROTO((tree, tree, int, int)); extern tree cp_convert PROTO((tree, tree)); extern tree convert PROTO((tree, tree)); extern tree convert_force PROTO((tree, tree, int)); extern tree build_type_conversion PROTO((tree, tree, int)); extern tree build_expr_type_conversion PROTO((int, tree, int)); extern tree type_promotes_to PROTO((tree)); extern tree perform_qualification_conversions PROTO((tree, tree)); /* decl.c */ /* resume_binding_level */ extern void set_identifier_local_value PROTO((tree, tree)); extern int global_bindings_p PROTO((void)); extern int toplevel_bindings_p PROTO((void)); extern int namespace_bindings_p PROTO((void)); extern void keep_next_level PROTO((void)); extern int kept_level_p PROTO((void)); extern void declare_parm_level PROTO((void)); extern void declare_pseudo_global_level PROTO((void)); extern int pseudo_global_level_p PROTO((void)); extern void set_class_shadows PROTO((tree)); extern void pushlevel PROTO((int)); extern void note_level_for_for PROTO((void)); extern void pushlevel_temporary PROTO((int)); extern tree poplevel PROTO((int, int, int)); extern void resume_level PROTO((struct binding_level *)); extern void delete_block PROTO((tree)); extern void insert_block PROTO((tree)); extern void add_block_current_level PROTO((tree)); extern void set_block PROTO((tree)); extern void pushlevel_class PROTO((void)); extern void print_binding_stack PROTO((void)); extern void print_binding_level PROTO((struct binding_level *)); extern void push_namespace PROTO((tree)); extern void pop_namespace PROTO((void)); extern void maybe_push_to_top_level PROTO((int)); extern void push_to_top_level PROTO((void)); extern void pop_from_top_level PROTO((void)); extern tree identifier_type_value PROTO((tree)); extern void set_identifier_type_value PROTO((tree, tree)); extern void pop_everything PROTO((void)); extern void pushtag PROTO((tree, tree, int)); extern tree make_anon_name PROTO((void)); extern void clear_anon_tags PROTO((void)); extern int decls_match PROTO((tree, tree)); extern int duplicate_decls PROTO((tree, tree)); extern tree pushdecl PROTO((tree)); extern tree pushdecl_top_level PROTO((tree)); extern void pushdecl_class_level PROTO((tree)); #if 0 extern void pushdecl_nonclass_level PROTO((tree)); #endif extern tree pushdecl_namespace_level PROTO((tree)); extern tree push_using_decl PROTO((tree, tree)); extern tree push_using_directive PROTO((tree)); extern void push_class_level_binding PROTO((tree, tree)); extern tree implicitly_declare PROTO((tree)); extern tree lookup_label PROTO((tree)); extern tree shadow_label PROTO((tree)); extern tree define_label PROTO((char *, int, tree)); extern void push_switch PROTO((void)); extern void pop_switch PROTO((void)); extern void define_case_label PROTO((void)); extern tree getdecls PROTO((void)); extern tree gettags PROTO((void)); #if 0 extern void set_current_level_tags_transparency PROTO((int)); #endif extern tree binding_for_name PROTO((tree, tree)); extern tree namespace_binding PROTO((tree, tree)); extern void set_namespace_binding PROTO((tree, tree, tree)); extern tree lookup_namespace_name PROTO((tree, tree)); extern tree build_typename_type PROTO((tree, tree, tree, tree)); extern tree make_typename_type PROTO((tree, tree)); extern tree lookup_name_nonclass PROTO((tree)); extern tree lookup_function_nonclass PROTO((tree, tree)); extern tree lookup_name PROTO((tree, int)); extern tree lookup_name_current_level PROTO((tree)); extern tree lookup_type_current_level PROTO((tree)); extern tree lookup_name_namespace_only PROTO((tree)); extern void begin_only_namespace_names PROTO((void)); extern void end_only_namespace_names PROTO((void)); extern tree namespace_ancestor PROTO((tree, tree)); extern int lookup_using_namespace PROTO((tree,tree,tree,tree,int)); extern int qualified_lookup_using_namespace PROTO((tree,tree,tree,int)); extern tree auto_function PROTO((tree, tree, enum built_in_function)); extern void init_decl_processing PROTO((void)); extern int init_type_desc PROTO((void)); extern tree define_function PROTO((const char *, tree, enum built_in_function, void (*) (tree), const char *)); extern tree check_tag_decl PROTO((tree)); extern void shadow_tag PROTO((tree)); extern tree groktypename PROTO((tree)); extern tree start_decl PROTO((tree, tree, int, tree, tree)); extern void start_decl_1 PROTO((tree)); extern void cp_finish_decl PROTO((tree, tree, tree, int, int)); extern void finish_decl PROTO((tree, tree, tree)); extern void expand_static_init PROTO((tree, tree)); extern int complete_array_type PROTO((tree, tree, int)); extern tree build_ptrmemfunc_type PROTO((tree)); /* the grokdeclarator prototype is in decl.h */ extern int parmlist_is_exprlist PROTO((tree)); extern int copy_args_p PROTO((tree)); extern int grok_ctor_properties PROTO((tree, tree)); extern void grok_op_properties PROTO((tree, int, int)); extern tree xref_tag PROTO((tree, tree, int)); extern tree xref_tag_from_type PROTO((tree, tree, int)); extern void xref_basetypes PROTO((tree, tree, tree, tree)); extern tree start_enum PROTO((tree)); extern tree finish_enum PROTO((tree)); extern tree build_enumerator PROTO((tree, tree, tree)); extern int start_function PROTO((tree, tree, tree, int)); extern void expand_start_early_try_stmts PROTO((void)); extern void store_parm_decls PROTO((void)); extern void store_return_init PROTO((tree, tree)); extern void finish_function PROTO((int, int, int)); extern tree start_method PROTO((tree, tree, tree)); extern tree finish_method PROTO((tree)); extern void hack_incomplete_structures PROTO((tree)); extern tree maybe_build_cleanup_and_delete PROTO((tree)); extern tree maybe_build_cleanup PROTO((tree)); extern void cplus_expand_expr_stmt PROTO((tree)); extern void finish_stmt PROTO((void)); extern void push_cp_function_context PROTO((tree)); extern void pop_cp_function_context PROTO((tree)); extern int in_function_p PROTO((void)); extern void replace_defarg PROTO((tree, tree)); extern void print_other_binding_stack PROTO((struct binding_level *)); extern void revert_static_member_fn PROTO((tree*, tree*, tree*)); extern void fixup_anonymous_union PROTO((tree)); extern int check_static_variable_definition PROTO((tree, tree)); extern void push_local_binding PROTO((tree, tree, int)); extern int push_class_binding PROTO((tree, tree)); extern tree check_default_argument PROTO((tree, tree)); extern tree push_overloaded_decl PROTO((tree, int)); extern void clear_identifier_class_values PROTO((void)); extern void storetags PROTO((tree)); extern int vtable_decl_p PROTO((tree, void *)); extern int vtype_decl_p PROTO((tree, void *)); extern int sigtable_decl_p PROTO((tree, void *)); typedef int (*walk_globals_pred) PROTO((tree, void *)); typedef int (*walk_globals_fn) PROTO((tree *, void *)); extern int walk_globals PROTO((walk_globals_pred, walk_globals_fn, void *)); typedef int (*walk_namespaces_fn) PROTO((tree, void *)); extern int walk_namespaces PROTO((walk_namespaces_fn, void *)); extern int wrapup_globals_for_namespace PROTO((tree, void *)); /* in decl2.c */ extern int check_java_method PROTO((tree)); extern int lang_decode_option PROTO((int, char **)); extern tree grok_method_quals PROTO((tree, tree, tree)); extern void warn_if_unknown_interface PROTO((tree)); extern void grok_x_components PROTO((tree)); extern void maybe_retrofit_in_chrg PROTO((tree)); extern void maybe_make_one_only PROTO((tree)); extern void grokclassfn PROTO((tree, tree, enum overload_flags, tree)); extern tree grok_alignof PROTO((tree)); extern tree grok_array_decl PROTO((tree, tree)); extern tree delete_sanity PROTO((tree, tree, int, int)); extern tree check_classfn PROTO((tree, tree)); extern void check_member_template PROTO((tree)); extern tree grokfield PROTO((tree, tree, tree, tree, tree)); extern tree grokbitfield PROTO((tree, tree, tree)); extern tree groktypefield PROTO((tree, tree)); extern tree grokoptypename PROTO((tree, tree)); extern int copy_assignment_arg_p PROTO((tree, int)); extern void cplus_decl_attributes PROTO((tree, tree, tree)); extern tree constructor_name_full PROTO((tree)); extern tree constructor_name PROTO((tree)); extern void setup_vtbl_ptr PROTO((void)); extern void mark_inline_for_output PROTO((tree)); extern void clear_temp_name PROTO((void)); extern tree get_temp_name PROTO((tree, int)); extern tree get_temp_regvar PROTO((tree, tree)); extern void finish_anon_union PROTO((tree)); extern tree finish_table PROTO((tree, tree, tree, int)); extern void finish_builtin_type PROTO((tree, const char *, tree *, int, tree)); extern tree coerce_new_type PROTO((tree)); extern tree coerce_delete_type PROTO((tree)); extern void comdat_linkage PROTO((tree)); extern void import_export_class PROTO((tree)); extern void import_export_vtable PROTO((tree, tree, int)); extern void import_export_decl PROTO((tree)); extern tree build_cleanup PROTO((tree)); extern void finish_file PROTO((void)); extern tree reparse_absdcl_as_expr PROTO((tree, tree)); extern tree reparse_absdcl_as_casts PROTO((tree, tree)); extern tree build_expr_from_tree PROTO((tree)); extern tree reparse_decl_as_expr PROTO((tree, tree)); extern tree finish_decl_parsing PROTO((tree)); extern tree check_cp_case_value PROTO((tree)); extern void set_decl_namespace PROTO((tree, tree, int)); extern tree current_decl_namespace PROTO((void)); extern void push_decl_namespace PROTO((tree)); extern void pop_decl_namespace PROTO((void)); extern void push_scope PROTO((tree)); extern void pop_scope PROTO((tree)); extern void do_namespace_alias PROTO((tree, tree)); extern void do_toplevel_using_decl PROTO((tree)); extern void do_local_using_decl PROTO((tree)); extern tree do_class_using_decl PROTO((tree)); extern void do_using_directive PROTO((tree)); extern void check_default_args PROTO((tree)); extern void mark_used PROTO((tree)); extern tree handle_class_head PROTO((tree, tree, tree)); extern tree lookup_arg_dependent PROTO((tree, tree, tree)); extern void finish_static_data_member_decl PROTO((tree, tree, tree, int, int)); /* in errfn.c */ /* The cp_* functions aren't suitable for ATTRIBUTE_PRINTF. */ extern void cp_error PVPROTO((const char *, ...)); extern void cp_error_at PVPROTO((const char *, ...)); extern void cp_warning PVPROTO((const char *, ...)); extern void cp_warning_at PVPROTO((const char *, ...)); extern void cp_pedwarn PVPROTO((const char *, ...)); extern void cp_pedwarn_at PVPROTO((const char *, ...)); extern void cp_compiler_error PVPROTO((const char *, ...)); extern void cp_sprintf PVPROTO((const char *, ...)); extern void cp_deprecated PROTO((const char*)); /* in error.c */ extern void init_error PROTO((void)); extern char *fndecl_as_string PROTO((tree, int)); extern char *type_as_string PROTO((tree, int)); extern char *type_as_string_real PROTO((tree, int, int)); extern char *args_as_string PROTO((tree, int)); extern char *decl_as_string PROTO((tree, int)); extern char *expr_as_string PROTO((tree, int)); extern char *code_as_string PROTO((enum tree_code, int)); extern char *language_as_string PROTO((enum languages, int)); extern char *parm_as_string PROTO((int, int)); extern char *op_as_string PROTO((enum tree_code, int)); extern char *assop_as_string PROTO((enum tree_code, int)); extern char *cv_as_string PROTO((tree, int)); extern char *lang_decl_name PROTO((tree, int)); extern char *cp_file_of PROTO((tree)); extern int cp_line_of PROTO((tree)); /* in except.c */ extern void init_exception_processing PROTO((void)); extern void expand_start_catch_block PROTO((tree, tree)); extern void expand_end_catch_block PROTO((void)); extern void expand_builtin_throw PROTO((void)); extern void expand_start_eh_spec PROTO((void)); extern void expand_exception_blocks PROTO((void)); extern tree start_anon_func PROTO((void)); extern void end_anon_func PROTO((void)); extern void expand_throw PROTO((tree)); extern tree build_throw PROTO((tree)); extern void mark_all_runtime_matches PROTO((void)); /* in expr.c */ extern void init_cplus_expand PROTO((void)); extern void fixup_result_decl PROTO((tree, struct rtx_def *)); extern int extract_init PROTO((tree, tree)); extern void do_case PROTO((tree, tree)); /* friend.c */ extern int is_friend PROTO((tree, tree)); extern void make_friend_class PROTO((tree, tree)); extern void add_friend PROTO((tree, tree)); extern void add_friends PROTO((tree, tree, tree)); extern tree do_friend PROTO((tree, tree, tree, tree, tree, enum overload_flags, tree, int)); /* in init.c */ extern void init_init_processing PROTO((void)); extern void expand_direct_vtbls_init PROTO((tree, tree, int, int, tree)); extern void emit_base_init PROTO((tree, int)); extern void check_base_init PROTO((tree)); extern void expand_member_init PROTO((tree, tree, tree)); extern void expand_aggr_init PROTO((tree, tree, int)); extern int is_aggr_typedef PROTO((tree, int)); extern int is_aggr_type PROTO((tree, int)); extern tree get_aggr_from_typedef PROTO((tree, int)); extern tree get_type_value PROTO((tree)); extern tree build_member_call PROTO((tree, tree, tree)); extern tree build_offset_ref PROTO((tree, tree)); extern tree resolve_offset_ref PROTO((tree)); extern tree decl_constant_value PROTO((tree)); extern tree build_new PROTO((tree, tree, tree, int)); extern tree build_new_1 PROTO((tree)); extern tree expand_vec_init PROTO((tree, tree, tree, tree, int)); extern tree build_x_delete PROTO((tree, int, tree)); extern tree build_delete PROTO((tree, tree, tree, int, int)); extern tree build_vbase_delete PROTO((tree, tree)); extern tree build_vec_delete PROTO((tree, tree, tree, tree, int)); extern tree build_base_dtor_call PROTO((tree, tree, tree)); extern void init_vlist PROTO((tree)); /* in input.c */ /* in lex.c */ extern char *file_name_nondirectory PROTO((const char *)); extern tree make_pointer_declarator PROTO((tree, tree)); extern tree make_reference_declarator PROTO((tree, tree)); extern tree make_call_declarator PROTO((tree, tree, tree, tree)); extern void set_quals_and_spec PROTO((tree, tree, tree)); extern char *operator_name_string PROTO((tree)); extern void lang_init PROTO((void)); extern void lang_finish PROTO((void)); #if 0 extern void reinit_lang_specific PROTO((void)); #endif extern void reinit_parse_for_function PROTO((void)); extern void print_parse_statistics PROTO((void)); extern void extract_interface_info PROTO((void)); extern void do_pending_inlines PROTO((void)); extern void process_next_inline PROTO((tree)); extern struct pending_input *save_pending_input PROTO((void)); extern void restore_pending_input PROTO((struct pending_input *)); extern void yyungetc PROTO((int, int)); extern void reinit_parse_for_method PROTO((int, tree)); extern void reinit_parse_for_block PROTO((int, struct obstack *)); extern tree cons_up_default_function PROTO((tree, tree, int)); extern void check_for_missing_semicolon PROTO((tree)); extern void note_got_semicolon PROTO((tree)); extern void note_list_got_semicolon PROTO((tree)); extern void do_pending_lang_change PROTO((void)); extern int identifier_type PROTO((tree)); extern void see_typename PROTO((void)); extern tree do_identifier PROTO((tree, int, tree)); extern tree do_scoped_id PROTO((tree, int)); extern tree identifier_typedecl_value PROTO((tree)); extern int real_yylex PROTO((void)); extern int is_rid PROTO((tree)); extern tree build_lang_decl PROTO((enum tree_code, tree, tree)); extern void retrofit_lang_decl PROTO((tree)); extern tree build_lang_field_decl PROTO((enum tree_code, tree, tree)); extern void copy_lang_decl PROTO((tree)); extern tree make_lang_type PROTO((enum tree_code)); extern void dump_time_statistics PROTO((void)); extern void compiler_error PVPROTO((const char *, ...)) ATTRIBUTE_PRINTF_1; extern void yyerror PROTO((const char *)); extern void clear_inline_text_obstack PROTO((void)); extern void maybe_snarf_defarg PROTO((void)); extern tree snarf_defarg PROTO((void)); extern void add_defarg_fn PROTO((tree)); extern void do_pending_defargs PROTO((void)); extern int identifier_type PROTO((tree)); extern void yyhook PROTO((int)); extern int cp_type_qual_from_rid PROTO((tree)); /* in method.c */ extern void init_method PROTO((void)); extern void do_inline_function_hair PROTO((tree, tree)); extern char *build_overload_name PROTO((tree, int, int)); extern tree build_static_name PROTO((tree, tree)); extern tree build_decl_overload PROTO((tree, tree, int)); extern tree build_decl_overload_real PROTO((tree, tree, tree, tree, tree, int)); extern void set_mangled_name_for_decl PROTO((tree)); extern tree build_typename_overload PROTO((tree)); extern tree build_overload_with_type PROTO((tree, tree)); extern tree build_destructor_name PROTO((tree, int)); extern tree build_opfncall PROTO((enum tree_code, int, tree, tree, tree)); extern tree hack_identifier PROTO((tree, tree)); extern tree make_thunk PROTO((tree, int)); extern void emit_thunk PROTO((tree)); extern void synthesize_method PROTO((tree)); extern tree get_id_2 PROTO((char *, tree)); extern tree get_vlist_vtable_id PROTO((tree, tree)); /* in pt.c */ extern void check_template_shadow PROTO ((tree)); extern tree innermost_args PROTO ((tree)); extern tree tsubst PROTO ((tree, tree, int, tree)); extern tree tsubst_expr PROTO ((tree, tree, int, tree)); extern tree tsubst_copy PROTO ((tree, tree, int, tree)); extern void maybe_begin_member_template_processing PROTO((tree)); extern void maybe_end_member_template_processing PROTO((void)); extern tree finish_member_template_decl PROTO((tree)); extern void begin_template_parm_list PROTO((void)); extern void begin_specialization PROTO((void)); extern void reset_specialization PROTO((void)); extern void end_specialization PROTO((void)); extern void begin_explicit_instantiation PROTO((void)); extern void end_explicit_instantiation PROTO((void)); extern tree check_explicit_specialization PROTO((tree, tree, int, int)); extern tree process_template_parm PROTO((tree, tree)); extern tree end_template_parm_list PROTO((tree)); extern void end_template_decl PROTO((void)); extern tree current_template_args PROTO((void)); extern tree push_template_decl PROTO((tree)); extern tree push_template_decl_real PROTO((tree, int)); extern void redeclare_class_template PROTO((tree, tree)); extern tree lookup_template_class PROTO((tree, tree, tree, tree, int)); extern tree lookup_template_function PROTO((tree, tree)); extern int uses_template_parms PROTO((tree)); extern tree instantiate_class_template PROTO((tree)); extern tree instantiate_template PROTO((tree, tree)); extern void overload_template_name PROTO((tree)); extern int fn_type_unification PROTO((tree, tree, tree, tree, tree, unification_kind_t)); struct tinst_level *tinst_for_decl PROTO((void)); extern void mark_decl_instantiated PROTO((tree, int)); extern int more_specialized PROTO((tree, tree, tree)); extern void mark_class_instantiated PROTO((tree, int)); extern void do_decl_instantiation PROTO((tree, tree, tree)); extern void do_type_instantiation PROTO((tree, tree)); extern tree instantiate_decl PROTO((tree)); extern tree do_poplevel PROTO((void)); extern tree get_bindings PROTO((tree, tree, tree)); /* CONT ... */ extern void add_tree PROTO((tree)); extern void begin_tree PROTO((void)); extern void end_tree PROTO((void)); extern void add_maybe_template PROTO((tree, tree)); extern void pop_tinst_level PROTO((void)); extern int more_specialized_class PROTO((tree, tree)); extern void do_pushlevel PROTO((void)); extern int is_member_template PROTO((tree)); extern int template_parms_equal PROTO((tree, tree)); extern int comp_template_parms PROTO((tree, tree)); extern int template_class_depth PROTO((tree)); extern int is_specialization_of PROTO((tree, tree)); extern int comp_template_args PROTO((tree, tree)); extern void maybe_process_partial_specialization PROTO((tree)); extern void maybe_check_template_type PROTO((tree)); extern tree most_specialized_instantiation PROTO((tree, tree)); extern void print_candidates PROTO((tree)); extern int instantiate_pending_templates PROTO((void)); extern int processing_specialization; extern int processing_explicit_instantiation; extern int processing_template_parmlist; /* in repo.c */ extern void repo_template_used PROTO((tree)); extern void repo_template_instantiated PROTO((tree, int)); extern void init_repo PROTO((const char *)); extern void finish_repo PROTO((void)); /* in rtti.c */ extern void init_rtti_processing PROTO((void)); extern tree get_tinfo_fn_dynamic PROTO((tree)); extern tree build_typeid PROTO((tree)); extern tree build_x_typeid PROTO((tree)); extern tree get_tinfo_fn PROTO((tree)); extern tree get_tinfo_fn_unused PROTO((tree)); extern tree get_typeid PROTO((tree)); extern tree get_typeid_1 PROTO((tree)); extern tree build_dynamic_cast PROTO((tree, tree)); extern void synthesize_tinfo_fn PROTO((tree)); /* in search.c */ extern int types_overlap_p PROTO((tree, tree)); extern tree get_vbase PROTO((tree, tree)); extern tree get_binfo PROTO((tree, tree, int)); extern int get_base_distance PROTO((tree, tree, int, tree *)); extern int accessible_p PROTO((tree, tree)); extern tree lookup_field PROTO((tree, tree, int, int)); extern int lookup_fnfields_1 PROTO((tree, tree)); extern tree lookup_fnfields PROTO((tree, tree, int)); extern tree lookup_member PROTO((tree, tree, int, int)); extern tree lookup_nested_tag PROTO((tree, tree)); extern tree get_matching_virtual PROTO((tree, tree, int)); extern tree get_abstract_virtuals PROTO((tree)); extern tree init_vbase_pointers PROTO((tree, tree)); extern void expand_indirect_vtbls_init PROTO((tree, tree, tree)); extern void clear_search_slots PROTO((tree)); extern tree get_vbase_types PROTO((tree)); extern void note_debug_info_needed PROTO((tree)); extern void push_class_decls PROTO((tree)); extern void pop_class_decls PROTO((void)); extern void unuse_fields PROTO((tree)); extern void print_search_statistics PROTO((void)); extern void init_search_processing PROTO((void)); extern void reinit_search_statistics PROTO((void)); extern tree current_scope PROTO((void)); extern tree lookup_conversions PROTO((tree)); extern tree binfo_for_vtable PROTO((tree)); extern tree dfs_walk PROTO((tree, tree (*)(tree, void *), tree (*) (tree, void *), void *)); extern tree dfs_unmark PROTO((tree, void *)); extern tree markedp PROTO((tree, void *)); /* in semantics.c */ extern void finish_expr_stmt PROTO((tree)); extern tree begin_if_stmt PROTO((void)); extern void finish_if_stmt_cond PROTO((tree, tree)); extern tree finish_then_clause PROTO((tree)); extern void begin_else_clause PROTO((void)); extern void finish_else_clause PROTO((tree)); extern void finish_if_stmt PROTO((void)); extern tree begin_while_stmt PROTO((void)); extern void finish_while_stmt_cond PROTO((tree, tree)); extern void finish_while_stmt PROTO((tree)); extern tree begin_do_stmt PROTO((void)); extern void finish_do_body PROTO((tree)); extern void finish_do_stmt PROTO((tree, tree)); extern void finish_return_stmt PROTO((tree)); extern tree begin_for_stmt PROTO((void)); extern void finish_for_init_stmt PROTO((tree)); extern void finish_for_cond PROTO((tree, tree)); extern void finish_for_expr PROTO((tree, tree)); extern void finish_for_stmt PROTO((tree, tree)); extern void finish_break_stmt PROTO((void)); extern void finish_continue_stmt PROTO((void)); extern void begin_switch_stmt PROTO((void)); extern tree finish_switch_cond PROTO((tree)); extern void finish_switch_stmt PROTO((tree, tree)); extern void finish_case_label PROTO((tree, tree)); extern void finish_goto_stmt PROTO((tree)); extern tree begin_try_block PROTO((void)); extern void finish_try_block PROTO((tree)); extern void finish_handler_sequence PROTO((tree)); extern tree begin_handler PROTO((void)); extern void finish_handler_parms PROTO((tree)); extern void finish_handler PROTO((tree)); extern tree begin_compound_stmt PROTO((int)); extern tree finish_compound_stmt PROTO((int, tree)); extern void finish_asm_stmt PROTO((tree, tree, tree, tree, tree)); extern tree finish_parenthesized_expr PROTO((tree)); extern tree begin_stmt_expr PROTO((void)); extern tree finish_stmt_expr PROTO((tree, tree)); extern tree finish_call_expr PROTO((tree, tree, int)); extern tree finish_increment_expr PROTO((tree, enum tree_code)); extern tree finish_this_expr PROTO((void)); extern tree finish_object_call_expr PROTO((tree, tree, tree)); extern tree finish_qualified_object_call_expr PROTO((tree, tree, tree)); extern tree finish_pseudo_destructor_call_expr PROTO((tree, tree, tree)); extern tree finish_qualified_call_expr PROTO ((tree, tree)); extern tree finish_label_address_expr PROTO((tree)); extern tree finish_unary_op_expr PROTO((enum tree_code, tree)); extern tree finish_id_expr PROTO((tree)); extern int begin_new_placement PROTO((void)); extern tree finish_new_placement PROTO((tree, int)); extern int begin_function_definition PROTO((tree, tree)); extern tree begin_constructor_declarator PROTO((tree, tree)); extern tree finish_declarator PROTO((tree, tree, tree, tree, int)); extern void finish_translation_unit PROTO((void)); extern tree finish_template_type_parm PROTO((tree, tree)); extern tree finish_template_template_parm PROTO((tree, tree)); extern tree finish_parmlist PROTO((tree, int)); extern tree begin_class_definition PROTO((tree)); extern tree finish_class_definition PROTO((tree, tree, int, int)); extern void finish_default_args PROTO((void)); extern void begin_inline_definitions PROTO((void)); extern void finish_inline_definitions PROTO((void)); extern tree finish_member_class_template PROTO((tree)); extern void finish_template_decl PROTO((tree)); extern tree finish_template_type PROTO((tree, tree, int)); extern void enter_scope_of PROTO((tree)); extern tree finish_base_specifier PROTO((tree, tree, int)); extern void finish_member_declaration PROTO((tree)); extern void check_multiple_declarators PROTO((void)); extern tree finish_typeof PROTO((tree)); /* in sig.c */ extern tree build_signature_pointer_type PROTO((tree)); extern tree build_signature_reference_type PROTO((tree)); extern tree build_signature_pointer_constructor PROTO((tree, tree)); extern tree build_signature_method_call PROTO((tree, tree)); extern tree build_optr_ref PROTO((tree)); extern void append_signature_fields PROTO((tree)); /* in spew.c */ extern void init_spew PROTO((void)); extern int peekyylex PROTO((void)); extern int yylex PROTO((void)); extern tree arbitrate_lookup PROTO((tree, tree, tree)); /* in tree.c */ extern int pod_type_p PROTO((tree)); extern void unshare_base_binfos PROTO((tree)); extern int member_p PROTO((tree)); extern int real_lvalue_p PROTO((tree)); extern tree build_min PVPROTO((enum tree_code, tree, ...)); extern tree build_min_nt PVPROTO((enum tree_code, ...)); extern tree min_tree_cons PROTO((tree, tree, tree)); extern int lvalue_p PROTO((tree)); extern int lvalue_or_else PROTO((tree, const char *)); extern tree build_cplus_new PROTO((tree, tree)); extern tree get_target_expr PROTO((tree)); extern tree break_out_cleanups PROTO((tree)); extern tree break_out_calls PROTO((tree)); extern tree build_cplus_method_type PROTO((tree, tree, tree)); extern tree build_cplus_staticfn_type PROTO((tree, tree, tree)); extern tree build_cplus_array_type PROTO((tree, tree)); extern int layout_basetypes PROTO((tree, int)); extern tree build_vbase_pointer_fields PROTO((tree)); extern tree build_base_fields PROTO((tree)); extern tree hash_tree_cons PROTO((tree, tree, tree)); extern tree hash_tree_chain PROTO((tree, tree)); extern tree hash_chainon PROTO((tree, tree)); extern tree make_binfo PROTO((tree, tree, tree, tree)); extern tree binfo_value PROTO((tree, tree)); extern tree reverse_path PROTO((tree)); extern int count_functions PROTO((tree)); extern int is_overloaded_fn PROTO((tree)); extern tree get_first_fn PROTO((tree)); extern tree binding_init PROTO((struct tree_binding*)); extern int bound_pmf_p PROTO((tree)); extern tree ovl_cons PROTO((tree, tree)); extern tree scratch_ovl_cons PROTO((tree, tree)); extern int ovl_member PROTO((tree, tree)); extern tree build_overload PROTO((tree, tree)); extern tree fnaddr_from_vtable_entry PROTO((tree)); extern tree function_arg_chain PROTO((tree)); extern int promotes_to_aggr_type PROTO((tree, enum tree_code)); extern int is_aggr_type_2 PROTO((tree, tree)); extern char *lang_printable_name PROTO((tree, int)); extern tree build_exception_variant PROTO((tree, tree)); extern tree copy_template_template_parm PROTO((tree)); extern tree copy_to_permanent PROTO((tree)); extern tree permanent_p PROTO((tree)); extern void print_lang_statistics PROTO((void)); extern void __eprintf PROTO((const char *, const char *, unsigned, const char *)); extern tree array_type_nelts_total PROTO((tree)); extern tree array_type_nelts_top PROTO((tree)); extern tree break_out_target_exprs PROTO((tree)); extern tree get_type_decl PROTO((tree)); extern tree vec_binfo_member PROTO((tree, tree)); extern tree hack_decl_function_context PROTO((tree)); extern tree decl_namespace_context PROTO((tree)); extern tree lvalue_type PROTO((tree)); extern tree error_type PROTO((tree)); extern tree make_temp_vec PROTO((int)); extern tree build_ptr_wrapper PROTO((void *)); extern tree build_expr_ptr_wrapper PROTO((void *)); extern tree build_int_wrapper PROTO((int)); extern tree build_srcloc_here PROTO((void)); extern int varargs_function_p PROTO((tree)); extern int really_overloaded_fn PROTO((tree)); extern int cp_tree_equal PROTO((tree, tree)); extern int can_free PROTO((struct obstack *, tree)); extern tree mapcar PROTO((tree, tree (*) (tree))); extern tree no_linkage_check PROTO((tree)); extern void debug_binfo PROTO((tree)); extern void push_expression_obstack PROTO((void)); extern tree build_dummy_object PROTO((tree)); extern tree maybe_dummy_object PROTO((tree, tree *)); extern int is_dummy_object PROTO((tree)); extern tree search_tree PROTO((tree, tree (*)(tree))); extern int cp_valid_lang_attribute PROTO((tree, tree, tree, tree)); extern tree make_ptrmem_cst PROTO((tree, tree)); #define scratchalloc expralloc #define scratch_tree_cons expr_tree_cons #define build_scratch_list build_expr_list #define make_scratch_vec make_temp_vec #define push_scratch_obstack push_expression_obstack /* in typeck.c */ extern int string_conv_p PROTO((tree, tree, int)); extern tree condition_conversion PROTO((tree)); extern tree target_type PROTO((tree)); extern tree require_complete_type PROTO((tree)); extern tree require_complete_type_in_void PROTO((tree)); extern tree complete_type PROTO((tree)); extern tree complete_type_or_else PROTO((tree, tree)); extern int type_unknown_p PROTO((tree)); extern int fntype_p PROTO((tree)); extern tree commonparms PROTO((tree, tree)); extern tree original_type PROTO((tree)); extern tree common_type PROTO((tree, tree)); extern int compexcepttypes PROTO((tree, tree)); extern int comptypes PROTO((tree, tree, int)); extern int comp_target_types PROTO((tree, tree, int)); extern int compparms PROTO((tree, tree)); extern int comp_target_types PROTO((tree, tree, int)); extern int comp_cv_qualification PROTO((tree, tree)); extern int comp_cv_qual_signature PROTO((tree, tree)); extern int self_promoting_args_p PROTO((tree)); extern tree unsigned_type PROTO((tree)); extern tree signed_type PROTO((tree)); extern tree signed_or_unsigned_type PROTO((int, tree)); extern tree expr_sizeof PROTO((tree)); extern tree c_sizeof PROTO((tree)); extern tree c_sizeof_nowarn PROTO((tree)); extern tree c_alignof PROTO((tree)); extern tree inline_conversion PROTO((tree)); extern tree decay_conversion PROTO((tree)); extern tree default_conversion PROTO((tree)); extern tree build_object_ref PROTO((tree, tree, tree)); extern tree build_component_ref_1 PROTO((tree, tree, int)); extern tree build_component_ref PROTO((tree, tree, tree, int)); extern tree build_x_component_ref PROTO((tree, tree, tree, int)); extern tree build_x_indirect_ref PROTO((tree, const char *)); extern tree build_indirect_ref PROTO((tree, const char *)); extern tree build_array_ref PROTO((tree, tree)); extern tree build_x_function_call PROTO((tree, tree, tree)); extern tree get_member_function_from_ptrfunc PROTO((tree *, tree)); extern tree build_function_call_real PROTO((tree, tree, int, int)); extern tree build_function_call PROTO((tree, tree)); extern tree build_function_call_maybe PROTO((tree, tree)); extern tree convert_arguments PROTO((tree, tree, tree, int)); extern tree build_x_binary_op PROTO((enum tree_code, tree, tree)); extern tree build_binary_op PROTO((enum tree_code, tree, tree)); extern tree build_binary_op_nodefault PROTO((enum tree_code, tree, tree, enum tree_code)); extern tree build_x_unary_op PROTO((enum tree_code, tree)); extern tree build_unary_op PROTO((enum tree_code, tree, int)); extern tree unary_complex_lvalue PROTO((enum tree_code, tree)); extern int mark_addressable PROTO((tree)); extern tree build_x_conditional_expr PROTO((tree, tree, tree)); extern tree build_conditional_expr PROTO((tree, tree, tree)); extern tree build_x_compound_expr PROTO((tree)); extern tree build_compound_expr PROTO((tree)); extern tree build_static_cast PROTO((tree, tree)); extern tree build_reinterpret_cast PROTO((tree, tree)); extern tree build_const_cast PROTO((tree, tree)); extern tree build_c_cast PROTO((tree, tree)); extern tree build_x_modify_expr PROTO((tree, enum tree_code, tree)); extern tree build_modify_expr PROTO((tree, enum tree_code, tree)); extern tree convert_for_initialization PROTO((tree, tree, tree, int, const char *, tree, int)); extern void c_expand_asm_operands PROTO((tree, tree, tree, tree, int, char *, int)); extern void c_expand_return PROTO((tree)); extern tree c_expand_start_case PROTO((tree)); extern int comp_ptr_ttypes PROTO((tree, tree)); extern int ptr_reasonably_similar PROTO((tree, tree)); extern tree build_ptrmemfunc PROTO((tree, tree, int)); extern int cp_type_quals PROTO((tree)); extern int cp_has_mutable_p PROTO((tree)); extern int at_least_as_qualified_p PROTO((tree, tree)); extern int more_qualified_p PROTO((tree, tree)); extern tree build_ptrmemfunc1 PROTO((tree, tree, tree, tree, tree)); extern void expand_ptrmemfunc_cst PROTO((tree, tree *, tree *, tree *, tree *)); extern tree delta2_from_ptrmemfunc PROTO((tree)); extern tree pfn_from_ptrmemfunc PROTO((tree)); /* in typeck2.c */ extern tree error_not_base_type PROTO((tree, tree)); extern tree binfo_or_else PROTO((tree, tree)); extern void readonly_error PROTO((tree, const char *, int)); extern void abstract_virtuals_error PROTO((tree, tree)); extern void signature_error PROTO((tree, tree)); extern void incomplete_type_error PROTO((tree, tree)); extern void my_friendly_abort PROTO((int)) ATTRIBUTE_NORETURN; extern void my_friendly_assert PROTO((int, int)); extern tree store_init_value PROTO((tree, tree)); extern tree digest_init PROTO((tree, tree, tree *)); extern tree build_scoped_ref PROTO((tree, tree)); extern tree build_x_arrow PROTO((tree)); extern tree build_m_component_ref PROTO((tree, tree)); extern tree build_functional_cast PROTO((tree, tree)); extern char *enum_name_string PROTO((tree, tree)); extern void report_case_error PROTO((int, tree, tree, tree)); extern void check_for_new_type PROTO((const char *, flagged_type_tree)); extern tree initializer_constant_valid_p PROTO((tree, tree)); /* in xref.c */ extern void GNU_xref_begin PROTO((const char *)); extern void GNU_xref_end PROTO((int)); extern void GNU_xref_file PROTO((const char *)); extern void GNU_xref_start_scope PROTO((HOST_WIDE_INT)); extern void GNU_xref_end_scope PROTO((HOST_WIDE_INT, HOST_WIDE_INT, int, int)); extern void GNU_xref_ref PROTO((tree, const char *)); extern void GNU_xref_decl PROTO((tree, tree)); extern void GNU_xref_call PROTO((tree, const char *)); extern void GNU_xref_function PROTO((tree, tree)); extern void GNU_xref_assign PROTO((tree)); extern void GNU_xref_hier PROTO((tree, tree, int, int, int)); extern void GNU_xref_member PROTO((tree, tree)); /* -- end of C++ */ #endif /* not _CP_TREE_H */