1 /* Process declarations and variables for C compiler.
2 Copyright (C) 1988, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000
3 Free Software Foundation, Inc.
4 Contributed by Michael Tiemann (tiemann@cygnus.com)
6 This file is part of GNU CC.
8 GNU CC is free software; you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation; either version 2, or (at your option)
13 GNU CC is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
18 You should have received a copy of the GNU General Public License
19 along with GNU CC; see the file COPYING. If not, write to
20 the Free Software Foundation, 59 Temple Place - Suite 330,
21 Boston, MA 02111-1307, USA. */
24 /* Process declarations and symbol lookup for C front end.
25 Also constructs types; the standard scalar types at initialization,
26 and structure, union, array and enum types when they are declared. */
28 /* ??? not all decl nodes are given the most useful possible
29 line numbers. For example, the CONST_DECLs for enum values. */
48 extern int current_class_depth
;
50 extern tree static_ctors
, static_dtors
;
52 extern tree global_namespace
;
54 extern int (*valid_lang_attribute
) PARAMS ((tree
, tree
, tree
, tree
));
56 /* Use garbage collection. */
60 #ifndef WCHAR_UNSIGNED
61 #define WCHAR_UNSIGNED 0
64 #ifndef CHAR_TYPE_SIZE
65 #define CHAR_TYPE_SIZE BITS_PER_UNIT
68 #ifndef BOOL_TYPE_SIZE
69 #ifdef SLOW_BYTE_ACCESS
70 /* In the new ABI, `bool' has size and alignment `1', on all
72 #define BOOL_TYPE_SIZE \
73 ((SLOW_BYTE_ACCESS && !flag_new_abi) ? (POINTER_SIZE) : (CHAR_TYPE_SIZE))
75 #define BOOL_TYPE_SIZE CHAR_TYPE_SIZE
79 /* We let tm.h override the types used here, to handle trivial differences
80 such as the choice of unsigned int or long unsigned int for size_t.
81 When machines start needing nontrivial differences in the size type,
82 it would be best to do something here to figure out automatically
83 from other information what type to use. */
86 #define SIZE_TYPE "long unsigned int"
90 #define PTRDIFF_TYPE "long int"
94 #define WCHAR_TYPE "int"
97 static tree grokparms
PARAMS ((tree
, int));
98 static const char *redeclaration_error_message
PARAMS ((tree
, tree
));
100 static void push_binding_level
PARAMS ((struct binding_level
*, int,
102 static void pop_binding_level
PARAMS ((void));
103 static void suspend_binding_level
PARAMS ((void));
104 static void resume_binding_level
PARAMS ((struct binding_level
*));
105 static struct binding_level
*make_binding_level
PARAMS ((void));
106 static void declare_namespace_level
PARAMS ((void));
107 static void signal_catch
PARAMS ((int)) ATTRIBUTE_NORETURN
;
108 static void storedecls
PARAMS ((tree
));
109 static void require_complete_types_for_parms
PARAMS ((tree
));
110 static int ambi_op_p
PARAMS ((tree
));
111 static int unary_op_p
PARAMS ((tree
));
112 static tree store_bindings
PARAMS ((tree
, tree
));
113 static tree lookup_tag_reverse
PARAMS ((tree
, tree
));
114 static tree obscure_complex_init
PARAMS ((tree
, tree
));
115 static tree maybe_build_cleanup_1
PARAMS ((tree
, tree
));
116 static tree lookup_name_real
PARAMS ((tree
, int, int, int));
117 static void warn_extern_redeclared_static
PARAMS ((tree
, tree
));
118 static void grok_reference_init
PARAMS ((tree
, tree
, tree
));
119 static tree grokfndecl
PARAMS ((tree
, tree
, tree
, tree
, int,
120 enum overload_flags
, tree
,
121 tree
, int, int, int, int, int, int, tree
));
122 static tree grokvardecl
PARAMS ((tree
, tree
, RID_BIT_TYPE
*, int, int, tree
));
123 static tree lookup_tag
PARAMS ((enum tree_code
, tree
,
124 struct binding_level
*, int));
125 static void set_identifier_type_value_with_scope
126 PARAMS ((tree
, tree
, struct binding_level
*));
127 static void record_builtin_type
PARAMS ((enum rid
, const char *, tree
));
128 static void record_unknown_type
PARAMS ((tree
, const char *));
129 static tree build_library_fn_1
PARAMS ((tree
, tree
));
130 static int member_function_or_else
PARAMS ((tree
, tree
, enum overload_flags
));
131 static void bad_specifiers
PARAMS ((tree
, const char *, int, int, int, int,
133 static void lang_print_error_function
PARAMS ((const char *));
134 static tree maybe_process_template_type_declaration
PARAMS ((tree
, int, struct binding_level
*));
135 static void check_for_uninitialized_const_var
PARAMS ((tree
));
136 static unsigned long typename_hash
PARAMS ((hash_table_key
));
137 static boolean typename_compare
PARAMS ((hash_table_key
, hash_table_key
));
138 static void push_binding
PARAMS ((tree
, tree
, struct binding_level
*));
139 static int add_binding
PARAMS ((tree
, tree
));
140 static void pop_binding
PARAMS ((tree
, tree
));
141 static tree local_variable_p_walkfn
PARAMS ((tree
*, int *, void *));
142 static tree find_binding
PARAMS ((tree
, tree
));
143 static tree select_decl
PARAMS ((tree
, int));
144 static int lookup_flags
PARAMS ((int, int));
145 static tree qualify_lookup
PARAMS ((tree
, int));
146 static tree record_builtin_java_type
PARAMS ((const char *, int));
147 static const char *tag_name
PARAMS ((enum tag_types code
));
148 static void find_class_binding_level
PARAMS ((void));
149 static struct binding_level
*innermost_nonclass_level
PARAMS ((void));
150 static void warn_about_implicit_typename_lookup
PARAMS ((tree
, tree
));
151 static int walk_namespaces_r
PARAMS ((tree
, walk_namespaces_fn
, void *));
152 static int walk_globals_r
PARAMS ((tree
, void *));
153 static void add_decl_to_level
PARAMS ((tree
, struct binding_level
*));
154 static tree make_label_decl
PARAMS ((tree
, int));
155 static void pop_label
PARAMS ((tree
));
156 static void pop_labels
PARAMS ((tree
));
157 static void maybe_deduce_size_from_array_init
PARAMS ((tree
, tree
));
158 static void layout_var_decl
PARAMS ((tree
));
159 static void maybe_commonize_var
PARAMS ((tree
));
160 static tree check_initializer
PARAMS ((tree
, tree
));
161 static void make_rtl_for_nonlocal_decl
PARAMS ((tree
, tree
, const char *));
162 static void push_cp_function_context
PARAMS ((struct function
*));
163 static void pop_cp_function_context
PARAMS ((struct function
*));
164 static void mark_binding_level
PARAMS ((void *));
165 static void mark_cp_function_context
PARAMS ((struct function
*));
166 static void mark_saved_scope
PARAMS ((void *));
167 static void mark_lang_function
PARAMS ((struct language_function
*));
168 static void mark_stmt_tree
PARAMS ((struct stmt_tree
*));
169 static void save_function_data
PARAMS ((tree
));
170 static void check_function_type
PARAMS ((tree
));
171 static void destroy_local_var
PARAMS ((tree
));
172 static void finish_constructor_body
PARAMS ((void));
173 static void finish_destructor_body
PARAMS ((void));
174 static tree create_array_type_for_decl
PARAMS ((tree
, tree
, tree
));
175 static tree get_atexit_node
PARAMS ((void));
176 static tree get_dso_handle_node
PARAMS ((void));
177 static tree start_cleanup_fn
PARAMS ((void));
178 static void end_cleanup_fn
PARAMS ((void));
179 static tree cp_make_fname_decl
PARAMS ((tree
, const char *, int));
180 static void initialize_predefined_identifiers
PARAMS ((void));
181 static tree check_special_function_return_type
182 PARAMS ((special_function_kind
, tree
, tree
, tree
));
184 #if defined (DEBUG_CP_BINDING_LEVELS)
185 static void indent
PARAMS ((void));
188 /* Erroneous argument lists can use this *IFF* they do not modify it. */
189 tree error_mark_list
;
191 /* The following symbols are subsumed in the cp_global_trees array, and
192 listed here individually for documentation purposes.
195 tree wchar_decl_node;
198 tree vtable_entry_type;
199 tree delta_type_node;
202 tree __baselist_desc_type_node;
203 tree __i_desc_type_node, __m_desc_type_node;
204 tree __t_desc_array_type, __i_desc_array_type, __m_desc_array_type;
206 tree __t_desc_type_node;
208 tree __tp_desc_type_node;
210 tree ti_desc_type_node;
211 tree bltn_desc_type_node, ptr_desc_type_node;
212 tree ary_desc_type_node, func_desc_type_node, enum_desc_type_node;
213 tree class_desc_type_node, si_class_desc_type_node, vmi_class_desc_type_node;
214 tree ptmd_desc_type_node;
215 tree base_desc_type_node;
217 Not needed yet? May be needed one day?
218 tree __bltn_desc_array_type, __user_desc_array_type, __class_desc_array_type;
219 tree __ptr_desc_array_type, __attr_dec_array_type, __func_desc_array_type;
220 tree __ptmf_desc_array_type, __ptmd_desc_array_type;
223 tree class_type_node, record_type_node, union_type_node, enum_type_node;
224 tree unknown_type_node;
226 Array type `vtable_entry_type[]'
229 tree vtbl_ptr_type_node;
236 A FUNCTION_DECL which can call `abort'. Not necessarily the
237 one that the user will declare, but sufficient to be called
238 by routines that want to abort the program.
242 The FUNCTION_DECL for the default `::operator delete'.
244 tree global_delete_fndecl;
247 tree type_info_type_node, tinfo_decl_id, tinfo_decl_type;
252 tree cp_global_trees
[CPTI_MAX
];
254 /* Indicates that there is a type value in some namespace, although
255 that is not necessarily in scope at the moment. */
257 static tree global_type_node
;
262 /* Expect only namespace names now. */
263 static int only_namespace_names
;
265 /* If original DECL_RESULT of current function was a register,
266 but due to being an addressable named return value, would up
267 on the stack, this variable holds the named return value's
268 original location. */
270 #define original_result_rtx cp_function_chain->x_result_rtx
272 struct named_label_list
274 struct binding_level
*binding_level
;
277 const char *filename_o_goto
;
279 struct named_label_list
*next
;
282 /* Used only for jumps to as-yet undefined labels, since jumps to
283 defined labels can have their validity checked by stmt.c. */
285 #define named_label_uses cp_function_chain->x_named_label_uses
287 /* A list of objects which have constructors or destructors
288 which reside in the global scope. The decl is stored in
289 the TREE_VALUE slot and the initializer is stored
290 in the TREE_PURPOSE slot. */
291 tree static_aggregates
;
295 /* A node for the integer constants 2, and 3. */
297 tree integer_two_node
, integer_three_node
;
299 /* Parsing a function declarator leaves here a chain of structure
300 and enum types declared in the parmlist. */
302 static tree last_function_parm_tags
;
304 /* Similar, for last_function_parm_tags. */
305 tree last_function_parms
;
306 static tree current_function_parm_tags
;
308 /* A list (chain of TREE_LIST nodes) of all LABEL_DECLs in the function
309 that have names. Here so we can clear out their names' definitions
310 at the end of the function. The TREE_VALUE is a LABEL_DECL; the
311 TREE_PURPOSE is the previous binding of the label. */
313 #define named_labels cp_function_chain->x_named_labels
315 /* Set to 0 at beginning of a function definition, and whenever
316 a label (case or named) is defined. Set to value of expression
317 returned from function when that value can be transformed into
318 a named return value. */
320 tree current_function_return_value
;
322 /* Nonzero means use the ISO C99 dialect of C. */
326 /* Nonzero means give `double' the same size as `float'. */
328 extern int flag_short_double
;
330 /* Nonzero means don't recognize any builtin functions. */
332 extern int flag_no_builtin
;
334 /* Nonzero means don't recognize the non-ANSI builtin functions.
337 extern int flag_no_nonansi_builtin
;
339 /* Nonzero if we want to conserve space in the .o files. We do this
340 by putting uninitialized data and runtime initialized data into
341 .common instead of .data at the expense of not flagging multiple
343 extern int flag_conserve_space
;
345 /* C and C++ flags are in decl2.c. */
347 /* Flag used when debugging spew.c */
349 extern int spew_debug
;
351 /* A expression of value 0 with the same precision as a sizetype
353 tree signed_size_zero_node
;
355 /* The name of the anonymous namespace, throughout this translation
357 tree anonymous_namespace_name
;
360 /* For each binding contour we allocate a binding_level structure
361 which records the names defined in that contour.
364 1) one for each function definition,
365 where internal declarations of the parameters appear.
366 2) one for each compound statement,
367 to record its declarations.
369 The current meaning of a name can be found by searching the levels
370 from the current one out to the global one.
372 Off to the side, may be the class_binding_level. This exists only
373 to catch class-local declarations. It is otherwise nonexistent.
375 Also there may be binding levels that catch cleanups that must be
376 run when exceptions occur. Thus, to see whether a name is bound in
377 the current scope, it is not enough to look in the
378 CURRENT_BINDING_LEVEL. You should use lookup_name_current_level
381 /* Note that the information in the `names' component of the global contour
382 is duplicated in the IDENTIFIER_GLOBAL_VALUEs of all identifiers. */
386 /* A chain of _DECL nodes for all variables, constants, functions,
387 and typedef types. These are in the reverse of the order
388 supplied. There may be OVERLOADs on this list, too, but they
389 are wrapped in TREE_LISTs; the TREE_VALUE is the OVERLOAD. */
392 /* A list of structure, union and enum definitions, for looking up
394 It is a chain of TREE_LIST nodes, each of whose TREE_PURPOSE is a name,
395 or NULL_TREE; and whose TREE_VALUE is a RECORD_TYPE, UNION_TYPE,
396 or ENUMERAL_TYPE node.
398 C++: the TREE_VALUE nodes can be simple types for
399 component_bindings. */
402 /* A list of USING_DECL nodes. */
405 /* A list of used namespaces. PURPOSE is the namespace,
406 VALUE the common ancestor with this binding_level's namespace. */
407 tree using_directives
;
409 /* If this binding level is the binding level for a class, then
410 class_shadowed is a TREE_LIST. The TREE_PURPOSE of each node
411 is the name of an entity bound in the class; the TREE_VALUE is
412 the IDENTIFIER_CLASS_VALUE before we entered the class. Thus,
413 when leaving class scope, we can restore the
414 IDENTIFIER_CLASS_VALUE by walking this list. The TREE_TYPE is
415 the DECL bound by this name in the class. */
418 /* Similar to class_shadowed, but for IDENTIFIER_TYPE_VALUE, and
419 is used for all binding levels. */
422 /* A TREE_LIST. Each TREE_VALUE is the LABEL_DECL for a local
423 label in this scope. The TREE_PURPOSE is the previous value of
424 the IDENTIFIER_LABEL VALUE. */
425 tree shadowed_labels
;
427 /* For each level (except not the global one),
428 a chain of BLOCK nodes for all the levels
429 that were entered and exited one level down. */
432 /* The BLOCK node for this level, if one has been preallocated.
433 If 0, the BLOCK is allocated (if needed) when the level is popped. */
436 /* The _TYPE node for this level, if parm_flag == 2. */
439 /* The binding level which this one is contained in (inherits from). */
440 struct binding_level
*level_chain
;
442 /* List of decls in `names' that have incomplete
443 structure or union types. */
446 /* List of VAR_DECLS saved from a previous for statement.
447 These would be dead in ISO-conforming code, but might
448 be referenced in ARM-era code. These are stored in a
449 TREE_LIST; the TREE_VALUE is the actual declaration. */
450 tree dead_vars_from_for
;
452 /* 1 for the level that holds the parameters of a function.
453 2 for the level that holds a class declaration. */
454 unsigned parm_flag
: 2;
456 /* 1 means make a BLOCK for this level regardless of all else.
457 2 for temporary binding contours created by the compiler. */
460 /* Nonzero if this level "doesn't exist" for tags. */
461 unsigned tag_transparent
: 1;
463 /* Nonzero if this level can safely have additional
464 cleanup-needing variables added to it. */
465 unsigned more_cleanups_ok
: 1;
466 unsigned have_cleanups
: 1;
468 /* Nonzero if this scope is for storing the decls for template
469 parameters and generic decls; these decls will be discarded and
470 replaced with a TEMPLATE_DECL. */
471 unsigned template_parms_p
: 1;
473 /* Nonzero if this scope corresponds to the `<>' in a
474 `template <>' clause. Whenever this flag is set,
475 TEMPLATE_PARMS_P will be set as well. */
476 unsigned template_spec_p
: 1;
478 /* This is set for a namespace binding level. */
479 unsigned namespace_p
: 1;
481 /* True if this level is that of a for-statement where we need to
482 worry about ambiguous (ARM or ISO) scope rules. */
483 unsigned is_for_scope
: 1;
485 /* True if this level corresponds to an EH region, as for a try block. */
486 unsigned eh_region
: 1;
488 /* Four bits left for this word. */
490 #if defined(DEBUG_CP_BINDING_LEVELS)
491 /* Binding depth at which this level began. */
492 unsigned binding_depth
;
493 #endif /* defined(DEBUG_CP_BINDING_LEVELS) */
496 #define NULL_BINDING_LEVEL ((struct binding_level *) NULL)
498 /* The binding level currently in effect. */
500 #define current_binding_level \
502 ? cp_function_chain->bindings \
503 : scope_chain->bindings)
505 /* The binding level of the current class, if any. */
507 #define class_binding_level scope_chain->class_bindings
509 /* A chain of binding_level structures awaiting reuse. */
511 static struct binding_level
*free_binding_level
;
513 /* The outermost binding level, for names of file scope.
514 This is created when the compiler is started and exists
515 through the entire run. */
517 static struct binding_level
*global_binding_level
;
519 /* Nonzero means unconditionally make a BLOCK for the next level pushed. */
521 static int keep_next_level_flag
;
523 #if defined(DEBUG_CP_BINDING_LEVELS)
524 static int binding_depth
= 0;
525 static int is_class_level
= 0;
532 for (i
= 0; i
< binding_depth
*2; i
++)
535 #endif /* defined(DEBUG_CP_BINDING_LEVELS) */
537 static tree pushdecl_with_scope
PARAMS ((tree
, struct binding_level
*));
540 push_binding_level (newlevel
, tag_transparent
, keep
)
541 struct binding_level
*newlevel
;
542 int tag_transparent
, keep
;
544 /* Add this level to the front of the chain (stack) of levels that
546 bzero ((char*) newlevel
, sizeof (struct binding_level
));
547 newlevel
->level_chain
= current_binding_level
;
548 current_binding_level
= newlevel
;
549 newlevel
->tag_transparent
= tag_transparent
;
550 newlevel
->more_cleanups_ok
= 1;
552 /* We are called before expand_start_bindings, but after
553 expand_eh_region_start for a try block; so we check this now,
554 before the EH block is covered up. */
555 newlevel
->eh_region
= is_eh_region ();
557 newlevel
->keep
= keep
;
558 #if defined(DEBUG_CP_BINDING_LEVELS)
559 newlevel
->binding_depth
= binding_depth
;
561 fprintf (stderr
, "push %s level 0x%08x line %d\n",
562 (is_class_level
) ? "class" : "block", newlevel
, lineno
);
565 #endif /* defined(DEBUG_CP_BINDING_LEVELS) */
568 /* Find the innermost enclosing class scope, and reset
569 CLASS_BINDING_LEVEL appropriately. */
572 find_class_binding_level ()
574 struct binding_level
*level
= current_binding_level
;
576 while (level
&& level
->parm_flag
!= 2)
577 level
= level
->level_chain
;
578 if (level
&& level
->parm_flag
== 2)
579 class_binding_level
= level
;
581 class_binding_level
= 0;
587 if (global_binding_level
)
589 /* Cannot pop a level, if there are none left to pop. */
590 if (current_binding_level
== global_binding_level
)
591 my_friendly_abort (123);
593 /* Pop the current level, and free the structure for reuse. */
594 #if defined(DEBUG_CP_BINDING_LEVELS)
597 fprintf (stderr
, "pop %s level 0x%08x line %d\n",
598 (is_class_level
) ? "class" : "block",
599 current_binding_level
, lineno
);
600 if (is_class_level
!= (current_binding_level
== class_binding_level
))
603 fprintf (stderr
, "XXX is_class_level != (current_binding_level == class_binding_level)\n");
606 #endif /* defined(DEBUG_CP_BINDING_LEVELS) */
608 register struct binding_level
*level
= current_binding_level
;
609 current_binding_level
= current_binding_level
->level_chain
;
610 level
->level_chain
= free_binding_level
;
611 #if 0 /* defined(DEBUG_CP_BINDING_LEVELS) */
612 if (level
->binding_depth
!= binding_depth
)
614 #endif /* defined(DEBUG_CP_BINDING_LEVELS) */
615 free_binding_level
= level
;
616 find_class_binding_level ();
621 suspend_binding_level ()
623 if (class_binding_level
)
624 current_binding_level
= class_binding_level
;
626 if (global_binding_level
)
628 /* Cannot suspend a level, if there are none left to suspend. */
629 if (current_binding_level
== global_binding_level
)
630 my_friendly_abort (123);
632 /* Suspend the current level. */
633 #if defined(DEBUG_CP_BINDING_LEVELS)
636 fprintf (stderr
, "suspend %s level 0x%08x line %d\n",
637 (is_class_level
) ? "class" : "block",
638 current_binding_level
, lineno
);
639 if (is_class_level
!= (current_binding_level
== class_binding_level
))
642 fprintf (stderr
, "XXX is_class_level != (current_binding_level == class_binding_level)\n");
645 #endif /* defined(DEBUG_CP_BINDING_LEVELS) */
646 current_binding_level
= current_binding_level
->level_chain
;
647 find_class_binding_level ();
651 resume_binding_level (b
)
652 struct binding_level
*b
;
654 /* Resuming binding levels is meant only for namespaces,
655 and those cannot nest into classes. */
656 my_friendly_assert(!class_binding_level
, 386);
657 /* Also, resuming a non-directly nested namespace is a no-no. */
658 my_friendly_assert(b
->level_chain
== current_binding_level
, 386);
659 current_binding_level
= b
;
660 #if defined(DEBUG_CP_BINDING_LEVELS)
661 b
->binding_depth
= binding_depth
;
663 fprintf (stderr
, "resume %s level 0x%08x line %d\n",
664 (is_class_level
) ? "class" : "block", b
, lineno
);
667 #endif /* defined(DEBUG_CP_BINDING_LEVELS) */
670 /* Create a new `struct binding_level'. */
673 struct binding_level
*
674 make_binding_level ()
677 return (struct binding_level
*) xmalloc (sizeof (struct binding_level
));
680 /* Nonzero if we are currently in the global binding level. */
685 return current_binding_level
== global_binding_level
;
688 /* Return the innermost binding level that is not for a class scope. */
690 static struct binding_level
*
691 innermost_nonclass_level ()
693 struct binding_level
*b
;
695 b
= current_binding_level
;
696 while (b
->parm_flag
== 2)
702 /* Nonzero if we are currently in a toplevel binding level. This
703 means either the global binding level or a namespace in a toplevel
704 binding level. Since there are no non-toplevel namespace levels,
705 this really means any namespace or template parameter level. We
706 also include a class whose context is toplevel. */
709 toplevel_bindings_p ()
711 struct binding_level
*b
= innermost_nonclass_level ();
713 return b
->namespace_p
|| b
->template_parms_p
;
716 /* Nonzero if this is a namespace scope, or if we are defining a class
717 which is itself at namespace scope, or whose enclosing class is
718 such a class, etc. */
721 namespace_bindings_p ()
723 struct binding_level
*b
= innermost_nonclass_level ();
725 return b
->namespace_p
;
728 /* If KEEP is non-zero, make a BLOCK node for the next binding level,
729 unconditionally. Otherwise, use the normal logic to decide whether
730 or not to create a BLOCK. */
733 keep_next_level (keep
)
736 keep_next_level_flag
= keep
;
739 /* Nonzero if the current level needs to have a BLOCK made. */
744 return (current_binding_level
->blocks
!= NULL_TREE
745 || current_binding_level
->keep
746 || current_binding_level
->names
!= NULL_TREE
747 || (current_binding_level
->tags
!= NULL_TREE
748 && !current_binding_level
->tag_transparent
));
752 declare_namespace_level ()
754 current_binding_level
->namespace_p
= 1;
757 /* Returns non-zero if this scope was created to store template
761 template_parm_scope_p ()
763 return current_binding_level
->template_parms_p
;
766 /* Returns the kind of template specialization we are currently
767 processing, given that it's declaration contained N_CLASS_SCOPES
768 explicit scope qualifications. */
771 current_tmpl_spec_kind (n_class_scopes
)
774 int n_template_parm_scopes
= 0;
775 int seen_specialization_p
= 0;
776 int innermost_specialization_p
= 0;
777 struct binding_level
*b
;
779 /* Scan through the template parameter scopes. */
780 for (b
= current_binding_level
; b
->template_parms_p
; b
= b
->level_chain
)
782 /* If we see a specialization scope inside a parameter scope,
783 then something is wrong. That corresponds to a declaration
786 template <class T> template <> ...
788 which is always illegal since [temp.expl.spec] forbids the
789 specialization of a class member template if the enclosing
790 class templates are not explicitly specialized as well. */
791 if (b
->template_spec_p
)
793 if (n_template_parm_scopes
== 0)
794 innermost_specialization_p
= 1;
796 seen_specialization_p
= 1;
798 else if (seen_specialization_p
== 1)
799 return tsk_invalid_member_spec
;
801 ++n_template_parm_scopes
;
804 /* Handle explicit instantiations. */
805 if (processing_explicit_instantiation
)
807 if (n_template_parm_scopes
!= 0)
808 /* We've seen a template parameter list during an explicit
809 instantiation. For example:
811 template <class T> template void f(int);
813 This is erroneous. */
814 return tsk_invalid_expl_inst
;
816 return tsk_expl_inst
;
819 if (n_template_parm_scopes
< n_class_scopes
)
820 /* We've not seen enough template headers to match all the
821 specialized classes present. For example:
823 template <class T> void R<T>::S<T>::f(int);
825 This is illegal; there needs to be one set of template
826 parameters for each class. */
827 return tsk_insufficient_parms
;
828 else if (n_template_parm_scopes
== n_class_scopes
)
829 /* We're processing a non-template declaration (even though it may
830 be a member of a template class.) For example:
832 template <class T> void S<T>::f(int);
834 The `class T' maches the `S<T>', leaving no template headers
835 corresponding to the `f'. */
837 else if (n_template_parm_scopes
> n_class_scopes
+ 1)
838 /* We've got too many template headers. For example:
840 template <> template <class T> void f (T);
842 There need to be more enclosing classes. */
843 return tsk_excessive_parms
;
845 /* This must be a template. It's of the form:
847 template <class T> template <class U> void S<T>::f(U);
849 This is a specialization if the innermost level was a
850 specialization; otherwise it's just a definition of the
852 return innermost_specialization_p
? tsk_expl_spec
: tsk_template
;
856 set_class_shadows (shadows
)
859 class_binding_level
->class_shadowed
= shadows
;
862 /* Enter a new binding level.
863 If TAG_TRANSPARENT is nonzero, do so only for the name space of variables,
864 not for that of tags. */
867 pushlevel (tag_transparent
)
870 struct binding_level
*newlevel
;
872 if (cfun
&& !doing_semantic_analysis_p ())
875 /* Reuse or create a struct for this binding level. */
876 #if defined(DEBUG_CP_BINDING_LEVELS)
878 #else /* !defined(DEBUG_CP_BINDING_LEVELS) */
879 if (free_binding_level
)
880 #endif /* !defined(DEBUG_CP_BINDING_LEVELS) */
882 newlevel
= free_binding_level
;
883 free_binding_level
= free_binding_level
->level_chain
;
886 newlevel
= make_binding_level ();
888 push_binding_level (newlevel
, tag_transparent
, keep_next_level_flag
);
889 GNU_xref_start_scope ((HOST_WIDE_INT
) newlevel
);
890 keep_next_level_flag
= 0;
893 /* Enter a new scope. The KIND indicates what kind of scope is being
904 case sk_template_spec
:
905 current_binding_level
->template_spec_p
= 1;
908 case sk_template_parms
:
909 current_binding_level
->template_parms_p
= 1;
913 my_friendly_abort (20000309);
917 /* Exit the current scope. */
926 note_level_for_for ()
928 current_binding_level
->is_for_scope
= 1;
931 /* For a binding between a name and an entity at a block scope,
932 this is the `struct binding_level' for the block. */
933 #define BINDING_LEVEL(NODE) \
934 (((struct tree_binding*)NODE)->scope.level)
936 /* Make DECL the innermost binding for ID. The LEVEL is the binding
937 level at which this declaration is being bound. */
940 push_binding (id
, decl
, level
)
943 struct binding_level
* level
;
947 binding
= make_node (CPLUS_BINDING
);
949 /* Now, fill in the binding information. */
950 BINDING_VALUE (binding
) = decl
;
951 BINDING_TYPE (binding
) = NULL_TREE
;
952 BINDING_LEVEL (binding
) = level
;
953 INHERITED_VALUE_BINDING_P (binding
) = 0;
954 LOCAL_BINDING_P (binding
) = (level
!= class_binding_level
);
955 BINDING_HAS_LEVEL_P (binding
) = 1;
957 /* And put it on the front of the list of bindings for ID. */
958 TREE_CHAIN (binding
) = IDENTIFIER_BINDING (id
);
959 IDENTIFIER_BINDING (id
) = binding
;
962 /* ID is already bound in the current scope. But, DECL is an
963 additional binding for ID in the same scope. This is the `struct
964 stat' hack whereby a non-typedef class-name or enum-name can be
965 bound at the same level as some other kind of entity. It's the
966 responsibility of the caller to check that inserting this name is
967 legal here. Returns nonzero if the new binding was successful. */
969 add_binding (id
, decl
)
973 tree binding
= IDENTIFIER_BINDING (id
);
976 if (TREE_CODE (decl
) == TYPE_DECL
&& DECL_ARTIFICIAL (decl
))
977 /* The new name is the type name. */
978 BINDING_TYPE (binding
) = decl
;
979 else if (!BINDING_VALUE (binding
))
980 /* This situation arises when push_class_level_binding moves an
981 inherited type-binding out of the way to make room for a new
983 BINDING_VALUE (binding
) = decl
;
984 else if (TREE_CODE (BINDING_VALUE (binding
)) == TYPE_DECL
985 && DECL_ARTIFICIAL (BINDING_VALUE (binding
)))
987 /* The old binding was a type name. It was placed in
988 BINDING_VALUE because it was thought, at the point it was
989 declared, to be the only entity with such a name. Move the
990 type name into the type slot; it is now hidden by the new
992 BINDING_TYPE (binding
) = BINDING_VALUE (binding
);
993 BINDING_VALUE (binding
) = decl
;
994 INHERITED_VALUE_BINDING_P (binding
) = 0;
996 else if (TREE_CODE (BINDING_VALUE (binding
)) == TYPE_DECL
997 && TREE_CODE (decl
) == TYPE_DECL
998 && DECL_NAME (decl
) == DECL_NAME (BINDING_VALUE (binding
))
999 && same_type_p (TREE_TYPE (decl
),
1000 TREE_TYPE (BINDING_VALUE (binding
))))
1001 /* We have two typedef-names, both naming the same type to have
1002 the same name. This is OK because of:
1006 In a given scope, a typedef specifier can be used to redefine
1007 the name of any type declared in that scope to refer to the
1008 type to which it already refers. */
1012 cp_error ("declaration of `%#D'", decl
);
1013 cp_error_at ("conflicts with previous declaration `%#D'",
1014 BINDING_VALUE (binding
));
1021 /* Add DECL to the list of things declared in B. */
1024 add_decl_to_level (decl
, b
)
1026 struct binding_level
*b
;
1028 /* We build up the list in reverse order, and reverse it later if
1030 TREE_CHAIN (decl
) = b
->names
;
1034 /* Bind DECL to ID in the current_binding_level, assumed to be a local
1035 binding level. If PUSH_USING is set in FLAGS, we know that DECL
1036 doesn't really belong to this binding level, that it got here
1037 through a using-declaration. */
1040 push_local_binding (id
, decl
, flags
)
1045 struct binding_level
*b
;
1047 /* Skip over any local classes. This makes sense if we call
1048 push_local_binding with a friend decl of a local class. */
1049 b
= current_binding_level
;
1050 while (b
->parm_flag
== 2)
1053 if (lookup_name_current_level (id
))
1055 /* Supplement the existing binding. */
1056 if (!add_binding (id
, decl
))
1057 /* It didn't work. Something else must be bound at this
1058 level. Do not add DECL to the list of things to pop
1063 /* Create a new binding. */
1064 push_binding (id
, decl
, b
);
1066 if (TREE_CODE (decl
) == OVERLOAD
|| (flags
& PUSH_USING
))
1067 /* We must put the OVERLOAD into a TREE_LIST since the
1068 TREE_CHAIN of an OVERLOAD is already used. Similarly for
1069 decls that got here through a using-declaration. */
1070 decl
= build_tree_list (NULL_TREE
, decl
);
1072 /* And put DECL on the list of things declared by the current
1074 add_decl_to_level (decl
, b
);
1077 /* Bind DECL to ID in the class_binding_level. Returns nonzero if the
1078 binding was successful. */
1081 push_class_binding (id
, decl
)
1086 tree binding
= IDENTIFIER_BINDING (id
);
1089 /* Note that we declared this value so that we can issue an error if
1090 this an illegal redeclaration of a name already used for some
1092 note_name_declared_in_class (id
, decl
);
1094 if (binding
&& BINDING_LEVEL (binding
) == class_binding_level
)
1095 /* Supplement the existing binding. */
1096 result
= add_binding (id
, decl
);
1098 /* Create a new binding. */
1099 push_binding (id
, decl
, class_binding_level
);
1101 /* Update the IDENTIFIER_CLASS_VALUE for this ID to be the
1102 class-level declaration. Note that we do not use DECL here
1103 because of the possibility of the `struct stat' hack; if DECL is
1104 a class-name or enum-name we might prefer a field-name, or some
1106 IDENTIFIER_CLASS_VALUE (id
) = BINDING_VALUE (IDENTIFIER_BINDING (id
));
1108 /* If this is a binding from a base class, mark it as such. */
1109 binding
= IDENTIFIER_BINDING (id
);
1110 if (BINDING_VALUE (binding
) == decl
&& TREE_CODE (decl
) != TREE_LIST
)
1112 /* Any implicit typename must be from a base-class. The
1113 context for an implicit typename declaration is always
1114 the derived class in which the lookup was done, so the checks
1115 based on the context of DECL below will not trigger. */
1116 if (IMPLICIT_TYPENAME_TYPE_DECL_P (decl
))
1117 INHERITED_VALUE_BINDING_P (binding
) = 1;
1120 if (TREE_CODE (decl
) == OVERLOAD
)
1121 context
= CP_DECL_CONTEXT (OVL_CURRENT (decl
));
1124 my_friendly_assert (DECL_P (decl
), 0);
1125 context
= CP_DECL_CONTEXT (decl
);
1128 if (is_properly_derived_from (current_class_type
, context
))
1129 INHERITED_VALUE_BINDING_P (binding
) = 1;
1131 INHERITED_VALUE_BINDING_P (binding
) = 0;
1134 else if (BINDING_VALUE (binding
) == decl
)
1135 /* We only encounter a TREE_LIST when push_class_decls detects an
1136 ambiguity. Such an ambiguity can be overridden by a definition
1138 INHERITED_VALUE_BINDING_P (binding
) = 1;
1143 /* Remove the binding for DECL which should be the innermost binding
1147 pop_binding (id
, decl
)
1153 if (id
== NULL_TREE
)
1154 /* It's easiest to write the loops that call this function without
1155 checking whether or not the entities involved have names. We
1156 get here for such an entity. */
1159 /* Get the innermost binding for ID. */
1160 binding
= IDENTIFIER_BINDING (id
);
1162 /* The name should be bound. */
1163 my_friendly_assert (binding
!= NULL_TREE
, 0);
1165 /* The DECL will be either the ordinary binding or the type
1166 binding for this identifier. Remove that binding. */
1167 if (BINDING_VALUE (binding
) == decl
)
1168 BINDING_VALUE (binding
) = NULL_TREE
;
1169 else if (BINDING_TYPE (binding
) == decl
)
1170 BINDING_TYPE (binding
) = NULL_TREE
;
1172 my_friendly_abort (0);
1174 if (!BINDING_VALUE (binding
) && !BINDING_TYPE (binding
))
1175 /* We're completely done with the innermost binding for this
1176 identifier. Unhook it from the list of bindings. */
1177 IDENTIFIER_BINDING (id
) = TREE_CHAIN (binding
);
1180 /* When a label goes out of scope, check to see if that label was used
1181 in a valid manner, and issue any appropriate warnings or errors. */
1187 tree label
= TREE_VALUE (link
);
1189 if (!processing_template_decl
&& doing_semantic_analysis_p ())
1191 if (DECL_INITIAL (label
) == NULL_TREE
)
1193 cp_error_at ("label `%D' used but not defined", label
);
1194 /* Avoid crashing later. */
1195 define_label (input_filename
, 1, DECL_NAME (label
));
1197 else if (warn_unused
&& !TREE_USED (label
))
1198 cp_warning_at ("label `%D' defined but not used", label
);
1201 SET_IDENTIFIER_LABEL_VALUE (DECL_NAME (label
), TREE_PURPOSE (link
));
1204 /* At the end of a function, all labels declared within the fucntion
1205 go out of scope. BLOCK is the top-level block for the
1214 /* Clear out the definitions of all label names, since their scopes
1216 for (link
= named_labels
; link
; link
= TREE_CHAIN (link
))
1219 /* Put the labels into the "variables" of the top-level block,
1220 so debugger can see them. */
1221 TREE_CHAIN (TREE_VALUE (link
)) = BLOCK_VARS (block
);
1222 BLOCK_VARS (block
) = TREE_VALUE (link
);
1225 named_labels
= NULL_TREE
;
1228 /* Exit a binding level.
1229 Pop the level off, and restore the state of the identifier-decl mappings
1230 that were in effect when this level was entered.
1232 If KEEP == 1, this level had explicit declarations, so
1233 and create a "block" (a BLOCK node) for the level
1234 to record its declarations and subblocks for symbol table output.
1236 If FUNCTIONBODY is nonzero, this level is the body of a function,
1237 so create a block as if KEEP were set and also clear out all
1240 If REVERSE is nonzero, reverse the order of decls before putting
1241 them into the BLOCK. */
1244 poplevel (keep
, reverse
, functionbody
)
1250 /* The chain of decls was accumulated in reverse order.
1251 Put it into forward order, just for cleanliness. */
1253 int tmp
= functionbody
;
1254 int real_functionbody
;
1257 tree block
= NULL_TREE
;
1259 int block_previously_created
;
1260 int leaving_for_scope
;
1262 if (cfun
&& !doing_semantic_analysis_p ())
1265 my_friendly_assert (current_binding_level
->parm_flag
!= 2,
1268 real_functionbody
= (current_binding_level
->keep
== 2
1269 ? ((functionbody
= 0), tmp
) : functionbody
);
1270 tags
= functionbody
>= 0 ? current_binding_level
->tags
: 0;
1271 subblocks
= functionbody
>= 0 ? current_binding_level
->blocks
: 0;
1273 my_friendly_assert (!current_binding_level
->class_shadowed
,
1276 /* We used to use KEEP == 2 to indicate that the new block should go
1277 at the beginning of the list of blocks at this binding level,
1278 rather than the end. This hack is no longer used. */
1279 my_friendly_assert (keep
== 0 || keep
== 1, 0);
1281 GNU_xref_end_scope ((HOST_WIDE_INT
) current_binding_level
,
1282 (HOST_WIDE_INT
) current_binding_level
->level_chain
,
1283 current_binding_level
->parm_flag
,
1284 current_binding_level
->keep
);
1286 if (current_binding_level
->keep
== 1)
1289 /* Get the decls in the order they were written.
1290 Usually current_binding_level->names is in reverse order.
1291 But parameter decls were previously put in forward order. */
1294 current_binding_level
->names
1295 = decls
= nreverse (current_binding_level
->names
);
1297 decls
= current_binding_level
->names
;
1299 /* Output any nested inline functions within this block
1300 if they weren't already output. */
1301 for (decl
= decls
; decl
; decl
= TREE_CHAIN (decl
))
1302 if (TREE_CODE (decl
) == FUNCTION_DECL
1303 && ! TREE_ASM_WRITTEN (decl
)
1304 && DECL_INITIAL (decl
) != NULL_TREE
1305 && TREE_ADDRESSABLE (decl
)
1306 && decl_function_context (decl
) == current_function_decl
)
1308 /* If this decl was copied from a file-scope decl
1309 on account of a block-scope extern decl,
1310 propagate TREE_ADDRESSABLE to the file-scope decl. */
1311 if (DECL_ABSTRACT_ORIGIN (decl
) != NULL_TREE
)
1312 TREE_ADDRESSABLE (DECL_ABSTRACT_ORIGIN (decl
)) = 1;
1315 push_function_context ();
1316 output_inline_function (decl
);
1317 pop_function_context ();
1321 /* When not in function-at-a-time mode, expand_end_bindings will
1322 warn about unused variables. But, in function-at-a-time mode
1323 expand_end_bindings is not passed the list of variables in the
1324 current scope, and therefore no warning is emitted. So, we
1325 explicitly warn here. */
1326 if (!processing_template_decl
)
1327 warn_about_unused_variables (getdecls ());
1329 /* If there were any declarations or structure tags in that level,
1330 or if this level is a function body,
1331 create a BLOCK to record them for the life of this function. */
1333 block_previously_created
= (current_binding_level
->this_block
!= NULL_TREE
);
1334 if (block_previously_created
)
1335 block
= current_binding_level
->this_block
;
1336 else if (keep
== 1 || functionbody
)
1337 block
= make_node (BLOCK
);
1338 if (block
!= NULL_TREE
)
1340 if (block_previously_created
)
1342 if (decls
|| tags
|| subblocks
)
1344 if (BLOCK_VARS (block
))
1345 warning ("internal compiler error: debugging info corrupted");
1347 BLOCK_VARS (block
) = decls
;
1349 /* We can have previous subblocks and new subblocks when
1350 doing fixup_gotos with complex cleanups. We chain the new
1351 subblocks onto the end of any pre-existing subblocks. */
1352 BLOCK_SUBBLOCKS (block
) = chainon (BLOCK_SUBBLOCKS (block
),
1358 BLOCK_VARS (block
) = decls
;
1359 BLOCK_SUBBLOCKS (block
) = subblocks
;
1363 /* In each subblock, record that this is its superior. */
1365 for (link
= subblocks
; link
; link
= TREE_CHAIN (link
))
1366 BLOCK_SUPERCONTEXT (link
) = block
;
1368 /* We still support the old for-scope rules, whereby the variables
1369 in a for-init statement were in scope after the for-statement
1370 ended. We only use the new rules in flag_new_for_scope is
1373 = current_binding_level
->is_for_scope
&& flag_new_for_scope
== 1;
1375 /* Remove declarations for all the DECLs in this level. */
1376 for (link
= decls
; link
; link
= TREE_CHAIN (link
))
1378 if (leaving_for_scope
&& TREE_CODE (link
) == VAR_DECL
)
1381 = TREE_CHAIN (IDENTIFIER_BINDING (DECL_NAME (link
)));
1385 ns_binding
= IDENTIFIER_NAMESPACE_VALUE (DECL_NAME (link
));
1387 ns_binding
= NULL_TREE
;
1390 && (BINDING_LEVEL (outer_binding
)
1391 == current_binding_level
->level_chain
))
1392 /* We have something like:
1397 and we are leaving the `for' scope. There's no reason to
1398 keep the binding of the inner `i' in this case. */
1399 pop_binding (DECL_NAME (link
), link
);
1400 else if ((outer_binding
1401 && (TREE_CODE (BINDING_VALUE (outer_binding
))
1404 && TREE_CODE (ns_binding
) == TYPE_DECL
))
1405 /* Here, we have something like:
1413 We must pop the for-scope binding so we know what's a
1414 type and what isn't. */
1415 pop_binding (DECL_NAME (link
), link
);
1418 /* Mark this VAR_DECL as dead so that we can tell we left it
1419 there only for backward compatibility. */
1420 DECL_DEAD_FOR_LOCAL (link
) = 1;
1422 /* Keep track of what should of have happenned when we
1423 popped the binding. */
1424 if (outer_binding
&& BINDING_VALUE (outer_binding
))
1425 DECL_SHADOWED_FOR_VAR (link
)
1426 = BINDING_VALUE (outer_binding
);
1428 /* Add it to the list of dead variables in the next
1429 outermost binding to that we can remove these when we
1430 leave that binding. */
1431 current_binding_level
->level_chain
->dead_vars_from_for
1432 = tree_cons (NULL_TREE
, link
,
1433 current_binding_level
->level_chain
->
1434 dead_vars_from_for
);
1436 /* Although we don't pop the CPLUS_BINDING, we do clear
1437 its BINDING_LEVEL since the level is going away now. */
1438 BINDING_LEVEL (IDENTIFIER_BINDING (DECL_NAME (link
)))
1444 /* Remove the binding. */
1446 if (TREE_CODE (decl
) == TREE_LIST
)
1447 decl
= TREE_VALUE (decl
);
1449 pop_binding (DECL_NAME (decl
), decl
);
1450 else if (TREE_CODE (decl
) == OVERLOAD
)
1451 pop_binding (DECL_NAME (OVL_FUNCTION (decl
)), decl
);
1453 my_friendly_abort (0);
1457 /* Remove declarations for any `for' variables from inner scopes
1458 that we kept around. */
1459 for (link
= current_binding_level
->dead_vars_from_for
;
1460 link
; link
= TREE_CHAIN (link
))
1461 pop_binding (DECL_NAME (TREE_VALUE (link
)), TREE_VALUE (link
));
1463 /* Restore the IDENTIFIER_TYPE_VALUEs. */
1464 for (link
= current_binding_level
->type_shadowed
;
1465 link
; link
= TREE_CHAIN (link
))
1466 SET_IDENTIFIER_TYPE_VALUE (TREE_PURPOSE (link
), TREE_VALUE (link
));
1468 /* Restore the IDENTIFIER_LABEL_VALUEs for local labels. */
1469 for (link
= current_binding_level
->shadowed_labels
;
1471 link
= TREE_CHAIN (link
))
1474 /* There may be OVERLOADs (wrapped in TREE_LISTs) on the BLOCK_VARs
1475 list if a `using' declaration put them there. The debugging
1476 back-ends won't understand OVERLOAD, so we remove them here.
1477 Because the BLOCK_VARS are (temporarily) shared with
1478 CURRENT_BINDING_LEVEL->NAMES we must do this fixup after we have
1479 popped all the bindings. */
1484 for (d
= &BLOCK_VARS (block
); *d
; )
1486 if (TREE_CODE (*d
) == TREE_LIST
)
1487 *d
= TREE_CHAIN (*d
);
1489 d
= &TREE_CHAIN (*d
);
1493 /* If the level being exited is the top level of a function,
1494 check over all the labels. */
1497 /* Since this is the top level block of a function, the vars are
1498 the function's parameters. Don't leave them in the BLOCK
1499 because they are found in the FUNCTION_DECL instead. */
1500 BLOCK_VARS (block
) = 0;
1504 /* Any uses of undefined labels now operate under constraints
1505 of next binding contour. */
1508 struct binding_level
*level_chain
;
1509 level_chain
= current_binding_level
->level_chain
;
1512 struct named_label_list
*labels
;
1513 for (labels
= named_label_uses
; labels
; labels
= labels
->next
)
1514 if (labels
->binding_level
== current_binding_level
)
1516 labels
->binding_level
= level_chain
;
1517 labels
->names_in_scope
= level_chain
->names
;
1522 tmp
= current_binding_level
->keep
;
1524 pop_binding_level ();
1526 DECL_INITIAL (current_function_decl
) = block
;
1529 if (!block_previously_created
)
1530 current_binding_level
->blocks
1531 = chainon (current_binding_level
->blocks
, block
);
1533 /* If we did not make a block for the level just exited,
1534 any blocks made for inner levels
1535 (since they cannot be recorded as subblocks in that level)
1536 must be carried forward so they will later become subblocks
1537 of something else. */
1539 current_binding_level
->blocks
1540 = chainon (current_binding_level
->blocks
, subblocks
);
1542 /* Each and every BLOCK node created here in `poplevel' is important
1543 (e.g. for proper debugging information) so if we created one
1544 earlier, mark it as "used". */
1546 TREE_USED (block
) = 1;
1548 /* Take care of compiler's internal binding structures. */
1554 = add_scope_stmt (/*begin_p=*/0, /*partial_p=*/1);
1557 SCOPE_STMT_BLOCK (TREE_PURPOSE (scope_stmts
)) = block
;
1558 SCOPE_STMT_BLOCK (TREE_VALUE (scope_stmts
)) = block
;
1561 block
= poplevel (keep
, reverse
, functionbody
);
1567 /* Delete the node BLOCK from the current binding level.
1568 This is used for the block inside a stmt expr ({...})
1569 so that the block can be reinserted where appropriate. */
1572 delete_block (block
)
1576 if (current_binding_level
->blocks
== block
)
1577 current_binding_level
->blocks
= TREE_CHAIN (block
);
1578 for (t
= current_binding_level
->blocks
; t
;)
1580 if (TREE_CHAIN (t
) == block
)
1581 TREE_CHAIN (t
) = TREE_CHAIN (block
);
1585 TREE_CHAIN (block
) = NULL_TREE
;
1586 /* Clear TREE_USED which is always set by poplevel.
1587 The flag is set again if insert_block is called. */
1588 TREE_USED (block
) = 0;
1591 /* Insert BLOCK at the end of the list of subblocks of the
1592 current binding level. This is used when a BIND_EXPR is expanded,
1593 to handle the BLOCK node inside the BIND_EXPR. */
1596 insert_block (block
)
1599 TREE_USED (block
) = 1;
1600 current_binding_level
->blocks
1601 = chainon (current_binding_level
->blocks
, block
);
1604 /* Set the BLOCK node for the innermost scope
1605 (the one we are currently in). */
1609 register tree block
;
1611 current_binding_level
->this_block
= block
;
1614 /* Do a pushlevel for class declarations. */
1619 register struct binding_level
*newlevel
;
1621 /* Reuse or create a struct for this binding level. */
1622 #if defined(DEBUG_CP_BINDING_LEVELS)
1624 #else /* !defined(DEBUG_CP_BINDING_LEVELS) */
1625 if (free_binding_level
)
1626 #endif /* !defined(DEBUG_CP_BINDING_LEVELS) */
1628 newlevel
= free_binding_level
;
1629 free_binding_level
= free_binding_level
->level_chain
;
1632 newlevel
= make_binding_level ();
1634 #if defined(DEBUG_CP_BINDING_LEVELS)
1636 #endif /* defined(DEBUG_CP_BINDING_LEVELS) */
1638 push_binding_level (newlevel
, 0, 0);
1640 class_binding_level
= current_binding_level
;
1641 class_binding_level
->parm_flag
= 2;
1642 class_binding_level
->this_class
= current_class_type
;
1645 /* ...and a poplevel for class declarations. */
1650 register struct binding_level
*level
= class_binding_level
;
1653 my_friendly_assert (level
!= 0, 354);
1655 /* If we're leaving a toplevel class, don't bother to do the setting
1656 of IDENTIFIER_CLASS_VALUE to NULL_TREE, since first of all this slot
1657 shouldn't even be used when current_class_type isn't set, and second,
1658 if we don't touch it here, we're able to use the cache effect if the
1659 next time we're entering a class scope, it is the same class. */
1660 if (current_class_depth
!= 1)
1662 struct binding_level
* b
;
1664 /* Clear out our IDENTIFIER_CLASS_VALUEs. */
1665 for (shadowed
= level
->class_shadowed
;
1667 shadowed
= TREE_CHAIN (shadowed
))
1668 IDENTIFIER_CLASS_VALUE (TREE_PURPOSE (shadowed
)) = NULL_TREE
;
1670 /* Find the next enclosing class, and recreate
1671 IDENTIFIER_CLASS_VALUEs appropriate for that class. */
1672 b
= level
->level_chain
;
1673 while (b
&& b
->parm_flag
!= 2)
1677 for (shadowed
= b
->class_shadowed
;
1679 shadowed
= TREE_CHAIN (shadowed
))
1683 t
= IDENTIFIER_BINDING (TREE_PURPOSE (shadowed
));
1684 while (t
&& BINDING_LEVEL (t
) != b
)
1688 IDENTIFIER_CLASS_VALUE (TREE_PURPOSE (shadowed
))
1689 = BINDING_VALUE (t
);
1693 /* Remember to save what IDENTIFIER's were bound in this scope so we
1694 can recover from cache misses. */
1696 previous_class_type
= current_class_type
;
1697 previous_class_values
= class_binding_level
->class_shadowed
;
1699 for (shadowed
= level
->type_shadowed
;
1701 shadowed
= TREE_CHAIN (shadowed
))
1702 SET_IDENTIFIER_TYPE_VALUE (TREE_PURPOSE (shadowed
), TREE_VALUE (shadowed
));
1704 /* Remove the bindings for all of the class-level declarations. */
1705 for (shadowed
= level
->class_shadowed
;
1707 shadowed
= TREE_CHAIN (shadowed
))
1708 pop_binding (TREE_PURPOSE (shadowed
), TREE_TYPE (shadowed
));
1710 GNU_xref_end_scope ((HOST_WIDE_INT
) class_binding_level
,
1711 (HOST_WIDE_INT
) class_binding_level
->level_chain
,
1712 class_binding_level
->parm_flag
,
1713 class_binding_level
->keep
);
1715 /* Now, pop out of the binding level which we created up in the
1716 `pushlevel_class' routine. */
1717 #if defined(DEBUG_CP_BINDING_LEVELS)
1719 #endif /* defined(DEBUG_CP_BINDING_LEVELS) */
1721 pop_binding_level ();
1724 /* We are entering the scope of a class. Clear IDENTIFIER_CLASS_VALUE
1725 for any names in enclosing classes. */
1728 clear_identifier_class_values ()
1732 if (!class_binding_level
)
1735 for (t
= class_binding_level
->class_shadowed
;
1738 IDENTIFIER_CLASS_VALUE (TREE_PURPOSE (t
)) = NULL_TREE
;
1741 /* Returns non-zero if T is a virtual function table. */
1744 vtable_decl_p (t
, data
)
1746 void *data ATTRIBUTE_UNUSED
;
1748 return (TREE_CODE (t
) == VAR_DECL
&& DECL_VIRTUAL_P (t
));
1751 /* Returns non-zero if T is a TYPE_DECL for a type with virtual
1755 vtype_decl_p (t
, data
)
1757 void *data ATTRIBUTE_UNUSED
;
1759 return (TREE_CODE (t
) == TYPE_DECL
1760 && TREE_CODE (TREE_TYPE (t
)) == RECORD_TYPE
1761 && TYPE_POLYMORPHIC_P (TREE_TYPE (t
)));
1764 /* Return the declarations that are members of the namespace NS. */
1767 cp_namespace_decls (ns
)
1770 return NAMESPACE_LEVEL (ns
)->names
;
1773 /* Walk all the namespaces contained NAMESPACE, including NAMESPACE
1774 itself, calling F for each. The DATA is passed to F as well. */
1777 walk_namespaces_r (namespace, f
, data
)
1779 walk_namespaces_fn f
;
1785 result
|= (*f
) (namespace, data
);
1787 for (current
= cp_namespace_decls (namespace);
1789 current
= TREE_CHAIN (current
))
1791 if (TREE_CODE (current
) != NAMESPACE_DECL
1792 || DECL_NAMESPACE_ALIAS (current
))
1794 if (!DECL_LANG_SPECIFIC (current
))
1797 my_friendly_assert (current
== std_node
, 393);
1801 /* We found a namespace. */
1802 result
|= walk_namespaces_r (current
, f
, data
);
1808 /* Walk all the namespaces, calling F for each. The DATA is passed to
1812 walk_namespaces (f
, data
)
1813 walk_namespaces_fn f
;
1816 return walk_namespaces_r (global_namespace
, f
, data
);
1819 struct walk_globals_data
{
1820 walk_globals_pred p
;
1825 /* Walk the global declarations in NAMESPACE. Whenever one is found
1826 for which P returns non-zero, call F with its address. If any call
1827 to F returns a non-zero value, return a non-zero value. */
1830 walk_globals_r (namespace, data
)
1834 struct walk_globals_data
* wgd
= (struct walk_globals_data
*) data
;
1835 walk_globals_pred p
= wgd
->p
;
1836 walk_globals_fn f
= wgd
->f
;
1837 void *d
= wgd
->data
;
1841 t
= &NAMESPACE_LEVEL (namespace)->names
;
1848 result
|= (*f
) (t
, d
);
1850 /* If F changed *T, then *T still points at the next item to
1853 t
= &TREE_CHAIN (*t
);
1859 /* Walk the global declarations. Whenever one is found for which P
1860 returns non-zero, call F with its address. If any call to F
1861 returns a non-zero value, return a non-zero value. */
1864 walk_globals (p
, f
, data
)
1865 walk_globals_pred p
;
1869 struct walk_globals_data wgd
;
1874 return walk_namespaces (walk_globals_r
, &wgd
);
1877 /* Call wrapup_globals_declarations for the globals in NAMESPACE. If
1878 DATA is non-NULL, this is the last time we will call
1879 wrapup_global_declarations for this NAMESPACE. */
1882 wrapup_globals_for_namespace (namespace, data
)
1886 tree globals
= cp_namespace_decls (namespace);
1887 int len
= list_length (globals
);
1888 tree
*vec
= (tree
*) alloca (sizeof (tree
) * len
);
1892 int last_time
= (data
!= 0);
1894 if (last_time
&& namespace == global_namespace
)
1895 /* Let compile_file handle the global namespace. */
1898 /* Process the decls in reverse order--earliest first.
1899 Put them into VEC from back to front, then take out from front. */
1901 for (i
= 0, decl
= globals
; i
< len
; i
++, decl
= TREE_CHAIN (decl
))
1903 /* Pretend we've output an unused static variable. This ensures
1904 that the toplevel __FUNCTION__ etc won't be emitted, unless
1906 if (TREE_CODE (decl
) == VAR_DECL
&& DECL_ARTIFICIAL (decl
)
1907 && !TREE_PUBLIC (decl
) && !TREE_USED (decl
))
1909 TREE_ASM_WRITTEN (decl
) = 1;
1910 DECL_IGNORED_P (decl
) = 1;
1912 vec
[len
- i
- 1] = decl
;
1917 check_global_declarations (vec
, len
);
1921 /* Temporarily mark vtables as external. That prevents
1922 wrapup_global_declarations from writing them out; we must process
1923 them ourselves in finish_vtable_vardecl. */
1924 for (i
= 0; i
< len
; ++i
)
1925 if (vtable_decl_p (vec
[i
], /*data=*/0) && !DECL_EXTERNAL (vec
[i
]))
1927 DECL_NOT_REALLY_EXTERN (vec
[i
]) = 1;
1928 DECL_EXTERNAL (vec
[i
]) = 1;
1931 /* Write out any globals that need to be output. */
1932 result
= wrapup_global_declarations (vec
, len
);
1934 /* Undo the hack to DECL_EXTERNAL above. */
1935 for (i
= 0; i
< len
; ++i
)
1936 if (vtable_decl_p (vec
[i
], /*data=*/0)
1937 && DECL_NOT_REALLY_EXTERN (vec
[i
]))
1939 DECL_NOT_REALLY_EXTERN (vec
[i
]) = 0;
1940 DECL_EXTERNAL (vec
[i
]) = 0;
1947 /* Mark ARG (which is really a struct binding_level **) for GC. */
1950 mark_binding_level (arg
)
1953 struct binding_level
*lvl
= *(struct binding_level
**)arg
;
1957 ggc_mark_tree (lvl
->names
);
1958 ggc_mark_tree (lvl
->tags
);
1959 ggc_mark_tree (lvl
->usings
);
1960 ggc_mark_tree (lvl
->using_directives
);
1961 ggc_mark_tree (lvl
->class_shadowed
);
1962 ggc_mark_tree (lvl
->type_shadowed
);
1963 ggc_mark_tree (lvl
->shadowed_labels
);
1964 ggc_mark_tree (lvl
->blocks
);
1965 ggc_mark_tree (lvl
->this_block
);
1966 ggc_mark_tree (lvl
->this_class
);
1967 ggc_mark_tree (lvl
->incomplete
);
1968 ggc_mark_tree (lvl
->dead_vars_from_for
);
1970 lvl
= lvl
->level_chain
;
1974 /* For debugging. */
1975 static int no_print_functions
= 0;
1976 static int no_print_builtins
= 0;
1979 print_binding_level (lvl
)
1980 struct binding_level
*lvl
;
1984 fprintf (stderr
, " blocks=");
1985 fprintf (stderr
, HOST_PTR_PRINTF
, lvl
->blocks
);
1986 fprintf (stderr
, " n_incomplete=%d parm_flag=%d keep=%d",
1987 list_length (lvl
->incomplete
), lvl
->parm_flag
, lvl
->keep
);
1988 if (lvl
->tag_transparent
)
1989 fprintf (stderr
, " tag-transparent");
1990 if (lvl
->more_cleanups_ok
)
1991 fprintf (stderr
, " more-cleanups-ok");
1992 if (lvl
->have_cleanups
)
1993 fprintf (stderr
, " have-cleanups");
1994 fprintf (stderr
, "\n");
1997 fprintf (stderr
, " names:\t");
1998 /* We can probably fit 3 names to a line? */
1999 for (t
= lvl
->names
; t
; t
= TREE_CHAIN (t
))
2001 if (no_print_functions
&& (TREE_CODE (t
) == FUNCTION_DECL
))
2003 if (no_print_builtins
2004 && (TREE_CODE (t
) == TYPE_DECL
)
2005 && (!strcmp (DECL_SOURCE_FILE (t
),"<built-in>")))
2008 /* Function decls tend to have longer names. */
2009 if (TREE_CODE (t
) == FUNCTION_DECL
)
2016 fprintf (stderr
, "\n\t");
2019 print_node_brief (stderr
, "", t
, 0);
2020 if (t
== error_mark_node
)
2024 fprintf (stderr
, "\n");
2028 fprintf (stderr
, " tags:\t");
2030 for (t
= lvl
->tags
; t
; t
= TREE_CHAIN (t
))
2032 if (TREE_PURPOSE (t
) == NULL_TREE
)
2034 else if (TREE_PURPOSE (t
) == TYPE_IDENTIFIER (TREE_VALUE (t
)))
2041 fprintf (stderr
, "\n\t");
2044 if (TREE_PURPOSE (t
) == NULL_TREE
)
2046 print_node_brief (stderr
, "<unnamed-typedef", TREE_VALUE (t
), 0);
2047 fprintf (stderr
, ">");
2049 else if (TREE_PURPOSE (t
) == TYPE_IDENTIFIER (TREE_VALUE (t
)))
2050 print_node_brief (stderr
, "", TREE_VALUE (t
), 0);
2053 print_node_brief (stderr
, "<typedef", TREE_PURPOSE (t
), 0);
2054 print_node_brief (stderr
, "", TREE_VALUE (t
), 0);
2055 fprintf (stderr
, ">");
2059 fprintf (stderr
, "\n");
2061 if (lvl
->class_shadowed
)
2063 fprintf (stderr
, " class-shadowed:");
2064 for (t
= lvl
->class_shadowed
; t
; t
= TREE_CHAIN (t
))
2066 fprintf (stderr
, " %s ", IDENTIFIER_POINTER (TREE_PURPOSE (t
)));
2068 fprintf (stderr
, "\n");
2070 if (lvl
->type_shadowed
)
2072 fprintf (stderr
, " type-shadowed:");
2073 for (t
= lvl
->type_shadowed
; t
; t
= TREE_CHAIN (t
))
2075 fprintf (stderr
, " %s ", IDENTIFIER_POINTER (TREE_PURPOSE (t
)));
2077 fprintf (stderr
, "\n");
2082 print_other_binding_stack (stack
)
2083 struct binding_level
*stack
;
2085 struct binding_level
*level
;
2086 for (level
= stack
; level
!= global_binding_level
; level
= level
->level_chain
)
2088 fprintf (stderr
, "binding level ");
2089 fprintf (stderr
, HOST_PTR_PRINTF
, level
);
2090 fprintf (stderr
, "\n");
2091 print_binding_level (level
);
2096 print_binding_stack ()
2098 struct binding_level
*b
;
2099 fprintf (stderr
, "current_binding_level=");
2100 fprintf (stderr
, HOST_PTR_PRINTF
, current_binding_level
);
2101 fprintf (stderr
, "\nclass_binding_level=");
2102 fprintf (stderr
, HOST_PTR_PRINTF
, class_binding_level
);
2103 fprintf (stderr
, "\nglobal_binding_level=");
2104 fprintf (stderr
, HOST_PTR_PRINTF
, global_binding_level
);
2105 fprintf (stderr
, "\n");
2106 if (class_binding_level
)
2108 for (b
= class_binding_level
; b
; b
= b
->level_chain
)
2109 if (b
== current_binding_level
)
2112 b
= class_binding_level
;
2114 b
= current_binding_level
;
2117 b
= current_binding_level
;
2118 print_other_binding_stack (b
);
2119 fprintf (stderr
, "global:\n");
2120 print_binding_level (global_binding_level
);
2123 /* Namespace binding access routines: The namespace_bindings field of
2124 the identifier is polymorphic, with three possible values:
2125 NULL_TREE, a list of CPLUS_BINDINGS, or any other tree_node
2126 indicating the BINDING_VALUE of global_namespace. */
2128 /* Check whether the a binding for the name to scope is known.
2129 Assumes that the bindings of the name are already a list
2130 of bindings. Returns the binding found, or NULL_TREE. */
2133 find_binding (name
, scope
)
2137 tree iter
, prev
= NULL_TREE
;
2139 scope
= ORIGINAL_NAMESPACE (scope
);
2141 for (iter
= IDENTIFIER_NAMESPACE_BINDINGS (name
); iter
;
2142 iter
= TREE_CHAIN (iter
))
2144 my_friendly_assert (TREE_CODE (iter
) == CPLUS_BINDING
, 374);
2145 if (BINDING_SCOPE (iter
) == scope
)
2147 /* Move binding found to the front of the list, so
2148 subsequent lookups will find it faster. */
2151 TREE_CHAIN (prev
) = TREE_CHAIN (iter
);
2152 TREE_CHAIN (iter
) = IDENTIFIER_NAMESPACE_BINDINGS (name
);
2153 IDENTIFIER_NAMESPACE_BINDINGS (name
) = iter
;
2162 /* Always returns a binding for name in scope. If the
2163 namespace_bindings is not a list, convert it to one first.
2164 If no binding is found, make a new one. */
2167 binding_for_name (name
, scope
)
2171 tree b
= IDENTIFIER_NAMESPACE_BINDINGS (name
);
2174 scope
= ORIGINAL_NAMESPACE (scope
);
2176 if (b
&& TREE_CODE (b
) != CPLUS_BINDING
)
2178 /* Get rid of optimization for global scope. */
2179 IDENTIFIER_NAMESPACE_BINDINGS (name
) = NULL_TREE
;
2180 BINDING_VALUE (binding_for_name (name
, global_namespace
)) = b
;
2181 b
= IDENTIFIER_NAMESPACE_BINDINGS (name
);
2183 if (b
&& (result
= find_binding (name
, scope
)))
2185 /* Not found, make a new one. */
2186 result
= make_node (CPLUS_BINDING
);
2187 TREE_CHAIN (result
) = b
;
2188 IDENTIFIER_NAMESPACE_BINDINGS (name
) = result
;
2189 BINDING_SCOPE (result
) = scope
;
2190 BINDING_TYPE (result
) = NULL_TREE
;
2191 BINDING_VALUE (result
) = NULL_TREE
;
2195 /* Return the binding value for name in scope, considering that
2196 namespace_binding may or may not be a list of CPLUS_BINDINGS. */
2199 namespace_binding (name
, scope
)
2203 tree b
= IDENTIFIER_NAMESPACE_BINDINGS (name
);
2206 if (scope
== NULL_TREE
)
2207 scope
= global_namespace
;
2208 if (TREE_CODE (b
) != CPLUS_BINDING
)
2209 return (scope
== global_namespace
) ? b
: NULL_TREE
;
2210 name
= find_binding (name
,scope
);
2211 if (name
== NULL_TREE
)
2213 return BINDING_VALUE (name
);
2216 /* Set the binding value for name in scope. If modifying the binding
2217 of global_namespace is attempted, try to optimize it. */
2220 set_namespace_binding (name
, scope
, val
)
2227 if (scope
== NULL_TREE
)
2228 scope
= global_namespace
;
2230 if (scope
== global_namespace
)
2232 b
= IDENTIFIER_NAMESPACE_BINDINGS (name
);
2233 if (b
== NULL_TREE
|| TREE_CODE (b
) != CPLUS_BINDING
)
2235 IDENTIFIER_NAMESPACE_BINDINGS (name
) = val
;
2239 b
= binding_for_name (name
, scope
);
2240 BINDING_VALUE (b
) = val
;
2243 /* Push into the scope of the NAME namespace. If NAME is NULL_TREE, then we
2244 select a name that is unique to this compilation unit. */
2247 push_namespace (name
)
2252 int implicit_use
= 0;
2254 if (!global_namespace
)
2256 /* This must be ::. */
2257 my_friendly_assert (name
== get_identifier ("::"), 377);
2262 /* The name of anonymous namespace is unique for the translation
2264 if (!anonymous_namespace_name
)
2265 anonymous_namespace_name
= get_file_function_name ('N');
2266 name
= anonymous_namespace_name
;
2267 d
= IDENTIFIER_NAMESPACE_VALUE (name
);
2269 /* Reopening anonymous namespace. */
2273 else if (current_namespace
== global_namespace
2274 && name
== DECL_NAME (std_node
))
2281 /* Check whether this is an extended namespace definition. */
2282 d
= IDENTIFIER_NAMESPACE_VALUE (name
);
2283 if (d
!= NULL_TREE
&& TREE_CODE (d
) == NAMESPACE_DECL
)
2286 if (DECL_NAMESPACE_ALIAS (d
))
2288 cp_error ("namespace alias `%D' not allowed here, assuming `%D'",
2289 d
, DECL_NAMESPACE_ALIAS (d
));
2290 d
= DECL_NAMESPACE_ALIAS (d
);
2297 /* Make a new namespace, binding the name to it. */
2298 d
= build_lang_decl (NAMESPACE_DECL
, name
, void_type_node
);
2299 /* The global namespace is not pushed, and the global binding
2300 level is set elsewhere. */
2305 declare_namespace_level ();
2306 NAMESPACE_LEVEL (d
) = current_binding_level
;
2310 resume_binding_level (NAMESPACE_LEVEL (d
));
2313 do_using_directive (d
);
2314 /* Enter the name space. */
2315 current_namespace
= d
;
2318 /* Pop from the scope of the current namespace. */
2323 if (current_namespace
== global_namespace
)
2325 my_friendly_assert (in_std
>0, 980421);
2329 current_namespace
= CP_DECL_CONTEXT (current_namespace
);
2330 /* The binding level is not popped, as it might be re-opened later. */
2331 suspend_binding_level ();
2334 /* Push into the scope of the namespace NS, even if it is deeply
2335 nested within another namespace. */
2338 push_nested_namespace (ns
)
2341 if (ns
== global_namespace
)
2342 push_to_top_level ();
2345 push_nested_namespace (CP_DECL_CONTEXT (ns
));
2346 push_namespace (DECL_NAME (ns
));
2350 /* Pop back from the scope of the namespace NS, which was previously
2351 entered with push_nested_namespace. */
2354 pop_nested_namespace (ns
)
2357 while (ns
!= global_namespace
)
2360 ns
= CP_DECL_CONTEXT (ns
);
2363 pop_from_top_level ();
2367 /* Subroutines for reverting temporarily to top-level for instantiation
2368 of templates and such. We actually need to clear out the class- and
2369 local-value slots of all identifiers, so that only the global values
2370 are at all visible. Simply setting current_binding_level to the global
2371 scope isn't enough, because more binding levels may be pushed. */
2372 struct saved_scope
*scope_chain
;
2374 /* Mark ST for GC. */
2378 struct stmt_tree
*st
;
2380 ggc_mark_tree (st
->x_last_stmt
);
2381 ggc_mark_tree (st
->x_last_expr_type
);
2384 /* Mark ARG (which is really a struct saved_scope **) for GC. */
2387 mark_saved_scope (arg
)
2390 struct saved_scope
*t
= *(struct saved_scope
**)arg
;
2393 mark_binding_level (&t
->class_bindings
);
2394 ggc_mark_tree (t
->old_bindings
);
2395 ggc_mark_tree (t
->old_namespace
);
2396 ggc_mark_tree (t
->class_name
);
2397 ggc_mark_tree (t
->class_type
);
2398 ggc_mark_tree (t
->access_specifier
);
2399 ggc_mark_tree (t
->function_decl
);
2401 ggc_mark_tree_varray (t
->lang_base
);
2402 ggc_mark_tree (t
->lang_name
);
2403 ggc_mark_tree (t
->x_function_parms
);
2404 ggc_mark_tree (t
->template_parms
);
2405 ggc_mark_tree (t
->x_previous_class_type
);
2406 ggc_mark_tree (t
->x_previous_class_values
);
2407 ggc_mark_tree (t
->x_saved_tree
);
2408 ggc_mark_tree (t
->incomplete
);
2409 ggc_mark_tree (t
->lookups
);
2411 mark_stmt_tree (&t
->x_stmt_tree
);
2412 mark_binding_level (&t
->bindings
);
2418 store_bindings (names
, old_bindings
)
2419 tree names
, old_bindings
;
2422 for (t
= names
; t
; t
= TREE_CHAIN (t
))
2424 tree binding
, t1
, id
;
2426 if (TREE_CODE (t
) == TREE_LIST
)
2427 id
= TREE_PURPOSE (t
);
2432 /* Note that we may have an IDENTIFIER_CLASS_VALUE even when
2433 we have no IDENTIFIER_BINDING if we have left the class
2434 scope, but cached the class-level declarations. */
2435 || !(IDENTIFIER_BINDING (id
) || IDENTIFIER_CLASS_VALUE (id
)))
2438 for (t1
= old_bindings
; t1
; t1
= TREE_CHAIN (t1
))
2439 if (TREE_VEC_ELT (t1
, 0) == id
)
2442 binding
= make_tree_vec (4);
2446 my_friendly_assert (TREE_CODE (id
) == IDENTIFIER_NODE
, 135);
2447 TREE_VEC_ELT (binding
, 0) = id
;
2448 TREE_VEC_ELT (binding
, 1) = REAL_IDENTIFIER_TYPE_VALUE (id
);
2449 TREE_VEC_ELT (binding
, 2) = IDENTIFIER_BINDING (id
);
2450 TREE_VEC_ELT (binding
, 3) = IDENTIFIER_CLASS_VALUE (id
);
2451 IDENTIFIER_BINDING (id
) = NULL_TREE
;
2452 IDENTIFIER_CLASS_VALUE (id
) = NULL_TREE
;
2454 TREE_CHAIN (binding
) = old_bindings
;
2455 old_bindings
= binding
;
2459 return old_bindings
;
2463 maybe_push_to_top_level (pseudo
)
2466 struct saved_scope
*s
;
2467 struct binding_level
*b
;
2471 s
= (struct saved_scope
*) xcalloc (1, sizeof (struct saved_scope
));
2473 b
= scope_chain
? current_binding_level
: 0;
2475 /* If we're in the middle of some function, save our state. */
2479 push_function_context_to (NULL_TREE
);
2484 old_bindings
= NULL_TREE
;
2485 if (scope_chain
&& previous_class_type
)
2486 old_bindings
= store_bindings (previous_class_values
, old_bindings
);
2488 /* Have to include global_binding_level, because class-level decls
2489 aren't listed anywhere useful. */
2490 for (; b
; b
= b
->level_chain
)
2494 /* Template IDs are inserted into the global level. If they were
2495 inserted into namespace level, finish_file wouldn't find them
2496 when doing pending instantiations. Therefore, don't stop at
2497 namespace level, but continue until :: . */
2498 if (b
== global_binding_level
|| (pseudo
&& b
->template_parms_p
))
2501 old_bindings
= store_bindings (b
->names
, old_bindings
);
2502 /* We also need to check class_shadowed to save class-level type
2503 bindings, since pushclass doesn't fill in b->names. */
2504 if (b
->parm_flag
== 2)
2505 old_bindings
= store_bindings (b
->class_shadowed
, old_bindings
);
2507 /* Unwind type-value slots back to top level. */
2508 for (t
= b
->type_shadowed
; t
; t
= TREE_CHAIN (t
))
2509 SET_IDENTIFIER_TYPE_VALUE (TREE_PURPOSE (t
), TREE_VALUE (t
));
2511 s
->prev
= scope_chain
;
2512 s
->old_bindings
= old_bindings
;
2514 s
->need_pop_function_context
= need_pop
;
2515 s
->function_decl
= current_function_decl
;
2518 current_function_decl
= NULL_TREE
;
2519 VARRAY_TREE_INIT (current_lang_base
, 10, "current_lang_base");
2520 current_lang_stack
= &VARRAY_TREE (current_lang_base
, 0);
2521 current_lang_name
= lang_name_cplusplus
;
2522 strict_prototype
= strict_prototypes_lang_cplusplus
;
2523 current_namespace
= global_namespace
;
2527 push_to_top_level ()
2529 maybe_push_to_top_level (0);
2533 pop_from_top_level ()
2535 struct saved_scope
*s
= scope_chain
;
2538 /* Clear out class-level bindings cache. */
2539 if (previous_class_type
)
2540 invalidate_class_lookup_cache ();
2542 VARRAY_FREE (current_lang_base
);
2544 scope_chain
= s
->prev
;
2545 for (t
= s
->old_bindings
; t
; t
= TREE_CHAIN (t
))
2547 tree id
= TREE_VEC_ELT (t
, 0);
2550 SET_IDENTIFIER_TYPE_VALUE (id
, TREE_VEC_ELT (t
, 1));
2551 IDENTIFIER_BINDING (id
) = TREE_VEC_ELT (t
, 2);
2552 IDENTIFIER_CLASS_VALUE (id
) = TREE_VEC_ELT (t
, 3);
2556 if (current_lang_name
== lang_name_cplusplus
)
2557 strict_prototype
= strict_prototypes_lang_cplusplus
;
2558 else if (current_lang_name
== lang_name_c
)
2559 strict_prototype
= strict_prototypes_lang_c
;
2561 /* If we were in the middle of compiling a function, restore our
2563 if (s
->need_pop_function_context
)
2564 pop_function_context_from (NULL_TREE
);
2565 current_function_decl
= s
->function_decl
;
2570 /* Push a definition of struct, union or enum tag "name".
2571 into binding_level "b". "type" should be the type node,
2572 We assume that the tag "name" is not already defined.
2574 Note that the definition may really be just a forward reference.
2575 In that case, the TYPE_SIZE will be a NULL_TREE.
2577 C++ gratuitously puts all these tags in the name space. */
2579 /* When setting the IDENTIFIER_TYPE_VALUE field of an identifier ID,
2580 record the shadowed value for this binding contour. TYPE is
2581 the type that ID maps to. */
2584 set_identifier_type_value_with_scope (id
, type
, b
)
2587 struct binding_level
*b
;
2589 if (!b
->namespace_p
)
2591 /* Shadow the marker, not the real thing, so that the marker
2592 gets restored later. */
2593 tree old_type_value
= REAL_IDENTIFIER_TYPE_VALUE (id
);
2595 = tree_cons (id
, old_type_value
, b
->type_shadowed
);
2599 tree binding
= binding_for_name (id
, current_namespace
);
2600 BINDING_TYPE (binding
) = type
;
2601 /* Store marker instead of real type. */
2602 type
= global_type_node
;
2604 SET_IDENTIFIER_TYPE_VALUE (id
, type
);
2607 /* As set_identifier_type_value_with_scope, but using current_binding_level. */
2610 set_identifier_type_value (id
, type
)
2614 set_identifier_type_value_with_scope (id
, type
, current_binding_level
);
2617 /* Return the type associated with id. */
2620 identifier_type_value (id
)
2623 /* There is no type with that name, anywhere. */
2624 if (REAL_IDENTIFIER_TYPE_VALUE (id
) == NULL_TREE
)
2626 /* This is not the type marker, but the real thing. */
2627 if (REAL_IDENTIFIER_TYPE_VALUE (id
) != global_type_node
)
2628 return REAL_IDENTIFIER_TYPE_VALUE (id
);
2629 /* Have to search for it. It must be on the global level, now.
2630 Ask lookup_name not to return non-types. */
2631 id
= lookup_name_real (id
, 2, 1, 0);
2633 return TREE_TYPE (id
);
2637 /* Pop off extraneous binding levels left over due to syntax errors.
2639 We don't pop past namespaces, as they might be valid. */
2644 #ifdef DEBUG_CP_BINDING_LEVELS
2645 fprintf (stderr
, "XXX entering pop_everything ()\n");
2647 while (!toplevel_bindings_p ())
2649 if (current_binding_level
->parm_flag
== 2)
2650 pop_nested_class ();
2654 #ifdef DEBUG_CP_BINDING_LEVELS
2655 fprintf (stderr
, "XXX leaving pop_everything ()\n");
2659 /* The type TYPE is being declared. If it is a class template, or a
2660 specialization of a class template, do any processing required and
2661 perform error-checking. If IS_FRIEND is non-zero, this TYPE is
2662 being declared a friend. B is the binding level at which this TYPE
2665 Returns the TYPE_DECL for TYPE, which may have been altered by this
2669 maybe_process_template_type_declaration (type
, globalize
, b
)
2672 struct binding_level
* b
;
2674 tree decl
= TYPE_NAME (type
);
2676 if (processing_template_parmlist
)
2677 /* You can't declare a new template type in a template parameter
2678 list. But, you can declare a non-template type:
2680 template <class A*> struct S;
2682 is a forward-declaration of `A'. */
2686 maybe_check_template_type (type
);
2688 my_friendly_assert (IS_AGGR_TYPE (type
)
2689 || TREE_CODE (type
) == ENUMERAL_TYPE
, 0);
2692 if (processing_template_decl
)
2694 /* This may change after the call to
2695 push_template_decl_real, but we want the original value. */
2696 tree name
= DECL_NAME (decl
);
2698 decl
= push_template_decl_real (decl
, globalize
);
2699 /* If the current binding level is the binding level for the
2700 template parameters (see the comment in
2701 begin_template_parm_list) and the enclosing level is a class
2702 scope, and we're not looking at a friend, push the
2703 declaration of the member class into the class scope. In the
2704 friend case, push_template_decl will already have put the
2705 friend into global scope, if appropriate. */
2706 if (TREE_CODE (type
) != ENUMERAL_TYPE
2707 && !globalize
&& b
->template_parms_p
2708 && b
->level_chain
->parm_flag
== 2)
2710 finish_member_declaration (CLASSTYPE_TI_TEMPLATE (type
));
2711 /* Put this tag on the list of tags for the class, since
2712 that won't happen below because B is not the class
2713 binding level, but is instead the pseudo-global level. */
2714 b
->level_chain
->tags
=
2715 tree_cons (name
, type
, b
->level_chain
->tags
);
2716 if (!COMPLETE_TYPE_P (current_class_type
))
2717 CLASSTYPE_TAGS (current_class_type
) = b
->level_chain
->tags
;
2725 /* In C++, you don't have to write `struct S' to refer to `S'; you
2726 can just use `S'. We accomplish this by creating a TYPE_DECL as
2727 if the user had written `typedef struct S S'. Create and return
2728 the TYPE_DECL for TYPE. */
2731 create_implicit_typedef (name
, type
)
2737 decl
= build_decl (TYPE_DECL
, name
, type
);
2738 SET_DECL_ARTIFICIAL (decl
);
2739 /* There are other implicit type declarations, like the one *within*
2740 a class that allows you to write `S::S'. We must distinguish
2742 SET_DECL_IMPLICIT_TYPEDEF_P (decl
);
2743 TYPE_NAME (type
) = decl
;
2748 /* Push a tag name NAME for struct/class/union/enum type TYPE.
2749 Normally put it into the inner-most non-tag-transparent scope,
2750 but if GLOBALIZE is true, put it in the inner-most non-class scope.
2751 The latter is needed for implicit declarations. */
2754 pushtag (name
, type
, globalize
)
2758 register struct binding_level
*b
;
2760 b
= current_binding_level
;
2761 while (b
->tag_transparent
2762 || (globalize
&& b
->parm_flag
== 2))
2765 b
->tags
= tree_cons (name
, type
, b
->tags
);
2769 /* Do C++ gratuitous typedefing. */
2770 if (IDENTIFIER_TYPE_VALUE (name
) != type
)
2772 register tree d
= NULL_TREE
;
2774 tree context
= TYPE_CONTEXT (type
);
2778 tree cs
= current_scope ();
2782 else if (cs
!= NULL_TREE
&& TYPE_P (cs
))
2783 /* When declaring a friend class of a local class, we want
2784 to inject the newly named class into the scope
2785 containing the local class, not the namespace scope. */
2786 context
= decl_function_context (get_type_decl (cs
));
2789 context
= current_namespace
;
2791 if ((b
->template_parms_p
&& b
->level_chain
->parm_flag
== 2)
2792 || b
->parm_flag
== 2)
2795 if (current_lang_name
== lang_name_java
)
2796 TYPE_FOR_JAVA (type
) = 1;
2798 d
= create_implicit_typedef (name
, type
);
2799 DECL_CONTEXT (d
) = FROB_CONTEXT (context
);
2801 set_identifier_type_value_with_scope (name
, type
, b
);
2803 d
= maybe_process_template_type_declaration (type
,
2806 if (b
->parm_flag
== 2)
2808 if (!PROCESSING_REAL_TEMPLATE_DECL_P ())
2809 /* Put this TYPE_DECL on the TYPE_FIELDS list for the
2810 class. But if it's a member template class, we
2811 want the TEMPLATE_DECL, not the TYPE_DECL, so this
2813 finish_member_declaration (d
);
2815 pushdecl_class_level (d
);
2818 d
= pushdecl_with_scope (d
, b
);
2820 if (ANON_AGGRNAME_P (name
))
2821 DECL_IGNORED_P (d
) = 1;
2823 TYPE_CONTEXT (type
) = DECL_CONTEXT (d
);
2824 DECL_ASSEMBLER_NAME (d
) = DECL_NAME (d
);
2825 if (!uses_template_parms (type
))
2826 DECL_ASSEMBLER_NAME (d
)
2827 = get_identifier (build_overload_name (type
, 1, 1));
2829 if (b
->parm_flag
== 2)
2831 if (!COMPLETE_TYPE_P (current_class_type
))
2832 CLASSTYPE_TAGS (current_class_type
) = b
->tags
;
2836 if (TREE_CODE (TYPE_NAME (type
)) == TYPE_DECL
)
2837 /* Use the canonical TYPE_DECL for this node. */
2838 TYPE_STUB_DECL (type
) = TYPE_NAME (type
);
2841 /* Create a fake NULL-named TYPE_DECL node whose TREE_TYPE
2842 will be the tagged type we just added to the current
2843 binding level. This fake NULL-named TYPE_DECL node helps
2844 dwarfout.c to know when it needs to output a
2845 representation of a tagged type, and it also gives us a
2846 convenient place to record the "scope start" address for
2849 tree d
= build_decl (TYPE_DECL
, NULL_TREE
, type
);
2850 TYPE_STUB_DECL (type
) = pushdecl_with_scope (d
, b
);
2854 /* Counter used to create anonymous type names. */
2856 static int anon_cnt
= 0;
2858 /* Return an IDENTIFIER which can be used as a name for
2859 anonymous structs and unions. */
2866 sprintf (buf
, ANON_AGGRNAME_FORMAT
, anon_cnt
++);
2867 return get_identifier (buf
);
2870 /* Clear the TREE_PURPOSE slot of tags which have anonymous typenames.
2871 This keeps dbxout from getting confused. */
2876 register struct binding_level
*b
;
2878 static int last_cnt
= 0;
2880 /* Fast out if no new anon names were declared. */
2881 if (last_cnt
== anon_cnt
)
2884 b
= current_binding_level
;
2885 while (b
->tag_transparent
)
2890 /* A NULL purpose means we have already processed all tags
2891 from here to the end of the list. */
2892 if (TREE_PURPOSE (tags
) == NULL_TREE
)
2894 if (ANON_AGGRNAME_P (TREE_PURPOSE (tags
)))
2895 TREE_PURPOSE (tags
) = NULL_TREE
;
2896 tags
= TREE_CHAIN (tags
);
2898 last_cnt
= anon_cnt
;
2901 /* Subroutine of duplicate_decls: return truthvalue of whether
2902 or not types of these decls match.
2904 For C++, we must compare the parameter list so that `int' can match
2905 `int&' in a parameter position, but `int&' is not confused with
2909 decls_match (newdecl
, olddecl
)
2910 tree newdecl
, olddecl
;
2914 if (newdecl
== olddecl
)
2917 if (TREE_CODE (newdecl
) != TREE_CODE (olddecl
))
2918 /* If the two DECLs are not even the same kind of thing, we're not
2919 interested in their types. */
2922 if (TREE_CODE (newdecl
) == FUNCTION_DECL
)
2924 tree f1
= TREE_TYPE (newdecl
);
2925 tree f2
= TREE_TYPE (olddecl
);
2926 tree p1
= TYPE_ARG_TYPES (f1
);
2927 tree p2
= TYPE_ARG_TYPES (f2
);
2929 if (CP_DECL_CONTEXT (newdecl
) != CP_DECL_CONTEXT (olddecl
)
2930 && ! (DECL_LANGUAGE (newdecl
) == lang_c
2931 && DECL_LANGUAGE (olddecl
) == lang_c
))
2934 if (TREE_CODE (f1
) != TREE_CODE (f2
))
2937 if (same_type_p (TREE_TYPE (f1
), TREE_TYPE (f2
)))
2939 if ((! strict_prototypes_lang_c
|| DECL_BUILT_IN (olddecl
))
2940 && DECL_LANGUAGE (olddecl
) == lang_c
2943 types_match
= self_promoting_args_p (p1
);
2944 if (p1
== void_list_node
)
2945 TREE_TYPE (newdecl
) = TREE_TYPE (olddecl
);
2947 else if (!strict_prototypes_lang_c
&& DECL_LANGUAGE (olddecl
)==lang_c
2948 && DECL_LANGUAGE (newdecl
) == lang_c
&& p1
== NULL_TREE
)
2950 types_match
= self_promoting_args_p (p2
);
2951 TREE_TYPE (newdecl
) = TREE_TYPE (olddecl
);
2954 types_match
= compparms (p1
, p2
);
2959 else if (TREE_CODE (newdecl
) == TEMPLATE_DECL
)
2961 if (!comp_template_parms (DECL_TEMPLATE_PARMS (newdecl
),
2962 DECL_TEMPLATE_PARMS (olddecl
)))
2965 if (TREE_CODE (DECL_TEMPLATE_RESULT (newdecl
)) == TYPE_DECL
)
2968 types_match
= decls_match (DECL_TEMPLATE_RESULT (olddecl
),
2969 DECL_TEMPLATE_RESULT (newdecl
));
2973 if (TREE_TYPE (newdecl
) == error_mark_node
)
2974 types_match
= TREE_TYPE (olddecl
) == error_mark_node
;
2975 else if (TREE_TYPE (olddecl
) == NULL_TREE
)
2976 types_match
= TREE_TYPE (newdecl
) == NULL_TREE
;
2977 else if (TREE_TYPE (newdecl
) == NULL_TREE
)
2980 types_match
= comptypes (TREE_TYPE (newdecl
),
2981 TREE_TYPE (olddecl
),
2982 COMPARE_REDECLARATION
);
2988 /* If NEWDECL is `static' and an `extern' was seen previously,
2989 warn about it. OLDDECL is the previous declaration.
2991 Note that this does not apply to the C++ case of declaring
2992 a variable `extern const' and then later `const'.
2994 Don't complain about built-in functions, since they are beyond
2995 the user's control. */
2998 warn_extern_redeclared_static (newdecl
, olddecl
)
2999 tree newdecl
, olddecl
;
3001 static const char *explicit_extern_static_warning
3002 = "`%D' was declared `extern' and later `static'";
3003 static const char *implicit_extern_static_warning
3004 = "`%D' was declared implicitly `extern' and later `static'";
3008 if (TREE_CODE (newdecl
) == TYPE_DECL
3009 || TREE_CODE (newdecl
) == TEMPLATE_DECL
)
3012 /* Don't get confused by static member functions; that's a different
3014 if (TREE_CODE (newdecl
) == FUNCTION_DECL
3015 && DECL_STATIC_FUNCTION_P (newdecl
))
3018 /* If the old declaration was `static', or the new one isn't, then
3019 then everything is OK. */
3020 if (DECL_THIS_STATIC (olddecl
) || !DECL_THIS_STATIC (newdecl
))
3023 /* It's OK to declare a builtin function as `static'. */
3024 if (TREE_CODE (olddecl
) == FUNCTION_DECL
3025 && DECL_ARTIFICIAL (olddecl
))
3028 name
= DECL_ASSEMBLER_NAME (newdecl
);
3029 cp_pedwarn (IDENTIFIER_IMPLICIT_DECL (name
)
3030 ? implicit_extern_static_warning
3031 : explicit_extern_static_warning
, newdecl
);
3032 cp_pedwarn_at ("previous declaration of `%D'", olddecl
);
3035 /* Handle when a new declaration NEWDECL has the same name as an old
3036 one OLDDECL in the same binding contour. Prints an error message
3039 If safely possible, alter OLDDECL to look like NEWDECL, and return 1.
3040 Otherwise, return 0. */
3043 duplicate_decls (newdecl
, olddecl
)
3044 tree newdecl
, olddecl
;
3046 unsigned olddecl_uid
= DECL_UID (olddecl
);
3047 int olddecl_friend
= 0, types_match
= 0;
3048 int new_defines_function
= 0;
3050 if (newdecl
== olddecl
)
3053 types_match
= decls_match (newdecl
, olddecl
);
3055 /* If either the type of the new decl or the type of the old decl is an
3056 error_mark_node, then that implies that we have already issued an
3057 error (earlier) for some bogus type specification, and in that case,
3058 it is rather pointless to harass the user with yet more error message
3059 about the same declaration, so just pretend the types match here. */
3060 if (TREE_TYPE (newdecl
) == error_mark_node
3061 || TREE_TYPE (olddecl
) == error_mark_node
)
3064 /* Check for redeclaration and other discrepancies. */
3065 if (TREE_CODE (olddecl
) == FUNCTION_DECL
3066 && DECL_ARTIFICIAL (olddecl
))
3068 if (TREE_CODE (newdecl
) != FUNCTION_DECL
)
3070 /* If you declare a built-in or predefined function name as static,
3071 the old definition is overridden, but optionally warn this was a
3072 bad choice of name. */
3073 if (! TREE_PUBLIC (newdecl
))
3076 cp_warning ("shadowing %s function `%#D'",
3077 DECL_BUILT_IN (olddecl
) ? "built-in" : "library",
3079 /* Discard the old built-in function. */
3082 /* If the built-in is not ansi, then programs can override
3083 it even globally without an error. */
3084 else if (! DECL_BUILT_IN (olddecl
))
3085 cp_warning ("library function `%#D' redeclared as non-function `%#D'",
3089 cp_error ("declaration of `%#D'", newdecl
);
3090 cp_error ("conflicts with built-in declaration `%#D'",
3095 else if (!types_match
)
3097 if ((DECL_LANGUAGE (newdecl
) == lang_c
3098 && DECL_LANGUAGE (olddecl
) == lang_c
)
3099 || compparms (TYPE_ARG_TYPES (TREE_TYPE (newdecl
)),
3100 TYPE_ARG_TYPES (TREE_TYPE (olddecl
))))
3102 /* A near match; override the builtin. */
3104 if (TREE_PUBLIC (newdecl
))
3106 cp_warning ("new declaration `%#D'", newdecl
);
3107 cp_warning ("ambiguates built-in declaration `%#D'",
3110 else if (warn_shadow
)
3111 cp_warning ("shadowing %s function `%#D'",
3112 DECL_BUILT_IN (olddecl
) ? "built-in" : "library",
3116 /* Discard the old built-in function. */
3120 if (DECL_THIS_STATIC (newdecl
) && !DECL_THIS_STATIC (olddecl
))
3122 /* If a builtin function is redeclared as `static', merge
3123 the declarations, but make the original one static. */
3124 DECL_THIS_STATIC (olddecl
) = 1;
3125 TREE_PUBLIC (olddecl
) = 0;
3127 /* Make the olddeclaration consistent with the new one so that
3128 all remnants of the builtin-ness of this function will be
3130 DECL_LANGUAGE (olddecl
) = DECL_LANGUAGE (newdecl
);
3131 DECL_RTL (olddecl
) = DECL_RTL (newdecl
);
3132 DECL_ASSEMBLER_NAME (olddecl
) = DECL_ASSEMBLER_NAME (newdecl
);
3133 SET_IDENTIFIER_GLOBAL_VALUE (DECL_ASSEMBLER_NAME (newdecl
),
3137 else if (TREE_CODE (olddecl
) != TREE_CODE (newdecl
))
3139 if ((TREE_CODE (olddecl
) == TYPE_DECL
&& DECL_ARTIFICIAL (olddecl
)
3140 && TREE_CODE (newdecl
) != TYPE_DECL
3141 && ! (TREE_CODE (newdecl
) == TEMPLATE_DECL
3142 && TREE_CODE (DECL_TEMPLATE_RESULT (newdecl
)) == TYPE_DECL
))
3143 || (TREE_CODE (newdecl
) == TYPE_DECL
&& DECL_ARTIFICIAL (newdecl
)
3144 && TREE_CODE (olddecl
) != TYPE_DECL
3145 && ! (TREE_CODE (olddecl
) == TEMPLATE_DECL
3146 && (TREE_CODE (DECL_TEMPLATE_RESULT (olddecl
))
3149 /* We do nothing special here, because C++ does such nasty
3150 things with TYPE_DECLs. Instead, just let the TYPE_DECL
3151 get shadowed, and know that if we need to find a TYPE_DECL
3152 for a given name, we can look in the IDENTIFIER_TYPE_VALUE
3153 slot of the identifier. */
3157 if ((TREE_CODE (newdecl
) == FUNCTION_DECL
3158 && DECL_FUNCTION_TEMPLATE_P (olddecl
))
3159 || (TREE_CODE (olddecl
) == FUNCTION_DECL
3160 && DECL_FUNCTION_TEMPLATE_P (newdecl
)))
3163 cp_error ("`%#D' redeclared as different kind of symbol", newdecl
);
3164 if (TREE_CODE (olddecl
) == TREE_LIST
)
3165 olddecl
= TREE_VALUE (olddecl
);
3166 cp_error_at ("previous declaration of `%#D'", olddecl
);
3168 /* New decl is completely inconsistent with the old one =>
3169 tell caller to replace the old one. */
3173 else if (!types_match
)
3175 if (CP_DECL_CONTEXT (newdecl
) != CP_DECL_CONTEXT (olddecl
))
3176 /* These are certainly not duplicate declarations; they're
3177 from different scopes. */
3180 if (TREE_CODE (newdecl
) == TEMPLATE_DECL
)
3182 /* The name of a class template may not be declared to refer to
3183 any other template, class, function, object, namespace, value,
3184 or type in the same scope. */
3185 if (TREE_CODE (DECL_TEMPLATE_RESULT (olddecl
)) == TYPE_DECL
3186 || TREE_CODE (DECL_TEMPLATE_RESULT (newdecl
)) == TYPE_DECL
)
3188 cp_error ("declaration of template `%#D'", newdecl
);
3189 cp_error_at ("conflicts with previous declaration `%#D'",
3192 else if (TREE_CODE (DECL_TEMPLATE_RESULT (olddecl
)) == FUNCTION_DECL
3193 && TREE_CODE (DECL_TEMPLATE_RESULT (newdecl
)) == FUNCTION_DECL
3194 && compparms (TYPE_ARG_TYPES (TREE_TYPE (DECL_TEMPLATE_RESULT (olddecl
))),
3195 TYPE_ARG_TYPES (TREE_TYPE (DECL_TEMPLATE_RESULT (newdecl
))))
3196 && comp_template_parms (DECL_TEMPLATE_PARMS (newdecl
),
3197 DECL_TEMPLATE_PARMS (olddecl
)))
3199 cp_error ("new declaration `%#D'", newdecl
);
3200 cp_error_at ("ambiguates old declaration `%#D'", olddecl
);
3204 if (TREE_CODE (newdecl
) == FUNCTION_DECL
)
3206 if (DECL_LANGUAGE (newdecl
) == lang_c
3207 && DECL_LANGUAGE (olddecl
) == lang_c
)
3209 cp_error ("declaration of C function `%#D' conflicts with",
3211 cp_error_at ("previous declaration `%#D' here", olddecl
);
3213 else if (compparms (TYPE_ARG_TYPES (TREE_TYPE (newdecl
)),
3214 TYPE_ARG_TYPES (TREE_TYPE (olddecl
))))
3216 cp_error ("new declaration `%#D'", newdecl
);
3217 cp_error_at ("ambiguates old declaration `%#D'", olddecl
);
3223 /* Already complained about this, so don't do so again. */
3224 else if (current_class_type
== NULL_TREE
3225 || IDENTIFIER_ERROR_LOCUS (DECL_ASSEMBLER_NAME (newdecl
)) != current_class_type
)
3227 cp_error ("conflicting types for `%#D'", newdecl
);
3228 cp_error_at ("previous declaration as `%#D'", olddecl
);
3231 else if (TREE_CODE (newdecl
) == FUNCTION_DECL
3232 && ((DECL_TEMPLATE_SPECIALIZATION (olddecl
)
3233 && (!DECL_TEMPLATE_INFO (newdecl
)
3234 || (DECL_TI_TEMPLATE (newdecl
)
3235 != DECL_TI_TEMPLATE (olddecl
))))
3236 || (DECL_TEMPLATE_SPECIALIZATION (newdecl
)
3237 && (!DECL_TEMPLATE_INFO (olddecl
)
3238 || (DECL_TI_TEMPLATE (olddecl
)
3239 != DECL_TI_TEMPLATE (newdecl
))))))
3240 /* It's OK to have a template specialization and a non-template
3241 with the same type, or to have specializations of two
3242 different templates with the same type. Note that if one is a
3243 specialization, and the other is an instantiation of the same
3244 template, that we do not exit at this point. That situation
3245 can occur if we instantiate a template class, and then
3246 specialize one of its methods. This situation is legal, but
3247 the declarations must be merged in the usual way. */
3249 else if (TREE_CODE (newdecl
) == FUNCTION_DECL
3250 && ((DECL_TEMPLATE_INSTANTIATION (olddecl
)
3251 && !DECL_USE_TEMPLATE (newdecl
))
3252 || (DECL_TEMPLATE_INSTANTIATION (newdecl
)
3253 && !DECL_USE_TEMPLATE (olddecl
))))
3254 /* One of the declarations is a template instantiation, and the
3255 other is not a template at all. That's OK. */
3257 else if (TREE_CODE (newdecl
) == NAMESPACE_DECL
3258 && DECL_NAMESPACE_ALIAS (newdecl
)
3259 && DECL_NAMESPACE_ALIAS (newdecl
) == DECL_NAMESPACE_ALIAS (olddecl
))
3260 /* Redeclaration of namespace alias, ignore it. */
3264 const char *errmsg
= redeclaration_error_message (newdecl
, olddecl
);
3267 cp_error (errmsg
, newdecl
);
3268 if (DECL_NAME (olddecl
) != NULL_TREE
)
3269 cp_error_at ((DECL_INITIAL (olddecl
)
3270 && namespace_bindings_p ())
3271 ? "`%#D' previously defined here"
3272 : "`%#D' previously declared here", olddecl
);
3274 else if (TREE_CODE (olddecl
) == FUNCTION_DECL
3275 && DECL_INITIAL (olddecl
) != NULL_TREE
3276 && TYPE_ARG_TYPES (TREE_TYPE (olddecl
)) == NULL_TREE
3277 && TYPE_ARG_TYPES (TREE_TYPE (newdecl
)) != NULL_TREE
)
3279 /* Prototype decl follows defn w/o prototype. */
3280 cp_warning_at ("prototype for `%#D'", newdecl
);
3281 cp_warning_at ("follows non-prototype definition here", olddecl
);
3283 else if (TREE_CODE (olddecl
) == FUNCTION_DECL
3284 && DECL_LANGUAGE (newdecl
) != DECL_LANGUAGE (olddecl
))
3286 /* extern "C" int foo ();
3287 int foo () { bar (); }
3289 if (current_lang_stack
3290 == &VARRAY_TREE (current_lang_base
, 0))
3291 DECL_LANGUAGE (newdecl
) = DECL_LANGUAGE (olddecl
);
3294 cp_error_at ("previous declaration of `%#D' with %L linkage",
3295 olddecl
, DECL_LANGUAGE (olddecl
));
3296 cp_error ("conflicts with new declaration with %L linkage",
3297 DECL_LANGUAGE (newdecl
));
3301 if (DECL_LANG_SPECIFIC (olddecl
) && DECL_USE_TEMPLATE (olddecl
))
3303 else if (TREE_CODE (olddecl
) == FUNCTION_DECL
)
3305 tree t1
= TYPE_ARG_TYPES (TREE_TYPE (olddecl
));
3306 tree t2
= TYPE_ARG_TYPES (TREE_TYPE (newdecl
));
3309 if (TREE_CODE (TREE_TYPE (newdecl
)) == METHOD_TYPE
)
3310 t1
= TREE_CHAIN (t1
), t2
= TREE_CHAIN (t2
);
3312 for (; t1
&& t1
!= void_list_node
;
3313 t1
= TREE_CHAIN (t1
), t2
= TREE_CHAIN (t2
), i
++)
3314 if (TREE_PURPOSE (t1
) && TREE_PURPOSE (t2
))
3316 if (1 == simple_cst_equal (TREE_PURPOSE (t1
),
3321 cp_pedwarn ("default argument given for parameter %d of `%#D'",
3323 cp_pedwarn_at ("after previous specification in `%#D'",
3329 cp_error ("default argument given for parameter %d of `%#D'",
3331 cp_error_at ("after previous specification in `%#D'",
3336 if (DECL_THIS_INLINE (newdecl
) && ! DECL_THIS_INLINE (olddecl
)
3337 && TREE_ADDRESSABLE (olddecl
) && warn_inline
)
3339 cp_warning ("`%#D' was used before it was declared inline",
3341 cp_warning_at ("previous non-inline declaration here",
3347 /* If new decl is `static' and an `extern' was seen previously,
3349 warn_extern_redeclared_static (newdecl
, olddecl
);
3351 /* We have committed to returning 1 at this point. */
3352 if (TREE_CODE (newdecl
) == FUNCTION_DECL
)
3354 /* Now that functions must hold information normally held
3355 by field decls, there is extra work to do so that
3356 declaration information does not get destroyed during
3358 if (DECL_VINDEX (olddecl
))
3359 DECL_VINDEX (newdecl
) = DECL_VINDEX (olddecl
);
3360 if (DECL_VIRTUAL_CONTEXT (olddecl
))
3361 DECL_VIRTUAL_CONTEXT (newdecl
) = DECL_VIRTUAL_CONTEXT (olddecl
);
3362 if (DECL_CONTEXT (olddecl
))
3363 DECL_CONTEXT (newdecl
) = DECL_CONTEXT (olddecl
);
3364 if (DECL_PENDING_INLINE_INFO (newdecl
) == (struct pending_inline
*)0)
3365 DECL_PENDING_INLINE_INFO (newdecl
) = DECL_PENDING_INLINE_INFO (olddecl
);
3366 DECL_STATIC_CONSTRUCTOR (newdecl
) |= DECL_STATIC_CONSTRUCTOR (olddecl
);
3367 DECL_STATIC_DESTRUCTOR (newdecl
) |= DECL_STATIC_DESTRUCTOR (olddecl
);
3368 DECL_PURE_VIRTUAL_P (newdecl
) |= DECL_PURE_VIRTUAL_P (olddecl
);
3369 DECL_VIRTUAL_P (newdecl
) |= DECL_VIRTUAL_P (olddecl
);
3370 DECL_NEEDS_FINAL_OVERRIDER_P (newdecl
) |= DECL_NEEDS_FINAL_OVERRIDER_P (olddecl
);
3371 DECL_THIS_STATIC (newdecl
) |= DECL_THIS_STATIC (olddecl
);
3372 new_defines_function
= DECL_INITIAL (newdecl
) != NULL_TREE
;
3374 /* Optionally warn about more than one declaration for the same
3375 name, but don't warn about a function declaration followed by a
3377 if (warn_redundant_decls
&& ! DECL_ARTIFICIAL (olddecl
)
3378 && !(new_defines_function
&& DECL_INITIAL (olddecl
) == NULL_TREE
)
3379 /* Don't warn about extern decl followed by definition. */
3380 && !(DECL_EXTERNAL (olddecl
) && ! DECL_EXTERNAL (newdecl
))
3381 /* Don't warn about friends, let add_friend take care of it. */
3382 && ! DECL_FRIEND_P (newdecl
))
3384 cp_warning ("redundant redeclaration of `%D' in same scope", newdecl
);
3385 cp_warning_at ("previous declaration of `%D'", olddecl
);
3389 /* Deal with C++: must preserve virtual function table size. */
3390 if (TREE_CODE (olddecl
) == TYPE_DECL
)
3392 register tree newtype
= TREE_TYPE (newdecl
);
3393 register tree oldtype
= TREE_TYPE (olddecl
);
3395 if (newtype
!= error_mark_node
&& oldtype
!= error_mark_node
3396 && TYPE_LANG_SPECIFIC (newtype
) && TYPE_LANG_SPECIFIC (oldtype
))
3398 CLASSTYPE_VSIZE (newtype
) = CLASSTYPE_VSIZE (oldtype
);
3399 CLASSTYPE_FRIEND_CLASSES (newtype
)
3400 = CLASSTYPE_FRIEND_CLASSES (oldtype
);
3404 /* Copy all the DECL_... slots specified in the new decl
3405 except for any that we copy here from the old type. */
3406 DECL_MACHINE_ATTRIBUTES (newdecl
)
3407 = merge_machine_decl_attributes (olddecl
, newdecl
);
3409 if (TREE_CODE (newdecl
) == TEMPLATE_DECL
)
3411 if (! duplicate_decls (DECL_TEMPLATE_RESULT (newdecl
),
3412 DECL_TEMPLATE_RESULT (olddecl
)))
3413 cp_error ("invalid redeclaration of %D", newdecl
);
3414 TREE_TYPE (olddecl
) = TREE_TYPE (DECL_TEMPLATE_RESULT (olddecl
));
3415 DECL_TEMPLATE_SPECIALIZATIONS (olddecl
)
3416 = chainon (DECL_TEMPLATE_SPECIALIZATIONS (olddecl
),
3417 DECL_TEMPLATE_SPECIALIZATIONS (newdecl
));
3424 /* Automatically handles default parameters. */
3425 tree oldtype
= TREE_TYPE (olddecl
);
3428 /* Merge the data types specified in the two decls. */
3429 newtype
= common_type (TREE_TYPE (newdecl
), TREE_TYPE (olddecl
));
3431 if (TREE_CODE (newdecl
) == VAR_DECL
)
3432 DECL_THIS_EXTERN (newdecl
) |= DECL_THIS_EXTERN (olddecl
);
3433 /* Do this after calling `common_type' so that default
3434 parameters don't confuse us. */
3435 else if (TREE_CODE (newdecl
) == FUNCTION_DECL
3436 && (TYPE_RAISES_EXCEPTIONS (TREE_TYPE (newdecl
))
3437 != TYPE_RAISES_EXCEPTIONS (TREE_TYPE (olddecl
))))
3439 TREE_TYPE (newdecl
) = build_exception_variant (newtype
,
3440 TYPE_RAISES_EXCEPTIONS (TREE_TYPE (newdecl
)));
3441 TREE_TYPE (olddecl
) = build_exception_variant (newtype
,
3442 TYPE_RAISES_EXCEPTIONS (oldtype
));
3444 if ((pedantic
|| ! DECL_IN_SYSTEM_HEADER (olddecl
))
3445 && DECL_SOURCE_LINE (olddecl
) != 0
3447 && !comp_except_specs (TYPE_RAISES_EXCEPTIONS (TREE_TYPE (newdecl
)),
3448 TYPE_RAISES_EXCEPTIONS (TREE_TYPE (olddecl
)), 1))
3450 cp_error ("declaration of `%F' throws different exceptions",
3452 cp_error_at ("than previous declaration `%F'", olddecl
);
3455 TREE_TYPE (newdecl
) = TREE_TYPE (olddecl
) = newtype
;
3457 /* Lay the type out, unless already done. */
3458 if (! same_type_p (newtype
, oldtype
)
3459 && TREE_TYPE (newdecl
) != error_mark_node
3460 && !(processing_template_decl
&& uses_template_parms (newdecl
)))
3461 layout_type (TREE_TYPE (newdecl
));
3463 if ((TREE_CODE (newdecl
) == VAR_DECL
3464 || TREE_CODE (newdecl
) == PARM_DECL
3465 || TREE_CODE (newdecl
) == RESULT_DECL
3466 || TREE_CODE (newdecl
) == FIELD_DECL
3467 || TREE_CODE (newdecl
) == TYPE_DECL
)
3468 && !(processing_template_decl
&& uses_template_parms (newdecl
)))
3469 layout_decl (newdecl
, 0);
3471 /* Merge the type qualifiers. */
3472 if (TREE_READONLY (newdecl
))
3473 TREE_READONLY (olddecl
) = 1;
3474 if (TREE_THIS_VOLATILE (newdecl
))
3475 TREE_THIS_VOLATILE (olddecl
) = 1;
3477 /* Merge the initialization information. */
3478 if (DECL_INITIAL (newdecl
) == NULL_TREE
3479 && DECL_INITIAL (olddecl
) != NULL_TREE
)
3481 DECL_INITIAL (newdecl
) = DECL_INITIAL (olddecl
);
3482 DECL_SOURCE_FILE (newdecl
) = DECL_SOURCE_FILE (olddecl
);
3483 DECL_SOURCE_LINE (newdecl
) = DECL_SOURCE_LINE (olddecl
);
3484 if (CAN_HAVE_FULL_LANG_DECL_P (newdecl
)
3485 && DECL_LANG_SPECIFIC (newdecl
)
3486 && DECL_LANG_SPECIFIC (olddecl
))
3487 DECL_SAVED_TREE (newdecl
) = DECL_SAVED_TREE (olddecl
);
3490 /* Merge the section attribute.
3491 We want to issue an error if the sections conflict but that must be
3492 done later in decl_attributes since we are called before attributes
3494 if (DECL_SECTION_NAME (newdecl
) == NULL_TREE
)
3495 DECL_SECTION_NAME (newdecl
) = DECL_SECTION_NAME (olddecl
);
3497 /* Keep the old rtl since we can safely use it. */
3498 DECL_RTL (newdecl
) = DECL_RTL (olddecl
);
3500 if (TREE_CODE (newdecl
) == FUNCTION_DECL
)
3502 DECL_NO_INSTRUMENT_FUNCTION_ENTRY_EXIT (newdecl
)
3503 |= DECL_NO_INSTRUMENT_FUNCTION_ENTRY_EXIT (olddecl
);
3504 DECL_NO_CHECK_MEMORY_USAGE (newdecl
)
3505 |= DECL_NO_CHECK_MEMORY_USAGE (olddecl
);
3506 DECL_NO_LIMIT_STACK (newdecl
)
3507 |= DECL_NO_LIMIT_STACK (olddecl
);
3510 /* If cannot merge, then use the new type and qualifiers,
3511 and don't preserve the old rtl. */
3514 /* Clean out any memory we had of the old declaration. */
3515 tree oldstatic
= value_member (olddecl
, static_aggregates
);
3517 TREE_VALUE (oldstatic
) = error_mark_node
;
3519 TREE_TYPE (olddecl
) = TREE_TYPE (newdecl
);
3520 TREE_READONLY (olddecl
) = TREE_READONLY (newdecl
);
3521 TREE_THIS_VOLATILE (olddecl
) = TREE_THIS_VOLATILE (newdecl
);
3522 TREE_SIDE_EFFECTS (olddecl
) = TREE_SIDE_EFFECTS (newdecl
);
3525 /* Merge the storage class information. */
3526 DECL_WEAK (newdecl
) |= DECL_WEAK (olddecl
);
3527 DECL_ONE_ONLY (newdecl
) |= DECL_ONE_ONLY (olddecl
);
3528 DECL_DEFER_OUTPUT (newdecl
) |= DECL_DEFER_OUTPUT (olddecl
);
3529 TREE_PUBLIC (newdecl
) = TREE_PUBLIC (olddecl
);
3530 TREE_STATIC (olddecl
) = TREE_STATIC (newdecl
) |= TREE_STATIC (olddecl
);
3531 if (! DECL_EXTERNAL (olddecl
))
3532 DECL_EXTERNAL (newdecl
) = 0;
3534 if (DECL_LANG_SPECIFIC (newdecl
) && DECL_LANG_SPECIFIC (olddecl
))
3536 DECL_INTERFACE_KNOWN (newdecl
) |= DECL_INTERFACE_KNOWN (olddecl
);
3537 DECL_NOT_REALLY_EXTERN (newdecl
) |= DECL_NOT_REALLY_EXTERN (olddecl
);
3538 DECL_COMDAT (newdecl
) |= DECL_COMDAT (olddecl
);
3539 DECL_TEMPLATE_INSTANTIATED (newdecl
)
3540 |= DECL_TEMPLATE_INSTANTIATED (olddecl
);
3541 /* Don't really know how much of the language-specific
3542 values we should copy from old to new. */
3543 DECL_IN_AGGR_P (newdecl
) = DECL_IN_AGGR_P (olddecl
);
3544 DECL_ACCESS (newdecl
) = DECL_ACCESS (olddecl
);
3545 DECL_NONCONVERTING_P (newdecl
) = DECL_NONCONVERTING_P (olddecl
);
3546 DECL_TEMPLATE_INFO (newdecl
) = DECL_TEMPLATE_INFO (olddecl
);
3547 olddecl_friend
= DECL_FRIEND_P (olddecl
);
3549 /* Only functions have DECL_BEFRIENDING_CLASSES. */
3550 if (TREE_CODE (newdecl
) == FUNCTION_DECL
3551 || DECL_FUNCTION_TEMPLATE_P (newdecl
))
3552 DECL_BEFRIENDING_CLASSES (newdecl
)
3553 = chainon (DECL_BEFRIENDING_CLASSES (newdecl
),
3554 DECL_BEFRIENDING_CLASSES (olddecl
));
3557 if (TREE_CODE (newdecl
) == FUNCTION_DECL
)
3559 if (DECL_TEMPLATE_INSTANTIATION (olddecl
)
3560 && !DECL_TEMPLATE_INSTANTIATION (newdecl
))
3562 /* If newdecl is not a specialization, then it is not a
3563 template-related function at all. And that means that we
3564 shoud have exited above, returning 0. */
3565 my_friendly_assert (DECL_TEMPLATE_SPECIALIZATION (newdecl
),
3568 if (TREE_USED (olddecl
))
3569 /* From [temp.expl.spec]:
3571 If a template, a member template or the member of a class
3572 template is explicitly specialized then that
3573 specialization shall be declared before the first use of
3574 that specialization that would cause an implicit
3575 instantiation to take place, in every translation unit in
3576 which such a use occurs. */
3577 cp_error ("explicit specialization of %D after first use",
3580 SET_DECL_TEMPLATE_SPECIALIZATION (olddecl
);
3582 DECL_THIS_INLINE (newdecl
) |= DECL_THIS_INLINE (olddecl
);
3584 /* If either decl says `inline', this fn is inline, unless its
3585 definition was passed already. */
3586 if (DECL_INLINE (newdecl
) && DECL_INITIAL (olddecl
) == NULL_TREE
)
3587 DECL_INLINE (olddecl
) = 1;
3588 DECL_INLINE (newdecl
) = DECL_INLINE (olddecl
);
3592 DECL_LANGUAGE (olddecl
) = DECL_LANGUAGE (newdecl
);
3593 DECL_ASSEMBLER_NAME (olddecl
) = DECL_ASSEMBLER_NAME (newdecl
);
3594 DECL_RTL (olddecl
) = DECL_RTL (newdecl
);
3596 if (! types_match
|| new_defines_function
)
3598 /* These need to be copied so that the names are available.
3599 Note that if the types do match, we'll preserve inline
3600 info and other bits, but if not, we won't. */
3601 DECL_ARGUMENTS (olddecl
) = DECL_ARGUMENTS (newdecl
);
3602 DECL_RESULT (olddecl
) = DECL_RESULT (newdecl
);
3604 if (new_defines_function
)
3605 /* If defining a function declared with other language
3606 linkage, use the previously declared language linkage. */
3607 DECL_LANGUAGE (newdecl
) = DECL_LANGUAGE (olddecl
);
3608 else if (types_match
)
3610 /* If redeclaring a builtin function, and not a definition,
3611 it stays built in. */
3612 if (DECL_BUILT_IN (olddecl
))
3614 DECL_BUILT_IN_CLASS (newdecl
) = DECL_BUILT_IN_CLASS (olddecl
);
3615 DECL_FUNCTION_CODE (newdecl
) = DECL_FUNCTION_CODE (olddecl
);
3616 /* If we're keeping the built-in definition, keep the rtl,
3617 regardless of declaration matches. */
3618 DECL_RTL (newdecl
) = DECL_RTL (olddecl
);
3621 DECL_FRAME_SIZE (newdecl
) = DECL_FRAME_SIZE (olddecl
);
3623 DECL_RESULT (newdecl
) = DECL_RESULT (olddecl
);
3624 if ((DECL_SAVED_INSNS (newdecl
) = DECL_SAVED_INSNS (olddecl
)))
3625 /* Previously saved insns go together with
3626 the function's previous definition. */
3627 DECL_INITIAL (newdecl
) = DECL_INITIAL (olddecl
);
3628 /* Don't clear out the arguments if we're redefining a function. */
3629 if (DECL_ARGUMENTS (olddecl
))
3630 DECL_ARGUMENTS (newdecl
) = DECL_ARGUMENTS (olddecl
);
3634 if (TREE_CODE (newdecl
) == NAMESPACE_DECL
)
3636 NAMESPACE_LEVEL (newdecl
) = NAMESPACE_LEVEL (olddecl
);
3639 /* Now preserve various other info from the definition. */
3640 TREE_ADDRESSABLE (newdecl
) = TREE_ADDRESSABLE (olddecl
);
3641 TREE_ASM_WRITTEN (newdecl
) = TREE_ASM_WRITTEN (olddecl
);
3642 DECL_COMMON (newdecl
) = DECL_COMMON (olddecl
);
3643 DECL_ASSEMBLER_NAME (newdecl
) = DECL_ASSEMBLER_NAME (olddecl
);
3645 if (TREE_CODE (newdecl
) == FUNCTION_DECL
)
3649 function_size
= sizeof (struct tree_decl
);
3651 bcopy ((char *) newdecl
+ sizeof (struct tree_common
),
3652 (char *) olddecl
+ sizeof (struct tree_common
),
3653 function_size
- sizeof (struct tree_common
));
3655 if (DECL_TEMPLATE_INSTANTIATION (newdecl
))
3657 /* If newdecl is a template instantiation, it is possible that
3658 the following sequence of events has occurred:
3660 o A friend function was declared in a class template. The
3661 class template was instantiated.
3663 o The instantiation of the friend declaration was
3664 recorded on the instantiation list, and is newdecl.
3666 o Later, however, instantiate_class_template called pushdecl
3667 on the newdecl to perform name injection. But, pushdecl in
3668 turn called duplicate_decls when it discovered that another
3669 declaration of a global function with the same name already
3672 o Here, in duplicate_decls, we decided to clobber newdecl.
3674 If we're going to do that, we'd better make sure that
3675 olddecl, and not newdecl, is on the list of
3676 instantiations so that if we try to do the instantiation
3677 again we won't get the clobbered declaration. */
3679 tree tmpl
= DECL_TI_TEMPLATE (newdecl
);
3680 tree decls
= DECL_TEMPLATE_SPECIALIZATIONS (tmpl
);
3682 for (; decls
; decls
= TREE_CHAIN (decls
))
3683 if (TREE_VALUE (decls
) == newdecl
)
3684 TREE_VALUE (decls
) = olddecl
;
3689 bcopy ((char *) newdecl
+ sizeof (struct tree_common
),
3690 (char *) olddecl
+ sizeof (struct tree_common
),
3691 sizeof (struct tree_decl
) - sizeof (struct tree_common
)
3692 + tree_code_length
[(int)TREE_CODE (newdecl
)] * sizeof (char *));
3695 DECL_UID (olddecl
) = olddecl_uid
;
3697 DECL_FRIEND_P (olddecl
) = 1;
3699 /* NEWDECL contains the merged attribute lists.
3700 Update OLDDECL to be the same. */
3701 DECL_MACHINE_ATTRIBUTES (olddecl
) = DECL_MACHINE_ATTRIBUTES (newdecl
);
3706 /* Record a decl-node X as belonging to the current lexical scope.
3707 Check for errors (such as an incompatible declaration for the same
3708 name already seen in the same scope).
3710 Returns either X or an old decl for the same name.
3711 If an old decl is returned, it may have been smashed
3712 to agree with what X says. */
3720 int need_new_binding
;
3722 /* We shouldn't be calling pushdecl when we're generating RTL for a
3723 function that we already did semantic analysis on previously. */
3724 my_friendly_assert (!cfun
|| doing_semantic_analysis_p (),
3727 name
= DECL_ASSEMBLER_NAME (x
);
3728 need_new_binding
= 1;
3730 if (DECL_TEMPLATE_PARM_P (x
))
3731 /* Template parameters have no context; they are not X::T even
3732 when declared within a class or namespace. */
3736 if (current_function_decl
&& x
!= current_function_decl
3737 /* A local declaration for a function doesn't constitute
3739 && !(TREE_CODE (x
) == FUNCTION_DECL
&& !DECL_INITIAL (x
))
3740 /* A local declaration for an `extern' variable is in the
3741 scoped of the current namespace, not the current
3743 && !(TREE_CODE (x
) == VAR_DECL
&& DECL_EXTERNAL (x
))
3744 && !DECL_CONTEXT (x
))
3745 DECL_CONTEXT (x
) = current_function_decl
;
3746 if (!DECL_CONTEXT (x
))
3747 DECL_CONTEXT (x
) = FROB_CONTEXT (current_namespace
);
3749 /* If this is the declaration for a namespace-scope function,
3750 but the declaration itself is in a local scope, mark the
3752 if (TREE_CODE (x
) == FUNCTION_DECL
3753 && DECL_NAMESPACE_SCOPE_P (x
)
3754 && current_function_decl
3755 && x
!= current_function_decl
)
3756 DECL_LOCAL_FUNCTION_P (x
) = 1;
3759 /* Type are looked up using the DECL_NAME, as that is what the rest of the
3760 compiler wants to use. */
3761 if (TREE_CODE (x
) == TYPE_DECL
|| TREE_CODE (x
) == VAR_DECL
3762 || TREE_CODE (x
) == NAMESPACE_DECL
)
3763 name
= DECL_NAME (x
);
3768 /* Not needed...see below. */
3772 if (TREE_CODE (name
) == TEMPLATE_ID_EXPR
)
3773 name
= TREE_OPERAND (name
, 0);
3775 /* Namespace-scoped variables are not found in the current level. */
3776 if (TREE_CODE (x
) == VAR_DECL
&& DECL_NAMESPACE_SCOPE_P (x
))
3777 t
= namespace_binding (name
, DECL_CONTEXT (x
));
3779 t
= lookup_name_current_level (name
);
3780 if (t
== error_mark_node
)
3782 /* error_mark_node is 0 for a while during initialization! */
3784 cp_error_at ("`%#D' used prior to declaration", x
);
3787 else if (t
!= NULL_TREE
)
3790 /* This is turned off until I have time to do it right (bpk). */
3791 /* With the code below that uses it... */
3792 file
= DECL_SOURCE_FILE (t
);
3793 line
= DECL_SOURCE_LINE (t
);
3795 if (TREE_CODE (t
) == PARM_DECL
)
3797 if (DECL_CONTEXT (t
) == NULL_TREE
)
3798 fatal ("parse errors have confused me too much");
3800 /* Check for duplicate params. */
3801 if (duplicate_decls (x
, t
))
3804 else if (((TREE_CODE (x
) == FUNCTION_DECL
&& DECL_LANGUAGE (x
) == lang_c
)
3805 || DECL_FUNCTION_TEMPLATE_P (x
))
3806 && is_overloaded_fn (t
))
3807 /* Don't do anything just yet. */;
3808 else if (t
== wchar_decl_node
)
3810 if (pedantic
&& ! DECL_IN_SYSTEM_HEADER (x
))
3811 cp_pedwarn ("redeclaration of wchar_t as `%T'", TREE_TYPE (x
));
3813 /* Throw away the redeclaration. */
3816 else if (TREE_CODE (t
) != TREE_CODE (x
))
3818 if (duplicate_decls (x
, t
))
3821 else if (duplicate_decls (x
, t
))
3824 /* This is turned off until I have time to do it right (bpk). */
3826 /* Also warn if they did a prototype with `static' on it, but
3827 then later left the `static' off. */
3828 if (! TREE_PUBLIC (name
) && TREE_PUBLIC (x
))
3830 if (DECL_LANG_SPECIFIC (t
) && DECL_FRIEND_P (t
))
3835 cp_warning ("`static' missing from declaration of `%D'",
3837 warning_with_file_and_line (file
, line
,
3838 "previous declaration of `%s'",
3839 decl_as_string (t
, 0));
3842 /* Now fix things so it'll do what they expect. */
3843 if (current_function_decl
)
3844 TREE_PUBLIC (current_function_decl
) = 0;
3846 /* Due to interference in memory reclamation (X may be
3847 obstack-deallocated at this point), we must guard against
3848 one really special case. [jason: This should be handled
3849 by start_function] */
3850 if (current_function_decl
== x
)
3851 current_function_decl
= t
;
3853 if (TREE_CODE (t
) == TYPE_DECL
)
3854 SET_IDENTIFIER_TYPE_VALUE (name
, TREE_TYPE (t
));
3855 else if (TREE_CODE (t
) == FUNCTION_DECL
)
3856 check_default_args (t
);
3860 else if (DECL_MAIN_P (x
))
3862 /* A redeclaration of main, but not a duplicate of the
3867 This function shall not be overloaded. */
3868 cp_error_at ("invalid redeclaration of `%D'", t
);
3869 cp_error ("as `%D'", x
);
3870 /* We don't try to push this declaration since that
3876 check_template_shadow (x
);
3878 /* If this is a function conjured up by the backend, massage it
3879 so it looks friendly. */
3880 if (TREE_CODE (x
) == FUNCTION_DECL
3881 && ! DECL_LANG_SPECIFIC (x
))
3883 retrofit_lang_decl (x
);
3884 DECL_LANGUAGE (x
) = lang_c
;
3887 if (TREE_CODE (x
) == FUNCTION_DECL
&& ! DECL_FUNCTION_MEMBER_P (x
))
3889 t
= push_overloaded_decl (x
, PUSH_LOCAL
);
3892 if (!namespace_bindings_p ())
3893 /* We do not need to create a binding for this name;
3894 push_overloaded_decl will have already done so if
3896 need_new_binding
= 0;
3898 else if (DECL_FUNCTION_TEMPLATE_P (x
) && DECL_NAMESPACE_SCOPE_P (x
))
3900 t
= push_overloaded_decl (x
, PUSH_GLOBAL
);
3902 add_decl_to_level (x
, NAMESPACE_LEVEL (CP_DECL_CONTEXT (t
)));
3906 /* If declaring a type as a typedef, copy the type (unless we're
3907 at line 0), and install this TYPE_DECL as the new type's typedef
3908 name. See the extensive comment in ../c-decl.c (pushdecl). */
3909 if (TREE_CODE (x
) == TYPE_DECL
)
3911 tree type
= TREE_TYPE (x
);
3912 if (DECL_SOURCE_LINE (x
) == 0)
3914 if (TYPE_NAME (type
) == 0)
3915 TYPE_NAME (type
) = x
;
3917 else if (type
!= error_mark_node
&& TYPE_NAME (type
) != x
3918 /* We don't want to copy the type when all we're
3919 doing is making a TYPE_DECL for the purposes of
3921 && (!TYPE_NAME (type
)
3922 || TYPE_NAME (type
) != DECL_ABSTRACT_ORIGIN (x
)))
3924 DECL_ORIGINAL_TYPE (x
) = type
;
3925 type
= build_type_copy (type
);
3926 TYPE_STUB_DECL (type
) = TYPE_STUB_DECL (DECL_ORIGINAL_TYPE (x
));
3927 TYPE_NAME (type
) = x
;
3928 TREE_TYPE (x
) = type
;
3931 if (type
!= error_mark_node
3933 && TYPE_IDENTIFIER (type
))
3934 set_identifier_type_value_with_scope (DECL_NAME (x
), type
,
3935 current_binding_level
);
3939 /* Multiple external decls of the same identifier ought to match.
3941 We get warnings about inline functions where they are defined.
3942 We get warnings about other functions from push_overloaded_decl.
3944 Avoid duplicate warnings where they are used. */
3945 if (TREE_PUBLIC (x
) && TREE_CODE (x
) != FUNCTION_DECL
)
3949 if (IDENTIFIER_NAMESPACE_VALUE (name
) != NULL_TREE
3950 && (DECL_EXTERNAL (IDENTIFIER_NAMESPACE_VALUE (name
))
3951 || TREE_PUBLIC (IDENTIFIER_NAMESPACE_VALUE (name
))))
3952 decl
= IDENTIFIER_NAMESPACE_VALUE (name
);
3957 /* If different sort of thing, we already gave an error. */
3958 && TREE_CODE (decl
) == TREE_CODE (x
)
3959 && !same_type_p (TREE_TYPE (x
), TREE_TYPE (decl
)))
3961 cp_pedwarn ("type mismatch with previous external decl", x
);
3962 cp_pedwarn_at ("previous external decl of `%#D'", decl
);
3966 /* This name is new in its binding level.
3967 Install the new declaration and return it. */
3968 if (namespace_bindings_p ())
3970 /* Install a global value. */
3972 /* If the first global decl has external linkage,
3973 warn if we later see static one. */
3974 if (IDENTIFIER_GLOBAL_VALUE (name
) == NULL_TREE
&& TREE_PUBLIC (x
))
3975 TREE_PUBLIC (name
) = 1;
3977 if (!(TREE_CODE (x
) == TYPE_DECL
&& DECL_ARTIFICIAL (x
)
3979 /* For an ordinary function, we create a binding from
3980 the mangled name (i.e., NAME) to the DECL. But, for
3981 an `extern "C"' function, the mangled name and the
3982 ordinary name are the same so we need not do this. */
3983 && !(TREE_CODE (x
) == FUNCTION_DECL
&&
3984 DECL_LANGUAGE (x
) == lang_c
))
3986 if (TREE_CODE (x
) == FUNCTION_DECL
)
3988 ((IDENTIFIER_GLOBAL_VALUE (name
) == NULL_TREE
)
3989 || (IDENTIFIER_GLOBAL_VALUE (name
) == x
), 378);
3990 SET_IDENTIFIER_NAMESPACE_VALUE (name
, x
);
3993 /* Don't forget if the function was used via an implicit decl. */
3994 if (IDENTIFIER_IMPLICIT_DECL (name
)
3995 && TREE_USED (IDENTIFIER_IMPLICIT_DECL (name
)))
3998 /* Don't forget if its address was taken in that way. */
3999 if (IDENTIFIER_IMPLICIT_DECL (name
)
4000 && TREE_ADDRESSABLE (IDENTIFIER_IMPLICIT_DECL (name
)))
4001 TREE_ADDRESSABLE (x
) = 1;
4003 /* Warn about mismatches against previous implicit decl. */
4004 if (IDENTIFIER_IMPLICIT_DECL (name
) != NULL_TREE
4005 /* If this real decl matches the implicit, don't complain. */
4006 && ! (TREE_CODE (x
) == FUNCTION_DECL
4007 && TREE_TYPE (TREE_TYPE (x
)) == integer_type_node
))
4009 ("`%D' was previously implicitly declared to return `int'", x
);
4011 /* If new decl is `static' and an `extern' was seen previously,
4013 if (x
!= NULL_TREE
&& t
!= NULL_TREE
&& decls_match (x
, t
))
4014 warn_extern_redeclared_static (x
, t
);
4018 /* Here to install a non-global value. */
4019 tree oldlocal
= IDENTIFIER_VALUE (name
);
4020 tree oldglobal
= IDENTIFIER_NAMESPACE_VALUE (name
);
4022 if (need_new_binding
)
4024 push_local_binding (name
, x
, 0);
4025 /* Because push_local_binding will hook X on to the
4026 current_binding_level's name list, we don't want to
4027 do that again below. */
4028 need_new_binding
= 0;
4031 /* If this is a TYPE_DECL, push it into the type value slot. */
4032 if (TREE_CODE (x
) == TYPE_DECL
)
4033 set_identifier_type_value_with_scope (name
, TREE_TYPE (x
),
4034 current_binding_level
);
4036 /* Clear out any TYPE_DECL shadowed by a namespace so that
4037 we won't think this is a type. The C struct hack doesn't
4038 go through namespaces. */
4039 if (TREE_CODE (x
) == NAMESPACE_DECL
)
4040 set_identifier_type_value_with_scope (name
, NULL_TREE
,
4041 current_binding_level
);
4048 && TREE_CODE (oldlocal
) == VAR_DECL
4049 && DECL_DEAD_FOR_LOCAL (oldlocal
))
4050 oldlocal
= DECL_SHADOWED_FOR_VAR (oldlocal
);
4052 if (oldlocal
== NULL_TREE
)
4053 oldlocal
= IDENTIFIER_NAMESPACE_VALUE (DECL_NAME (d
));
4056 /* If this is an extern function declaration, see if we
4057 have a global definition or declaration for the function. */
4058 if (oldlocal
== NULL_TREE
4059 && DECL_EXTERNAL (x
)
4060 && oldglobal
!= NULL_TREE
4061 && TREE_CODE (x
) == FUNCTION_DECL
4062 && TREE_CODE (oldglobal
) == FUNCTION_DECL
)
4064 /* We have one. Their types must agree. */
4065 if (decls_match (x
, oldglobal
))
4069 cp_warning ("extern declaration of `%#D' doesn't match", x
);
4070 cp_warning_at ("global declaration `%#D'", oldglobal
);
4073 /* If we have a local external declaration,
4074 and no file-scope declaration has yet been seen,
4075 then if we later have a file-scope decl it must not be static. */
4076 if (oldlocal
== NULL_TREE
4077 && oldglobal
== NULL_TREE
4078 && DECL_EXTERNAL (x
)
4080 TREE_PUBLIC (name
) = 1;
4082 /* Warn if shadowing an argument at the top level of the body. */
4083 if (oldlocal
!= NULL_TREE
&& !DECL_EXTERNAL (x
)
4084 /* Inline decls shadow nothing. */
4085 && !DECL_FROM_INLINE (x
)
4086 && TREE_CODE (oldlocal
) == PARM_DECL
4087 /* Don't complain if it's from an enclosing function. */
4088 && DECL_CONTEXT (oldlocal
) == current_function_decl
4089 && TREE_CODE (x
) != PARM_DECL
)
4091 /* Go to where the parms should be and see if we
4093 struct binding_level
*b
= current_binding_level
->level_chain
;
4099 if (b
->parm_flag
== 1)
4100 cp_error ("declaration of `%#D' shadows a parameter", name
);
4103 /* Maybe warn if shadowing something else. */
4104 if (warn_shadow
&& !DECL_EXTERNAL (x
)
4105 /* Inline decls shadow nothing. */
4106 && !DECL_FROM_INLINE (x
)
4107 /* No shadow warnings for internally generated vars. */
4108 && ! DECL_ARTIFICIAL (x
)
4109 /* No shadow warnings for vars made for inlining. */
4110 && ! DECL_FROM_INLINE (x
))
4112 if (oldlocal
!= NULL_TREE
&& TREE_CODE (oldlocal
) == PARM_DECL
)
4113 warning ("declaration of `%s' shadows a parameter",
4114 IDENTIFIER_POINTER (name
));
4115 else if (IDENTIFIER_CLASS_VALUE (name
) != NULL_TREE
4116 && current_class_ptr
4117 && !TREE_STATIC (name
))
4118 warning ("declaration of `%s' shadows a member of `this'",
4119 IDENTIFIER_POINTER (name
));
4120 else if (oldlocal
!= NULL_TREE
)
4121 warning ("declaration of `%s' shadows previous local",
4122 IDENTIFIER_POINTER (name
));
4123 else if (oldglobal
!= NULL_TREE
)
4124 /* XXX shadow warnings in outer-more namespaces */
4125 warning ("declaration of `%s' shadows global declaration",
4126 IDENTIFIER_POINTER (name
));
4130 if (TREE_CODE (x
) == FUNCTION_DECL
)
4131 check_default_args (x
);
4133 /* Keep count of variables in this level with incomplete type. */
4134 if (TREE_CODE (x
) == VAR_DECL
4135 && TREE_TYPE (x
) != error_mark_node
4136 && ((!COMPLETE_TYPE_P (TREE_TYPE (x
))
4137 && PROMOTES_TO_AGGR_TYPE (TREE_TYPE (x
), ARRAY_TYPE
))
4138 /* RTTI TD entries are created while defining the type_info. */
4139 || (TYPE_LANG_SPECIFIC (TREE_TYPE (x
))
4140 && TYPE_BEING_DEFINED (TREE_TYPE (x
)))))
4142 if (namespace_bindings_p ())
4143 namespace_scope_incomplete
4144 = tree_cons (NULL_TREE
, x
, namespace_scope_incomplete
);
4146 current_binding_level
->incomplete
4147 = tree_cons (NULL_TREE
, x
, current_binding_level
->incomplete
);
4151 if (need_new_binding
)
4152 add_decl_to_level (x
,
4153 DECL_NAMESPACE_SCOPE_P (x
)
4154 ? NAMESPACE_LEVEL (CP_DECL_CONTEXT (x
))
4155 : current_binding_level
);
4160 /* Same as pushdecl, but define X in binding-level LEVEL. We rely on the
4161 caller to set DECL_CONTEXT properly. */
4164 pushdecl_with_scope (x
, level
)
4166 struct binding_level
*level
;
4168 register struct binding_level
*b
;
4169 tree function_decl
= current_function_decl
;
4171 current_function_decl
= NULL_TREE
;
4172 if (level
->parm_flag
== 2)
4174 b
= class_binding_level
;
4175 class_binding_level
= level
;
4176 pushdecl_class_level (x
);
4177 class_binding_level
= b
;
4181 b
= current_binding_level
;
4182 current_binding_level
= level
;
4184 current_binding_level
= b
;
4186 current_function_decl
= function_decl
;
4190 /* Like pushdecl, only it places X in the current namespace,
4194 pushdecl_namespace_level (x
)
4197 register struct binding_level
*b
= current_binding_level
;
4200 t
= pushdecl_with_scope (x
, NAMESPACE_LEVEL (current_namespace
));
4202 /* Now, the type_shadowed stack may screw us. Munge it so it does
4204 if (TREE_CODE (x
) == TYPE_DECL
)
4206 tree name
= DECL_NAME (x
);
4208 tree
*ptr
= (tree
*)0;
4209 for (; b
!= global_binding_level
; b
= b
->level_chain
)
4211 tree shadowed
= b
->type_shadowed
;
4212 for (; shadowed
; shadowed
= TREE_CHAIN (shadowed
))
4213 if (TREE_PURPOSE (shadowed
) == name
)
4215 ptr
= &TREE_VALUE (shadowed
);
4216 /* Can't break out of the loop here because sometimes
4217 a binding level will have duplicate bindings for
4218 PT names. It's gross, but I haven't time to fix it. */
4221 newval
= TREE_TYPE (x
);
4222 if (ptr
== (tree
*)0)
4224 /* @@ This shouldn't be needed. My test case "zstring.cc" trips
4225 up here if this is changed to an assertion. --KR */
4226 SET_IDENTIFIER_TYPE_VALUE (name
, newval
);
4236 /* Like pushdecl, only it places X in GLOBAL_BINDING_LEVEL,
4240 pushdecl_top_level (x
)
4243 push_to_top_level ();
4244 x
= pushdecl_namespace_level (x
);
4245 pop_from_top_level ();
4249 /* Make the declaration of X appear in CLASS scope. */
4252 pushdecl_class_level (x
)
4255 /* Don't use DECL_ASSEMBLER_NAME here! Everything that looks in class
4256 scope looks for the pre-mangled name. */
4259 if (TREE_CODE (x
) == OVERLOAD
)
4260 x
= OVL_CURRENT (x
);
4261 name
= DECL_NAME (x
);
4265 push_class_level_binding (name
, x
);
4266 if (TREE_CODE (x
) == TYPE_DECL
)
4267 set_identifier_type_value (name
, TREE_TYPE (x
));
4269 else if (ANON_AGGR_TYPE_P (TREE_TYPE (x
)))
4273 for (f
= TYPE_FIELDS (TREE_TYPE (x
));
4276 pushdecl_class_level (f
);
4280 /* Enter DECL into the symbol table, if that's appropriate. Returns
4281 DECL, or a modified version thereof. */
4284 maybe_push_decl (decl
)
4287 tree type
= TREE_TYPE (decl
);
4289 /* Add this decl to the current binding level, but not if it comes
4290 from another scope, e.g. a static member variable. TEM may equal
4291 DECL or it may be a previous decl of the same name. */
4292 if (decl
== error_mark_node
4293 || (TREE_CODE (decl
) != PARM_DECL
4294 && DECL_CONTEXT (decl
) != NULL_TREE
4295 /* Definitions of namespace members outside their namespace are
4297 && TREE_CODE (DECL_CONTEXT (decl
)) != NAMESPACE_DECL
)
4298 || (TREE_CODE (decl
) == TEMPLATE_DECL
&& !namespace_bindings_p ())
4299 || TREE_CODE (type
) == UNKNOWN_TYPE
4300 /* The declaration of a template specialization does not affect
4301 the functions available for overload resolution, so we do not
4303 || (TREE_CODE (decl
) == FUNCTION_DECL
4304 && DECL_TEMPLATE_SPECIALIZATION (decl
)))
4307 return pushdecl (decl
);
4310 /* Make the declaration(s) of X appear in CLASS scope
4311 under the name NAME. */
4314 push_class_level_binding (name
, x
)
4319 /* The class_binding_level will be NULL if x is a template
4320 parameter name in a member template. */
4321 if (!class_binding_level
)
4324 /* Make sure that this new member does not have the same name
4325 as a template parameter. */
4326 if (TYPE_BEING_DEFINED (current_class_type
))
4327 check_template_shadow (x
);
4329 /* If this declaration shadows a declaration from an enclosing
4330 class, then we will need to restore IDENTIFIER_CLASS_VALUE when
4331 we leave this class. Record the shadowed declaration here. */
4332 binding
= IDENTIFIER_BINDING (name
);
4334 && ((TREE_CODE (x
) == OVERLOAD
4335 && BINDING_VALUE (binding
)
4336 && is_overloaded_fn (BINDING_VALUE (binding
)))
4337 || INHERITED_VALUE_BINDING_P (binding
)))
4342 /* If the old binding was from a base class, and was for a tag
4343 name, slide it over to make room for the new binding. The
4344 old binding is still visible if explicitly qualified with a
4346 if (INHERITED_VALUE_BINDING_P (binding
)
4347 && BINDING_VALUE (binding
)
4348 && TREE_CODE (BINDING_VALUE (binding
)) == TYPE_DECL
4349 && DECL_ARTIFICIAL (BINDING_VALUE (binding
))
4350 && !(TREE_CODE (x
) == TYPE_DECL
&& DECL_ARTIFICIAL (x
)))
4352 old_decl
= BINDING_TYPE (binding
);
4353 BINDING_TYPE (binding
) = BINDING_VALUE (binding
);
4354 BINDING_VALUE (binding
) = NULL_TREE
;
4355 INHERITED_VALUE_BINDING_P (binding
) = 0;
4358 old_decl
= BINDING_VALUE (binding
);
4360 /* There was already a binding for X containing fewer
4361 functions than are named in X. Find the previous
4362 declaration of X on the class-shadowed list, and update it. */
4363 for (shadow
= class_binding_level
->class_shadowed
;
4365 shadow
= TREE_CHAIN (shadow
))
4366 if (TREE_PURPOSE (shadow
) == name
4367 && TREE_TYPE (shadow
) == old_decl
)
4369 BINDING_VALUE (binding
) = x
;
4370 INHERITED_VALUE_BINDING_P (binding
) = 0;
4371 TREE_TYPE (shadow
) = x
;
4376 /* If we didn't replace an existing binding, put the binding on the
4377 stack of bindings for the identifier, and update
4378 IDENTIFIER_CLASS_VALUE. */
4379 if (push_class_binding (name
, x
))
4381 class_binding_level
->class_shadowed
4382 = tree_cons (name
, IDENTIFIER_CLASS_VALUE (name
),
4383 class_binding_level
->class_shadowed
);
4384 /* Record the value we are binding NAME to so that we can know
4385 what to pop later. */
4386 TREE_TYPE (class_binding_level
->class_shadowed
) = x
;
4390 /* Insert another USING_DECL into the current binding level,
4391 returning this declaration. If this is a redeclaration,
4392 do nothing and return NULL_TREE. */
4395 push_using_decl (scope
, name
)
4401 my_friendly_assert (TREE_CODE (scope
) == NAMESPACE_DECL
, 383);
4402 my_friendly_assert (TREE_CODE (name
) == IDENTIFIER_NODE
, 384);
4403 for (decl
= current_binding_level
->usings
; decl
; decl
= TREE_CHAIN (decl
))
4404 if (DECL_INITIAL (decl
) == scope
&& DECL_NAME (decl
) == name
)
4408 decl
= build_lang_decl (USING_DECL
, name
, void_type_node
);
4409 DECL_INITIAL (decl
) = scope
;
4410 TREE_CHAIN (decl
) = current_binding_level
->usings
;
4411 current_binding_level
->usings
= decl
;
4415 /* Add namespace to using_directives. Return NULL_TREE if nothing was
4416 changed (i.e. there was already a directive), or the fresh
4417 TREE_LIST otherwise. */
4420 push_using_directive (used
)
4423 tree ud
= current_binding_level
->using_directives
;
4424 tree iter
, ancestor
;
4426 /* Check if we already have this. */
4427 if (purpose_member (used
, ud
) != NULL_TREE
)
4430 /* Recursively add all namespaces used. */
4431 for (iter
= DECL_NAMESPACE_USING (used
); iter
; iter
= TREE_CHAIN (iter
))
4432 push_using_directive (TREE_PURPOSE (iter
));
4434 ancestor
= namespace_ancestor (current_decl_namespace (), used
);
4435 ud
= current_binding_level
->using_directives
;
4436 ud
= tree_cons (used
, ancestor
, ud
);
4437 current_binding_level
->using_directives
= ud
;
4441 /* DECL is a FUNCTION_DECL for a non-member function, which may have
4442 other definitions already in place. We get around this by making
4443 the value of the identifier point to a list of all the things that
4444 want to be referenced by that name. It is then up to the users of
4445 that name to decide what to do with that list.
4447 DECL may also be a TEMPLATE_DECL, with a FUNCTION_DECL in its
4448 DECL_TEMPLATE_RESULT. It is dealt with the same way.
4450 FLAGS is a bitwise-or of the following values:
4451 PUSH_LOCAL: Bind DECL in the current scope, rather than at
4453 PUSH_USING: DECL is being pushed as the result of a using
4456 The value returned may be a previous declaration if we guessed wrong
4457 about what language DECL should belong to (C or C++). Otherwise,
4458 it's always DECL (and never something that's not a _DECL). */
4461 push_overloaded_decl (decl
, flags
)
4465 tree name
= DECL_NAME (decl
);
4468 int doing_global
= (namespace_bindings_p () || !(flags
& PUSH_LOCAL
));
4471 old
= namespace_binding (name
, DECL_CONTEXT (decl
));
4473 old
= lookup_name_current_level (name
);
4477 if (TREE_CODE (old
) == TYPE_DECL
&& DECL_ARTIFICIAL (old
))
4479 tree t
= TREE_TYPE (old
);
4480 if (IS_AGGR_TYPE (t
) && warn_shadow
4481 && (! DECL_IN_SYSTEM_HEADER (decl
)
4482 || ! DECL_IN_SYSTEM_HEADER (old
)))
4483 cp_warning ("`%#D' hides constructor for `%#T'", decl
, t
);
4486 else if (is_overloaded_fn (old
))
4490 for (tmp
= old
; tmp
; tmp
= OVL_NEXT (tmp
))
4492 tree fn
= OVL_CURRENT (tmp
);
4494 if (TREE_CODE (tmp
) == OVERLOAD
&& OVL_USED (tmp
)
4495 && !(flags
& PUSH_USING
)
4496 && compparms (TYPE_ARG_TYPES (TREE_TYPE (fn
)),
4497 TYPE_ARG_TYPES (TREE_TYPE (decl
))))
4498 cp_error ("`%#D' conflicts with previous using declaration `%#D'",
4501 if (duplicate_decls (decl
, fn
))
4507 cp_error_at ("previous non-function declaration `%#D'", old
);
4508 cp_error ("conflicts with function declaration `%#D'", decl
);
4513 if (old
|| TREE_CODE (decl
) == TEMPLATE_DECL
)
4515 if (old
&& TREE_CODE (old
) != OVERLOAD
)
4516 new_binding
= ovl_cons (decl
, ovl_cons (old
, NULL_TREE
));
4518 new_binding
= ovl_cons (decl
, old
);
4519 if (flags
& PUSH_USING
)
4520 OVL_USED (new_binding
) = 1;
4523 /* NAME is not ambiguous. */
4527 set_namespace_binding (name
, current_namespace
, new_binding
);
4530 /* We only create an OVERLOAD if there was a previous binding at
4531 this level, or if decl is a template. In the former case, we
4532 need to remove the old binding and replace it with the new
4533 binding. We must also run through the NAMES on the binding
4534 level where the name was bound to update the chain. */
4536 if (TREE_CODE (new_binding
) == OVERLOAD
&& old
)
4540 for (d
= &BINDING_LEVEL (IDENTIFIER_BINDING (name
))->names
;
4542 d
= &TREE_CHAIN (*d
))
4544 || (TREE_CODE (*d
) == TREE_LIST
4545 && TREE_VALUE (*d
) == old
))
4547 if (TREE_CODE (*d
) == TREE_LIST
)
4548 /* Just replace the old binding with the new. */
4549 TREE_VALUE (*d
) = new_binding
;
4551 /* Build a TREE_LIST to wrap the OVERLOAD. */
4552 *d
= tree_cons (NULL_TREE
, new_binding
,
4555 /* And update the CPLUS_BINDING node. */
4556 BINDING_VALUE (IDENTIFIER_BINDING (name
))
4561 /* We should always find a previous binding in this case. */
4562 my_friendly_abort (0);
4565 /* Install the new binding. */
4566 push_local_binding (name
, new_binding
, flags
);
4572 /* Generate an implicit declaration for identifier FUNCTIONID
4573 as a function of type int (). Print a warning if appropriate. */
4576 implicitly_declare (functionid
)
4581 /* We used to reuse an old implicit decl here,
4582 but this loses with inline functions because it can clobber
4583 the saved decl chains. */
4584 decl
= build_lang_decl (FUNCTION_DECL
, functionid
, default_function_type
);
4586 DECL_EXTERNAL (decl
) = 1;
4587 TREE_PUBLIC (decl
) = 1;
4589 /* ISO standard says implicit declarations are in the innermost block.
4590 So we record the decl in the standard fashion. */
4592 rest_of_decl_compilation (decl
, NULL_PTR
, 0, 0);
4595 /* Only one warning per identifier. */
4596 && IDENTIFIER_IMPLICIT_DECL (functionid
) == NULL_TREE
)
4598 cp_pedwarn ("implicit declaration of function `%#D'", decl
);
4601 SET_IDENTIFIER_IMPLICIT_DECL (functionid
, decl
);
4606 /* Return zero if the declaration NEWDECL is valid
4607 when the declaration OLDDECL (assumed to be for the same name)
4608 has already been seen.
4609 Otherwise return an error message format string with a %s
4610 where the identifier should go. */
4613 redeclaration_error_message (newdecl
, olddecl
)
4614 tree newdecl
, olddecl
;
4616 if (TREE_CODE (newdecl
) == TYPE_DECL
)
4618 /* Because C++ can put things into name space for free,
4619 constructs like "typedef struct foo { ... } foo"
4620 would look like an erroneous redeclaration. */
4621 if (same_type_p (TREE_TYPE (newdecl
), TREE_TYPE (olddecl
)))
4624 return "redefinition of `%#D'";
4626 else if (TREE_CODE (newdecl
) == FUNCTION_DECL
)
4628 /* If this is a pure function, its olddecl will actually be
4629 the original initialization to `0' (which we force to call
4630 abort()). Don't complain about redefinition in this case. */
4631 if (DECL_LANG_SPECIFIC (olddecl
) && DECL_PURE_VIRTUAL_P (olddecl
))
4634 /* If both functions come from different namespaces, this is not
4635 a redeclaration - this is a conflict with a used function. */
4636 if (DECL_NAMESPACE_SCOPE_P (olddecl
)
4637 && DECL_CONTEXT (olddecl
) != DECL_CONTEXT (newdecl
))
4638 return "`%D' conflicts with used function";
4640 /* We'll complain about linkage mismatches in
4641 warn_extern_redeclared_static. */
4643 /* Defining the same name twice is no good. */
4644 if (DECL_INITIAL (olddecl
) != NULL_TREE
4645 && DECL_INITIAL (newdecl
) != NULL_TREE
)
4647 if (DECL_NAME (olddecl
) == NULL_TREE
)
4648 return "`%#D' not declared in class";
4650 return "redefinition of `%#D'";
4654 else if (TREE_CODE (newdecl
) == TEMPLATE_DECL
)
4656 if ((TREE_CODE (DECL_TEMPLATE_RESULT (newdecl
)) == FUNCTION_DECL
4657 && DECL_INITIAL (DECL_TEMPLATE_RESULT (newdecl
))
4658 && DECL_INITIAL (DECL_TEMPLATE_RESULT (olddecl
)))
4659 || (TREE_CODE (DECL_TEMPLATE_RESULT (newdecl
)) == TYPE_DECL
4660 && COMPLETE_TYPE_P (TREE_TYPE (newdecl
))
4661 && COMPLETE_TYPE_P (TREE_TYPE (olddecl
))))
4662 return "redefinition of `%#D'";
4665 else if (toplevel_bindings_p () || DECL_NAMESPACE_SCOPE_P (newdecl
))
4667 /* Objects declared at top level: */
4668 /* If at least one is a reference, it's ok. */
4669 if (DECL_EXTERNAL (newdecl
) || DECL_EXTERNAL (olddecl
))
4671 /* Reject two definitions. */
4672 return "redefinition of `%#D'";
4676 /* Objects declared with block scope: */
4677 /* Reject two definitions, and reject a definition
4678 together with an external reference. */
4679 if (!(DECL_EXTERNAL (newdecl
) && DECL_EXTERNAL (olddecl
)))
4680 return "redeclaration of `%#D'";
4685 /* Create a new label, named ID. */
4688 make_label_decl (id
, local_p
)
4694 decl
= build_decl (LABEL_DECL
, id
, void_type_node
);
4696 /* Make sure every label has an rtx. */
4699 DECL_CONTEXT (decl
) = current_function_decl
;
4700 DECL_MODE (decl
) = VOIDmode
;
4701 C_DECLARED_LABEL_FLAG (decl
) = local_p
;
4703 /* Say where one reference is to the label, for the sake of the
4704 error if it is not defined. */
4705 DECL_SOURCE_LINE (decl
) = lineno
;
4706 DECL_SOURCE_FILE (decl
) = input_filename
;
4708 /* Record the fact that this identifier is bound to this label. */
4709 SET_IDENTIFIER_LABEL_VALUE (id
, decl
);
4711 /* Record this label on the list of used labels so that we can check
4712 at the end of the function to see whether or not the label was
4713 actually defined. */
4714 if ((named_label_uses
== NULL
|| named_label_uses
->label_decl
!= decl
)
4715 && (named_label_uses
== NULL
4716 || named_label_uses
->names_in_scope
!= current_binding_level
->names
4717 || named_label_uses
->label_decl
!= decl
))
4719 struct named_label_list
*new_ent
;
4721 = (struct named_label_list
*)oballoc (sizeof (struct named_label_list
));
4722 new_ent
->label_decl
= decl
;
4723 new_ent
->names_in_scope
= current_binding_level
->names
;
4724 new_ent
->binding_level
= current_binding_level
;
4725 new_ent
->lineno_o_goto
= lineno
;
4726 new_ent
->filename_o_goto
= input_filename
;
4727 new_ent
->next
= named_label_uses
;
4728 named_label_uses
= new_ent
;
4734 /* Look for a label named ID in the current function. If one cannot
4735 be found, create one. (We keep track of used, but undefined,
4736 labels, and complain about them at the end of a function.) */
4744 /* You can't use labels at global scope. */
4745 if (current_function_decl
== NULL_TREE
)
4747 error ("label `%s' referenced outside of any function",
4748 IDENTIFIER_POINTER (id
));
4752 /* See if we've already got this label. */
4753 decl
= IDENTIFIER_LABEL_VALUE (id
);
4754 if (decl
!= NULL_TREE
&& DECL_CONTEXT (decl
) == current_function_decl
)
4757 /* Record this label on the list of labels used in this function.
4758 We do this before calling make_label_decl so that we get the
4759 IDENTIFIER_LABEL_VALUE before the new label is declared. */
4760 named_labels
= tree_cons (IDENTIFIER_LABEL_VALUE (id
), NULL_TREE
,
4762 /* We need a new label. */
4763 decl
= make_label_decl (id
, /*local_p=*/0);
4764 /* Now fill in the information we didn't have before. */
4765 TREE_VALUE (named_labels
) = decl
;
4770 /* Declare a local label named ID. */
4773 declare_local_label (id
)
4778 /* Add a new entry to the SHADOWED_LABELS list so that when we leave
4779 this scope we can restore the old value of
4780 IDENTIFIER_TYPE_VALUE. */
4781 current_binding_level
->shadowed_labels
4782 = tree_cons (IDENTIFIER_LABEL_VALUE (id
), NULL_TREE
,
4783 current_binding_level
->shadowed_labels
);
4784 /* Look for the label. */
4785 decl
= make_label_decl (id
, /*local_p=*/1);
4786 /* Now fill in the information we didn't have before. */
4787 TREE_VALUE (current_binding_level
->shadowed_labels
) = decl
;
4792 /* Define a label, specifying the location in the source file.
4793 Return the LABEL_DECL node for the label, if the definition is valid.
4794 Otherwise return 0. */
4797 define_label (filename
, line
, name
)
4802 tree decl
= lookup_label (name
);
4804 /* After labels, make any new cleanups go into their
4805 own new (temporary) binding contour. */
4806 current_binding_level
->more_cleanups_ok
= 0;
4808 if (name
== get_identifier ("wchar_t"))
4809 cp_pedwarn ("label named wchar_t");
4811 if (DECL_INITIAL (decl
) != NULL_TREE
)
4813 cp_error ("duplicate label `%D'", decl
);
4818 struct named_label_list
*uses
, *prev
;
4822 /* Mark label as having been defined. */
4823 DECL_INITIAL (decl
) = error_mark_node
;
4824 /* Say where in the source. */
4825 DECL_SOURCE_FILE (decl
) = filename
;
4826 DECL_SOURCE_LINE (decl
) = line
;
4829 uses
= named_label_uses
;
4830 while (uses
!= NULL
)
4831 if (uses
->label_decl
== decl
)
4833 struct binding_level
*b
= current_binding_level
;
4836 tree new_decls
= b
->names
;
4837 tree old_decls
= (b
== uses
->binding_level
)
4838 ? uses
->names_in_scope
: NULL_TREE
;
4839 while (new_decls
!= old_decls
)
4841 if (TREE_CODE (new_decls
) == VAR_DECL
4842 /* Don't complain about crossing initialization
4843 of internal entities. They can't be accessed,
4844 and they should be cleaned up
4845 by the time we get to the label. */
4846 && ! DECL_ARTIFICIAL (new_decls
)
4847 && !(DECL_INITIAL (new_decls
) == NULL_TREE
4848 && pod_type_p (TREE_TYPE (new_decls
))))
4850 /* This is really only important if we're crossing
4851 an initialization. The POD stuff is just
4852 pedantry; why should it matter if the class
4853 contains a field of pointer to member type? */
4854 int problem
= (DECL_INITIAL (new_decls
)
4855 || (TYPE_NEEDS_CONSTRUCTING
4856 (TREE_TYPE (new_decls
))));
4862 cp_error ("jump to label `%D'", decl
);
4863 error_with_file_and_line
4864 (uses
->filename_o_goto
,
4865 uses
->lineno_o_goto
, " from here");
4869 cp_pedwarn ("jump to label `%D'", decl
);
4870 pedwarn_with_file_and_line
4871 (uses
->filename_o_goto
,
4872 uses
->lineno_o_goto
, " from here");
4878 cp_error_at (" crosses initialization of `%#D'",
4881 cp_pedwarn_at (" enters scope of non-POD `%#D'",
4884 new_decls
= TREE_CHAIN (new_decls
);
4886 if (b
== uses
->binding_level
)
4888 if (b
->eh_region
&& ! saw_eh
)
4892 cp_error ("jump to label `%D'", decl
);
4893 error_with_file_and_line
4894 (uses
->filename_o_goto
,
4895 uses
->lineno_o_goto
, " from here");
4898 error (" enters exception handling block");
4905 prev
->next
= uses
->next
;
4907 named_label_uses
= uses
->next
;
4916 current_function_return_value
= NULL_TREE
;
4923 struct binding_level
*level
;
4924 struct cp_switch
*next
;
4927 static struct cp_switch
*switch_stack
;
4933 = (struct cp_switch
*) xmalloc (sizeof (struct cp_switch
));
4934 p
->level
= current_binding_level
;
4935 p
->next
= switch_stack
;
4942 struct cp_switch
*cs
;
4945 switch_stack
= switch_stack
->next
;
4949 /* Note that we've seen a definition of a case label, and complain if this
4950 is a bad place for one. */
4953 define_case_label ()
4955 tree cleanup
= last_cleanup_this_contour ();
4956 struct binding_level
*b
= current_binding_level
;
4960 /* Don't crash; we'll complain in do_case. */
4965 static int explained
= 0;
4966 cp_warning_at ("destructor needed for `%#D'", TREE_PURPOSE (cleanup
));
4967 warning ("where case label appears here");
4970 warning ("(enclose actions of previous case statements requiring");
4971 warning ("destructors in their own binding contours.)");
4976 for (; b
&& b
!= switch_stack
->level
; b
= b
->level_chain
)
4978 tree new_decls
= b
->names
;
4979 for (; new_decls
; new_decls
= TREE_CHAIN (new_decls
))
4981 if (TREE_CODE (new_decls
) == VAR_DECL
4982 /* Don't complain about crossing initialization
4983 of internal entities. They can't be accessed,
4984 and they should be cleaned up
4985 by the time we get to the label. */
4986 && ! DECL_ARTIFICIAL (new_decls
)
4987 && ((DECL_INITIAL (new_decls
) != NULL_TREE
4988 && DECL_INITIAL (new_decls
) != error_mark_node
)
4989 || TYPE_NEEDS_CONSTRUCTING (TREE_TYPE (new_decls
))))
4992 error ("jump to case label");
4994 cp_error_at (" crosses initialization of `%#D'",
5000 /* After labels, make any new cleanups go into their
5001 own new (temporary) binding contour. */
5003 current_binding_level
->more_cleanups_ok
= 0;
5004 current_function_return_value
= NULL_TREE
;
5007 /* Return the list of declarations of the current level.
5008 Note that this list is in reverse order unless/until
5009 you nreverse it; and when you do nreverse it, you must
5010 store the result back using `storedecls' or you will lose. */
5015 return current_binding_level
->names
;
5018 /* Return the list of type-tags (for structs, etc) of the current level. */
5023 return current_binding_level
->tags
;
5026 /* Store the list of declarations of the current level.
5027 This is done for the parameter declarations of a function being defined,
5028 after they are modified in the light of any missing parameters. */
5034 current_binding_level
->names
= decls
;
5037 /* Similarly, store the list of tags of the current level. */
5043 current_binding_level
->tags
= tags
;
5046 /* Given NAME, an IDENTIFIER_NODE,
5047 return the structure (or union or enum) definition for that name.
5048 Searches binding levels from BINDING_LEVEL up to the global level.
5049 If THISLEVEL_ONLY is nonzero, searches only the specified context
5050 (but skips any tag-transparent contexts to find one that is
5051 meaningful for tags).
5052 FORM says which kind of type the caller wants;
5053 it is RECORD_TYPE or UNION_TYPE or ENUMERAL_TYPE.
5054 If the wrong kind of type is found, and it's not a template, an error is
5058 lookup_tag (form
, name
, binding_level
, thislevel_only
)
5059 enum tree_code form
;
5061 struct binding_level
*binding_level
;
5064 register struct binding_level
*level
;
5065 /* Non-zero if, we should look past a template parameter level, even
5066 if THISLEVEL_ONLY. */
5067 int allow_template_parms_p
= 1;
5069 for (level
= binding_level
; level
; level
= level
->level_chain
)
5072 if (ANON_AGGRNAME_P (name
))
5073 for (tail
= level
->tags
; tail
; tail
= TREE_CHAIN (tail
))
5075 /* There's no need for error checking here, because
5076 anon names are unique throughout the compilation. */
5077 if (TYPE_IDENTIFIER (TREE_VALUE (tail
)) == name
)
5078 return TREE_VALUE (tail
);
5080 else if (level
->namespace_p
)
5081 /* Do namespace lookup. */
5082 for (tail
= current_namespace
; 1; tail
= CP_DECL_CONTEXT (tail
))
5084 tree old
= binding_for_name (name
, tail
);
5086 /* If we just skipped past a template parameter level,
5087 even though THISLEVEL_ONLY, and we find a template
5088 class declaration, then we use the _TYPE node for the
5089 template. See the example below. */
5090 if (thislevel_only
&& !allow_template_parms_p
5091 && old
&& BINDING_VALUE (old
)
5092 && DECL_CLASS_TEMPLATE_P (BINDING_VALUE (old
)))
5093 old
= TREE_TYPE (BINDING_VALUE (old
));
5095 old
= BINDING_TYPE (old
);
5097 /* If it has an original type, it is a typedef, and we
5098 should not return it. */
5099 if (old
&& DECL_ORIGINAL_TYPE (TYPE_NAME (old
)))
5101 if (old
&& TREE_CODE (old
) != form
5102 && !(form
!= ENUMERAL_TYPE
&& TREE_CODE (old
) == TEMPLATE_DECL
))
5104 cp_error ("`%#D' redeclared as %C", old
, form
);
5109 if (thislevel_only
|| tail
== global_namespace
)
5113 for (tail
= level
->tags
; tail
; tail
= TREE_CHAIN (tail
))
5115 if (TREE_PURPOSE (tail
) == name
)
5117 enum tree_code code
= TREE_CODE (TREE_VALUE (tail
));
5118 /* Should tighten this up; it'll probably permit
5119 UNION_TYPE and a struct template, for example. */
5121 && !(form
!= ENUMERAL_TYPE
&& code
== TEMPLATE_DECL
))
5123 /* Definition isn't the kind we were looking for. */
5124 cp_error ("`%#D' redeclared as %C", TREE_VALUE (tail
),
5128 return TREE_VALUE (tail
);
5131 if (thislevel_only
&& ! level
->tag_transparent
)
5133 if (level
->template_parms_p
&& allow_template_parms_p
)
5135 /* We must deal with cases like this:
5137 template <class T> struct S;
5138 template <class T> struct S {};
5140 When looking up `S', for the second declaration, we
5141 would like to find the first declaration. But, we
5142 are in the pseudo-global level created for the
5143 template parameters, rather than the (surrounding)
5144 namespace level. Thus, we keep going one more level,
5145 even though THISLEVEL_ONLY is non-zero. */
5146 allow_template_parms_p
= 0;
5158 set_current_level_tags_transparency (tags_transparent
)
5159 int tags_transparent
;
5161 current_binding_level
->tag_transparent
= tags_transparent
;
5165 /* Given a type, find the tag that was defined for it and return the tag name.
5166 Otherwise return 0. However, the value can never be 0
5167 in the cases in which this is used.
5169 C++: If NAME is non-zero, this is the new name to install. This is
5170 done when replacing anonymous tags with real tag names. */
5173 lookup_tag_reverse (type
, name
)
5177 register struct binding_level
*level
;
5179 for (level
= current_binding_level
; level
; level
= level
->level_chain
)
5182 for (tail
= level
->tags
; tail
; tail
= TREE_CHAIN (tail
))
5184 if (TREE_VALUE (tail
) == type
)
5187 TREE_PURPOSE (tail
) = name
;
5188 return TREE_PURPOSE (tail
);
5195 /* Look up NAME in the NAMESPACE. */
5198 lookup_namespace_name (namespace, name
)
5199 tree
namespace, name
;
5202 tree template_id
= NULL_TREE
;
5204 my_friendly_assert (TREE_CODE (namespace) == NAMESPACE_DECL
, 370);
5206 if (TREE_CODE (name
) == NAMESPACE_DECL
)
5207 /* This happens for A::B<int> when B is a namespace. */
5209 else if (TREE_CODE (name
) == TEMPLATE_DECL
)
5211 /* This happens for A::B where B is a template, and there are no
5212 template arguments. */
5213 cp_error ("invalid use of `%D'", name
);
5214 return error_mark_node
;
5217 namespace = ORIGINAL_NAMESPACE (namespace);
5219 if (TREE_CODE (name
) == TEMPLATE_ID_EXPR
)
5222 name
= TREE_OPERAND (name
, 0);
5223 if (TREE_CODE (name
) == OVERLOAD
)
5224 name
= DECL_NAME (OVL_CURRENT (name
));
5225 else if (DECL_P (name
))
5226 name
= DECL_NAME (name
);
5229 my_friendly_assert (TREE_CODE (name
) == IDENTIFIER_NODE
, 373);
5231 val
= make_node (CPLUS_BINDING
);
5232 if (!qualified_lookup_using_namespace (name
, namespace, val
, 0))
5233 return error_mark_node
;
5235 if (BINDING_VALUE (val
))
5237 val
= BINDING_VALUE (val
);
5241 if (DECL_CLASS_TEMPLATE_P (val
))
5242 val
= lookup_template_class (val
,
5243 TREE_OPERAND (template_id
, 1),
5244 /*in_decl=*/NULL_TREE
,
5245 /*context=*/NULL_TREE
,
5246 /*entering_scope=*/0);
5247 else if (DECL_FUNCTION_TEMPLATE_P (val
)
5248 || TREE_CODE (val
) == OVERLOAD
)
5249 val
= lookup_template_function (val
,
5250 TREE_OPERAND (template_id
, 1));
5253 cp_error ("`%D::%D' is not a template",
5255 return error_mark_node
;
5259 /* If we have a single function from a using decl, pull it out. */
5260 if (TREE_CODE (val
) == OVERLOAD
&& ! really_overloaded_fn (val
))
5261 val
= OVL_FUNCTION (val
);
5265 cp_error ("`%D' undeclared in namespace `%D'", name
, namespace);
5266 return error_mark_node
;
5269 /* Hash a TYPENAME_TYPE. K is really of type `tree'. */
5271 static unsigned long
5279 hash
= (((unsigned long) TYPE_CONTEXT (t
))
5280 ^ ((unsigned long) DECL_NAME (TYPE_NAME (t
))));
5285 /* Compare two TYPENAME_TYPEs. K1 and K2 are really of type `tree'. */
5288 typename_compare (k1
, k2
)
5299 d1
= TYPE_NAME (t1
);
5300 d2
= TYPE_NAME (t2
);
5302 return (DECL_NAME (d1
) == DECL_NAME (d2
)
5303 && same_type_p (TYPE_CONTEXT (t1
), TYPE_CONTEXT (t2
))
5304 && ((TREE_TYPE (t1
) != NULL_TREE
)
5305 == (TREE_TYPE (t2
) != NULL_TREE
))
5306 && same_type_p (TREE_TYPE (t1
), TREE_TYPE (t2
))
5307 && TYPENAME_TYPE_FULLNAME (t1
) == TYPENAME_TYPE_FULLNAME (t2
));
5310 /* Build a TYPENAME_TYPE. If the type is `typename T::t', CONTEXT is
5311 the type of `T', NAME is the IDENTIFIER_NODE for `t'. If BASE_TYPE
5312 is non-NULL, this type is being created by the implicit typename
5313 extension, and BASE_TYPE is a type named `t' in some base class of
5314 `T' which depends on template parameters.
5316 Returns the new TYPENAME_TYPE. */
5319 build_typename_type (context
, name
, fullname
, base_type
)
5327 struct hash_entry
* e
;
5329 static struct hash_table ht
;
5333 static struct hash_table
*h
= &ht
;
5334 if (!hash_table_init (&ht
, &hash_newfunc
, &typename_hash
,
5336 fatal ("virtual memory exhausted");
5337 ggc_add_tree_hash_table_root (&h
, 1);
5340 /* Build the TYPENAME_TYPE. */
5341 t
= make_aggr_type (TYPENAME_TYPE
);
5342 TYPE_CONTEXT (t
) = FROB_CONTEXT (context
);
5343 TYPENAME_TYPE_FULLNAME (t
) = fullname
;
5344 TREE_TYPE (t
) = base_type
;
5346 /* Build the corresponding TYPE_DECL. */
5347 d
= build_decl (TYPE_DECL
, name
, t
);
5348 TYPE_NAME (TREE_TYPE (d
)) = d
;
5349 TYPE_STUB_DECL (TREE_TYPE (d
)) = d
;
5350 DECL_CONTEXT (d
) = FROB_CONTEXT (context
);
5351 DECL_ARTIFICIAL (d
) = 1;
5353 /* See if we already have this type. */
5354 e
= hash_lookup (&ht
, t
, /*create=*/false, /*copy=*/0);
5358 /* Insert the type into the table. */
5359 hash_lookup (&ht
, t
, /*create=*/true, /*copy=*/0);
5364 /* Resolve `typename CONTEXT::NAME'. Returns an appropriate type,
5365 unless an error occurs, in which case error_mark_node is returned.
5366 If COMPLAIN zero, don't complain about any errors that occur. */
5369 make_typename_type (context
, name
, complain
)
5377 if (!(TYPE_LANG_SPECIFIC (name
)
5378 && (CLASSTYPE_IS_TEMPLATE (name
)
5379 || CLASSTYPE_USE_TEMPLATE (name
))))
5380 name
= TYPE_IDENTIFIER (name
);
5382 /* Create a TEMPLATE_ID_EXPR for the type. */
5383 name
= build_nt (TEMPLATE_ID_EXPR
,
5384 CLASSTYPE_TI_TEMPLATE (name
),
5385 CLASSTYPE_TI_ARGS (name
));
5387 else if (TREE_CODE (name
) == TYPE_DECL
)
5388 name
= DECL_NAME (name
);
5392 if (TREE_CODE (name
) == TEMPLATE_ID_EXPR
)
5394 name
= TREE_OPERAND (name
, 0);
5395 if (TREE_CODE (name
) == TEMPLATE_DECL
)
5396 name
= TREE_OPERAND (fullname
, 0) = DECL_NAME (name
);
5398 if (TREE_CODE (name
) != IDENTIFIER_NODE
)
5399 my_friendly_abort (2000);
5401 if (TREE_CODE (context
) == NAMESPACE_DECL
)
5403 /* We can get here from typename_sub0 in the explicit_template_type
5404 expansion. Just fail. */
5406 cp_error ("no class template named `%#T' in `%#T'",
5408 return error_mark_node
;
5411 if (! uses_template_parms (context
)
5412 || currently_open_class (context
))
5414 if (TREE_CODE (fullname
) == TEMPLATE_ID_EXPR
)
5416 tree tmpl
= NULL_TREE
;
5417 if (IS_AGGR_TYPE (context
))
5418 tmpl
= lookup_field (context
, name
, 0, 0);
5419 if (!tmpl
|| !DECL_CLASS_TEMPLATE_P (tmpl
))
5422 cp_error ("no class template named `%#T' in `%#T'",
5424 return error_mark_node
;
5427 return lookup_template_class (tmpl
,
5428 TREE_OPERAND (fullname
, 1),
5430 /*entering_scope=*/0);
5436 if (!IS_AGGR_TYPE (context
))
5439 cp_error ("no type named `%#T' in `%#T'", name
, context
);
5440 return error_mark_node
;
5443 t
= lookup_field (context
, name
, 0, 1);
5445 return TREE_TYPE (t
);
5449 /* If the CONTEXT is not a template type, then either the field is
5450 there now or its never going to be. */
5451 if (!uses_template_parms (context
))
5454 cp_error ("no type named `%#T' in `%#T'", name
, context
);
5455 return error_mark_node
;
5459 return build_typename_type (context
, name
, fullname
, NULL_TREE
);
5462 /* Select the right _DECL from multiple choices. */
5465 select_decl (binding
, flags
)
5470 val
= BINDING_VALUE (binding
);
5471 if (LOOKUP_NAMESPACES_ONLY (flags
))
5473 /* We are not interested in types. */
5474 if (val
&& TREE_CODE (val
) == NAMESPACE_DECL
)
5479 /* If we could have a type and
5480 we have nothing or we need a type and have none. */
5481 if (BINDING_TYPE (binding
)
5482 && (!val
|| ((flags
& LOOKUP_PREFER_TYPES
)
5483 && TREE_CODE (val
) != TYPE_DECL
)))
5484 val
= TYPE_STUB_DECL (BINDING_TYPE (binding
));
5485 /* Don't return non-types if we really prefer types. */
5486 else if (val
&& LOOKUP_TYPES_ONLY (flags
) && TREE_CODE (val
) != TYPE_DECL
5487 && (TREE_CODE (val
) != TEMPLATE_DECL
5488 || !DECL_CLASS_TEMPLATE_P (val
)))
5494 /* Unscoped lookup of a global: iterate over current namespaces,
5495 considering using-directives. If SPACESP is non-NULL, store a list
5496 of the namespaces we've considered in it. */
5499 unqualified_namespace_lookup (name
, flags
, spacesp
)
5504 tree b
= make_node (CPLUS_BINDING
);
5505 tree initial
= current_decl_namespace();
5506 tree scope
= initial
;
5508 struct binding_level
*level
;
5509 tree val
= NULL_TREE
;
5512 *spacesp
= NULL_TREE
;
5514 for (; !val
; scope
= CP_DECL_CONTEXT (scope
))
5517 *spacesp
= tree_cons (scope
, NULL_TREE
, *spacesp
);
5518 val
= binding_for_name (name
, scope
);
5520 /* Initialize binding for this context. */
5521 BINDING_VALUE (b
) = BINDING_VALUE (val
);
5522 BINDING_TYPE (b
) = BINDING_TYPE (val
);
5524 /* Add all _DECLs seen through local using-directives. */
5525 for (level
= current_binding_level
;
5526 !level
->namespace_p
;
5527 level
= level
->level_chain
)
5528 if (!lookup_using_namespace (name
, b
, level
->using_directives
,
5529 scope
, flags
, spacesp
))
5530 /* Give up because of error. */
5531 return error_mark_node
;
5533 /* Add all _DECLs seen through global using-directives. */
5534 /* XXX local and global using lists should work equally. */
5538 if (!lookup_using_namespace (name
, b
, DECL_NAMESPACE_USING (siter
),
5539 scope
, flags
, spacesp
))
5540 /* Give up because of error. */
5541 return error_mark_node
;
5542 if (siter
== scope
) break;
5543 siter
= CP_DECL_CONTEXT (siter
);
5546 val
= select_decl (b
, flags
);
5547 if (scope
== global_namespace
)
5553 /* Combine prefer_type and namespaces_only into flags. */
5556 lookup_flags (prefer_type
, namespaces_only
)
5557 int prefer_type
, namespaces_only
;
5559 if (namespaces_only
)
5560 return LOOKUP_PREFER_NAMESPACES
;
5561 if (prefer_type
> 1)
5562 return LOOKUP_PREFER_TYPES
;
5563 if (prefer_type
> 0)
5564 return LOOKUP_PREFER_BOTH
;
5568 /* Given a lookup that returned VAL, use FLAGS to decide if we want to
5569 ignore it or not. Subroutine of lookup_name_real. */
5572 qualify_lookup (val
, flags
)
5576 if (val
== NULL_TREE
)
5578 if ((flags
& LOOKUP_PREFER_NAMESPACES
) && TREE_CODE (val
) == NAMESPACE_DECL
)
5580 if ((flags
& LOOKUP_PREFER_TYPES
)
5581 && (TREE_CODE (val
) == TYPE_DECL
5582 || ((flags
& LOOKUP_TEMPLATES_EXPECTED
)
5583 && DECL_CLASS_TEMPLATE_P (val
))))
5585 if (flags
& (LOOKUP_PREFER_NAMESPACES
| LOOKUP_PREFER_TYPES
))
5590 /* Any other BINDING overrides an implicit TYPENAME. Warn about
5594 warn_about_implicit_typename_lookup (typename
, binding
)
5598 tree subtype
= TREE_TYPE (TREE_TYPE (typename
));
5599 tree name
= DECL_NAME (typename
);
5601 if (! (TREE_CODE (binding
) == TEMPLATE_DECL
5602 && CLASSTYPE_TEMPLATE_INFO (subtype
)
5603 && CLASSTYPE_TI_TEMPLATE (subtype
) == binding
)
5604 && ! (TREE_CODE (binding
) == TYPE_DECL
5605 && same_type_p (TREE_TYPE (binding
), subtype
)))
5607 cp_warning ("lookup of `%D' finds `%#D'",
5609 cp_warning (" instead of `%D' from dependent base class",
5611 cp_warning (" (use `typename %T::%D' if that's what you meant)",
5612 constructor_name (current_class_type
), name
);
5616 /* Look up NAME in the current binding level and its superiors in the
5617 namespace of variables, functions and typedefs. Return a ..._DECL
5618 node of some kind representing its definition if there is only one
5619 such declaration, or return a TREE_LIST with all the overloaded
5620 definitions if there are many, or return 0 if it is undefined.
5622 If PREFER_TYPE is > 0, we prefer TYPE_DECLs or namespaces.
5623 If PREFER_TYPE is > 1, we reject non-type decls (e.g. namespaces).
5624 If PREFER_TYPE is -2, we're being called from yylex(). (UGLY)
5625 Otherwise we prefer non-TYPE_DECLs.
5627 If NONCLASS is non-zero, we don't look for the NAME in class scope,
5628 using IDENTIFIER_CLASS_VALUE. */
5631 lookup_name_real (name
, prefer_type
, nonclass
, namespaces_only
)
5633 int prefer_type
, nonclass
, namespaces_only
;
5636 tree val
= NULL_TREE
;
5638 tree from_obj
= NULL_TREE
;
5640 int val_is_implicit_typename
= 0;
5642 /* Hack: copy flag set by parser, if set. */
5643 if (only_namespace_names
)
5644 namespaces_only
= 1;
5646 if (prefer_type
== -2)
5648 extern int looking_for_typename
;
5649 tree type
= NULL_TREE
;
5652 prefer_type
= looking_for_typename
;
5654 flags
= lookup_flags (prefer_type
, namespaces_only
);
5655 /* If the next thing is '<', class templates are types. */
5656 if (looking_for_template
)
5657 flags
|= LOOKUP_TEMPLATES_EXPECTED
;
5659 /* std:: becomes :: for now. */
5660 if (got_scope
== std_node
)
5661 got_scope
= void_type_node
;
5665 else if (got_object
!= error_mark_node
)
5670 if (type
== error_mark_node
)
5671 return error_mark_node
;
5672 if (TREE_CODE (type
) == TYPENAME_TYPE
&& TREE_TYPE (type
))
5673 type
= TREE_TYPE (type
);
5676 type
= complete_type (type
);
5678 if (TREE_CODE (type
) == VOID_TYPE
)
5679 type
= global_namespace
;
5680 if (TREE_CODE (type
) == NAMESPACE_DECL
)
5682 val
= make_node (CPLUS_BINDING
);
5683 flags
|= LOOKUP_COMPLAIN
;
5684 if (!qualified_lookup_using_namespace (name
, type
, val
, flags
))
5686 val
= select_decl (val
, flags
);
5688 else if (! IS_AGGR_TYPE (type
)
5689 || TREE_CODE (type
) == TEMPLATE_TYPE_PARM
5690 || TREE_CODE (type
) == TEMPLATE_TEMPLATE_PARM
5691 || TREE_CODE (type
) == TYPENAME_TYPE
)
5692 /* Someone else will give an error about this if needed. */
5694 else if (type
== current_class_type
)
5695 val
= IDENTIFIER_CLASS_VALUE (name
);
5698 val
= lookup_member (type
, name
, 0, prefer_type
);
5699 type_access_control (type
, val
);
5707 else if (got_object
&& val
)
5712 flags
= lookup_flags (prefer_type
, namespaces_only
);
5713 /* If we're not parsing, we need to complain. */
5714 flags
|= LOOKUP_COMPLAIN
;
5717 /* First, look in non-namespace scopes. */
5719 if (current_class_type
== NULL_TREE
)
5722 for (t
= IDENTIFIER_BINDING (name
); t
; t
= TREE_CHAIN (t
))
5726 if (!LOCAL_BINDING_P (t
) && nonclass
)
5727 /* We're not looking for class-scoped bindings, so keep going. */
5730 /* If this is the kind of thing we're looking for, we're done. */
5731 if (qualify_lookup (BINDING_VALUE (t
), flags
))
5732 binding
= BINDING_VALUE (t
);
5733 else if ((flags
& LOOKUP_PREFER_TYPES
)
5734 && qualify_lookup (BINDING_TYPE (t
), flags
))
5735 binding
= BINDING_TYPE (t
);
5737 binding
= NULL_TREE
;
5739 /* Handle access control on types from enclosing or base classes. */
5740 if (binding
&& ! yylex
5741 && BINDING_LEVEL (t
) && BINDING_LEVEL (t
)->parm_flag
== 2)
5742 type_access_control (BINDING_LEVEL (t
)->this_class
, binding
);
5745 && (!val
|| !IMPLICIT_TYPENAME_TYPE_DECL_P (binding
)))
5747 if (val_is_implicit_typename
&& !yylex
)
5748 warn_about_implicit_typename_lookup (val
, binding
);
5750 val_is_implicit_typename
5751 = IMPLICIT_TYPENAME_TYPE_DECL_P (val
);
5752 if (!val_is_implicit_typename
)
5757 /* Now lookup in namespace scopes. */
5758 if (!val
|| val_is_implicit_typename
)
5760 t
= unqualified_namespace_lookup (name
, flags
, 0);
5763 if (val_is_implicit_typename
&& !yylex
)
5764 warn_about_implicit_typename_lookup (val
, t
);
5772 /* This should only warn about types used in qualified-ids. */
5773 if (from_obj
&& from_obj
!= val
)
5775 if (looking_for_typename
&& TREE_CODE (from_obj
) == TYPE_DECL
5776 && TREE_CODE (val
) == TYPE_DECL
5777 && TREE_TYPE (from_obj
) != TREE_TYPE (val
))
5779 cp_pedwarn ("lookup of `%D' in the scope of `%#T' (`%#T')",
5780 name
, got_object
, TREE_TYPE (from_obj
));
5781 cp_pedwarn (" does not match lookup in the current scope (`%#T')",
5785 /* We don't change val to from_obj if got_object depends on
5786 template parms because that breaks implicit typename for
5787 destructor calls. */
5788 if (! uses_template_parms (got_object
))
5792 /* If we have a single function from a using decl, pull it out. */
5793 if (TREE_CODE (val
) == OVERLOAD
&& ! really_overloaded_fn (val
))
5794 val
= OVL_FUNCTION (val
);
5803 lookup_name_nonclass (name
)
5806 return lookup_name_real (name
, 0, 1, 0);
5810 lookup_function_nonclass (name
, args
)
5814 return lookup_arg_dependent (name
, lookup_name_nonclass (name
), args
);
5818 lookup_name_namespace_only (name
)
5821 /* type-or-namespace, nonclass, namespace_only */
5822 return lookup_name_real (name
, 1, 1, 1);
5826 lookup_name (name
, prefer_type
)
5830 return lookup_name_real (name
, prefer_type
, 0, 0);
5833 /* Similar to `lookup_name' but look only in the innermost non-class
5837 lookup_name_current_level (name
)
5840 struct binding_level
*b
;
5843 b
= current_binding_level
;
5844 while (b
->parm_flag
== 2)
5849 t
= IDENTIFIER_NAMESPACE_VALUE (name
);
5851 /* extern "C" function() */
5852 if (t
!= NULL_TREE
&& TREE_CODE (t
) == TREE_LIST
)
5855 else if (IDENTIFIER_BINDING (name
)
5856 && LOCAL_BINDING_P (IDENTIFIER_BINDING (name
)))
5860 if (BINDING_LEVEL (IDENTIFIER_BINDING (name
)) == b
)
5861 return IDENTIFIER_VALUE (name
);
5873 /* Like lookup_name_current_level, but for types. */
5876 lookup_type_current_level (name
)
5879 register tree t
= NULL_TREE
;
5881 my_friendly_assert (! current_binding_level
->namespace_p
, 980716);
5883 if (REAL_IDENTIFIER_TYPE_VALUE (name
) != NULL_TREE
5884 && REAL_IDENTIFIER_TYPE_VALUE (name
) != global_type_node
)
5886 struct binding_level
*b
= current_binding_level
;
5889 if (purpose_member (name
, b
->type_shadowed
))
5890 return REAL_IDENTIFIER_TYPE_VALUE (name
);
5902 begin_only_namespace_names ()
5904 only_namespace_names
= 1;
5908 end_only_namespace_names ()
5910 only_namespace_names
= 0;
5913 /* Arrange for the user to get a source line number, even when the
5914 compiler is going down in flames, so that she at least has a
5915 chance of working around problems in the compiler. We used to
5916 call error(), but that let the segmentation fault continue
5917 through; now, it's much more passive by asking them to send the
5918 maintainers mail about the problem. */
5922 int sig ATTRIBUTE_UNUSED
;
5924 signal (SIGSEGV
, SIG_DFL
);
5926 signal (SIGIOT
, SIG_DFL
);
5929 signal (SIGILL
, SIG_DFL
);
5932 signal (SIGABRT
, SIG_DFL
);
5935 signal (SIGBUS
, SIG_DFL
);
5937 my_friendly_abort (0);
5940 /* Push the declarations of builtin types into the namespace.
5941 RID_INDEX, if < RID_MAX is the index of the builtin type
5942 in the array RID_POINTERS. NAME is the name used when looking
5943 up the builtin type. TYPE is the _TYPE node for the builtin type. */
5946 record_builtin_type (rid_index
, name
, type
)
5951 tree rname
= NULL_TREE
, tname
= NULL_TREE
;
5952 tree tdecl
= NULL_TREE
;
5954 if ((int) rid_index
< (int) RID_MAX
)
5955 rname
= ridpointers
[(int) rid_index
];
5957 tname
= get_identifier (name
);
5959 TYPE_BUILT_IN (type
) = 1;
5963 tdecl
= pushdecl (build_decl (TYPE_DECL
, tname
, type
));
5964 set_identifier_type_value (tname
, NULL_TREE
);
5965 if ((int) rid_index
< (int) RID_MAX
)
5966 /* Built-in types live in the global namespace. */
5967 SET_IDENTIFIER_GLOBAL_VALUE (tname
, tdecl
);
5969 if (rname
!= NULL_TREE
)
5971 if (tname
!= NULL_TREE
)
5973 set_identifier_type_value (rname
, NULL_TREE
);
5974 SET_IDENTIFIER_GLOBAL_VALUE (rname
, tdecl
);
5978 tdecl
= pushdecl (build_decl (TYPE_DECL
, rname
, type
));
5979 set_identifier_type_value (rname
, NULL_TREE
);
5984 /* Record one of the standard Java types.
5985 * Declare it as having the given NAME.
5986 * If SIZE > 0, it is the size of one of the integral types;
5987 * otherwise it is the negative of the size of one of the other types. */
5990 record_builtin_java_type (name
, size
)
5996 type
= make_signed_type (size
);
5997 else if (size
> -32)
5998 { /* "__java_char" or ""__java_boolean". */
5999 type
= make_unsigned_type (-size
);
6000 /*if (size == -1) TREE_SET_CODE (type, BOOLEAN_TYPE);*/
6003 { /* "__java_float" or ""__java_double". */
6004 type
= make_node (REAL_TYPE
);
6005 TYPE_PRECISION (type
) = - size
;
6008 record_builtin_type (RID_MAX
, name
, type
);
6009 decl
= TYPE_NAME (type
);
6011 /* Suppress generate debug symbol entries for these types,
6012 since for normal C++ they are just clutter.
6013 However, push_lang_context undoes this if extern "Java" is seen. */
6014 DECL_IGNORED_P (decl
) = 1;
6016 TYPE_FOR_JAVA (type
) = 1;
6020 /* Push a type into the namespace so that the back-ends ignore it. */
6023 record_unknown_type (type
, name
)
6027 tree decl
= pushdecl (build_decl (TYPE_DECL
, get_identifier (name
), type
));
6028 /* Make sure the "unknown type" typedecl gets ignored for debug info. */
6029 DECL_IGNORED_P (decl
) = 1;
6030 TYPE_DECL_SUPPRESS_DEBUG (decl
) = 1;
6031 TYPE_SIZE (type
) = TYPE_SIZE (void_type_node
);
6032 TYPE_ALIGN (type
) = 1;
6033 TYPE_MODE (type
) = TYPE_MODE (void_type_node
);
6036 /* An string for which we should create an IDENTIFIER_NODE at
6039 typedef struct predefined_identifier
6041 /* The name of the identifier. */
6043 /* The place where the IDENTIFIER_NODE should be stored. */
6045 /* Non-zero if this is the name of a constructor or destructor. */
6047 } predefined_identifier
;
6049 /* Create all the predefined identifiers. */
6052 initialize_predefined_identifiers ()
6054 struct predefined_identifier
*pid
;
6056 /* A table of identifiers to create at startup. */
6057 static predefined_identifier predefined_identifiers
[] = {
6058 { "C++", &lang_name_cplusplus
, 0 },
6059 { "C", &lang_name_c
, 0 },
6060 { "Java", &lang_name_java
, 0 },
6061 { CTOR_NAME
, &ctor_identifier
, 1 },
6062 { "__base_ctor", &base_ctor_identifier
, 1 },
6063 { "__comp_ctor", &complete_ctor_identifier
, 1 },
6064 { DTOR_NAME
, &dtor_identifier
, 1 },
6065 { "__comp_dtor", &complete_dtor_identifier
, 1 },
6066 { "__base_dtor", &base_dtor_identifier
, 1 },
6067 { "__deleting_dtor", &deleting_dtor_identifier
, 1 },
6068 { VTABLE_DELTA2_NAME
, &delta2_identifier
, 0 },
6069 { VTABLE_DELTA_NAME
, &delta_identifier
, 0 },
6070 { IN_CHARGE_NAME
, &in_charge_identifier
, 0 },
6071 { VTABLE_INDEX_NAME
, &index_identifier
, 0 },
6072 { "nelts", &nelts_identifier
, 0 },
6073 { THIS_NAME
, &this_identifier
, 0 },
6074 { VTABLE_PFN_NAME
, &pfn_identifier
, 0 },
6075 { "__pfn_or_delta2", &pfn_or_delta2_identifier
, 0 },
6076 { "_vptr", &vptr_identifier
, 0 },
6077 { "__cp_push_exception", &cp_push_exception_identifier
, 0 },
6081 for (pid
= predefined_identifiers
; pid
->name
; ++pid
)
6083 *pid
->node
= get_identifier (pid
->name
);
6084 if (pid
->ctor_or_dtor_p
)
6085 IDENTIFIER_CTOR_OR_DTOR_P (*pid
->node
) = 1;
6089 /* Create the predefined scalar types of C,
6090 and some nodes representing standard constants (0, 1, (void *)0).
6091 Initialize the global binding level.
6092 Make definitions for built-in primitive functions. */
6095 init_decl_processing ()
6098 int wchar_type_size
;
6099 tree array_domain_type
;
6101 /* Check to see that the user did not specify an invalid combination
6102 of command-line options. */
6103 if (flag_new_abi
&& !flag_vtable_thunks
)
6104 fatal ("the new ABI requires vtable thunks");
6106 /* Create all the identifiers we need. */
6107 initialize_predefined_identifiers ();
6109 /* Let the back-end now how to save and restore language-specific
6110 per-function globals. */
6111 init_lang_status
= &push_cp_function_context
;
6112 free_lang_status
= &pop_cp_function_context
;
6113 mark_lang_status
= &mark_cp_function_context
;
6119 /* Create the global variables. */
6120 push_to_top_level ();
6122 /* Enter the global namespace. */
6123 my_friendly_assert (global_namespace
== NULL_TREE
, 375);
6124 push_namespace (get_identifier ("::"));
6125 global_namespace
= current_namespace
;
6126 current_lang_name
= NULL_TREE
;
6128 /* Adjust various flags based on command-line settings. */
6129 if (flag_strict_prototype
== 2)
6130 flag_strict_prototype
= pedantic
;
6131 if (! flag_permissive
&& ! pedantic
)
6132 flag_pedantic_errors
= 1;
6133 if (!flag_no_inline
)
6134 flag_inline_trees
= 1;
6136 strict_prototypes_lang_c
= flag_strict_prototype
;
6139 current_lang_name
= lang_name_c
;
6141 current_function_decl
= NULL_TREE
;
6142 current_binding_level
= NULL_BINDING_LEVEL
;
6143 free_binding_level
= NULL_BINDING_LEVEL
;
6145 /* Because most segmentation signals can be traced back into user
6146 code, catch them and at least give the user a chance of working
6147 around compiler bugs. */
6148 signal (SIGSEGV
, signal_catch
);
6150 /* We will also catch aborts in the back-end through signal_catch and
6151 give the user a chance to see where the error might be, and to defeat
6152 aborts in the back-end when there have been errors previously in their
6155 signal (SIGIOT
, signal_catch
);
6158 signal (SIGILL
, signal_catch
);
6161 signal (SIGABRT
, signal_catch
);
6164 signal (SIGBUS
, signal_catch
);
6167 build_common_tree_nodes (flag_signed_char
);
6169 error_mark_list
= build_tree_list (error_mark_node
, error_mark_node
);
6170 TREE_TYPE (error_mark_list
) = error_mark_node
;
6172 /* Make the binding_level structure for global names. */
6174 global_binding_level
= current_binding_level
;
6175 /* The global level is the namespace level of ::. */
6176 NAMESPACE_LEVEL (global_namespace
) = global_binding_level
;
6177 declare_namespace_level ();
6179 /* Define `int' and `char' first so that dbx will output them first. */
6180 record_builtin_type (RID_INT
, NULL_PTR
, integer_type_node
);
6181 record_builtin_type (RID_CHAR
, "char", char_type_node
);
6183 /* `signed' is the same as `int' */
6184 record_builtin_type (RID_SIGNED
, NULL_PTR
, integer_type_node
);
6185 record_builtin_type (RID_LONG
, "long int", long_integer_type_node
);
6186 record_builtin_type (RID_UNSIGNED
, "unsigned int", unsigned_type_node
);
6187 record_builtin_type (RID_MAX
, "long unsigned int", long_unsigned_type_node
);
6188 record_builtin_type (RID_MAX
, "unsigned long", long_unsigned_type_node
);
6189 record_builtin_type (RID_MAX
, "long long int", long_long_integer_type_node
);
6190 record_builtin_type (RID_MAX
, "long long unsigned int",
6191 long_long_unsigned_type_node
);
6192 record_builtin_type (RID_MAX
, "long long unsigned",
6193 long_long_unsigned_type_node
);
6194 record_builtin_type (RID_SHORT
, "short int", short_integer_type_node
);
6195 record_builtin_type (RID_MAX
, "short unsigned int", short_unsigned_type_node
);
6196 record_builtin_type (RID_MAX
, "unsigned short", short_unsigned_type_node
);
6199 = TREE_TYPE (IDENTIFIER_GLOBAL_VALUE (get_identifier (PTRDIFF_TYPE
)));
6201 /* Define both `signed char' and `unsigned char'. */
6202 record_builtin_type (RID_MAX
, "signed char", signed_char_type_node
);
6203 record_builtin_type (RID_MAX
, "unsigned char", unsigned_char_type_node
);
6205 /* `unsigned long' is the standard type for sizeof.
6206 Note that stddef.h uses `unsigned long',
6207 and this must agree, even if long and int are the same size. */
6209 (TREE_TYPE (IDENTIFIER_GLOBAL_VALUE (get_identifier (SIZE_TYPE
))));
6211 /* Create the widest literal types. */
6212 widest_integer_literal_type_node
= make_signed_type (HOST_BITS_PER_WIDE_INT
* 2);
6213 pushdecl (build_decl (TYPE_DECL
, NULL_TREE
,
6214 widest_integer_literal_type_node
));
6216 widest_unsigned_literal_type_node
= make_unsigned_type (HOST_BITS_PER_WIDE_INT
* 2);
6217 pushdecl (build_decl (TYPE_DECL
, NULL_TREE
,
6218 widest_unsigned_literal_type_node
));
6220 /* These are types that type_for_size and type_for_mode use. */
6221 pushdecl (build_decl (TYPE_DECL
, NULL_TREE
, intQI_type_node
));
6222 pushdecl (build_decl (TYPE_DECL
, NULL_TREE
, intHI_type_node
));
6223 pushdecl (build_decl (TYPE_DECL
, NULL_TREE
, intSI_type_node
));
6224 pushdecl (build_decl (TYPE_DECL
, NULL_TREE
, intDI_type_node
));
6225 #if HOST_BITS_PER_WIDE_INT >= 64
6226 pushdecl (build_decl (TYPE_DECL
, get_identifier ("__int128_t"), intTI_type_node
));
6228 pushdecl (build_decl (TYPE_DECL
, NULL_TREE
, unsigned_intQI_type_node
));
6229 pushdecl (build_decl (TYPE_DECL
, NULL_TREE
, unsigned_intHI_type_node
));
6230 pushdecl (build_decl (TYPE_DECL
, NULL_TREE
, unsigned_intSI_type_node
));
6231 pushdecl (build_decl (TYPE_DECL
, NULL_TREE
, unsigned_intDI_type_node
));
6232 #if HOST_BITS_PER_WIDE_INT >= 64
6233 pushdecl (build_decl (TYPE_DECL
, get_identifier ("__uint128_t"), unsigned_intTI_type_node
));
6236 build_common_tree_nodes_2 (flag_short_double
);
6238 java_byte_type_node
= record_builtin_java_type ("__java_byte", 8);
6239 java_short_type_node
= record_builtin_java_type ("__java_short", 16);
6240 java_int_type_node
= record_builtin_java_type ("__java_int", 32);
6241 java_long_type_node
= record_builtin_java_type ("__java_long", 64);
6242 java_float_type_node
= record_builtin_java_type ("__java_float", -32);
6243 java_double_type_node
= record_builtin_java_type ("__java_double", -64);
6244 java_char_type_node
= record_builtin_java_type ("__java_char", -16);
6245 java_boolean_type_node
= record_builtin_java_type ("__java_boolean", -1);
6247 integer_two_node
= build_int_2 (2, 0);
6248 TREE_TYPE (integer_two_node
) = integer_type_node
;
6249 integer_three_node
= build_int_2 (3, 0);
6250 TREE_TYPE (integer_three_node
) = integer_type_node
;
6252 boolean_type_node
= make_unsigned_type (BOOL_TYPE_SIZE
);
6253 TREE_SET_CODE (boolean_type_node
, BOOLEAN_TYPE
);
6254 TYPE_MAX_VALUE (boolean_type_node
) = build_int_2 (1, 0);
6255 TREE_TYPE (TYPE_MAX_VALUE (boolean_type_node
)) = boolean_type_node
;
6256 TYPE_PRECISION (boolean_type_node
) = 1;
6257 record_builtin_type (RID_BOOL
, "bool", boolean_type_node
);
6258 boolean_false_node
= build_int_2 (0, 0);
6259 TREE_TYPE (boolean_false_node
) = boolean_type_node
;
6260 boolean_true_node
= build_int_2 (1, 0);
6261 TREE_TYPE (boolean_true_node
) = boolean_type_node
;
6263 signed_size_zero_node
= build_int_2 (0, 0);
6264 record_builtin_type (RID_FLOAT
, NULL_PTR
, float_type_node
);
6265 record_builtin_type (RID_DOUBLE
, NULL_PTR
, double_type_node
);
6266 record_builtin_type (RID_MAX
, "long double", long_double_type_node
);
6268 pushdecl (build_decl (TYPE_DECL
, get_identifier ("complex int"),
6269 complex_integer_type_node
));
6270 pushdecl (build_decl (TYPE_DECL
, get_identifier ("complex float"),
6271 complex_float_type_node
));
6272 pushdecl (build_decl (TYPE_DECL
, get_identifier ("complex double"),
6273 complex_double_type_node
));
6274 pushdecl (build_decl (TYPE_DECL
, get_identifier ("complex long double"),
6275 complex_long_double_type_node
));
6277 TREE_TYPE (signed_size_zero_node
) = make_signed_type (TYPE_PRECISION (sizetype
));
6279 record_builtin_type (RID_VOID
, NULL_PTR
, void_type_node
);
6280 void_list_node
= build_tree_list (NULL_TREE
, void_type_node
);
6281 TREE_PARMLIST (void_list_node
) = 1;
6283 /* Used for expressions that do nothing, but are not errors. */
6284 void_zero_node
= build_int_2 (0, 0);
6285 TREE_TYPE (void_zero_node
) = void_type_node
;
6287 string_type_node
= build_pointer_type (char_type_node
);
6288 const_string_type_node
6289 = build_pointer_type (build_qualified_type (char_type_node
,
6291 empty_except_spec
= build_tree_list (NULL_TREE
, NULL_TREE
);
6293 record_builtin_type (RID_MAX
, NULL_PTR
, string_type_node
);
6296 /* Make a type to be the domain of a few array types
6297 whose domains don't really matter.
6298 200 is small enough that it always fits in size_t. */
6299 array_domain_type
= build_index_type (build_int_2 (200, 0));
6301 /* Make a type for arrays of characters.
6302 With luck nothing will ever really depend on the length of this
6304 char_array_type_node
6305 = build_array_type (char_type_node
, array_domain_type
);
6306 /* Likewise for arrays of ints. */
6308 = build_array_type (integer_type_node
, array_domain_type
);
6311 delta_type_node
= ptrdiff_type_node
;
6312 else if (flag_huge_objects
)
6313 delta_type_node
= long_integer_type_node
;
6315 delta_type_node
= short_integer_type_node
;
6318 vtable_index_type
= ptrdiff_type_node
;
6320 vtable_index_type
= delta_type_node
;
6322 default_function_type
6323 = build_function_type (integer_type_node
, NULL_TREE
);
6325 ptr_type_node
= build_pointer_type (void_type_node
);
6327 = build_pointer_type (build_qualified_type (void_type_node
,
6329 c_common_nodes_and_builtins (1, flag_no_builtin
, flag_no_nonansi_builtin
);
6330 lang_type_promotes_to
= convert_type_from_ellipsis
;
6333 = build_exception_variant (void_ftype_ptr
, empty_except_spec
);
6335 /* C++ extensions */
6337 unknown_type_node
= make_node (UNKNOWN_TYPE
);
6338 record_unknown_type (unknown_type_node
, "unknown type");
6340 /* Indirecting an UNKNOWN_TYPE node yields an UNKNOWN_TYPE node. */
6341 TREE_TYPE (unknown_type_node
) = unknown_type_node
;
6343 TREE_TYPE (null_node
) = type_for_size (POINTER_SIZE
, 0);
6345 /* Looking up TYPE_POINTER_TO and TYPE_REFERENCE_TO yield the same
6347 TYPE_POINTER_TO (unknown_type_node
) = unknown_type_node
;
6348 TYPE_REFERENCE_TO (unknown_type_node
) = unknown_type_node
;
6350 /* This is special for C++ so functions can be overloaded. */
6351 wchar_type_node
= get_identifier (flag_short_wchar
6352 ? "short unsigned int"
6354 wchar_type_node
= TREE_TYPE (IDENTIFIER_GLOBAL_VALUE (wchar_type_node
));
6355 wchar_type_size
= TYPE_PRECISION (wchar_type_node
);
6356 signed_wchar_type_node
= make_signed_type (wchar_type_size
);
6357 unsigned_wchar_type_node
= make_unsigned_type (wchar_type_size
);
6359 = TREE_UNSIGNED (wchar_type_node
)
6360 ? unsigned_wchar_type_node
6361 : signed_wchar_type_node
;
6362 record_builtin_type (RID_WCHAR
, "__wchar_t", wchar_type_node
);
6364 /* Artificial declaration of wchar_t -- can be bashed */
6365 wchar_decl_node
= build_decl (TYPE_DECL
, get_identifier ("wchar_t"),
6367 pushdecl (wchar_decl_node
);
6369 /* This is for wide string constants. */
6370 wchar_array_type_node
6371 = build_array_type (wchar_type_node
, array_domain_type
);
6373 if (flag_vtable_thunks
)
6375 /* Make sure we get a unique function type, so we can give
6376 its pointer type a name. (This wins for gdb.) */
6377 tree vfunc_type
= make_node (FUNCTION_TYPE
);
6378 TREE_TYPE (vfunc_type
) = integer_type_node
;
6379 TYPE_ARG_TYPES (vfunc_type
) = NULL_TREE
;
6380 layout_type (vfunc_type
);
6382 vtable_entry_type
= build_pointer_type (vfunc_type
);
6386 vtable_entry_type
= make_aggr_type (RECORD_TYPE
);
6387 fields
[0] = build_lang_decl (FIELD_DECL
, delta_identifier
,
6389 fields
[1] = build_lang_decl (FIELD_DECL
, index_identifier
,
6391 fields
[2] = build_lang_decl (FIELD_DECL
, pfn_identifier
,
6393 finish_builtin_type (vtable_entry_type
, VTBL_PTR_TYPE
, fields
, 2,
6396 /* Make this part of an invisible union. */
6397 fields
[3] = copy_node (fields
[2]);
6398 TREE_TYPE (fields
[3]) = delta_type_node
;
6399 DECL_NAME (fields
[3]) = delta2_identifier
;
6400 DECL_MODE (fields
[3]) = TYPE_MODE (delta_type_node
);
6401 DECL_SIZE (fields
[3]) = TYPE_SIZE (delta_type_node
);
6402 DECL_SIZE_UNIT (fields
[3]) = TYPE_SIZE_UNIT (delta_type_node
);
6403 TREE_UNSIGNED (fields
[3]) = 0;
6404 TREE_CHAIN (fields
[2]) = fields
[3];
6405 vtable_entry_type
= build_qualified_type (vtable_entry_type
,
6408 record_builtin_type (RID_MAX
, VTBL_PTR_TYPE
, vtable_entry_type
);
6411 = build_cplus_array_type (vtable_entry_type
, NULL_TREE
);
6412 layout_type (vtbl_type_node
);
6413 vtbl_type_node
= build_qualified_type (vtbl_type_node
, TYPE_QUAL_CONST
);
6414 record_builtin_type (RID_MAX
, NULL_PTR
, vtbl_type_node
);
6415 vtbl_ptr_type_node
= build_pointer_type (vtable_entry_type
);
6416 layout_type (vtbl_ptr_type_node
);
6417 record_builtin_type (RID_MAX
, NULL_PTR
, vtbl_ptr_type_node
);
6419 std_node
= build_decl (NAMESPACE_DECL
,
6420 get_identifier (flag_honor_std
? "fake std":"std"),
6422 pushdecl (std_node
);
6426 push_namespace (get_identifier ("__cxxabiv1"));
6427 abi_node
= current_namespace
;
6431 global_type_node
= make_node (LANG_TYPE
);
6432 record_unknown_type (global_type_node
, "global type");
6435 current_lang_name
= lang_name_cplusplus
;
6438 tree bad_alloc_type_node
, newtype
, deltype
;
6440 push_namespace (get_identifier ("std"));
6441 bad_alloc_type_node
= xref_tag
6442 (class_type_node
, get_identifier ("bad_alloc"), 1);
6445 newtype
= build_exception_variant
6446 (ptr_ftype_sizetype
, add_exception_specifier (NULL_TREE
, bad_alloc_type_node
, -1));
6447 deltype
= build_exception_variant (void_ftype_ptr
, empty_except_spec
);
6448 push_cp_library_fn (ansi_opname
[(int) NEW_EXPR
], newtype
);
6449 push_cp_library_fn (ansi_opname
[(int) VEC_NEW_EXPR
], newtype
);
6450 global_delete_fndecl
= push_cp_library_fn (ansi_opname
[(int) DELETE_EXPR
],
6452 push_cp_library_fn (ansi_opname
[(int) VEC_DELETE_EXPR
], deltype
);
6456 = build_library_fn_ptr ("__pure_virtual", void_ftype
);
6458 /* Perform other language dependent initializations. */
6459 init_class_processing ();
6460 init_init_processing ();
6461 init_search_processing ();
6462 init_rtti_processing ();
6464 if (flag_exceptions
)
6465 init_exception_processing ();
6468 flag_inline_functions
= 0;
6471 if (! supports_one_only ())
6474 /* Create the global bindings for __FUNCTION__ and __PRETTY_FUNCTION__. */
6475 make_fname_decl
= cp_make_fname_decl
;
6476 declare_function_name ();
6478 /* Prepare to check format strings against argument lists. */
6479 init_function_format_info ();
6481 /* Show we use EH for cleanups. */
6482 using_eh_for_cleanups ();
6484 print_error_function
= lang_print_error_function
;
6485 lang_get_alias_set
= &c_get_alias_set
;
6486 valid_lang_attribute
= cp_valid_lang_attribute
;
6488 /* Maintain consistency. Perhaps we should just complain if they
6489 say -fwritable-strings? */
6490 if (flag_writable_strings
)
6491 flag_const_strings
= 0;
6493 /* Add GC roots for all of our global variables. */
6494 ggc_add_tree_root (c_global_trees
, sizeof c_global_trees
/ sizeof(tree
));
6495 ggc_add_tree_root (cp_global_trees
, sizeof cp_global_trees
/ sizeof(tree
));
6496 ggc_add_tree_root (&integer_three_node
, 1);
6497 ggc_add_tree_root (&integer_two_node
, 1);
6498 ggc_add_tree_root (&signed_size_zero_node
, 1);
6499 ggc_add_tree_root (&size_one_node
, 1);
6500 ggc_add_tree_root (&size_zero_node
, 1);
6501 ggc_add_root (&global_binding_level
, 1, sizeof global_binding_level
,
6502 mark_binding_level
);
6503 ggc_add_root (&scope_chain
, 1, sizeof scope_chain
, &mark_saved_scope
);
6504 ggc_add_tree_root (&static_ctors
, 1);
6505 ggc_add_tree_root (&static_dtors
, 1);
6506 ggc_add_tree_root (&lastiddecl
, 1);
6508 ggc_add_tree_root (&last_function_parm_tags
, 1);
6509 ggc_add_tree_root (¤t_function_return_value
, 1);
6510 ggc_add_tree_root (¤t_function_parms
, 1);
6511 ggc_add_tree_root (¤t_function_parm_tags
, 1);
6512 ggc_add_tree_root (&last_function_parms
, 1);
6513 ggc_add_tree_root (&error_mark_list
, 1);
6515 ggc_add_tree_root (&global_namespace
, 1);
6516 ggc_add_tree_root (&global_type_node
, 1);
6517 ggc_add_tree_root (&anonymous_namespace_name
, 1);
6519 ggc_add_tree_root (&got_object
, 1);
6520 ggc_add_tree_root (&got_scope
, 1);
6522 ggc_add_tree_root (¤t_lang_name
, 1);
6523 ggc_add_tree_root (&static_aggregates
, 1);
6526 /* Create the VAR_DECL for __FUNCTION__ etc. ID is the name to give the
6527 decl, NAME is the initialization string and TYPE_DEP indicates whether
6528 NAME depended on the type of the function. We make use of that to detect
6529 __PRETTY_FUNCTION__ inside a template fn. Because we build a tree for
6530 the function before emitting any of it, we don't need to treat the
6531 VAR_DECL specially. We can decide whether to emit it later, if it was
6535 cp_make_fname_decl (id
, name
, type_dep
)
6540 tree decl
, type
, init
;
6541 size_t length
= strlen (name
);
6542 tree domain
= NULL_TREE
;
6544 if (!processing_template_decl
)
6547 domain
= build_index_type (build_int_2 (length
, 0));
6549 type
= build_cplus_array_type
6550 (build_qualified_type (char_type_node
, TYPE_QUAL_CONST
),
6553 decl
= build_decl (VAR_DECL
, id
, type
);
6554 TREE_STATIC (decl
) = 1;
6555 TREE_READONLY (decl
) = 1;
6556 DECL_SOURCE_LINE (decl
) = 0;
6557 DECL_ARTIFICIAL (decl
) = 1;
6558 DECL_IN_SYSTEM_HEADER (decl
) = 1;
6560 if (processing_template_decl
)
6561 decl
= push_template_decl (decl
);
6564 init
= build (FUNCTION_NAME
, type
);
6565 DECL_PRETTY_FUNCTION_P (decl
) = 1;
6569 init
= build_string (length
+ 1, name
);
6570 TREE_TYPE (init
) = type
;
6572 DECL_INITIAL (decl
) = init
;
6573 cp_finish_decl (decl
, init
, NULL_TREE
, LOOKUP_ONLYCONVERTING
);
6575 /* We will have to make sure we only emit this, if it is actually used. */
6579 /* Function to print any language-specific context for an error message. */
6582 lang_print_error_function (file
)
6585 default_print_error_function (file
);
6586 maybe_print_template_context ();
6589 /* Entry point for the benefit of c_common_nodes_and_builtins.
6591 Make a definition for a builtin function named NAME and whose data type
6592 is TYPE. TYPE should be a function type with argument types.
6594 CLASS and CODE tell later passes how to compile calls to this function.
6595 See tree.h for possible values.
6597 If LIBNAME is nonzero, use that for DECL_ASSEMBLER_NAME,
6598 the name to be called if we can't opencode the function. */
6601 builtin_function (name
, type
, code
, class, libname
)
6605 enum built_in_class
class;
6606 const char *libname
;
6608 tree decl
= build_library_fn_1 (get_identifier (name
), type
);
6609 DECL_BUILT_IN_CLASS (decl
) = class;
6610 DECL_FUNCTION_CODE (decl
) = code
;
6612 my_friendly_assert (DECL_CONTEXT (decl
) == NULL_TREE
, 392);
6614 /* Since `pushdecl' relies on DECL_ASSEMBLER_NAME instead of DECL_NAME,
6615 we cannot change DECL_ASSEMBLER_NAME until we have installed this
6616 function in the namespace. */
6619 DECL_ASSEMBLER_NAME (decl
) = get_identifier (libname
);
6620 make_function_rtl (decl
);
6624 /* Generate a FUNCTION_DECL with the typical flags for a runtime library
6625 function. Not called directly. */
6628 build_library_fn_1 (name
, type
)
6632 tree fn
= build_lang_decl (FUNCTION_DECL
, name
, type
);
6633 DECL_EXTERNAL (fn
) = 1;
6634 TREE_PUBLIC (fn
) = 1;
6635 DECL_ARTIFICIAL (fn
) = 1;
6636 TREE_NOTHROW (fn
) = 1;
6640 /* Returns the _DECL for a library function with C linkage.
6641 We assume that such functions never throw; if this is incorrect,
6642 callers should unset TREE_NOTHROW. */
6645 build_library_fn (name
, type
)
6649 tree fn
= build_library_fn_1 (name
, type
);
6650 make_function_rtl (fn
);
6654 /* Returns the _DECL for a library function with C++ linkage. */
6657 build_cp_library_fn (name
, type
)
6661 tree fn
= build_library_fn_1 (name
, type
);
6662 TREE_NOTHROW (fn
) = TYPE_NOTHROW_P (type
);
6663 set_mangled_name_for_decl (fn
);
6664 make_function_rtl (fn
);
6668 /* Like build_library_fn, but takes a C string instead of an
6672 build_library_fn_ptr (name
, type
)
6676 return build_library_fn (get_identifier (name
), type
);
6679 /* Like build_cp_library_fn, but takes a C string instead of an
6683 build_cp_library_fn_ptr (name
, type
)
6687 return build_cp_library_fn (get_identifier (name
), type
);
6690 /* Like build_library_fn, but also pushes the function so that we will
6691 be able to find it via IDENTIFIER_GLOBAL_VALUE. */
6694 push_library_fn (name
, type
)
6697 tree fn
= build_library_fn (name
, type
);
6698 pushdecl_top_level (fn
);
6702 /* Like build_cp_library_fn, but also pushes the function so that it
6703 will be found by normal lookup. */
6706 push_cp_library_fn (name
, type
)
6710 tree fn
= build_cp_library_fn (name
, type
);
6715 /* Like push_library_fn, but takes a TREE_LIST of parm types rather than
6719 push_void_library_fn (name
, parmtypes
)
6720 tree name
, parmtypes
;
6722 tree type
= build_function_type (void_type_node
, parmtypes
);
6723 return push_library_fn (name
, type
);
6726 /* Like push_library_fn, but also note that this function throws
6727 and does not return. Used for __throw_foo and the like. */
6730 push_throw_library_fn (name
, type
)
6733 tree fn
= push_library_fn (name
, type
);
6734 TREE_THIS_VOLATILE (fn
) = 1;
6735 TREE_NOTHROW (fn
) = 0;
6739 /* When we call finish_struct for an anonymous union, we create
6740 default copy constructors and such. But, an anonymous union
6741 shouldn't have such things; this function undoes the damage to the
6742 anonymous union type T.
6744 (The reason that we create the synthesized methods is that we don't
6745 distinguish `union { int i; }' from `typedef union { int i; } U'.
6746 The first is an anonymous union; the second is just an ordinary
6750 fixup_anonymous_aggr (t
)
6755 /* Wipe out memory of synthesized methods */
6756 TYPE_HAS_CONSTRUCTOR (t
) = 0;
6757 TYPE_HAS_DEFAULT_CONSTRUCTOR (t
) = 0;
6758 TYPE_HAS_INIT_REF (t
) = 0;
6759 TYPE_HAS_CONST_INIT_REF (t
) = 0;
6760 TYPE_HAS_ASSIGN_REF (t
) = 0;
6761 TYPE_HAS_CONST_ASSIGN_REF (t
) = 0;
6763 /* Splice the implicitly generated functions out of the TYPE_METHODS
6765 q
= &TYPE_METHODS (t
);
6768 if (DECL_ARTIFICIAL (*q
))
6769 *q
= TREE_CHAIN (*q
);
6771 q
= &TREE_CHAIN (*q
);
6774 /* ISO C++ 9.5.3. Anonymous unions may not have function members. */
6775 if (TYPE_METHODS (t
))
6776 error ("an anonymous union cannot have function members");
6779 /* Make sure that a declaration with no declarator is well-formed, i.e.
6780 just defines a tagged type or anonymous union.
6782 Returns the type defined, if any. */
6785 check_tag_decl (declspecs
)
6790 tree ob_modifier
= NULL_TREE
;
6792 register tree t
= NULL_TREE
;
6794 for (link
= declspecs
; link
; link
= TREE_CHAIN (link
))
6796 register tree value
= TREE_VALUE (link
);
6799 || (TREE_CODE (value
) == IDENTIFIER_NODE
6800 && IDENTIFIER_GLOBAL_VALUE (value
)
6801 && TYPE_P (IDENTIFIER_GLOBAL_VALUE (value
))))
6805 if (IS_AGGR_TYPE (value
) || TREE_CODE (value
) == ENUMERAL_TYPE
)
6807 my_friendly_assert (TYPE_MAIN_DECL (value
) != NULL_TREE
, 261);
6811 else if (value
== ridpointers
[(int) RID_FRIEND
])
6813 if (current_class_type
== NULL_TREE
6814 || current_scope () != current_class_type
)
6815 ob_modifier
= value
;
6819 else if (value
== ridpointers
[(int) RID_STATIC
]
6820 || value
== ridpointers
[(int) RID_EXTERN
]
6821 || value
== ridpointers
[(int) RID_AUTO
]
6822 || value
== ridpointers
[(int) RID_REGISTER
]
6823 || value
== ridpointers
[(int) RID_INLINE
]
6824 || value
== ridpointers
[(int) RID_VIRTUAL
]
6825 || value
== ridpointers
[(int) RID_CONST
]
6826 || value
== ridpointers
[(int) RID_VOLATILE
]
6827 || value
== ridpointers
[(int) RID_EXPLICIT
])
6828 ob_modifier
= value
;
6832 error ("multiple types in one declaration");
6834 if (t
== NULL_TREE
&& ! saw_friend
)
6835 pedwarn ("declaration does not declare anything");
6837 /* Check for an anonymous union. We're careful
6838 accessing TYPE_IDENTIFIER because some built-in types, like
6839 pointer-to-member types, do not have TYPE_NAME. */
6840 else if (t
&& IS_AGGR_TYPE_CODE (TREE_CODE (t
))
6842 && ANON_AGGRNAME_P (TYPE_IDENTIFIER (t
)))
6844 /* Anonymous unions are objects, so they can have specifiers. */;
6845 SET_ANON_AGGR_TYPE_P (t
);
6847 if (TREE_CODE (t
) != UNION_TYPE
&& pedantic
&& ! in_system_header
)
6848 pedwarn ("ISO C++ prohibits anonymous structs");
6851 else if (ob_modifier
)
6853 if (ob_modifier
== ridpointers
[(int) RID_INLINE
]
6854 || ob_modifier
== ridpointers
[(int) RID_VIRTUAL
])
6855 cp_error ("`%D' can only be specified for functions", ob_modifier
);
6856 else if (ob_modifier
== ridpointers
[(int) RID_FRIEND
])
6857 cp_error ("`%D' can only be specified inside a class", ob_modifier
);
6858 else if (ob_modifier
== ridpointers
[(int) RID_EXPLICIT
])
6859 cp_error ("`%D' can only be specified for constructors",
6862 cp_error ("`%D' can only be specified for objects and functions",
6869 /* Called when a declaration is seen that contains no names to declare.
6870 If its type is a reference to a structure, union or enum inherited
6871 from a containing scope, shadow that tag name for the current scope
6872 with a forward reference.
6873 If its type defines a new named structure or union
6874 or defines an enum, it is valid but we need not do anything here.
6875 Otherwise, it is an error.
6877 C++: may have to grok the declspecs to learn about static,
6878 complain for anonymous unions. */
6881 shadow_tag (declspecs
)
6884 tree t
= check_tag_decl (declspecs
);
6887 maybe_process_partial_specialization (t
);
6889 /* This is where the variables in an anonymous union are
6890 declared. An anonymous union declaration looks like:
6892 because there is no declarator after the union, the parser
6893 sends that declaration here. */
6894 if (t
&& ANON_AGGR_TYPE_P (t
))
6896 fixup_anonymous_aggr (t
);
6898 if (TYPE_FIELDS (t
))
6900 tree decl
= grokdeclarator (NULL_TREE
, declspecs
, NORMAL
, 0,
6902 finish_anon_union (decl
);
6907 /* Decode a "typename", such as "int **", returning a ..._TYPE node. */
6910 groktypename (typename
)
6913 if (TREE_CODE (typename
) != TREE_LIST
)
6915 return grokdeclarator (TREE_VALUE (typename
),
6916 TREE_PURPOSE (typename
),
6917 TYPENAME
, 0, NULL_TREE
);
6920 /* Decode a declarator in an ordinary declaration or data definition.
6921 This is called as soon as the type information and variable name
6922 have been parsed, before parsing the initializer if any.
6923 Here we create the ..._DECL node, fill in its type,
6924 and put it on the list of decls for the current context.
6925 The ..._DECL node is returned as the value.
6927 Exception: for arrays where the length is not specified,
6928 the type is left null, to be filled in by `cp_finish_decl'.
6930 Function definitions do not come here; they go to start_function
6931 instead. However, external and forward declarations of functions
6932 do go through here. Structure field declarations are done by
6933 grokfield and not through here. */
6936 start_decl (declarator
, declspecs
, initialized
, attributes
, prefix_attributes
)
6937 tree declarator
, declspecs
;
6939 tree attributes
, prefix_attributes
;
6942 register tree type
, tem
;
6944 extern int have_extern_spec
;
6945 extern int used_extern_spec
;
6949 /* See code below that used this. */
6950 int init_written
= initialized
;
6953 /* This should only be done once on the top most decl. */
6954 if (have_extern_spec
&& !used_extern_spec
)
6956 declspecs
= decl_tree_cons (NULL_TREE
, get_identifier ("extern"),
6958 used_extern_spec
= 1;
6961 if (attributes
|| prefix_attributes
)
6962 attrlist
= build_tree_list (attributes
, prefix_attributes
);
6964 attrlist
= NULL_TREE
;
6966 decl
= grokdeclarator (declarator
, declspecs
, NORMAL
, initialized
,
6969 if (decl
== NULL_TREE
|| TREE_CODE (decl
) == VOID_TYPE
)
6972 type
= TREE_TYPE (decl
);
6974 if (type
== error_mark_node
)
6977 context
= DECL_CONTEXT (decl
);
6979 if (initialized
&& context
&& TREE_CODE (context
) == NAMESPACE_DECL
6980 && context
!= current_namespace
&& TREE_CODE (decl
) == VAR_DECL
)
6982 /* When parsing the initializer, lookup should use the object's
6984 push_decl_namespace (context
);
6987 /* We are only interested in class contexts, later. */
6988 if (context
&& TREE_CODE (context
) == NAMESPACE_DECL
)
6989 context
= NULL_TREE
;
6992 /* Is it valid for this decl to have an initializer at all?
6993 If not, set INITIALIZED to zero, which will indirectly
6994 tell `cp_finish_decl' to ignore the initializer once it is parsed. */
6995 switch (TREE_CODE (decl
))
6998 /* typedef foo = bar means give foo the same type as bar.
6999 We haven't parsed bar yet, so `cp_finish_decl' will fix that up.
7000 Any other case of an initialization in a TYPE_DECL is an error. */
7001 if (pedantic
|| list_length (declspecs
) > 1)
7003 cp_error ("typedef `%D' is initialized", decl
);
7009 cp_error ("function `%#D' is initialized like a variable", decl
);
7019 if (! toplevel_bindings_p ()
7020 && DECL_EXTERNAL (decl
))
7021 cp_warning ("declaration of `%#D' has `extern' and is initialized",
7023 DECL_EXTERNAL (decl
) = 0;
7024 if (toplevel_bindings_p ())
7025 TREE_STATIC (decl
) = 1;
7027 /* Tell `pushdecl' this is an initialized decl
7028 even though we don't yet have the initializer expression.
7029 Also tell `cp_finish_decl' it may store the real initializer. */
7030 DECL_INITIAL (decl
) = error_mark_node
;
7033 #ifdef SET_DEFAULT_DECL_ATTRIBUTES
7034 SET_DEFAULT_DECL_ATTRIBUTES (decl
, attributes
);
7037 /* Set attributes here so if duplicate decl, will have proper attributes. */
7038 cplus_decl_attributes (decl
, attributes
, prefix_attributes
);
7040 if (context
&& COMPLETE_TYPE_P (complete_type (context
)))
7042 push_nested_class (context
, 2);
7044 if (TREE_CODE (decl
) == VAR_DECL
)
7046 tree field
= lookup_field (context
, DECL_NAME (decl
), 0, 0);
7047 if (field
== NULL_TREE
|| TREE_CODE (field
) != VAR_DECL
)
7048 cp_error ("`%#D' is not a static member of `%#T'", decl
, context
);
7051 if (DECL_CONTEXT (field
) != context
)
7053 cp_pedwarn ("ISO C++ does not permit `%T::%D' to be defined as `%T::%D'",
7054 DECL_CONTEXT (field
), DECL_NAME (decl
),
7055 context
, DECL_NAME (decl
));
7056 DECL_CONTEXT (decl
) = DECL_CONTEXT (field
);
7058 /* Static data member are tricky; an in-class initialization
7059 still doesn't provide a definition, so the in-class
7060 declaration will have DECL_EXTERNAL set, but will have an
7061 initialization. Thus, duplicate_decls won't warn
7062 about this situation, and so we check here. */
7063 if (DECL_INITIAL (decl
) && DECL_INITIAL (field
))
7064 cp_error ("duplicate initialization of %D", decl
);
7065 if (duplicate_decls (decl
, field
))
7071 tree field
= check_classfn (context
, decl
);
7072 if (field
&& duplicate_decls (decl
, field
))
7076 /* cp_finish_decl sets DECL_EXTERNAL if DECL_IN_AGGR_P is set. */
7077 DECL_IN_AGGR_P (decl
) = 0;
7078 if ((DECL_LANG_SPECIFIC (decl
) && DECL_USE_TEMPLATE (decl
))
7079 || CLASSTYPE_USE_TEMPLATE (context
))
7081 SET_DECL_TEMPLATE_SPECIALIZATION (decl
);
7082 /* [temp.expl.spec] An explicit specialization of a static data
7083 member of a template is a definition if the declaration
7084 includes an initializer; otherwise, it is a declaration.
7086 We check for processing_specialization so this only applies
7087 to the new specialization syntax. */
7088 if (DECL_INITIAL (decl
) == NULL_TREE
&& processing_specialization
)
7089 DECL_EXTERNAL (decl
) = 1;
7092 if (DECL_EXTERNAL (decl
) && ! DECL_TEMPLATE_SPECIALIZATION (decl
))
7093 cp_pedwarn ("declaration of `%#D' outside of class is not definition",
7097 /* Enter this declaration into the symbol table. */
7098 tem
= maybe_push_decl (decl
);
7100 if (processing_template_decl
)
7101 tem
= push_template_decl (tem
);
7103 #if ! defined (ASM_OUTPUT_BSS) && ! defined (ASM_OUTPUT_ALIGNED_BSS)
7104 /* Tell the back-end to use or not use .common as appropriate. If we say
7105 -fconserve-space, we want this to save .data space, at the expense of
7106 wrong semantics. If we say -fno-conserve-space, we want this to
7107 produce errors about redefs; to do this we force variables into the
7109 DECL_COMMON (tem
) = flag_conserve_space
|| ! TREE_PUBLIC (tem
);
7112 if (! processing_template_decl
)
7122 tree type
= TREE_TYPE (decl
);
7123 int initialized
= (DECL_INITIAL (decl
) != NULL_TREE
);
7125 if (type
== error_mark_node
)
7128 /* If this type of object needs a cleanup, but we're not allowed to
7129 add any more objects with cleanups to the current scope, create a
7130 new binding level. */
7131 if (TYPE_HAS_NONTRIVIAL_DESTRUCTOR (type
)
7132 && current_binding_level
->more_cleanups_ok
== 0)
7134 keep_next_level (2);
7137 add_scope_stmt (/*begin_p=*/1, /*partial_p=*/1);
7141 /* Is it valid for this decl to have an initializer at all?
7142 If not, set INITIALIZED to zero, which will indirectly
7143 tell `cp_finish_decl' to ignore the initializer once it is parsed. */
7145 /* Don't allow initializations for incomplete types except for
7146 arrays which might be completed by the initialization. */
7147 if (COMPLETE_TYPE_P (complete_type (type
)))
7148 ; /* A complete type is ok. */
7149 else if (TREE_CODE (type
) != ARRAY_TYPE
)
7151 cp_error ("variable `%#D' has initializer but incomplete type",
7154 type
= TREE_TYPE (decl
) = error_mark_node
;
7156 else if (!COMPLETE_TYPE_P (complete_type (TREE_TYPE (type
))))
7158 if (DECL_LANG_SPECIFIC (decl
) && DECL_TEMPLATE_INFO (decl
))
7159 cp_error ("elements of array `%#D' have incomplete type", decl
);
7160 /* else we already gave an error in start_decl. */
7166 && TREE_CODE (decl
) != TYPE_DECL
7167 && TREE_CODE (decl
) != TEMPLATE_DECL
7168 && type
!= error_mark_node
7169 && IS_AGGR_TYPE (type
)
7170 && ! DECL_EXTERNAL (decl
))
7172 if ((! processing_template_decl
|| ! uses_template_parms (type
))
7173 && !COMPLETE_TYPE_P (complete_type (type
)))
7175 cp_error ("aggregate `%#D' has incomplete type and cannot be initialized",
7177 /* Change the type so that assemble_variable will give
7178 DECL an rtl we can live with: (mem (const_int 0)). */
7179 type
= TREE_TYPE (decl
) = error_mark_node
;
7183 /* If any base type in the hierarchy of TYPE needs a constructor,
7184 then we set initialized to 1. This way any nodes which are
7185 created for the purposes of initializing this aggregate
7186 will live as long as it does. This is necessary for global
7187 aggregates which do not have their initializers processed until
7188 the end of the file. */
7189 initialized
= TYPE_NEEDS_CONSTRUCTING (type
);
7194 DECL_INITIAL (decl
) = NULL_TREE
;
7197 /* Handle initialization of references.
7198 These three arguments are from `cp_finish_decl', and have the
7199 same meaning here that they do there.
7201 Quotes on semantics can be found in ARM 8.4.3. */
7204 grok_reference_init (decl
, type
, init
)
7205 tree decl
, type
, init
;
7209 if (init
== NULL_TREE
)
7211 if ((DECL_LANG_SPECIFIC (decl
) == 0
7212 || DECL_IN_AGGR_P (decl
) == 0)
7213 && ! DECL_THIS_EXTERN (decl
))
7214 cp_error ("`%D' declared as reference but not initialized", decl
);
7218 if (init
== error_mark_node
)
7221 if (TREE_CODE (init
) == CONSTRUCTOR
)
7223 cp_error ("ISO C++ forbids use of initializer list to initialize reference `%D'", decl
);
7227 if (TREE_CODE (init
) == TREE_LIST
)
7228 init
= build_compound_expr (init
);
7230 if (TREE_CODE (TREE_TYPE (init
)) == REFERENCE_TYPE
)
7231 init
= convert_from_reference (init
);
7233 if (TREE_CODE (TREE_TYPE (type
)) != ARRAY_TYPE
7234 && TREE_CODE (TREE_TYPE (init
)) == ARRAY_TYPE
)
7236 /* Note: default conversion is only called in very special cases. */
7237 init
= default_conversion (init
);
7240 /* Convert INIT to the reference type TYPE. This may involve the
7241 creation of a temporary, whose lifetime must be the same as that
7242 of the reference. If so, a DECL_STMT for the temporary will be
7243 added just after the DECL_STMT for DECL. That's why we don't set
7244 DECL_INITIAL for local references (instead assigning to them
7245 explicitly); we need to allow the temporary to be initialized
7247 tmp
= convert_to_reference
7248 (type
, init
, CONV_IMPLICIT
,
7249 LOOKUP_SPECULATIVELY
|LOOKUP_NORMAL
|DIRECT_BIND
, decl
);
7251 if (tmp
== error_mark_node
)
7253 else if (tmp
!= NULL_TREE
)
7256 tmp
= save_expr (tmp
);
7257 if (building_stmt_tree ())
7259 /* Initialize the declaration. */
7260 tmp
= build (INIT_EXPR
, TREE_TYPE (decl
), decl
, tmp
);
7261 finish_expr_stmt (tmp
);
7264 DECL_INITIAL (decl
) = tmp
;
7268 cp_error ("cannot initialize `%T' from `%T'", type
, TREE_TYPE (init
));
7272 if (TREE_STATIC (decl
) && ! TREE_CONSTANT (DECL_INITIAL (decl
)))
7274 expand_static_init (decl
, DECL_INITIAL (decl
));
7275 DECL_INITIAL (decl
) = NULL_TREE
;
7280 /* Fill in DECL_INITIAL with some magical value to prevent expand_decl from
7281 mucking with forces it does not comprehend (i.e. initialization with a
7282 constructor). If we are at global scope and won't go into COMMON, fill
7283 it in with a dummy CONSTRUCTOR to force the variable into .data;
7284 otherwise we can use error_mark_node. */
7287 obscure_complex_init (decl
, init
)
7290 if (! flag_no_inline
&& TREE_STATIC (decl
))
7292 if (extract_init (decl
, init
))
7296 #if ! defined (ASM_OUTPUT_BSS) && ! defined (ASM_OUTPUT_ALIGNED_BSS)
7297 if (toplevel_bindings_p () && ! DECL_COMMON (decl
))
7298 DECL_INITIAL (decl
) = build (CONSTRUCTOR
, TREE_TYPE (decl
), NULL_TREE
,
7302 DECL_INITIAL (decl
) = error_mark_node
;
7307 /* When parsing `int a[] = {1, 2};' we don't know the size of the
7308 array until we finish parsing the initializer. If that's the
7309 situation we're in, update DECL accordingly. */
7312 maybe_deduce_size_from_array_init (decl
, init
)
7316 tree type
= TREE_TYPE (decl
);
7318 if (TREE_CODE (type
) == ARRAY_TYPE
7319 && TYPE_DOMAIN (type
) == NULL_TREE
7320 && TREE_CODE (decl
) != TYPE_DECL
)
7323 = (TREE_STATIC (decl
)
7324 /* Even if pedantic, an external linkage array
7325 may have incomplete type at first. */
7326 ? pedantic
&& ! DECL_EXTERNAL (decl
)
7327 : !DECL_EXTERNAL (decl
));
7328 tree initializer
= init
? init
: DECL_INITIAL (decl
);
7329 int failure
= complete_array_type (type
, initializer
, do_default
);
7332 cp_error ("initializer fails to determine size of `%D'", decl
);
7337 cp_error ("array size missing in `%D'", decl
);
7338 /* If a `static' var's size isn't known, make it extern as
7339 well as static, so it does not get allocated. If it's not
7340 `static', then don't mark it extern; finish_incomplete_decl
7341 will give it a default size and it will get allocated. */
7342 else if (!pedantic
&& TREE_STATIC (decl
) && !TREE_PUBLIC (decl
))
7343 DECL_EXTERNAL (decl
) = 1;
7346 if (pedantic
&& TYPE_DOMAIN (type
) != NULL_TREE
7347 && tree_int_cst_lt (TYPE_MAX_VALUE (TYPE_DOMAIN (type
)),
7349 cp_error ("zero-size array `%D'", decl
);
7351 layout_decl (decl
, 0);
7355 /* Set DECL_SIZE, DECL_ALIGN, etc. for DECL (a VAR_DECL), and issue
7356 any appropriate error messages regarding the layout. */
7359 layout_var_decl (decl
)
7362 tree type
= TREE_TYPE (decl
);
7364 tree ttype
= target_type (type
);
7367 /* If we haven't already layed out this declaration, do so now.
7368 Note that we must not call complete type for an external object
7369 because it's type might involve templates that we are not
7370 supposed to isntantiate yet. (And it's perfectly legal to say
7371 `extern X x' for some incomplete type `X'.) */
7372 if (!DECL_EXTERNAL (decl
))
7373 complete_type (type
);
7374 if (!DECL_SIZE (decl
) && COMPLETE_TYPE_P (type
))
7375 layout_decl (decl
, 0);
7377 if (!DECL_EXTERNAL (decl
) && DECL_SIZE (decl
) == NULL_TREE
)
7379 /* An automatic variable with an incomplete type: that is an error.
7380 Don't talk about array types here, since we took care of that
7381 message in grokdeclarator. */
7382 cp_error ("storage size of `%D' isn't known", decl
);
7383 TREE_TYPE (decl
) = error_mark_node
;
7386 /* Keep this code around in case we later want to control debug info
7387 based on whether a type is "used". (jason 1999-11-11) */
7389 else if (!DECL_EXTERNAL (decl
) && IS_AGGR_TYPE (ttype
))
7390 /* Let debugger know it should output info for this type. */
7391 note_debug_info_needed (ttype
);
7393 if (TREE_STATIC (decl
) && DECL_CLASS_SCOPE_P (decl
))
7394 note_debug_info_needed (DECL_CONTEXT (decl
));
7397 if ((DECL_EXTERNAL (decl
) || TREE_STATIC (decl
))
7398 && DECL_SIZE (decl
) != NULL_TREE
7399 && ! TREE_CONSTANT (DECL_SIZE (decl
)))
7401 if (TREE_CODE (DECL_SIZE (decl
)) == INTEGER_CST
)
7402 constant_expression_warning (DECL_SIZE (decl
));
7404 cp_error ("storage size of `%D' isn't constant", decl
);
7408 /* If a local static variable is declared in an inline function, or if
7409 we have a weak definition, we must endeavor to create only one
7410 instance of the variable at link-time. */
7413 maybe_commonize_var (decl
)
7416 /* Static data in a function with comdat linkage also has comdat
7418 if (TREE_STATIC (decl
)
7419 /* Don't mess with __FUNCTION__. */
7420 && ! DECL_ARTIFICIAL (decl
)
7421 && current_function_decl
7422 && DECL_CONTEXT (decl
) == current_function_decl
7423 && (DECL_THIS_INLINE (current_function_decl
)
7424 || DECL_TEMPLATE_INSTANTIATION (current_function_decl
))
7425 && TREE_PUBLIC (current_function_decl
))
7427 /* Rather than try to get this right with inlining, we suppress
7428 inlining of such functions. */
7429 current_function_cannot_inline
7430 = "function with static variable cannot be inline";
7432 /* If flag_weak, we don't need to mess with this, as we can just
7433 make the function weak, and let it refer to its unique local
7434 copy. This works because we don't allow the function to be
7438 if (DECL_INTERFACE_KNOWN (current_function_decl
))
7440 TREE_PUBLIC (decl
) = 1;
7441 DECL_EXTERNAL (decl
) = DECL_EXTERNAL (current_function_decl
);
7443 else if (DECL_INITIAL (decl
) == NULL_TREE
7444 || DECL_INITIAL (decl
) == error_mark_node
)
7446 TREE_PUBLIC (decl
) = 1;
7447 DECL_COMMON (decl
) = 1;
7449 /* else we lose. We can only do this if we can use common,
7450 which we can't if it has been initialized. */
7452 if (TREE_PUBLIC (decl
))
7453 DECL_ASSEMBLER_NAME (decl
)
7454 = build_static_name (current_function_decl
, DECL_NAME (decl
));
7457 cp_warning_at ("sorry: semantics of inline function static data `%#D' are wrong (you'll wind up with multiple copies)", decl
);
7458 cp_warning_at (" you can work around this by removing the initializer", decl
);
7462 else if (DECL_LANG_SPECIFIC (decl
) && DECL_COMDAT (decl
))
7463 /* Set it up again; we might have set DECL_INITIAL since the last
7465 comdat_linkage (decl
);
7468 /* Issue an error message if DECL is an uninitialized const variable. */
7471 check_for_uninitialized_const_var (decl
)
7474 tree type
= TREE_TYPE (decl
);
7476 /* ``Unless explicitly declared extern, a const object does not have
7477 external linkage and must be initialized. ($8.4; $12.1)'' ARM
7479 if (TREE_CODE (decl
) == VAR_DECL
7480 && TREE_CODE (type
) != REFERENCE_TYPE
7481 && CP_TYPE_CONST_P (type
)
7482 && !TYPE_NEEDS_CONSTRUCTING (type
)
7483 && !DECL_INITIAL (decl
))
7484 cp_error ("uninitialized const `%D'", decl
);
7487 /* Verify INIT (the initializer for DECL), and record the
7488 initialization in DECL_INITIAL, if appropriate. Returns a new
7492 check_initializer (decl
, init
)
7498 if (TREE_CODE (decl
) == FIELD_DECL
)
7501 type
= TREE_TYPE (decl
);
7503 /* If `start_decl' didn't like having an initialization, ignore it now. */
7504 if (init
!= NULL_TREE
&& DECL_INITIAL (decl
) == NULL_TREE
)
7507 /* Check the initializer. */
7510 /* Things that are going to be initialized need to have complete
7512 TREE_TYPE (decl
) = type
= complete_type (TREE_TYPE (decl
));
7514 if (type
== error_mark_node
)
7515 /* We will have already complained. */
7517 else if (COMPLETE_TYPE_P (type
) && !TREE_CONSTANT (TYPE_SIZE (type
)))
7519 cp_error ("variable-sized object `%D' may not be initialized", decl
);
7522 else if (TREE_CODE (type
) == ARRAY_TYPE
7523 && !COMPLETE_TYPE_P (TREE_TYPE (type
)))
7525 cp_error ("elements of array `%#D' have incomplete type", decl
);
7528 else if (!COMPLETE_TYPE_P (type
))
7530 cp_error ("`%D' has incomplete type", decl
);
7531 TREE_TYPE (decl
) = error_mark_node
;
7536 if (TREE_CODE (decl
) == CONST_DECL
)
7538 my_friendly_assert (TREE_CODE (decl
) != REFERENCE_TYPE
, 148);
7540 DECL_INITIAL (decl
) = init
;
7542 /* This will keep us from needing to worry about our obstacks. */
7543 my_friendly_assert (init
!= NULL_TREE
, 149);
7546 else if (!DECL_EXTERNAL (decl
) && TREE_CODE (type
) == REFERENCE_TYPE
)
7548 if (TREE_STATIC (decl
))
7549 make_decl_rtl (decl
, NULL_PTR
, toplevel_bindings_p ());
7550 grok_reference_init (decl
, type
, init
);
7555 if (TYPE_HAS_CONSTRUCTOR (type
) || TYPE_NEEDS_CONSTRUCTING (type
))
7557 if (TREE_CODE (type
) == ARRAY_TYPE
)
7558 init
= digest_init (type
, init
, (tree
*) 0);
7559 else if (TREE_CODE (init
) == CONSTRUCTOR
7560 && TREE_HAS_CONSTRUCTOR (init
))
7562 if (TYPE_NON_AGGREGATE_CLASS (type
))
7564 cp_error ("`%D' must be initialized by constructor, not by `{...}'",
7566 init
= error_mark_node
;
7569 goto dont_use_constructor
;
7574 dont_use_constructor
:
7575 if (TREE_CODE (init
) != TREE_VEC
)
7576 init
= store_init_value (decl
, init
);
7580 /* We must hide the initializer so that expand_decl
7581 won't try to do something it does not understand. */
7582 init
= obscure_complex_init (decl
, init
);
7584 else if (DECL_EXTERNAL (decl
))
7586 else if (TYPE_P (type
)
7587 && (IS_AGGR_TYPE (type
) || TYPE_NEEDS_CONSTRUCTING (type
)))
7589 tree core_type
= strip_array_types (type
);
7591 if (! TYPE_NEEDS_CONSTRUCTING (core_type
))
7593 if (CLASSTYPE_READONLY_FIELDS_NEED_INIT (core_type
))
7594 cp_error ("structure `%D' with uninitialized const members", decl
);
7595 if (CLASSTYPE_REF_FIELDS_NEED_INIT (core_type
))
7596 cp_error ("structure `%D' with uninitialized reference members",
7600 check_for_uninitialized_const_var (decl
);
7602 if (COMPLETE_TYPE_P (type
) && TYPE_NEEDS_CONSTRUCTING (type
))
7603 init
= obscure_complex_init (decl
, NULL_TREE
);
7607 check_for_uninitialized_const_var (decl
);
7612 /* If DECL is not a local variable, give it RTL. */
7615 make_rtl_for_nonlocal_decl (decl
, init
, asmspec
)
7618 const char *asmspec
;
7623 type
= TREE_TYPE (decl
);
7624 toplev
= toplevel_bindings_p ();
7626 /* Handle non-variables up front. */
7627 if (TREE_CODE (decl
) != VAR_DECL
)
7629 rest_of_decl_compilation (decl
, asmspec
, toplev
, at_eof
);
7633 /* Set the DECL_ASSEMBLER_NAME for the variable. */
7635 DECL_ASSEMBLER_NAME (decl
) = get_identifier (asmspec
);
7637 if (DECL_VIRTUAL_P (decl
))
7638 make_decl_rtl (decl
, NULL_PTR
, toplev
);
7639 else if (TREE_READONLY (decl
)
7640 && DECL_INITIAL (decl
) != NULL_TREE
7641 && DECL_INITIAL (decl
) != error_mark_node
7642 && ! EMPTY_CONSTRUCTOR_P (DECL_INITIAL (decl
)))
7644 DECL_INITIAL (decl
) = save_expr (DECL_INITIAL (decl
));
7646 if (toplev
&& ! TREE_PUBLIC (decl
))
7648 /* If this is a static const, change its apparent linkage
7649 if it belongs to a #pragma interface. */
7650 if (!interface_unknown
)
7652 TREE_PUBLIC (decl
) = 1;
7653 DECL_EXTERNAL (decl
) = interface_only
;
7655 make_decl_rtl (decl
, asmspec
, toplev
);
7658 rest_of_decl_compilation (decl
, asmspec
, toplev
, at_eof
);
7660 else if (DECL_LANG_SPECIFIC (decl
) && DECL_IN_AGGR_P (decl
))
7662 my_friendly_assert (TREE_STATIC (decl
), 19990828);
7664 if (init
== NULL_TREE
7665 #ifdef DEFAULT_STATIC_DEFS
7666 /* If this code is dead, then users must
7667 explicitly declare static member variables
7668 outside the class def'n as well. */
7669 && TYPE_NEEDS_CONSTRUCTING (type
)
7673 DECL_EXTERNAL (decl
) = 1;
7674 make_decl_rtl (decl
, asmspec
, 1);
7677 rest_of_decl_compilation (decl
, asmspec
, toplev
, at_eof
);
7679 else if (TREE_CODE (CP_DECL_CONTEXT (decl
)) == NAMESPACE_DECL
7680 || (TREE_CODE (decl
) == VAR_DECL
&& TREE_STATIC (decl
)))
7681 rest_of_decl_compilation (decl
, asmspec
, toplev
, at_eof
);
7684 /* Create RTL for the local static variable DECL. */
7687 make_rtl_for_local_static (decl
)
7690 const char *asmspec
= NULL
;
7692 /* If we inlined this variable, we could see it's declaration
7694 if (DECL_RTL (decl
))
7697 if (DECL_ASSEMBLER_NAME (decl
) != DECL_NAME (decl
))
7699 /* The only way this situaton can occur is if the
7700 user specified a name for this DECL using the
7701 `attribute' syntax. */
7702 asmspec
= IDENTIFIER_POINTER (DECL_ASSEMBLER_NAME (decl
));
7703 DECL_ASSEMBLER_NAME (decl
) = DECL_NAME (decl
);
7706 rest_of_decl_compilation (decl
, asmspec
, /*top_level=*/0, /*at_end=*/0);
7709 /* The old ARM scoping rules injected variables declared in the
7710 initialization statement of a for-statement into the surrounding
7711 scope. We support this usage, in order to be backward-compatible.
7712 DECL is a just-declared VAR_DECL; if necessary inject its
7713 declaration into the surrounding scope. */
7716 maybe_inject_for_scope_var (decl
)
7719 if (current_binding_level
->is_for_scope
)
7721 struct binding_level
*outer
7722 = current_binding_level
->level_chain
;
7724 /* Check to see if the same name is already bound at the outer
7725 level, either because it was directly declared, or because a
7726 dead for-decl got preserved. In either case, the code would
7727 not have been valid under the ARM scope rules, so clear
7728 is_for_scope for the current_binding_level.
7730 Otherwise, we need to preserve the temp slot for decl to last
7731 into the outer binding level. */
7734 = TREE_CHAIN (IDENTIFIER_BINDING (DECL_NAME (decl
)));
7736 if (outer_binding
&& BINDING_LEVEL (outer_binding
) == outer
7737 && (TREE_CODE (BINDING_VALUE (outer_binding
))
7739 && DECL_DEAD_FOR_LOCAL (BINDING_VALUE (outer_binding
)))
7741 BINDING_VALUE (outer_binding
)
7742 = DECL_SHADOWED_FOR_VAR (BINDING_VALUE (outer_binding
));
7743 current_binding_level
->is_for_scope
= 0;
7745 else if (DECL_IN_MEMORY_P (decl
))
7746 preserve_temp_slots (DECL_RTL (decl
));
7750 /* Generate code to initialize DECL (a local variable). */
7753 initialize_local_var (decl
, init
, flags
)
7758 tree type
= TREE_TYPE (decl
);
7760 /* If the type is bogus, don't bother initializing the variable. */
7761 if (type
== error_mark_node
)
7764 if (DECL_SIZE (decl
) == NULL_TREE
&& !TREE_STATIC (decl
))
7766 /* If we used it already as memory, it must stay in memory. */
7767 DECL_INITIAL (decl
) = NULL_TREE
;
7768 TREE_ADDRESSABLE (decl
) = TREE_USED (decl
);
7771 /* Local statics are handled differently from ordinary automatic
7773 if (TREE_STATIC (decl
))
7775 if (TYPE_NEEDS_CONSTRUCTING (type
) || init
!= NULL_TREE
7776 || TYPE_HAS_NONTRIVIAL_DESTRUCTOR (type
))
7777 expand_static_init (decl
, init
);
7781 if (DECL_SIZE (decl
) && type
!= error_mark_node
)
7785 /* Compute and store the initial value. */
7786 already_used
= TREE_USED (decl
) || TREE_USED (type
);
7788 if (init
|| TYPE_NEEDS_CONSTRUCTING (type
))
7790 int saved_stmts_are_full_exprs_p
;
7792 emit_line_note (DECL_SOURCE_FILE (decl
),
7793 DECL_SOURCE_LINE (decl
));
7794 saved_stmts_are_full_exprs_p
= stmts_are_full_exprs_p
;
7795 stmts_are_full_exprs_p
= 1;
7796 finish_expr_stmt (build_aggr_init (decl
, init
, flags
));
7797 stmts_are_full_exprs_p
= saved_stmts_are_full_exprs_p
;
7800 /* Set this to 0 so we can tell whether an aggregate which was
7801 initialized was ever used. Don't do this if it has a
7802 destructor, so we don't complain about the 'resource
7803 allocation is initialization' idiom. Now set
7804 attribute((unused)) on types so decls of that type will be
7805 marked used. (see TREE_USED, above.) */
7806 if (TYPE_NEEDS_CONSTRUCTING (type
)
7808 && TYPE_HAS_TRIVIAL_DESTRUCTOR (type
)
7809 && DECL_NAME (decl
))
7810 TREE_USED (decl
) = 0;
7811 else if (already_used
)
7812 TREE_USED (decl
) = 1;
7816 /* Generate code to destroy DECL (a local variable). */
7819 destroy_local_var (decl
)
7822 tree type
= TREE_TYPE (decl
);
7825 /* Only variables get cleaned up. */
7826 if (TREE_CODE (decl
) != VAR_DECL
)
7829 /* And only things with destructors need cleaning up. */
7830 if (TYPE_HAS_TRIVIAL_DESTRUCTOR (type
))
7833 if (TREE_CODE (decl
) == VAR_DECL
&&
7834 (DECL_EXTERNAL (decl
) || TREE_STATIC (decl
)))
7835 /* We don't clean up things that aren't defined in this
7836 translation unit, or that need a static cleanup. The latter
7837 are handled by finish_file. */
7840 /* Compute the cleanup. */
7841 cleanup
= maybe_build_cleanup (decl
);
7843 /* Record the cleanup required for this declaration. */
7844 if (DECL_SIZE (decl
) && TREE_TYPE (decl
) != error_mark_node
7846 finish_decl_cleanup (decl
, cleanup
);
7849 /* Let the back-end know about DECL. */
7852 emit_local_var (decl
)
7855 /* Create RTL for this variable. */
7856 if (DECL_RTL (decl
))
7857 /* Only a RESULT_DECL should have non-NULL RTL when arriving here.
7858 All other local variables are assigned RTL in this function. */
7859 my_friendly_assert (TREE_CODE (decl
) == RESULT_DECL
,
7863 if (DECL_ASSEMBLER_NAME (decl
) != DECL_NAME (decl
))
7864 /* The user must have specified an assembler name for this
7865 variable. Set that up now. */
7866 rest_of_decl_compilation
7867 (decl
, IDENTIFIER_POINTER (DECL_ASSEMBLER_NAME (decl
)),
7868 /*top_level=*/0, /*at_end=*/0);
7873 /* Actually do the initialization. */
7874 expand_start_target_temps ();
7875 expand_decl_init (decl
);
7876 expand_end_target_temps ();
7879 /* Finish processing of a declaration;
7880 install its line number and initial value.
7881 If the length of an array type is not known before,
7882 it must be determined now, from the initial value, or it is an error.
7884 INIT0 holds the value of an initializer that should be allowed to escape
7887 FLAGS is LOOKUP_ONLYCONVERTING if the = init syntax was used, else 0
7888 if the (init) syntax was used. */
7891 cp_finish_decl (decl
, init
, asmspec_tree
, flags
)
7897 tree ttype
= NULL_TREE
;
7898 const char *asmspec
= NULL
;
7899 int was_readonly
= 0;
7904 error ("assignment (not initialization) in declaration");
7908 /* If a name was specified, get the string. */
7910 asmspec
= TREE_STRING_POINTER (asmspec_tree
);
7912 if (init
&& TREE_CODE (init
) == NAMESPACE_DECL
)
7914 cp_error ("cannot initialize `%D' to namespace `%D'",
7919 if (current_class_type
7920 && CP_DECL_CONTEXT (decl
) == current_class_type
7921 && TYPE_BEING_DEFINED (current_class_type
)
7922 && (DECL_INITIAL (decl
) || init
))
7923 DECL_DEFINED_IN_CLASS_P (decl
) = 1;
7925 if (TREE_CODE (decl
) == VAR_DECL
7926 && DECL_CONTEXT (decl
)
7927 && TREE_CODE (DECL_CONTEXT (decl
)) == NAMESPACE_DECL
7928 && DECL_CONTEXT (decl
) != current_namespace
7931 /* Leave the namespace of the object. */
7932 pop_decl_namespace ();
7935 type
= TREE_TYPE (decl
);
7937 if (type
== error_mark_node
)
7940 /* Add this declaration to the statement-tree. */
7941 if (building_stmt_tree () && at_function_scope_p ())
7942 add_decl_stmt (decl
);
7944 if (TYPE_HAS_MUTABLE_P (type
))
7945 TREE_READONLY (decl
) = 0;
7947 if (processing_template_decl
)
7949 if (init
&& DECL_INITIAL (decl
))
7950 DECL_INITIAL (decl
) = init
;
7954 /* Parameters are handled by store_parm_decls, not cp_finish_decl. */
7955 my_friendly_assert (TREE_CODE (decl
) != PARM_DECL
, 19990828);
7957 /* Take care of TYPE_DECLs up front. */
7958 if (TREE_CODE (decl
) == TYPE_DECL
)
7960 if (init
&& DECL_INITIAL (decl
))
7962 /* typedef foo = bar; store the type of bar as the type of foo. */
7963 TREE_TYPE (decl
) = type
= TREE_TYPE (init
);
7964 DECL_INITIAL (decl
) = init
= NULL_TREE
;
7966 if (type
!= error_mark_node
7967 && IS_AGGR_TYPE (type
) && DECL_NAME (decl
))
7969 if (TREE_TYPE (DECL_NAME (decl
)) && TREE_TYPE (decl
) != type
)
7970 cp_warning ("shadowing previous type declaration of `%#D'", decl
);
7971 set_identifier_type_value (DECL_NAME (decl
), type
);
7972 CLASSTYPE_GOT_SEMICOLON (type
) = 1;
7974 GNU_xref_decl (current_function_decl
, decl
);
7976 /* If we have installed this as the canonical typedef for this
7977 type, and that type has not been defined yet, delay emitting
7978 the debug information for it, as we will emit it later. */
7979 if (TYPE_MAIN_DECL (TREE_TYPE (decl
)) == decl
7980 && !COMPLETE_TYPE_P (TREE_TYPE (decl
)))
7981 TYPE_DECL_SUPPRESS_DEBUG (decl
) = 1;
7983 rest_of_decl_compilation (decl
, NULL_PTR
,
7984 DECL_CONTEXT (decl
) == NULL_TREE
, at_eof
);
7988 if (TREE_CODE (decl
) != FUNCTION_DECL
)
7989 ttype
= target_type (type
);
7991 if (! DECL_EXTERNAL (decl
) && TREE_READONLY (decl
)
7992 && TYPE_NEEDS_CONSTRUCTING (type
))
7994 /* Currently, GNU C++ puts constants in text space, making them
7995 impossible to initialize. In the future, one would hope for
7996 an operating system which understood the difference between
7997 initialization and the running of a program. */
7999 TREE_READONLY (decl
) = 0;
8002 if (TREE_CODE (decl
) == FIELD_DECL
&& asmspec
)
8004 /* This must override the asm specifier which was placed by
8005 grokclassfn. Lay this out fresh. */
8006 DECL_RTL (TREE_TYPE (decl
)) = NULL_RTX
;
8007 DECL_ASSEMBLER_NAME (decl
) = get_identifier (asmspec
);
8008 make_decl_rtl (decl
, asmspec
, 0);
8011 /* Deduce size of array from initialization, if not already known. */
8012 maybe_deduce_size_from_array_init (decl
, init
);
8013 init
= check_initializer (decl
, init
);
8015 GNU_xref_decl (current_function_decl
, decl
);
8017 if (TREE_CODE (decl
) == VAR_DECL
)
8018 layout_var_decl (decl
);
8020 /* Output the assembler code and/or RTL code for variables and functions,
8021 unless the type is an undefined structure or union.
8022 If not, it will get done when the type is completed. */
8023 if (TREE_CODE (decl
) == VAR_DECL
|| TREE_CODE (decl
) == FUNCTION_DECL
8024 || TREE_CODE (decl
) == RESULT_DECL
)
8026 if (TREE_CODE (decl
) == VAR_DECL
)
8027 maybe_commonize_var (decl
);
8029 make_rtl_for_nonlocal_decl (decl
, init
, asmspec
);
8031 if (TREE_CODE (type
) == FUNCTION_TYPE
8032 || TREE_CODE (type
) == METHOD_TYPE
)
8033 abstract_virtuals_error (decl
,
8034 strip_array_types (TREE_TYPE (type
)));
8036 abstract_virtuals_error (decl
, strip_array_types (type
));
8038 if (TREE_CODE (decl
) == FUNCTION_DECL
)
8040 else if (DECL_EXTERNAL (decl
)
8041 && ! (DECL_LANG_SPECIFIC (decl
)
8042 && DECL_NOT_REALLY_EXTERN (decl
)))
8045 DECL_INITIAL (decl
) = init
;
8047 else if (TREE_CODE (CP_DECL_CONTEXT (decl
)) == FUNCTION_DECL
)
8049 /* This is a local declaration. */
8050 if (doing_semantic_analysis_p ())
8051 maybe_inject_for_scope_var (decl
);
8052 /* Initialize the local variable. But, if we're building a
8053 statement-tree, we'll do the initialization when we
8055 if (processing_template_decl
)
8057 if (init
|| DECL_INITIAL (decl
) == error_mark_node
)
8058 DECL_INITIAL (decl
) = init
;
8062 /* If we're not building RTL, then we need to do so
8064 if (!building_stmt_tree ())
8065 emit_local_var (decl
);
8066 /* Initialize the variable. */
8067 initialize_local_var (decl
, init
, flags
);
8068 /* Clean up the variable. */
8069 destroy_local_var (decl
);
8072 else if (TREE_STATIC (decl
) && type
!= error_mark_node
)
8074 /* Cleanups for static variables are handled by `finish_file'. */
8075 if (TYPE_NEEDS_CONSTRUCTING (type
) || init
!= NULL_TREE
8076 || TYPE_HAS_NONTRIVIAL_DESTRUCTOR (type
))
8077 expand_static_init (decl
, init
);
8081 /* Undo call to `pushclass' that was done in `start_decl'
8082 due to initialization of qualified member variable.
8083 I.e., Foo::x = 10; */
8085 tree context
= CP_DECL_CONTEXT (decl
);
8088 && (TREE_CODE (decl
) == VAR_DECL
8089 /* We also have a pushclass done that we need to undo here
8090 if we're at top level and declare a method. */
8091 || TREE_CODE (decl
) == FUNCTION_DECL
)
8092 /* If size hasn't been set, we're still defining it,
8093 and therefore inside the class body; don't pop
8094 the binding level.. */
8095 && COMPLETE_TYPE_P (context
)
8096 && context
== current_class_type
)
8097 pop_nested_class ();
8104 TREE_READONLY (decl
) = 1;
8107 /* This is here for a midend callback from c-common.c */
8110 finish_decl (decl
, init
, asmspec_tree
)
8114 cp_finish_decl (decl
, init
, asmspec_tree
, 0);
8117 /* Returns a declaration for a VAR_DECL as if:
8119 extern "C" TYPE NAME;
8121 had been seen. Used to create compiler-generated global
8125 declare_global_var (name
, type
)
8131 push_to_top_level ();
8132 decl
= build_decl (VAR_DECL
, name
, type
);
8133 TREE_PUBLIC (decl
) = 1;
8134 DECL_EXTERNAL (decl
) = 1;
8135 DECL_ARTIFICIAL (decl
) = 1;
8137 cp_finish_decl (decl
, NULL_TREE
, NULL_TREE
, 0);
8138 pop_from_top_level ();
8143 /* Returns a pointer to the `atexit' function. Note that if
8144 FLAG_USE_CXA_ATEXIT is non-zero, then this will actually be the new
8145 `__cxa_atexit' function specified in the IA64 C++ ABI. */
8159 if (flag_use_cxa_atexit
)
8161 /* The declaration for `__cxa_atexit' is:
8163 int __cxa_atexit (void (*)(void *), void *, void *)
8165 We build up the argument types and then then function type
8168 /* First, build the pointer-to-function type for the first
8170 arg_types
= tree_cons (NULL_TREE
, ptr_type_node
, void_list_node
);
8171 fn_type
= build_function_type (void_type_node
, arg_types
);
8172 fn_ptr_type
= build_pointer_type (fn_type
);
8173 /* Then, build the rest of the argument types. */
8174 arg_types
= tree_cons (NULL_TREE
, ptr_type_node
, void_list_node
);
8175 arg_types
= tree_cons (NULL_TREE
, ptr_type_node
, arg_types
);
8176 arg_types
= tree_cons (NULL_TREE
, fn_ptr_type
, arg_types
);
8177 /* And the final __cxa_atexit type. */
8178 fn_type
= build_function_type (integer_type_node
, arg_types
);
8179 fn_ptr_type
= build_pointer_type (fn_type
);
8180 name
= "__cxa_atexit";
8184 /* The declaration for `atexit' is:
8186 int atexit (void (*)());
8188 We build up the argument types and then then function type
8190 fn_type
= build_function_type (void_type_node
, void_list_node
);
8191 fn_ptr_type
= build_pointer_type (fn_type
);
8192 arg_types
= tree_cons (NULL_TREE
, fn_ptr_type
, void_list_node
);
8193 /* Build the final atexit type. */
8194 fn_type
= build_function_type (integer_type_node
, arg_types
);
8198 /* Now, build the function declaration. */
8199 push_lang_context (lang_name_c
);
8200 atexit_fndecl
= build_library_fn_ptr (name
, fn_type
);
8201 mark_used (atexit_fndecl
);
8202 pop_lang_context ();
8203 atexit_node
= default_conversion (atexit_fndecl
);
8208 /* Returns the __dso_handle VAR_DECL. */
8211 get_dso_handle_node ()
8213 if (dso_handle_node
)
8214 return dso_handle_node
;
8216 /* Declare the variable. */
8217 dso_handle_node
= declare_global_var (get_identifier ("__dso_handle"),
8220 return dso_handle_node
;
8223 /* Begin a new function with internal linkage whose job will be simply
8224 to destroy some particular variable. */
8229 static int counter
= 0;
8230 int old_interface_unknown
= interface_unknown
;
8236 push_to_top_level ();
8238 /* No need to mangle this. */
8239 push_lang_context (lang_name_c
);
8241 interface_unknown
= 1;
8243 /* Build the parameter-types. */
8244 parmtypes
= void_list_node
;
8245 /* Functions passed to __cxa_atexit take an additional parameter.
8246 We'll just ignore it. After we implement the new calling
8247 convention for destructors, we can eliminate the use of
8248 additional cleanup functions entirely in the -fnew-abi case. */
8249 if (flag_use_cxa_atexit
)
8250 parmtypes
= tree_cons (NULL_TREE
, ptr_type_node
, parmtypes
);
8251 /* Build the function type itself. */
8252 fntype
= build_function_type (void_type_node
, parmtypes
);
8253 /* Build the name of the function. */
8254 sprintf (name
, "__tcf_%d", counter
++);
8255 /* Build the function declaration. */
8256 fndecl
= build_lang_decl (FUNCTION_DECL
, get_identifier (name
), fntype
);
8257 /* It's a function with internal linkage, generated by the
8259 TREE_PUBLIC (fndecl
) = 0;
8260 DECL_ARTIFICIAL (fndecl
) = 1;
8261 /* Build the parameter. */
8262 if (flag_use_cxa_atexit
)
8266 parmdecl
= build_decl (PARM_DECL
, NULL_TREE
, ptr_type_node
);
8267 DECL_CONTEXT (parmdecl
) = fndecl
;
8268 DECL_ARG_TYPE (parmdecl
) = ptr_type_node
;
8269 TREE_USED (parmdecl
) = 1;
8270 DECL_ARGUMENTS (fndecl
) = parmdecl
;
8274 start_function (/*specs=*/NULL_TREE
, fndecl
, NULL_TREE
, SF_PRE_PARSED
);
8277 interface_unknown
= old_interface_unknown
;
8279 pop_lang_context ();
8281 return current_function_decl
;
8284 /* Finish the cleanup function begun by start_cleanup_fn. */
8291 expand_body (finish_function (0));
8293 pop_from_top_level ();
8296 /* Generate code to handle the destruction of DECL, an object with
8297 static storage duration. */
8300 register_dtor_fn (decl
)
8308 int saved_flag_access_control
;
8310 if (TYPE_HAS_TRIVIAL_DESTRUCTOR (TREE_TYPE (decl
)))
8313 /* Call build_cleanup before we enter the anonymous function so that
8314 any access checks will be done relative to the current scope,
8315 rather than the scope of the anonymous function. */
8316 build_cleanup (decl
);
8318 /* Now start the function. */
8319 cleanup
= start_cleanup_fn ();
8321 /* Now, recompute the cleanup. It may contain SAVE_EXPRs that refer
8322 to the original function, rather than the anonymous one. That
8323 will make the back-end think that nested functions are in use,
8324 which causes confusion. */
8325 saved_flag_access_control
= flag_access_control
;
8326 flag_access_control
= 0;
8327 fcall
= build_cleanup (decl
);
8328 flag_access_control
= saved_flag_access_control
;
8330 /* Create the body of the anonymous function. */
8331 compound_stmt
= begin_compound_stmt (/*has_no_scope=*/0);
8332 finish_expr_stmt (fcall
);
8333 finish_compound_stmt (/*has_no_scope=*/0, compound_stmt
);
8336 /* Call atexit with the cleanup function. */
8337 mark_addressable (cleanup
);
8338 cleanup
= build_unary_op (ADDR_EXPR
, cleanup
, 0);
8339 if (flag_use_cxa_atexit
)
8341 args
= tree_cons (NULL_TREE
, get_dso_handle_node (), NULL_TREE
);
8342 args
= tree_cons (NULL_TREE
, null_pointer_node
, args
);
8343 args
= tree_cons (NULL_TREE
, cleanup
, args
);
8346 args
= tree_cons (NULL_TREE
, cleanup
, NULL_TREE
);
8347 finish_expr_stmt (build_function_call (get_atexit_node (), args
));
8351 expand_static_init (decl
, init
)
8355 tree oldstatic
= value_member (decl
, static_aggregates
);
8359 if (TREE_PURPOSE (oldstatic
) && init
!= NULL_TREE
)
8360 cp_error ("multiple initializations given for `%D'", decl
);
8362 else if (! toplevel_bindings_p ())
8364 /* Emit code to perform this initialization but once. */
8371 /* Emit code to perform this initialization but once. This code
8374 static int temp = 0;
8376 // Do initialization.
8378 // Register variable for destruction at end of program.
8381 Note that the `temp' variable is only set to 1 *after* the
8382 initialization is complete. This ensures that an exception,
8383 thrown during the construction, will cause the variable to
8384 reinitialized when we pass through this code again, as per:
8388 If the initialization exits by throwing an exception, the
8389 initialization is not complete, so it will be tried again
8390 the next time control enters the declaration.
8392 In theory, this process should be thread-safe, too; multiple
8393 threads should not be able to initialize the variable more
8394 than once. We don't yet attempt to ensure thread-safety. */
8395 temp
= get_temp_name (integer_type_node
, 1);
8396 rest_of_decl_compilation (temp
, NULL_PTR
, 0, 0);
8398 /* Begin the conditional initialization. */
8399 if_stmt
= begin_if_stmt ();
8400 finish_if_stmt_cond (build_binary_op (EQ_EXPR
, temp
,
8403 then_clause
= begin_compound_stmt (/*has_no_scope=*/0);
8405 /* Do the initialization itself. */
8406 if (TYPE_NEEDS_CONSTRUCTING (TREE_TYPE (decl
))
8407 || (init
&& TREE_CODE (init
) == TREE_LIST
))
8408 assignment
= build_aggr_init (decl
, init
, 0);
8410 /* The initialization we're doing here is just a bitwise
8412 assignment
= build (INIT_EXPR
, TREE_TYPE (decl
), decl
, init
);
8414 assignment
= NULL_TREE
;
8416 /* Once the assignment is complete, set TEMP to 1. Since the
8417 construction of the static object is complete at this point,
8418 we want to make sure TEMP is set to 1 even if a temporary
8419 constructed during the initialization throws an exception
8420 when it is destroyed. So, we combine the initialization and
8421 the assignment to TEMP into a single expression, ensuring
8422 that when we call finish_expr_stmt the cleanups will not be
8423 run until after TEMP is set to 1. */
8424 temp_init
= build_modify_expr (temp
, NOP_EXPR
, integer_one_node
);
8427 assignment
= tree_cons (NULL_TREE
, assignment
,
8428 build_tree_list (NULL_TREE
,
8430 assignment
= build_compound_expr (assignment
);
8433 assignment
= temp_init
;
8434 finish_expr_stmt (assignment
);
8436 /* Use atexit to register a function for destroying this static
8438 register_dtor_fn (decl
);
8440 finish_compound_stmt (/*has_no_scope=*/0, then_clause
);
8441 finish_then_clause (if_stmt
);
8445 static_aggregates
= tree_cons (init
, decl
, static_aggregates
);
8448 /* Finish the declaration of a catch-parameter. */
8451 start_handler_parms (declspecs
, declarator
)
8458 decl
= grokdeclarator (declarator
, declspecs
, CATCHPARM
,
8460 if (decl
== NULL_TREE
)
8461 error ("invalid catch parameter");
8470 /* Make TYPE a complete type based on INITIAL_VALUE.
8471 Return 0 if successful, 1 if INITIAL_VALUE can't be deciphered,
8472 2 if there was no information (in which case assume 0 if DO_DEFAULT). */
8475 complete_array_type (type
, initial_value
, do_default
)
8476 tree type
, initial_value
;
8479 register tree maxindex
= NULL_TREE
;
8484 /* Note MAXINDEX is really the maximum index,
8485 one less than the size. */
8486 if (TREE_CODE (initial_value
) == STRING_CST
)
8489 = int_size_in_bytes (TREE_TYPE (TREE_TYPE (initial_value
)));
8490 maxindex
= build_int_2 ((TREE_STRING_LENGTH (initial_value
)
8493 else if (TREE_CODE (initial_value
) == CONSTRUCTOR
)
8495 tree elts
= CONSTRUCTOR_ELTS (initial_value
);
8497 maxindex
= ssize_int (-1);
8498 for (; elts
; elts
= TREE_CHAIN (elts
))
8500 if (TREE_PURPOSE (elts
))
8501 maxindex
= TREE_PURPOSE (elts
);
8503 maxindex
= size_binop (PLUS_EXPR
, maxindex
, ssize_int (1));
8505 maxindex
= copy_node (maxindex
);
8509 /* Make an error message unless that happened already. */
8510 if (initial_value
!= error_mark_node
)
8513 initial_value
= NULL_TREE
;
8515 /* Prevent further error messages. */
8516 maxindex
= build_int_2 (0, 0);
8523 maxindex
= build_int_2 (0, 0);
8532 domain
= build_index_type (maxindex
);
8533 TYPE_DOMAIN (type
) = domain
;
8535 if (! TREE_TYPE (maxindex
))
8536 TREE_TYPE (maxindex
) = domain
;
8538 itype
= TREE_TYPE (initial_value
);
8541 if (itype
&& !TYPE_DOMAIN (itype
))
8542 TYPE_DOMAIN (itype
) = domain
;
8543 /* The type of the main variant should never be used for arrays
8544 of different sizes. It should only ever be completed with the
8545 size of the array. */
8546 if (! TYPE_DOMAIN (TYPE_MAIN_VARIANT (type
)))
8547 TYPE_DOMAIN (TYPE_MAIN_VARIANT (type
)) = domain
;
8550 /* Lay out the type now that we can get the real answer. */
8557 /* Return zero if something is declared to be a member of type
8558 CTYPE when in the context of CUR_TYPE. STRING is the error
8559 message to print in that case. Otherwise, quietly return 1. */
8562 member_function_or_else (ctype
, cur_type
, flags
)
8563 tree ctype
, cur_type
;
8564 enum overload_flags flags
;
8566 if (ctype
&& ctype
!= cur_type
)
8568 if (flags
== DTOR_FLAG
)
8569 error ("destructor for alien class `%s' cannot be a member",
8570 TYPE_NAME_STRING (ctype
));
8572 error ("constructor for alien class `%s' cannot be a member",
8573 TYPE_NAME_STRING (ctype
));
8579 /* Subroutine of `grokdeclarator'. */
8581 /* Generate errors possibly applicable for a given set of specifiers.
8582 This is for ARM $7.1.2. */
8585 bad_specifiers (object
, type
, virtualp
, quals
, inlinep
, friendp
, raises
)
8588 int virtualp
, quals
, friendp
, raises
, inlinep
;
8591 cp_error ("`%D' declared as a `virtual' %s", object
, type
);
8593 cp_error ("`%D' declared as an `inline' %s", object
, type
);
8595 cp_error ("`const' and `volatile' function specifiers on `%D' invalid in %s declaration",
8598 cp_error_at ("`%D' declared as a friend", object
);
8600 cp_error_at ("`%D' declared with an exception specification", object
);
8603 /* CTYPE is class type, or null if non-class.
8604 TYPE is type this FUNCTION_DECL should have, either FUNCTION_TYPE
8606 DECLARATOR is the function's name.
8607 VIRTUALP is truthvalue of whether the function is virtual or not.
8608 FLAGS are to be passed through to `grokclassfn'.
8609 QUALS are qualifiers indicating whether the function is `const'
8611 RAISES is a list of exceptions that this function can raise.
8612 CHECK is 1 if we must find this method in CTYPE, 0 if we should
8613 not look, and -1 if we should not call `grokclassfn' at all.
8615 Returns `NULL_TREE' if something goes wrong, after issuing
8616 applicable error messages. */
8619 grokfndecl (ctype
, type
, declarator
, orig_declarator
, virtualp
, flags
, quals
,
8620 raises
, check
, friendp
, publicp
, inlinep
, funcdef_flag
,
8621 template_count
, in_namespace
)
8624 tree orig_declarator
;
8626 enum overload_flags flags
;
8628 int check
, friendp
, publicp
, inlinep
, funcdef_flag
, template_count
;
8632 int staticp
= ctype
&& TREE_CODE (type
) == FUNCTION_TYPE
;
8633 int has_default_arg
= 0;
8637 cname
= TREE_CODE (TYPE_NAME (ctype
)) == TYPE_DECL
8638 ? TYPE_IDENTIFIER (ctype
) : TYPE_NAME (ctype
);
8644 type
= build_exception_variant (type
, raises
);
8647 decl
= build_lang_decl (FUNCTION_DECL
, declarator
, type
);
8648 /* Propagate volatile out from type to decl. */
8649 if (TYPE_VOLATILE (type
))
8650 TREE_THIS_VOLATILE (decl
) = 1;
8652 /* If this decl has namespace scope, set that up. */
8654 set_decl_namespace (decl
, in_namespace
, friendp
);
8655 else if (publicp
&& ! ctype
)
8656 DECL_CONTEXT (decl
) = FROB_CONTEXT (current_namespace
);
8658 /* `main' and builtins have implicit 'C' linkage. */
8659 if ((MAIN_NAME_P (declarator
)
8660 || (IDENTIFIER_LENGTH (declarator
) > 10
8661 && IDENTIFIER_POINTER (declarator
)[0] == '_'
8662 && IDENTIFIER_POINTER (declarator
)[1] == '_'
8663 && strncmp (IDENTIFIER_POINTER (declarator
)+2, "builtin_", 8) == 0))
8664 && current_lang_name
== lang_name_cplusplus
8665 && ctype
== NULL_TREE
8666 /* NULL_TREE means global namespace. */
8667 && DECL_CONTEXT (decl
) == NULL_TREE
)
8668 DECL_LANGUAGE (decl
) = lang_c
;
8670 /* Should probably propagate const out from type to decl I bet (mrs). */
8673 DECL_STATIC_FUNCTION_P (decl
) = 1;
8674 DECL_CONTEXT (decl
) = ctype
;
8678 DECL_CONTEXT (decl
) = ctype
;
8680 if (ctype
== NULL_TREE
&& DECL_MAIN_P (decl
))
8682 if (processing_template_decl
)
8683 error ("cannot declare `::main' to be a template");
8685 error ("cannot declare `::main' to be inline");
8687 error ("cannot declare `::main' to be static");
8692 /* Members of anonymous types and local classes have no linkage; make
8694 if (ctype
&& (ANON_AGGRNAME_P (TYPE_IDENTIFIER (ctype
))
8695 || decl_function_context (TYPE_MAIN_DECL (ctype
))))
8700 /* [basic.link]: A name with no linkage (notably, the name of a class
8701 or enumeration declared in a local scope) shall not be used to
8702 declare an entity with linkage.
8704 Only check this for public decls for now. */
8705 t
= no_linkage_check (TREE_TYPE (decl
));
8708 if (ANON_AGGRNAME_P (TYPE_IDENTIFIER (t
)))
8710 if (DECL_LANGUAGE (decl
) == lang_c
)
8711 /* Allow this; it's pretty common in C. */;
8713 cp_pedwarn ("non-local function `%#D' uses anonymous type",
8717 cp_pedwarn ("non-local function `%#D' uses local type `%T'",
8722 TREE_PUBLIC (decl
) = publicp
;
8725 DECL_INTERFACE_KNOWN (decl
) = 1;
8726 DECL_NOT_REALLY_EXTERN (decl
) = 1;
8730 DECL_THIS_INLINE (decl
) = DECL_INLINE (decl
) = 1;
8732 DECL_EXTERNAL (decl
) = 1;
8733 if (quals
!= NULL_TREE
&& TREE_CODE (type
) == FUNCTION_TYPE
)
8735 cp_error ("%smember function `%D' cannot have `%T' method qualifier",
8736 (ctype
? "static " : "non-"), decl
, TREE_VALUE (quals
));
8740 if (IDENTIFIER_OPNAME_P (DECL_NAME (decl
)))
8741 grok_op_properties (decl
, virtualp
, check
< 0);
8743 if (ctype
&& decl_function_context (decl
))
8744 DECL_NO_STATIC_CHAIN (decl
) = 1;
8746 for (t
= TYPE_ARG_TYPES (TREE_TYPE (decl
)); t
; t
= TREE_CHAIN (t
))
8747 if (TREE_PURPOSE (t
)
8748 && TREE_CODE (TREE_PURPOSE (t
)) == DEFAULT_ARG
)
8750 has_default_arg
= 1;
8755 && TREE_CODE (orig_declarator
) == TEMPLATE_ID_EXPR
)
8759 ("defining explicit specialization `%D' in friend declaration",
8763 if (PROCESSING_REAL_TEMPLATE_DECL_P ())
8765 /* Something like `template <class T> friend void f<T>()'. */
8766 cp_error ("invalid use of template-id `%D' in declaration of primary template",
8772 /* A friend declaration of the form friend void f<>(). Record
8773 the information in the TEMPLATE_ID_EXPR. */
8774 SET_DECL_IMPLICIT_INSTANTIATION (decl
);
8775 DECL_TEMPLATE_INFO (decl
)
8776 = tree_cons (TREE_OPERAND (orig_declarator
, 0),
8777 TREE_OPERAND (orig_declarator
, 1),
8780 if (has_default_arg
)
8782 cp_error ("default arguments are not allowed in declaration of friend template specialization `%D'",
8789 cp_error ("`inline' is not allowed in declaration of friend template specialization `%D'",
8796 if (has_default_arg
)
8797 add_defarg_fn (decl
);
8799 /* Plain overloading: will not be grok'd by grokclassfn. */
8800 if (! ctype
&& ! processing_template_decl
8801 && DECL_LANGUAGE (decl
) != lang_c
8802 && (! DECL_USE_TEMPLATE (decl
) || name_mangling_version
< 1))
8803 set_mangled_name_for_decl (decl
);
8806 /* Make the init_value nonzero so pushdecl knows this is not
8807 tentative. error_mark_node is replaced later with the BLOCK. */
8808 DECL_INITIAL (decl
) = error_mark_node
;
8810 if (TYPE_NOTHROW_P (type
) || nothrow_libfn_p (decl
))
8811 TREE_NOTHROW (decl
) = 1;
8813 /* Caller will do the rest of this. */
8817 if (flags
== NO_SPECIAL
&& ctype
&& constructor_name (cname
) == declarator
)
8818 DECL_CONSTRUCTOR_P (decl
) = 1;
8820 /* Function gets the ugly name, field gets the nice one. This call
8821 may change the type of the function (because of default
8823 if (ctype
!= NULL_TREE
)
8824 grokclassfn (ctype
, decl
, flags
, quals
);
8826 decl
= check_explicit_specialization (orig_declarator
, decl
,
8828 2 * (funcdef_flag
!= 0) +
8829 4 * (friendp
!= 0));
8830 if (decl
== error_mark_node
)
8833 if (ctype
!= NULL_TREE
8834 && (! TYPE_FOR_JAVA (ctype
) || check_java_method (decl
))
8839 old_decl
= check_classfn (ctype
, decl
);
8841 if (old_decl
&& TREE_CODE (old_decl
) == TEMPLATE_DECL
)
8842 /* Because grokfndecl is always supposed to return a
8843 FUNCTION_DECL, we pull out the DECL_TEMPLATE_RESULT
8844 here. We depend on our callers to figure out that its
8845 really a template that's being returned. */
8846 old_decl
= DECL_TEMPLATE_RESULT (old_decl
);
8848 if (old_decl
&& DECL_STATIC_FUNCTION_P (old_decl
)
8849 && TREE_CODE (TREE_TYPE (decl
)) == METHOD_TYPE
)
8851 /* Remove the `this' parm added by grokclassfn.
8852 XXX Isn't this done in start_function, too? */
8853 revert_static_member_fn (decl
);
8854 last_function_parms
= TREE_CHAIN (last_function_parms
);
8856 if (old_decl
&& DECL_ARTIFICIAL (old_decl
))
8857 cp_error ("definition of implicitly-declared `%D'", old_decl
);
8861 /* Since we've smashed OLD_DECL to its
8862 DECL_TEMPLATE_RESULT, we must do the same to DECL. */
8863 if (TREE_CODE (decl
) == TEMPLATE_DECL
)
8864 decl
= DECL_TEMPLATE_RESULT (decl
);
8866 /* Attempt to merge the declarations. This can fail, in
8867 the case of some illegal specialization declarations. */
8868 if (!duplicate_decls (decl
, old_decl
))
8869 cp_error ("no `%#D' member function declared in class `%T'",
8875 if (DECL_CONSTRUCTOR_P (decl
) && !grok_ctor_properties (ctype
, decl
))
8878 if (ctype
== NULL_TREE
|| check
)
8883 DECL_VIRTUAL_P (decl
) = 1;
8884 if (DECL_VINDEX (decl
) == NULL_TREE
)
8885 DECL_VINDEX (decl
) = error_mark_node
;
8886 IDENTIFIER_VIRTUAL_P (DECL_NAME (decl
)) = 1;
8893 grokvardecl (type
, declarator
, specbits_in
, initialized
, constp
, in_namespace
)
8896 RID_BIT_TYPE
*specbits_in
;
8902 RID_BIT_TYPE specbits
;
8904 specbits
= *specbits_in
;
8906 if (TREE_CODE (type
) == OFFSET_TYPE
)
8908 /* If you declare a static member so that it
8909 can be initialized, the code will reach here. */
8910 tree basetype
= TYPE_OFFSET_BASETYPE (type
);
8911 type
= TREE_TYPE (type
);
8912 decl
= build_lang_decl (VAR_DECL
, declarator
, type
);
8913 DECL_CONTEXT (decl
) = basetype
;
8914 DECL_ASSEMBLER_NAME (decl
) = build_static_name (basetype
, declarator
);
8921 context
= in_namespace
;
8922 else if (namespace_bindings_p () || RIDBIT_SETP (RID_EXTERN
, specbits
))
8923 context
= current_namespace
;
8925 context
= NULL_TREE
;
8927 if (processing_template_decl
&& context
)
8928 /* For global variables, declared in a template, we need the
8930 decl
= build_lang_decl (VAR_DECL
, declarator
, type
);
8932 decl
= build_decl (VAR_DECL
, declarator
, type
);
8935 set_decl_namespace (decl
, context
, 0);
8937 context
= DECL_CONTEXT (decl
);
8938 if (declarator
&& context
&& current_lang_name
!= lang_name_c
)
8939 DECL_ASSEMBLER_NAME (decl
) = build_static_name (context
, declarator
);
8943 set_decl_namespace (decl
, in_namespace
, 0);
8945 if (RIDBIT_SETP (RID_EXTERN
, specbits
))
8947 DECL_THIS_EXTERN (decl
) = 1;
8948 DECL_EXTERNAL (decl
) = !initialized
;
8951 /* In class context, static means one per class,
8952 public access, and static storage. */
8953 if (DECL_CLASS_SCOPE_P (decl
))
8955 TREE_PUBLIC (decl
) = 1;
8956 TREE_STATIC (decl
) = 1;
8957 DECL_EXTERNAL (decl
) = 0;
8959 /* At top level, either `static' or no s.c. makes a definition
8960 (perhaps tentative), and absence of `static' makes it public. */
8961 else if (toplevel_bindings_p ())
8963 TREE_PUBLIC (decl
) = (RIDBIT_NOTSETP (RID_STATIC
, specbits
)
8964 && (DECL_THIS_EXTERN (decl
) || ! constp
));
8965 TREE_STATIC (decl
) = ! DECL_EXTERNAL (decl
);
8967 /* Not at top level, only `static' makes a static definition. */
8970 TREE_STATIC (decl
) = !! RIDBIT_SETP (RID_STATIC
, specbits
);
8971 TREE_PUBLIC (decl
) = DECL_EXTERNAL (decl
);
8974 if (TREE_PUBLIC (decl
))
8976 /* [basic.link]: A name with no linkage (notably, the name of a class
8977 or enumeration declared in a local scope) shall not be used to
8978 declare an entity with linkage.
8980 Only check this for public decls for now. */
8981 tree t
= no_linkage_check (TREE_TYPE (decl
));
8984 if (ANON_AGGRNAME_P (TYPE_IDENTIFIER (t
)))
8985 /* Ignore for now; `enum { foo } e' is pretty common. */;
8987 cp_pedwarn ("non-local variable `%#D' uses local type `%T'",
8995 /* Create and return a canonical pointer to member function type, for
8996 TYPE, which is a POINTER_TYPE to a METHOD_TYPE. */
8999 build_ptrmemfunc_type (type
)
9005 tree unqualified_variant
= NULL_TREE
;
9007 /* If a canonical type already exists for this type, use it. We use
9008 this method instead of type_hash_canon, because it only does a
9009 simple equality check on the list of field members. */
9011 if ((t
= TYPE_GET_PTRMEMFUNC_TYPE (type
)))
9014 /* Make sure that we always have the unqualified pointer-to-member
9016 if (CP_TYPE_QUALS (type
) != TYPE_UNQUALIFIED
)
9018 = build_ptrmemfunc_type (TYPE_MAIN_VARIANT (type
));
9020 t
= make_aggr_type (RECORD_TYPE
);
9021 /* Let the front-end know this is a pointer to member function... */
9022 TYPE_PTRMEMFUNC_FLAG (t
) = 1;
9023 /* ... and not really an aggregate. */
9024 SET_IS_AGGR_TYPE (t
, 0);
9028 u
= make_aggr_type (UNION_TYPE
);
9029 SET_IS_AGGR_TYPE (u
, 0);
9030 fields
[0] = build_lang_decl (FIELD_DECL
, pfn_identifier
, type
);
9031 fields
[1] = build_lang_decl (FIELD_DECL
, delta2_identifier
,
9033 finish_builtin_type (u
, "__ptrmemfunc_type", fields
, 1, ptr_type_node
);
9034 TYPE_NAME (u
) = NULL_TREE
;
9036 fields
[0] = build_lang_decl (FIELD_DECL
, delta_identifier
,
9038 fields
[1] = build_lang_decl (FIELD_DECL
, index_identifier
,
9040 fields
[2] = build_lang_decl (FIELD_DECL
, pfn_or_delta2_identifier
, u
);
9041 finish_builtin_type (t
, "__ptrmemfunc_type", fields
, 2, ptr_type_node
);
9045 fields
[0] = build_lang_decl (FIELD_DECL
, pfn_identifier
, type
);
9046 fields
[1] = build_lang_decl (FIELD_DECL
, delta_identifier
,
9048 finish_builtin_type (t
, "__ptrmemfunc_type", fields
, 1, ptr_type_node
);
9051 /* Zap out the name so that the back-end will give us the debugging
9052 information for this anonymous RECORD_TYPE. */
9053 TYPE_NAME (t
) = NULL_TREE
;
9055 /* If this is not the unqualified form of this pointer-to-member
9056 type, set the TYPE_MAIN_VARIANT for this type to be the
9057 unqualified type. Since they are actually RECORD_TYPEs that are
9058 not variants of each other, we must do this manually. */
9059 if (CP_TYPE_QUALS (type
) != TYPE_UNQUALIFIED
)
9061 t
= build_qualified_type (t
, CP_TYPE_QUALS (type
));
9062 TYPE_MAIN_VARIANT (t
) = unqualified_variant
;
9063 TYPE_NEXT_VARIANT (t
) = TYPE_NEXT_VARIANT (unqualified_variant
);
9064 TYPE_NEXT_VARIANT (unqualified_variant
) = t
;
9067 /* Cache this pointer-to-member type so that we can find it again
9069 TYPE_SET_PTRMEMFUNC_TYPE (type
, t
);
9071 /* Seems to be wanted. */
9072 CLASSTYPE_GOT_SEMICOLON (t
) = 1;
9077 /* DECL is a VAR_DECL defined in-class, whose TYPE is also given.
9078 Check to see that the definition is valid. Issue appropriate error
9079 messages. Return 1 if the definition is particularly bad, or 0
9083 check_static_variable_definition (decl
, type
)
9087 /* Motion 10 at San Diego: If a static const integral data member is
9088 initialized with an integral constant expression, the initializer
9089 may appear either in the declaration (within the class), or in
9090 the definition, but not both. If it appears in the class, the
9091 member is a member constant. The file-scope definition is always
9093 if (CLASS_TYPE_P (type
) || TREE_CODE (type
) == REFERENCE_TYPE
)
9095 cp_error ("invalid in-class initialization of static data member of non-integral type `%T'",
9097 /* If we just return the declaration, crashes will sometimes
9098 occur. We therefore return void_type_node, as if this was a
9099 friend declaration, to cause callers to completely ignore
9100 this declaration. */
9103 else if (!CP_TYPE_CONST_P (type
))
9104 cp_error ("ISO C++ forbids in-class initialization of non-const static member `%D'",
9106 else if (pedantic
&& !INTEGRAL_TYPE_P (type
))
9107 cp_pedwarn ("ISO C++ forbids initialization of member constant `%D' of non-integral type `%T'", decl
, type
);
9112 /* Given the SIZE (i.e., number of elements) in an array, compute an
9113 appropriate index type for the array. If non-NULL, NAME is the
9114 name of the thing being declared. */
9117 compute_array_index_type (name
, size
)
9123 /* The size might be the result of a cast. */
9124 STRIP_TYPE_NOPS (size
);
9126 /* It might be a const variable or enumeration constant. */
9127 size
= decl_constant_value (size
);
9129 /* If this involves a template parameter, it will be a constant at
9130 instantiation time, but we don't know what the value is yet.
9131 Even if no template parameters are involved, we may an expression
9132 that is not a constant; we don't even simplify `1 + 2' when
9133 processing a template. */
9134 if (processing_template_decl
)
9136 /* Resolve a qualified reference to an enumerator or static
9137 const data member of ours. */
9138 if (TREE_CODE (size
) == SCOPE_REF
9139 && TREE_OPERAND (size
, 0) == current_class_type
)
9141 tree t
= lookup_field (current_class_type
,
9142 TREE_OPERAND (size
, 1), 0, 0);
9147 return build_index_type (build_min (MINUS_EXPR
, sizetype
,
9148 size
, integer_one_node
));
9151 /* The array bound must be an integer type. */
9152 if (TREE_CODE (TREE_TYPE (size
)) != INTEGER_TYPE
9153 && TREE_CODE (TREE_TYPE (size
)) != ENUMERAL_TYPE
9154 && TREE_CODE (TREE_TYPE (size
)) != BOOLEAN_TYPE
)
9157 cp_error ("size of array `%D' has non-integer type", name
);
9159 cp_error ("size of array has non-integer type");
9160 size
= integer_one_node
;
9163 /* Normally, the array-bound will be a constant. */
9164 if (TREE_CONSTANT (size
))
9166 /* Check to see if the array bound overflowed. Make that an
9167 error, no matter how generous we're being. */
9168 int old_flag_pedantic_errors
= flag_pedantic_errors
;
9169 int old_pedantic
= pedantic
;
9170 pedantic
= flag_pedantic_errors
= 1;
9171 constant_expression_warning (size
);
9172 pedantic
= old_pedantic
;
9173 flag_pedantic_errors
= old_flag_pedantic_errors
;
9175 /* An array must have a positive number of elements. */
9176 if (INT_CST_LT (size
, integer_zero_node
))
9179 cp_error ("size of array `%D' is negative", name
);
9181 cp_error ("size of array is negative");
9182 size
= integer_one_node
;
9184 /* Except that an extension we allow zero-sized arrays. We
9185 always allow them in system headers because glibc uses
9187 else if (integer_zerop (size
) && pedantic
&& !in_system_header
)
9190 cp_pedwarn ("ISO C++ forbids zero-size array `%D'", name
);
9192 cp_pedwarn ("ISO C++ forbids zero-size array");
9196 /* Compute the index of the largest element in the array. It is
9197 one less than the number of elements in the array. */
9199 = fold (build_binary_op (MINUS_EXPR
,
9200 cp_convert (ssizetype
, size
),
9201 cp_convert (ssizetype
,
9202 integer_one_node
)));
9204 /* Check for variable-sized arrays. We allow such things as an
9205 extension, even though they are not allowed in ANSI/ISO C++. */
9206 if (!TREE_CONSTANT (itype
))
9211 cp_pedwarn ("ISO C++ forbids variable-size array `%D'",
9214 cp_pedwarn ("ISO C++ forbids variable-size array");
9217 /* Create a variable-sized array index type. */
9218 itype
= variable_size (itype
);
9220 /* Make sure that there was no overflow when creating to a signed
9221 index type. (For example, on a 32-bit machine, an array with
9222 size 2^32 - 1 is too big.) */
9223 else if (TREE_OVERFLOW (itype
))
9225 error ("overflow in array dimension");
9226 TREE_OVERFLOW (itype
) = 0;
9229 /* Create and return the appropriate index type. */
9230 return build_index_type (itype
);
9233 /* Returns an ARRAY_TYPE for an array with SIZE elements of the
9234 indicated TYPE. If non-NULL, NAME is the NAME of the declaration
9238 create_array_type_for_decl (name
, type
, size
)
9243 tree itype
= NULL_TREE
;
9244 const char* error_msg
;
9246 /* If things have already gone awry, bail now. */
9247 if (type
== error_mark_node
|| size
== error_mark_node
)
9248 return error_mark_node
;
9250 /* Assume that everything will go OK. */
9253 /* There are some types which cannot be array elements. */
9254 switch (TREE_CODE (type
))
9257 error_msg
= "array of void";
9261 error_msg
= "array of functions";
9264 case REFERENCE_TYPE
:
9265 error_msg
= "array of references";
9269 error_msg
= "array of data members";
9273 error_msg
= "array of function members";
9280 /* If something went wrong, issue an error-message and return. */
9284 cp_error ("declaration of `%D' as %s", name
, error_msg
);
9286 cp_error ("creating %s", error_msg
);
9288 return error_mark_node
;
9293 The constant expressions that specify the bounds of the arrays
9294 can be omitted only for the first member of the sequence. */
9295 if (TREE_CODE (type
) == ARRAY_TYPE
&& !TYPE_DOMAIN (type
))
9297 cp_error ("declaration of `%D' as multidimensional array must have bounds for all dimensions except the first",
9300 return error_mark_node
;
9303 /* Figure out the index type for the array. */
9305 itype
= compute_array_index_type (name
, size
);
9307 return build_cplus_array_type (type
, itype
);
9310 /* Check that it's OK to declare a function with the indicated TYPE.
9311 SFK indicates the kind of special function (if any) that this
9312 function is. CTYPE is the class of which this function is a
9313 member. OPTYPE is the type given in a conversion operator
9314 declaration. Returns the actual return type of the function; that
9315 may be different than TYPE if an error occurs, or for certain
9316 special functions. */
9319 check_special_function_return_type (sfk
, type
, ctype
, optype
)
9320 special_function_kind sfk
;
9327 case sfk_constructor
:
9329 cp_error ("return type specification for constructor invalid");
9331 /* In the old ABI, we return `this'; in the new ABI we don't
9333 type
= flag_new_abi
? void_type_node
: build_pointer_type (ctype
);
9336 case sfk_destructor
:
9338 cp_error ("return type specification for destructor invalid");
9339 type
= void_type_node
;
9342 case sfk_conversion
:
9343 if (type
&& !same_type_p (type
, optype
))
9344 cp_error ("operator `%T' declared to return `%T'", optype
, type
);
9346 cp_pedwarn ("return type specified for `operator %T'", optype
);
9351 my_friendly_abort (20000408);
9358 /* Given declspecs and a declarator,
9359 determine the name and type of the object declared
9360 and construct a ..._DECL node for it.
9361 (In one case we can return a ..._TYPE node instead.
9362 For invalid input we sometimes return 0.)
9364 DECLSPECS is a chain of tree_list nodes whose value fields
9365 are the storage classes and type specifiers.
9367 DECL_CONTEXT says which syntactic context this declaration is in:
9368 NORMAL for most contexts. Make a VAR_DECL or FUNCTION_DECL or TYPE_DECL.
9369 FUNCDEF for a function definition. Like NORMAL but a few different
9370 error messages in each case. Return value may be zero meaning
9371 this definition is too screwy to try to parse.
9372 MEMFUNCDEF for a function definition. Like FUNCDEF but prepares to
9373 handle member functions (which have FIELD context).
9374 Return value may be zero meaning this definition is too screwy to
9376 PARM for a parameter declaration (either within a function prototype
9377 or before a function body). Make a PARM_DECL, or return void_type_node.
9378 CATCHPARM for a parameter declaration before a catch clause.
9379 TYPENAME if for a typename (in a cast or sizeof).
9380 Don't make a DECL node; just return the ..._TYPE node.
9381 FIELD for a struct or union field; make a FIELD_DECL.
9382 BITFIELD for a field with specified width.
9383 INITIALIZED is 1 if the decl has an initializer.
9385 ATTRLIST is a TREE_LIST node with prefix attributes in TREE_VALUE and
9386 normal attributes in TREE_PURPOSE, or NULL_TREE.
9388 In the TYPENAME case, DECLARATOR is really an abstract declarator.
9389 It may also be so in the PARM case, for a prototype where the
9390 argument type is specified but not the name.
9392 This function is where the complicated C meanings of `static'
9393 and `extern' are interpreted.
9395 For C++, if there is any monkey business to do, the function which
9396 calls this one must do it, i.e., prepending instance variables,
9397 renaming overloaded function names, etc.
9399 Note that for this C++, it is an error to define a method within a class
9400 which does not belong to that class.
9402 Except in the case where SCOPE_REFs are implicitly known (such as
9403 methods within a class being redundantly qualified),
9404 declarations which involve SCOPE_REFs are returned as SCOPE_REFs
9405 (class_name::decl_name). The caller must also deal with this.
9407 If a constructor or destructor is seen, and the context is FIELD,
9408 then the type gains the attribute TREE_HAS_x. If such a declaration
9409 is erroneous, NULL_TREE is returned.
9411 QUALS is used only for FUNCDEF and MEMFUNCDEF cases. For a member
9412 function, these are the qualifiers to give to the `this' pointer. We
9413 apply TYPE_QUAL_RESTRICT to the this ptr, not the object.
9415 May return void_type_node if the declarator turned out to be a friend.
9416 See grokfield for details. */
9419 grokdeclarator (declarator
, declspecs
, decl_context
, initialized
, attrlist
)
9422 enum decl_context decl_context
;
9426 RID_BIT_TYPE specbits
;
9429 tree type
= NULL_TREE
;
9435 int virtualp
, explicitp
, friendp
, inlinep
, staticp
;
9436 int explicit_int
= 0;
9437 int explicit_char
= 0;
9438 int defaulted_int
= 0;
9439 tree typedef_decl
= NULL_TREE
;
9441 tree typedef_type
= NULL_TREE
;
9442 int funcdef_flag
= 0;
9443 enum tree_code innermost_code
= ERROR_MARK
;
9446 /* See the code below that used this. */
9447 tree decl_machine_attr
= NULL_TREE
;
9449 /* Set this to error_mark_node for FIELD_DECLs we could not handle properly.
9450 All FIELD_DECLs we build here have `init' put into their DECL_INITIAL. */
9451 tree init
= NULL_TREE
;
9453 /* Keep track of what sort of function is being processed
9454 so that we can warn about default return values, or explicit
9455 return values which do not match prescribed defaults. */
9456 special_function_kind sfk
= sfk_none
;
9458 tree dname
= NULL_TREE
;
9459 tree ctype
= current_class_type
;
9460 tree ctor_return_type
= NULL_TREE
;
9461 enum overload_flags flags
= NO_SPECIAL
;
9462 tree quals
= NULL_TREE
;
9463 tree raises
= NULL_TREE
;
9464 int template_count
= 0;
9465 tree in_namespace
= NULL_TREE
;
9469 RIDBIT_RESET_ALL (specbits
);
9470 if (decl_context
== FUNCDEF
)
9471 funcdef_flag
= 1, decl_context
= NORMAL
;
9472 else if (decl_context
== MEMFUNCDEF
)
9473 funcdef_flag
= -1, decl_context
= FIELD
;
9474 else if (decl_context
== BITFIELD
)
9475 bitfield
= 1, decl_context
= FIELD
;
9477 /* Look inside a declarator for the name being declared
9478 and get it as a string, for an error message. */
9480 tree
*next
= &declarator
;
9484 while (next
&& *next
)
9487 switch (TREE_CODE (decl
))
9490 /* For attributes. */
9491 next
= &TREE_VALUE (decl
);
9496 next
= &TREE_OPERAND (decl
, 0);
9499 case BIT_NOT_EXPR
: /* For C++ destructors! */
9501 tree name
= TREE_OPERAND (decl
, 0);
9502 tree rename
= NULL_TREE
;
9504 my_friendly_assert (flags
== NO_SPECIAL
, 152);
9506 sfk
= sfk_destructor
;
9507 if (TREE_CODE (name
) == TYPE_DECL
)
9508 TREE_OPERAND (decl
, 0) = name
= constructor_name (name
);
9509 my_friendly_assert (TREE_CODE (name
) == IDENTIFIER_NODE
, 153);
9510 if (ctype
== NULL_TREE
)
9512 if (current_class_type
== NULL_TREE
)
9514 error ("destructors must be member functions");
9519 tree t
= constructor_name (current_class_name
);
9526 tree t
= constructor_name (ctype
);
9533 cp_error ("destructor `%T' must match class name `%T'",
9535 TREE_OPERAND (decl
, 0) = rename
;
9541 case ADDR_EXPR
: /* C++ reference declaration */
9546 innermost_code
= TREE_CODE (decl
);
9547 next
= &TREE_OPERAND (decl
, 0);
9551 if (parmlist_is_exprlist (CALL_DECLARATOR_PARMS (decl
)))
9553 /* This is actually a variable declaration using
9554 constructor syntax. We need to call start_decl and
9555 cp_finish_decl so we can get the variable
9558 tree attributes
, prefix_attributes
;
9560 *next
= TREE_OPERAND (decl
, 0);
9561 init
= CALL_DECLARATOR_PARMS (decl
);
9565 attributes
= TREE_PURPOSE (attrlist
);
9566 prefix_attributes
= TREE_VALUE (attrlist
);
9570 attributes
= NULL_TREE
;
9571 prefix_attributes
= NULL_TREE
;
9574 decl
= start_decl (declarator
, declspecs
, 1,
9575 attributes
, prefix_attributes
);
9576 decl_type_access_control (decl
);
9579 /* Look for __unused__ attribute */
9580 if (TREE_USED (TREE_TYPE (decl
)))
9581 TREE_USED (decl
) = 1;
9582 finish_decl (decl
, init
, NULL_TREE
);
9585 cp_error ("invalid declarator");
9588 innermost_code
= TREE_CODE (decl
);
9589 if (decl_context
== FIELD
&& ctype
== NULL_TREE
)
9590 ctype
= current_class_type
;
9592 && TREE_OPERAND (decl
, 0)
9593 && (TREE_CODE (TREE_OPERAND (decl
, 0)) == TYPE_DECL
9594 && ((DECL_NAME (TREE_OPERAND (decl
, 0))
9595 == constructor_name_full (ctype
))
9596 || (DECL_NAME (TREE_OPERAND (decl
, 0))
9597 == constructor_name (ctype
)))))
9598 TREE_OPERAND (decl
, 0) = constructor_name (ctype
);
9599 next
= &TREE_OPERAND (decl
, 0);
9601 if (ctype
!= NULL_TREE
9602 && decl
!= NULL_TREE
&& flags
!= DTOR_FLAG
9603 && decl
== constructor_name (ctype
))
9605 sfk
= sfk_constructor
;
9606 ctor_return_type
= ctype
;
9611 case TEMPLATE_ID_EXPR
:
9613 tree fns
= TREE_OPERAND (decl
, 0);
9615 if (TREE_CODE (fns
) == LOOKUP_EXPR
)
9616 fns
= TREE_OPERAND (fns
, 0);
9619 if (TREE_CODE (dname
) == COMPONENT_REF
)
9620 dname
= TREE_OPERAND (dname
, 1);
9621 if (TREE_CODE (dname
) != IDENTIFIER_NODE
)
9623 my_friendly_assert (is_overloaded_fn (dname
),
9625 dname
= DECL_NAME (get_first_fn (dname
));
9630 case IDENTIFIER_NODE
:
9631 if (TREE_CODE (decl
) == IDENTIFIER_NODE
)
9638 cp_error ("declarator-id missing; using reserved word `%D'",
9640 name
= IDENTIFIER_POINTER (dname
);
9642 if (! IDENTIFIER_OPNAME_P (dname
)
9643 /* GNU/Linux headers use '__op'. Arrgh. */
9644 || (IDENTIFIER_TYPENAME_P (dname
) && ! TREE_TYPE (dname
)))
9645 name
= IDENTIFIER_POINTER (dname
);
9648 if (IDENTIFIER_TYPENAME_P (dname
))
9650 my_friendly_assert (flags
== NO_SPECIAL
, 154);
9651 flags
= TYPENAME_FLAG
;
9652 ctor_return_type
= TREE_TYPE (dname
);
9653 sfk
= sfk_conversion
;
9655 name
= operator_name_string (dname
);
9662 /* Perform error checking, and decide on a ctype. */
9663 tree cname
= TREE_OPERAND (decl
, 0);
9664 if (cname
== NULL_TREE
)
9666 else if (TREE_CODE (cname
) == NAMESPACE_DECL
)
9669 in_namespace
= TREE_OPERAND (decl
, 0);
9670 TREE_OPERAND (decl
, 0) = NULL_TREE
;
9672 else if (! is_aggr_type (cname
, 1))
9673 TREE_OPERAND (decl
, 0) = NULL_TREE
;
9674 /* Must test TREE_OPERAND (decl, 1), in case user gives
9675 us `typedef (class::memfunc)(int); memfunc *memfuncptr;' */
9676 else if (TREE_OPERAND (decl
, 1)
9677 && TREE_CODE (TREE_OPERAND (decl
, 1)) == INDIRECT_REF
)
9679 else if (TREE_CODE (cname
) == TEMPLATE_TYPE_PARM
9680 || TREE_CODE (cname
) == TEMPLATE_TEMPLATE_PARM
)
9682 cp_error ("`%T::%D' is not a valid declarator", cname
,
9683 TREE_OPERAND (decl
, 1));
9684 cp_error (" perhaps you want `typename %T::%D' to make it a type",
9685 cname
, TREE_OPERAND (decl
, 1));
9686 return void_type_node
;
9688 else if (ctype
== NULL_TREE
)
9690 else if (TREE_COMPLEXITY (decl
) == current_class_depth
)
9691 TREE_OPERAND (decl
, 0) = ctype
;
9694 if (! UNIQUELY_DERIVED_FROM_P (cname
, ctype
))
9696 cp_error ("type `%T' is not derived from type `%T'",
9698 TREE_OPERAND (decl
, 0) = NULL_TREE
;
9704 if (ctype
&& TREE_CODE (TREE_OPERAND (decl
, 1)) == TYPE_DECL
9705 && ((DECL_NAME (TREE_OPERAND (decl
, 1))
9706 == constructor_name_full (ctype
))
9707 || (DECL_NAME (TREE_OPERAND (decl
, 1))
9708 == constructor_name (ctype
))))
9709 TREE_OPERAND (decl
, 1) = constructor_name (ctype
);
9710 next
= &TREE_OPERAND (decl
, 1);
9714 if (TREE_CODE (decl
) == IDENTIFIER_NODE
9715 && constructor_name (ctype
) == decl
)
9717 sfk
= sfk_constructor
;
9718 ctor_return_type
= ctype
;
9720 else if (TREE_CODE (decl
) == BIT_NOT_EXPR
9721 && TREE_CODE (TREE_OPERAND (decl
, 0)) == IDENTIFIER_NODE
9722 && (constructor_name (ctype
) == TREE_OPERAND (decl
, 0)
9723 || constructor_name_full (ctype
) == TREE_OPERAND (decl
, 0)))
9725 sfk
= sfk_destructor
;
9726 ctor_return_type
= ctype
;
9728 TREE_OPERAND (decl
, 0) = constructor_name (ctype
);
9729 next
= &TREE_OPERAND (decl
, 0);
9740 /* Parse error puts this typespec where
9741 a declarator should go. */
9742 cp_error ("`%T' specified as declarator-id", DECL_NAME (decl
));
9743 if (TREE_TYPE (decl
) == current_class_type
)
9744 cp_error (" perhaps you want `%T' for a constructor",
9745 current_class_name
);
9746 dname
= DECL_NAME (decl
);
9747 name
= IDENTIFIER_POINTER (dname
);
9749 /* Avoid giving two errors for this. */
9750 IDENTIFIER_CLASS_VALUE (dname
) = NULL_TREE
;
9752 declspecs
= tree_cons (NULL_TREE
, integer_type_node
, declspecs
);
9758 cp_compiler_error ("`%D' as declarator", decl
);
9759 return 0; /* We used to do a 155 abort here. */
9764 /* A function definition's declarator must have the form of
9765 a function declarator. */
9767 if (funcdef_flag
&& innermost_code
!= CALL_EXPR
)
9770 if (((dname
&& IDENTIFIER_OPNAME_P (dname
)) || flags
== TYPENAME_FLAG
)
9771 && innermost_code
!= CALL_EXPR
9772 && ! (ctype
&& declspecs
== NULL_TREE
))
9774 cp_error ("declaration of `%D' as non-function", dname
);
9775 return void_type_node
;
9778 /* Anything declared one level down from the top level
9779 must be one of the parameters of a function
9780 (because the body is at least two levels down). */
9782 /* This heuristic cannot be applied to C++ nodes! Fixed, however,
9783 by not allowing C++ class definitions to specify their parameters
9784 with xdecls (must be spec.d in the parmlist).
9786 Since we now wait to push a class scope until we are sure that
9787 we are in a legitimate method context, we must set oldcname
9788 explicitly (since current_class_name is not yet alive).
9790 We also want to avoid calling this a PARM if it is in a namespace. */
9792 if (decl_context
== NORMAL
&& !toplevel_bindings_p ())
9794 struct binding_level
*b
= current_binding_level
;
9795 current_binding_level
= b
->level_chain
;
9796 if (current_binding_level
!= 0 && toplevel_bindings_p ())
9797 decl_context
= PARM
;
9798 current_binding_level
= b
;
9802 name
= decl_context
== PARM
? "parameter" : "type name";
9804 /* Look through the decl specs and record which ones appear.
9805 Some typespecs are defined as built-in typenames.
9806 Others, the ones that are modifiers of other types,
9807 are represented by bits in SPECBITS: set the bits for
9808 the modifiers that appear. Storage class keywords are also in SPECBITS.
9810 If there is a typedef name or a type, store the type in TYPE.
9811 This includes builtin typedefs such as `int'.
9813 Set EXPLICIT_INT if the type is `int' or `char' and did not
9814 come from a user typedef.
9816 Set LONGLONG if `long' is mentioned twice.
9818 For C++, constructors and destructors have their own fast treatment. */
9820 for (spec
= declspecs
; spec
; spec
= TREE_CHAIN (spec
))
9825 /* Certain parse errors slip through. For example,
9826 `int class;' is not caught by the parser. Try
9827 weakly to recover here. */
9828 if (TREE_CODE (spec
) != TREE_LIST
)
9831 id
= TREE_VALUE (spec
);
9833 if (TREE_CODE (id
) == IDENTIFIER_NODE
)
9835 if (id
== ridpointers
[(int) RID_INT
]
9836 || id
== ridpointers
[(int) RID_CHAR
]
9837 || id
== ridpointers
[(int) RID_BOOL
]
9838 || id
== ridpointers
[(int) RID_WCHAR
])
9842 if (id
== ridpointers
[(int) RID_BOOL
])
9843 error ("`bool' is now a keyword");
9845 cp_error ("extraneous `%T' ignored", id
);
9849 if (id
== ridpointers
[(int) RID_INT
])
9851 else if (id
== ridpointers
[(int) RID_CHAR
])
9853 type
= TREE_TYPE (IDENTIFIER_GLOBAL_VALUE (id
));
9857 /* C++ aggregate types. */
9858 if (IDENTIFIER_HAS_TYPE_VALUE (id
))
9861 cp_error ("multiple declarations `%T' and `%T'", type
, id
);
9863 type
= IDENTIFIER_TYPE_VALUE (id
);
9867 for (i
= (int) RID_FIRST_MODIFIER
; i
<= (int) RID_LAST_MODIFIER
; i
++)
9869 if (ridpointers
[i
] == id
)
9871 if (i
== (int) RID_LONG
&& RIDBIT_SETP (i
, specbits
))
9873 if (pedantic
&& ! in_system_header
&& warn_long_long
)
9874 pedwarn ("ISO C++ does not support `long long'");
9876 error ("`long long long' is too long for GCC");
9880 else if (RIDBIT_SETP (i
, specbits
))
9881 pedwarn ("duplicate `%s'", IDENTIFIER_POINTER (id
));
9882 RIDBIT_SET (i
, specbits
);
9887 /* C++ aggregate types. */
9888 else if (TREE_CODE (id
) == TYPE_DECL
|| TREE_CODE (id
) == TEMPLATE_DECL
)
9891 cp_error ("multiple declarations `%T' and `%T'", type
,
9895 type
= TREE_TYPE (id
);
9896 TREE_VALUE (spec
) = type
;
9901 error ("two or more data types in declaration of `%s'", name
);
9902 else if (TREE_CODE (id
) == IDENTIFIER_NODE
)
9904 register tree t
= lookup_name (id
, 1);
9905 if (!t
|| TREE_CODE (t
) != TYPE_DECL
)
9906 error ("`%s' fails to be a typedef or built in type",
9907 IDENTIFIER_POINTER (id
));
9910 type
= TREE_TYPE (t
);
9912 /* See the code below that used this. */
9913 decl_machine_attr
= DECL_MACHINE_ATTRIBUTES (id
);
9918 else if (id
!= error_mark_node
)
9919 /* Can't change CLASS nodes into RECORD nodes here! */
9925 typedef_type
= type
;
9927 /* No type at all: default to `int', and set DEFAULTED_INT
9928 because it was not a user-defined typedef. */
9930 if (type
== NULL_TREE
9931 && (RIDBIT_SETP (RID_SIGNED
, specbits
)
9932 || RIDBIT_SETP (RID_UNSIGNED
, specbits
)
9933 || RIDBIT_SETP (RID_LONG
, specbits
)
9934 || RIDBIT_SETP (RID_SHORT
, specbits
)))
9936 /* These imply 'int'. */
9937 type
= integer_type_node
;
9941 if (sfk
!= sfk_none
)
9942 type
= check_special_function_return_type (sfk
, type
,
9945 else if (type
== NULL_TREE
)
9951 /* We handle `main' specially here, because 'main () { }' is so
9952 common. With no options, it is allowed. With -Wreturn-type,
9953 it is a warning. It is only an error with -pedantic-errors. */
9954 is_main
= (funcdef_flag
9955 && MAIN_NAME_P (dname
)
9956 && ctype
== NULL_TREE
9957 && in_namespace
== NULL_TREE
9958 && current_namespace
== global_namespace
);
9960 if (in_system_header
|| flag_ms_extensions
)
9961 /* Allow it, sigh. */;
9962 else if (pedantic
|| ! is_main
)
9963 cp_pedwarn ("ISO C++ forbids declaration of `%s' with no type",
9965 else if (warn_return_type
)
9966 cp_warning ("ISO C++ forbids declaration of `%s' with no type",
9969 type
= integer_type_node
;
9974 /* Now process the modifiers that were specified
9975 and check for invalid combinations. */
9977 /* Long double is a special combination. */
9979 if (RIDBIT_SETP (RID_LONG
, specbits
)
9980 && TYPE_MAIN_VARIANT (type
) == double_type_node
)
9982 RIDBIT_RESET (RID_LONG
, specbits
);
9983 type
= build_qualified_type (long_double_type_node
,
9984 CP_TYPE_QUALS (type
));
9987 /* Check all other uses of type modifiers. */
9989 if (RIDBIT_SETP (RID_UNSIGNED
, specbits
)
9990 || RIDBIT_SETP (RID_SIGNED
, specbits
)
9991 || RIDBIT_SETP (RID_LONG
, specbits
)
9992 || RIDBIT_SETP (RID_SHORT
, specbits
))
9996 if (TREE_CODE (type
) == REAL_TYPE
)
9997 error ("short, signed or unsigned invalid for `%s'", name
);
9998 else if (TREE_CODE (type
) != INTEGER_TYPE
)
9999 error ("long, short, signed or unsigned invalid for `%s'", name
);
10000 else if (RIDBIT_SETP (RID_LONG
, specbits
)
10001 && RIDBIT_SETP (RID_SHORT
, specbits
))
10002 error ("long and short specified together for `%s'", name
);
10003 else if ((RIDBIT_SETP (RID_LONG
, specbits
)
10004 || RIDBIT_SETP (RID_SHORT
, specbits
))
10006 error ("long or short specified with char for `%s'", name
);
10007 else if ((RIDBIT_SETP (RID_LONG
, specbits
)
10008 || RIDBIT_SETP (RID_SHORT
, specbits
))
10009 && TREE_CODE (type
) == REAL_TYPE
)
10010 error ("long or short specified with floating type for `%s'", name
);
10011 else if (RIDBIT_SETP (RID_SIGNED
, specbits
)
10012 && RIDBIT_SETP (RID_UNSIGNED
, specbits
))
10013 error ("signed and unsigned given together for `%s'", name
);
10017 if (!explicit_int
&& !defaulted_int
&& !explicit_char
&& pedantic
)
10019 pedwarn ("long, short, signed or unsigned used invalidly for `%s'",
10021 if (flag_pedantic_errors
)
10026 /* Discard the type modifiers if they are invalid. */
10029 RIDBIT_RESET (RID_UNSIGNED
, specbits
);
10030 RIDBIT_RESET (RID_SIGNED
, specbits
);
10031 RIDBIT_RESET (RID_LONG
, specbits
);
10032 RIDBIT_RESET (RID_SHORT
, specbits
);
10037 if (RIDBIT_SETP (RID_COMPLEX
, specbits
)
10038 && TREE_CODE (type
) != INTEGER_TYPE
&& TREE_CODE (type
) != REAL_TYPE
)
10040 error ("complex invalid for `%s'", name
);
10041 RIDBIT_RESET (RID_COMPLEX
, specbits
);
10044 /* Decide whether an integer type is signed or not.
10045 Optionally treat bitfields as signed by default. */
10046 if (RIDBIT_SETP (RID_UNSIGNED
, specbits
)
10049 It is implementation-defined whether a plain (neither
10050 explicitly signed or unsigned) char, short, int, or long
10051 bit-field is signed or unsigned.
10053 Naturally, we extend this to long long as well. Note that
10054 this does not include wchar_t. */
10055 || (bitfield
&& !flag_signed_bitfields
10056 && RIDBIT_NOTSETP (RID_SIGNED
, specbits
)
10057 /* A typedef for plain `int' without `signed' can be
10058 controlled just like plain `int', but a typedef for
10059 `signed int' cannot be so controlled. */
10061 && C_TYPEDEF_EXPLICITLY_SIGNED (typedef_decl
))
10062 && (TREE_CODE (type
) == INTEGER_TYPE
10063 || TREE_CODE (type
) == CHAR_TYPE
)
10064 && !same_type_p (TYPE_MAIN_VARIANT (type
), wchar_type_node
)))
10067 type
= long_long_unsigned_type_node
;
10068 else if (RIDBIT_SETP (RID_LONG
, specbits
))
10069 type
= long_unsigned_type_node
;
10070 else if (RIDBIT_SETP (RID_SHORT
, specbits
))
10071 type
= short_unsigned_type_node
;
10072 else if (type
== char_type_node
)
10073 type
= unsigned_char_type_node
;
10074 else if (typedef_decl
)
10075 type
= unsigned_type (type
);
10077 type
= unsigned_type_node
;
10079 else if (RIDBIT_SETP (RID_SIGNED
, specbits
)
10080 && type
== char_type_node
)
10081 type
= signed_char_type_node
;
10083 type
= long_long_integer_type_node
;
10084 else if (RIDBIT_SETP (RID_LONG
, specbits
))
10085 type
= long_integer_type_node
;
10086 else if (RIDBIT_SETP (RID_SHORT
, specbits
))
10087 type
= short_integer_type_node
;
10089 if (RIDBIT_SETP (RID_COMPLEX
, specbits
))
10091 /* If we just have "complex", it is equivalent to
10092 "complex double", but if any modifiers at all are specified it is
10093 the complex form of TYPE. E.g, "complex short" is
10094 "complex short int". */
10096 if (defaulted_int
&& ! longlong
10097 && ! (RIDBIT_SETP (RID_LONG
, specbits
)
10098 || RIDBIT_SETP (RID_SHORT
, specbits
)
10099 || RIDBIT_SETP (RID_SIGNED
, specbits
)
10100 || RIDBIT_SETP (RID_UNSIGNED
, specbits
)))
10101 type
= complex_double_type_node
;
10102 else if (type
== integer_type_node
)
10103 type
= complex_integer_type_node
;
10104 else if (type
== float_type_node
)
10105 type
= complex_float_type_node
;
10106 else if (type
== double_type_node
)
10107 type
= complex_double_type_node
;
10108 else if (type
== long_double_type_node
)
10109 type
= complex_long_double_type_node
;
10111 type
= build_complex_type (type
);
10114 if (sfk
== sfk_conversion
10115 && (RIDBIT_SETP (RID_CONST
, specbits
)
10116 || RIDBIT_SETP (RID_VOLATILE
, specbits
)
10117 || RIDBIT_SETP (RID_RESTRICT
, specbits
)))
10118 cp_error ("qualifiers are not allowed on declaration of `operator %T'",
10121 /* Set CONSTP if this declaration is `const', whether by
10122 explicit specification or via a typedef.
10123 Likewise for VOLATILEP. */
10125 constp
= !! RIDBIT_SETP (RID_CONST
, specbits
) + CP_TYPE_CONST_P (type
);
10127 !! RIDBIT_SETP (RID_RESTRICT
, specbits
) + CP_TYPE_RESTRICT_P (type
);
10129 !! RIDBIT_SETP (RID_VOLATILE
, specbits
) + CP_TYPE_VOLATILE_P (type
);
10130 type_quals
= ((constp
? TYPE_QUAL_CONST
: 0)
10131 | (restrictp
? TYPE_QUAL_RESTRICT
: 0)
10132 | (volatilep
? TYPE_QUAL_VOLATILE
: 0));
10133 type
= cp_build_qualified_type (type
, type_quals
);
10135 inlinep
= !! RIDBIT_SETP (RID_INLINE
, specbits
);
10136 virtualp
= RIDBIT_SETP (RID_VIRTUAL
, specbits
);
10137 RIDBIT_RESET (RID_VIRTUAL
, specbits
);
10138 explicitp
= RIDBIT_SETP (RID_EXPLICIT
, specbits
) != 0;
10139 RIDBIT_RESET (RID_EXPLICIT
, specbits
);
10141 if (RIDBIT_SETP (RID_STATIC
, specbits
))
10142 staticp
= 1 + (decl_context
== FIELD
);
10144 if (virtualp
&& staticp
== 2)
10146 cp_error ("member `%D' cannot be declared both virtual and static",
10150 friendp
= RIDBIT_SETP (RID_FRIEND
, specbits
);
10151 RIDBIT_RESET (RID_FRIEND
, specbits
);
10153 /* Warn if two storage classes are given. Default to `auto'. */
10155 if (RIDBIT_ANY_SET (specbits
))
10157 if (RIDBIT_SETP (RID_STATIC
, specbits
)) nclasses
++;
10158 if (RIDBIT_SETP (RID_EXTERN
, specbits
)) nclasses
++;
10159 if (decl_context
== PARM
&& nclasses
> 0)
10160 error ("storage class specifiers invalid in parameter declarations");
10161 if (RIDBIT_SETP (RID_TYPEDEF
, specbits
))
10163 if (decl_context
== PARM
)
10164 error ("typedef declaration invalid in parameter declaration");
10167 if (RIDBIT_SETP (RID_AUTO
, specbits
)) nclasses
++;
10168 if (RIDBIT_SETP (RID_REGISTER
, specbits
)) nclasses
++;
10171 /* Give error if `virtual' is used outside of class declaration. */
10173 && (current_class_name
== NULL_TREE
|| decl_context
!= FIELD
))
10175 error ("virtual outside class declaration");
10179 /* Static anonymous unions are dealt with here. */
10180 if (staticp
&& decl_context
== TYPENAME
10181 && TREE_CODE (declspecs
) == TREE_LIST
10182 && ANON_AGGR_TYPE_P (TREE_VALUE (declspecs
)))
10183 decl_context
= FIELD
;
10185 /* Warn about storage classes that are invalid for certain
10186 kinds of declarations (parameters, typenames, etc.). */
10189 error ("multiple storage classes in declaration of `%s'", name
);
10190 else if (decl_context
!= NORMAL
&& nclasses
> 0)
10192 if ((decl_context
== PARM
|| decl_context
== CATCHPARM
)
10193 && (RIDBIT_SETP (RID_REGISTER
, specbits
)
10194 || RIDBIT_SETP (RID_AUTO
, specbits
)))
10196 else if (RIDBIT_SETP (RID_TYPEDEF
, specbits
))
10198 else if (decl_context
== FIELD
10199 /* C++ allows static class elements */
10200 && RIDBIT_SETP (RID_STATIC
, specbits
))
10201 /* C++ also allows inlines and signed and unsigned elements,
10202 but in those cases we don't come in here. */
10206 if (decl_context
== FIELD
)
10208 tree tmp
= NULL_TREE
;
10209 register int op
= 0;
10213 /* Avoid trying to get an operand off an identifier node. */
10214 if (TREE_CODE (declarator
) == IDENTIFIER_NODE
)
10217 tmp
= TREE_OPERAND (declarator
, 0);
10218 op
= IDENTIFIER_OPNAME_P (tmp
);
10220 error ("storage class specified for %s `%s'",
10221 op
? "member operator" : "field",
10222 op
? operator_name_string (tmp
) : name
);
10226 if (decl_context
== PARM
|| decl_context
== CATCHPARM
)
10227 error ("storage class specified for parameter `%s'", name
);
10229 error ("storage class specified for typename");
10231 RIDBIT_RESET (RID_REGISTER
, specbits
);
10232 RIDBIT_RESET (RID_AUTO
, specbits
);
10233 RIDBIT_RESET (RID_EXTERN
, specbits
);
10236 else if (RIDBIT_SETP (RID_EXTERN
, specbits
) && initialized
&& !funcdef_flag
)
10238 if (toplevel_bindings_p ())
10240 /* It's common practice (and completely valid) to have a const
10241 be initialized and declared extern. */
10242 if (!(type_quals
& TYPE_QUAL_CONST
))
10243 warning ("`%s' initialized and declared `extern'", name
);
10246 error ("`%s' has both `extern' and initializer", name
);
10248 else if (RIDBIT_SETP (RID_EXTERN
, specbits
) && funcdef_flag
10249 && ! toplevel_bindings_p ())
10250 error ("nested function `%s' declared `extern'", name
);
10251 else if (toplevel_bindings_p ())
10253 if (RIDBIT_SETP (RID_AUTO
, specbits
))
10254 error ("top-level declaration of `%s' specifies `auto'", name
);
10257 if (nclasses
> 0 && friendp
)
10258 error ("storage class specifiers invalid in friend function declarations");
10260 /* Now figure out the structure of the declarator proper.
10261 Descend through it, creating more complex types, until we reach
10262 the declared identifier (or NULL_TREE, in an absolute declarator). */
10264 inner_attrs
= NULL_TREE
;
10267 while (declarator
&& TREE_CODE (declarator
) != IDENTIFIER_NODE
10268 && TREE_CODE (declarator
) != TEMPLATE_ID_EXPR
)
10270 /* Each level of DECLARATOR is either an ARRAY_REF (for ...[..]),
10271 an INDIRECT_REF (for *...),
10272 a CALL_EXPR (for ...(...)),
10273 an identifier (for the name being declared)
10274 or a null pointer (for the place in an absolute declarator
10275 where the name was omitted).
10276 For the last two cases, we have just exited the loop.
10278 For C++ it could also be
10279 a SCOPE_REF (for class :: ...). In this case, we have converted
10280 sensible names to types, and those are the values we use to
10281 qualify the member name.
10282 an ADDR_EXPR (for &...),
10283 a BIT_NOT_EXPR (for destructors)
10285 At this point, TYPE is the type of elements of an array,
10286 or for a function to return, or for a pointer to point to.
10287 After this sequence of ifs, TYPE is the type of the
10288 array or function or pointer, and DECLARATOR has had its
10289 outermost layer removed. */
10291 if (type
== error_mark_node
)
10293 if (TREE_CODE (declarator
) == SCOPE_REF
)
10294 declarator
= TREE_OPERAND (declarator
, 1);
10296 declarator
= TREE_OPERAND (declarator
, 0);
10299 if (quals
!= NULL_TREE
10300 && (declarator
== NULL_TREE
10301 || TREE_CODE (declarator
) != SCOPE_REF
))
10303 if (ctype
== NULL_TREE
&& TREE_CODE (type
) == METHOD_TYPE
)
10304 ctype
= TYPE_METHOD_BASETYPE (type
);
10305 if (ctype
!= NULL_TREE
)
10307 tree dummy
= build_decl (TYPE_DECL
, NULL_TREE
, type
);
10308 grok_method_quals (ctype
, dummy
, quals
);
10309 type
= TREE_TYPE (dummy
);
10310 ctype
= TREE_TYPE (TREE_VALUE (TYPE_ARG_TYPES (type
)));
10315 /* See the comment for the TREE_LIST case, below. */
10318 else if (inner_attrs
)
10320 decl_attributes (type
, inner_attrs
, NULL_TREE
);
10321 inner_attrs
= NULL_TREE
;
10324 switch (TREE_CODE (declarator
))
10328 /* We encode a declarator with embedded attributes using
10329 a TREE_LIST. The attributes apply to the declarator
10330 directly inside them, so we have to skip an iteration
10331 before applying them to the type. If the declarator just
10332 inside is the declarator-id, we apply the attrs to the
10334 inner_attrs
= TREE_PURPOSE (declarator
);
10336 declarator
= TREE_VALUE (declarator
);
10342 register tree size
;
10344 size
= TREE_OPERAND (declarator
, 1);
10346 /* VC++ spells a zero-sized array with []. */
10347 if (size
== NULL_TREE
&& decl_context
== FIELD
&& ! staticp
10348 && ! RIDBIT_SETP (RID_TYPEDEF
, specbits
))
10349 size
= integer_zero_node
;
10351 declarator
= TREE_OPERAND (declarator
, 0);
10353 type
= create_array_type_for_decl (dname
, type
, size
);
10355 /* VLAs never work as fields. */
10356 if (decl_context
== FIELD
&& !processing_template_decl
10357 && TREE_CODE (type
) == ARRAY_TYPE
10358 && TYPE_DOMAIN (type
) != NULL_TREE
10359 && !TREE_CONSTANT (TYPE_MAX_VALUE (TYPE_DOMAIN (type
))))
10361 cp_error ("size of member `%D' is not constant", dname
);
10362 /* Proceed with arbitrary constant size, so that offset
10363 computations don't get confused. */
10364 type
= create_array_type_for_decl (dname
, TREE_TYPE (type
),
10376 tree inner_parms
= CALL_DECLARATOR_PARMS (declarator
);
10377 tree inner_decl
= TREE_OPERAND (declarator
, 0);
10379 /* Declaring a function type.
10380 Make sure we have a valid type for the function to return. */
10382 /* We now know that the TYPE_QUALS don't apply to the
10383 decl, but to its return type. */
10384 type_quals
= TYPE_UNQUALIFIED
;
10386 /* Warn about some types functions can't return. */
10388 if (TREE_CODE (type
) == FUNCTION_TYPE
)
10390 error ("`%s' declared as function returning a function", name
);
10391 type
= integer_type_node
;
10393 if (TREE_CODE (type
) == ARRAY_TYPE
)
10395 error ("`%s' declared as function returning an array", name
);
10396 type
= integer_type_node
;
10399 if (inner_decl
&& TREE_CODE (inner_decl
) == SCOPE_REF
)
10400 inner_decl
= TREE_OPERAND (inner_decl
, 1);
10402 if (inner_decl
&& TREE_CODE (inner_decl
) == TEMPLATE_ID_EXPR
)
10403 inner_decl
= dname
;
10405 /* Pick up type qualifiers which should be applied to `this'. */
10406 quals
= CALL_DECLARATOR_QUALS (declarator
);
10408 /* Pick up the exception specifications. */
10409 raises
= CALL_DECLARATOR_EXCEPTION_SPEC (declarator
);
10411 /* Say it's a definition only for the CALL_EXPR
10412 closest to the identifier. */
10415 && (TREE_CODE (inner_decl
) == IDENTIFIER_NODE
10416 || TREE_CODE (inner_decl
) == TEMPLATE_ID_EXPR
10417 || TREE_CODE (inner_decl
) == BIT_NOT_EXPR
);
10419 if (ctype
== NULL_TREE
10420 && decl_context
== FIELD
10422 && (friendp
== 0 || dname
== current_class_name
))
10423 ctype
= current_class_type
;
10425 if (ctype
&& sfk
== sfk_conversion
)
10426 TYPE_HAS_CONVERSION (ctype
) = 1;
10427 if (ctype
&& constructor_name (ctype
) == dname
)
10429 /* We are within a class's scope. If our declarator name
10430 is the same as the class name, and we are defining
10431 a function, then it is a constructor/destructor, and
10432 therefore returns a void type. */
10434 if (flags
== DTOR_FLAG
)
10436 /* ISO C++ 12.4/2. A destructor may not be
10437 declared const or volatile. A destructor may
10440 error ("destructor cannot be static member function");
10443 cp_error ("destructors may not be `%s'",
10444 IDENTIFIER_POINTER (TREE_VALUE (quals
)));
10447 if (decl_context
== FIELD
)
10449 if (! member_function_or_else (ctype
,
10450 current_class_type
,
10452 return void_type_node
;
10455 else /* It's a constructor. */
10457 if (explicitp
== 1)
10459 /* ISO C++ 12.1. A constructor may not be
10460 declared const or volatile. A constructor may
10461 not be virtual. A constructor may not be
10464 error ("constructor cannot be static member function");
10467 pedwarn ("constructors cannot be declared virtual");
10472 cp_error ("constructors may not be `%s'",
10473 IDENTIFIER_POINTER (TREE_VALUE (quals
)));
10477 RID_BIT_TYPE tmp_bits
;
10478 bcopy ((void*)&specbits
, (void*)&tmp_bits
, sizeof (RID_BIT_TYPE
));
10479 RIDBIT_RESET (RID_INLINE
, tmp_bits
);
10480 RIDBIT_RESET (RID_STATIC
, tmp_bits
);
10481 if (RIDBIT_ANY_SET (tmp_bits
))
10482 error ("return value type specifier for constructor ignored");
10484 if (decl_context
== FIELD
)
10486 if (! member_function_or_else (ctype
,
10487 current_class_type
,
10489 return void_type_node
;
10490 TYPE_HAS_CONSTRUCTOR (ctype
) = 1;
10491 if (sfk
!= sfk_constructor
)
10495 if (decl_context
== FIELD
)
10501 error ("can't initialize friend function `%s'", name
);
10504 /* Cannot be both friend and virtual. */
10505 error ("virtual functions cannot be friends");
10506 RIDBIT_RESET (RID_FRIEND
, specbits
);
10509 if (decl_context
== NORMAL
)
10510 error ("friend declaration not in class definition");
10511 if (current_function_decl
&& funcdef_flag
)
10512 cp_error ("can't define friend function `%s' in a local class definition",
10516 /* Construct the function type and go to the next
10517 inner layer of declarator. */
10519 declarator
= TREE_OPERAND (declarator
, 0);
10521 /* FIXME: This is where default args should be fully
10524 arg_types
= grokparms (inner_parms
, funcdecl_p
? funcdef_flag
: 0);
10526 if (declarator
&& flags
== DTOR_FLAG
)
10528 /* A destructor declared in the body of a class will
10529 be represented as a BIT_NOT_EXPR. But, we just
10530 want the underlying IDENTIFIER. */
10531 if (TREE_CODE (declarator
) == BIT_NOT_EXPR
)
10532 declarator
= TREE_OPERAND (declarator
, 0);
10534 if (strict_prototype
== 0 && arg_types
== NULL_TREE
)
10535 arg_types
= void_list_node
;
10536 else if (arg_types
== NULL_TREE
10537 || arg_types
!= void_list_node
)
10539 cp_error ("destructors may not have parameters");
10540 arg_types
= void_list_node
;
10541 last_function_parms
= NULL_TREE
;
10545 /* ANSI says that `const int foo ();'
10546 does not make the function foo const. */
10547 type
= build_function_type (type
, arg_types
);
10551 for (t
= arg_types
; t
; t
= TREE_CHAIN (t
))
10552 if (TREE_PURPOSE (t
)
10553 && TREE_CODE (TREE_PURPOSE (t
)) == DEFAULT_ARG
)
10555 add_defarg_fn (type
);
10564 /* Filter out pointers-to-references and references-to-references.
10565 We can get these if a TYPE_DECL is used. */
10567 if (TREE_CODE (type
) == REFERENCE_TYPE
)
10569 error ("cannot declare %s to references",
10570 TREE_CODE (declarator
) == ADDR_EXPR
10571 ? "references" : "pointers");
10572 declarator
= TREE_OPERAND (declarator
, 0);
10576 if (TREE_CODE (type
) == OFFSET_TYPE
10577 && (TREE_CODE (TREE_TYPE (type
)) == VOID_TYPE
10578 || TREE_CODE (TREE_TYPE (type
)) == REFERENCE_TYPE
))
10580 cp_error ("cannot declare pointer to `%#T' member",
10582 type
= TREE_TYPE (type
);
10585 /* Merge any constancy or volatility into the target type
10586 for the pointer. */
10588 /* We now know that the TYPE_QUALS don't apply to the decl,
10589 but to the target of the pointer. */
10590 type_quals
= TYPE_UNQUALIFIED
;
10592 if (TREE_CODE (declarator
) == ADDR_EXPR
)
10594 if (TREE_CODE (type
) == VOID_TYPE
)
10595 error ("invalid type: `void &'");
10597 type
= build_reference_type (type
);
10599 else if (TREE_CODE (type
) == METHOD_TYPE
)
10600 type
= build_ptrmemfunc_type (build_pointer_type (type
));
10602 type
= build_pointer_type (type
);
10604 /* Process a list of type modifier keywords (such as
10605 const or volatile) that were given inside the `*' or `&'. */
10607 if (TREE_TYPE (declarator
))
10609 register tree typemodlist
;
10615 for (typemodlist
= TREE_TYPE (declarator
); typemodlist
;
10616 typemodlist
= TREE_CHAIN (typemodlist
))
10618 tree qualifier
= TREE_VALUE (typemodlist
);
10620 if (qualifier
== ridpointers
[(int) RID_CONST
])
10622 else if (qualifier
== ridpointers
[(int) RID_VOLATILE
])
10624 else if (qualifier
== ridpointers
[(int) RID_RESTRICT
])
10629 error ("invalid type modifier within pointer declarator");
10633 pedwarn ("duplicate `const'");
10635 pedwarn ("duplicate `volatile'");
10637 pedwarn ("duplicate `restrict'");
10639 type_quals
= ((constp
? TYPE_QUAL_CONST
: 0)
10640 | (restrictp
? TYPE_QUAL_RESTRICT
: 0)
10641 | (volatilep
? TYPE_QUAL_VOLATILE
: 0));
10642 if (TREE_CODE (declarator
) == ADDR_EXPR
10643 && (constp
|| volatilep
))
10646 pedwarn ("discarding `const' applied to a reference");
10648 pedwarn ("discarding `volatile' applied to a reference");
10649 type_quals
&= ~(TYPE_QUAL_CONST
| TYPE_QUAL_VOLATILE
);
10651 type
= cp_build_qualified_type (type
, type_quals
);
10653 declarator
= TREE_OPERAND (declarator
, 0);
10659 /* We have converted type names to NULL_TREE if the
10660 name was bogus, or to a _TYPE node, if not.
10662 The variable CTYPE holds the type we will ultimately
10663 resolve to. The code here just needs to build
10664 up appropriate member types. */
10665 tree sname
= TREE_OPERAND (declarator
, 1);
10668 /* Destructors can have their visibilities changed as well. */
10669 if (TREE_CODE (sname
) == BIT_NOT_EXPR
)
10670 sname
= TREE_OPERAND (sname
, 0);
10672 if (TREE_COMPLEXITY (declarator
) == 0)
10673 /* This needs to be here, in case we are called
10674 multiple times. */ ;
10675 else if (TREE_COMPLEXITY (declarator
) == -1)
10676 /* Namespace member. */
10677 pop_decl_namespace ();
10678 else if (friendp
&& (TREE_COMPLEXITY (declarator
) < 2))
10679 /* Don't fall out into global scope. Hides real bug? --eichin */ ;
10680 else if (! IS_AGGR_TYPE_CODE
10681 (TREE_CODE (TREE_OPERAND (declarator
, 0))))
10683 else if (TREE_COMPLEXITY (declarator
) == current_class_depth
)
10685 /* Resolve any TYPENAME_TYPEs from the decl-specifier-seq
10686 that refer to ctype. They couldn't be resolved earlier
10687 because we hadn't pushed into the class yet.
10688 Example: resolve 'B<T>::type' in
10689 'B<typename B<T>::type> B<T>::f () { }'. */
10690 if (current_template_parms
10691 && uses_template_parms (type
)
10692 && uses_template_parms (current_class_type
))
10694 tree args
= current_template_args ();
10695 type
= tsubst (type
, args
, /*complain=*/1, NULL_TREE
);
10698 /* This pop_nested_class corresponds to the
10699 push_nested_class used to push into class scope for
10700 parsing the argument list of a function decl, in
10702 pop_nested_class ();
10703 TREE_COMPLEXITY (declarator
) = current_class_depth
;
10706 my_friendly_abort (16);
10708 if (TREE_OPERAND (declarator
, 0) == NULL_TREE
)
10710 /* We had a reference to a global decl, or
10711 perhaps we were given a non-aggregate typedef,
10712 in which case we cleared this out, and should just
10713 keep going as though it wasn't there. */
10714 declarator
= sname
;
10717 ctype
= TREE_OPERAND (declarator
, 0);
10720 while (t
!= NULL_TREE
&& CLASS_TYPE_P (t
))
10722 /* You're supposed to have one `template <...>'
10723 for every template class, but you don't need one
10724 for a full specialization. For example:
10726 template <class T> struct S{};
10727 template <> struct S<int> { void f(); };
10728 void S<int>::f () {}
10730 is correct; there shouldn't be a `template <>' for
10731 the definition of `S<int>::f'. */
10732 if (CLASSTYPE_TEMPLATE_INFO (t
)
10733 && (CLASSTYPE_TEMPLATE_INSTANTIATION (t
)
10734 || uses_template_parms (CLASSTYPE_TI_ARGS (t
))))
10735 template_count
+= 1;
10737 t
= TYPE_MAIN_DECL (t
);
10738 if (DECL_LANG_SPECIFIC (t
))
10739 t
= DECL_CONTEXT (t
);
10744 if (sname
== NULL_TREE
)
10747 if (TREE_CODE (sname
) == IDENTIFIER_NODE
)
10749 /* This is the `standard' use of the scoping operator:
10750 basetype :: member . */
10752 if (ctype
== current_class_type
)
10758 Is this ill-formed? */
10761 cp_pedwarn ("extra qualification `%T::' on member `%s' ignored",
10764 else if (TREE_CODE (type
) == FUNCTION_TYPE
)
10766 if (current_class_type
== NULL_TREE
10768 type
= build_cplus_method_type (ctype
, TREE_TYPE (type
),
10769 TYPE_ARG_TYPES (type
));
10772 cp_error ("cannot declare member function `%T::%s' within `%T'",
10773 ctype
, name
, current_class_type
);
10774 return void_type_node
;
10777 else if (RIDBIT_SETP (RID_TYPEDEF
, specbits
)
10778 || COMPLETE_TYPE_P (complete_type (ctype
)))
10780 /* Have to move this code elsewhere in this function.
10781 this code is used for i.e., typedef int A::M; M *pm;
10783 It is? How? jason 10/2/94 */
10785 if (current_class_type
)
10787 cp_error ("cannot declare member `%T::%s' within `%T'",
10788 ctype
, name
, current_class_type
);
10789 return void_type_node
;
10791 type
= build_offset_type (ctype
, type
);
10793 else if (uses_template_parms (ctype
))
10795 if (TREE_CODE (type
) == FUNCTION_TYPE
)
10797 = build_cplus_method_type (ctype
, TREE_TYPE (type
),
10798 TYPE_ARG_TYPES (type
));
10802 cp_error ("structure `%T' not yet defined", ctype
);
10803 return error_mark_node
;
10806 declarator
= sname
;
10808 else if (TREE_CODE (sname
) == SCOPE_REF
)
10809 my_friendly_abort (17);
10813 declarator
= TREE_OPERAND (declarator
, 1);
10814 if (declarator
&& TREE_CODE (declarator
) == CALL_EXPR
)
10815 /* In this case, we will deal with it later. */
10819 if (TREE_CODE (type
) == FUNCTION_TYPE
)
10820 type
= build_cplus_method_type (ctype
, TREE_TYPE (type
),
10821 TYPE_ARG_TYPES (type
));
10823 type
= build_offset_type (ctype
, type
);
10830 declarator
= TREE_OPERAND (declarator
, 0);
10835 case ENUMERAL_TYPE
:
10836 declarator
= NULL_TREE
;
10840 declarator
= NULL_TREE
;
10844 my_friendly_abort (158);
10848 /* See the comment for the TREE_LIST case, above. */
10851 if (! ignore_attrs
)
10852 decl_attributes (type
, inner_attrs
, NULL_TREE
);
10854 TREE_VALUE (attrlist
) = chainon (inner_attrs
, TREE_VALUE (attrlist
));
10856 attrlist
= build_decl_list (NULL_TREE
, inner_attrs
);
10859 /* Now TYPE has the actual type. */
10861 if (explicitp
== 1 || (explicitp
&& friendp
))
10863 /* [dcl.fct.spec] The explicit specifier shall only be used in
10864 declarations of constructors within a class definition. */
10865 error ("only declarations of constructors can be `explicit'");
10869 if (RIDBIT_SETP (RID_MUTABLE
, specbits
))
10871 if (current_class_name
== NULL_TREE
|| decl_context
== PARM
|| friendp
)
10873 error ("non-member `%s' cannot be declared `mutable'", name
);
10874 RIDBIT_RESET (RID_MUTABLE
, specbits
);
10876 else if (decl_context
== TYPENAME
|| RIDBIT_SETP (RID_TYPEDEF
, specbits
))
10878 error ("non-object member `%s' cannot be declared `mutable'", name
);
10879 RIDBIT_RESET (RID_MUTABLE
, specbits
);
10881 else if (TREE_CODE (type
) == FUNCTION_TYPE
10882 || TREE_CODE (type
) == METHOD_TYPE
)
10884 error ("function `%s' cannot be declared `mutable'", name
);
10885 RIDBIT_RESET (RID_MUTABLE
, specbits
);
10889 error ("static `%s' cannot be declared `mutable'", name
);
10890 RIDBIT_RESET (RID_MUTABLE
, specbits
);
10892 else if (type_quals
& TYPE_QUAL_CONST
)
10894 error ("const `%s' cannot be declared `mutable'", name
);
10895 RIDBIT_RESET (RID_MUTABLE
, specbits
);
10899 if (declarator
== NULL_TREE
10900 || TREE_CODE (declarator
) == IDENTIFIER_NODE
10901 || (TREE_CODE (declarator
) == TEMPLATE_ID_EXPR
10902 && (TREE_CODE (type
) == FUNCTION_TYPE
10903 || TREE_CODE (type
) == METHOD_TYPE
)))
10905 else if (TREE_CODE (declarator
) == TEMPLATE_ID_EXPR
)
10907 cp_error ("template-id `%D' used as a declarator", declarator
);
10908 declarator
= dname
;
10911 /* Unexpected declarator format. */
10912 my_friendly_abort (990210);
10914 /* If this is declaring a typedef name, return a TYPE_DECL. */
10916 if (RIDBIT_SETP (RID_TYPEDEF
, specbits
) && decl_context
!= TYPENAME
)
10920 /* Note that the grammar rejects storage classes
10921 in typenames, fields or parameters. */
10922 if (current_lang_name
== lang_name_java
)
10923 TYPE_FOR_JAVA (type
) = 1;
10925 if (decl_context
== FIELD
)
10927 if (declarator
== constructor_name (current_class_type
))
10928 cp_pedwarn ("ISO C++ forbids nested type `%D' with same name as enclosing class",
10930 decl
= build_lang_decl (TYPE_DECL
, declarator
, type
);
10933 decl
= build_decl (TYPE_DECL
, declarator
, type
);
10935 /* If the user declares "typedef struct {...} foo" then the
10936 struct will have an anonymous name. Fill that name in now.
10937 Nothing can refer to it, so nothing needs know about the name
10939 if (type
!= error_mark_node
10941 && TYPE_NAME (type
)
10942 && TREE_CODE (TYPE_NAME (type
)) == TYPE_DECL
10943 && ANON_AGGRNAME_P (TYPE_IDENTIFIER (type
))
10944 && CP_TYPE_QUALS (type
) == TYPE_UNQUALIFIED
)
10946 tree oldname
= TYPE_NAME (type
);
10949 /* Replace the anonymous name with the real name everywhere. */
10950 lookup_tag_reverse (type
, declarator
);
10951 for (t
= TYPE_MAIN_VARIANT (type
); t
; t
= TYPE_NEXT_VARIANT (t
))
10952 if (TYPE_NAME (t
) == oldname
)
10953 TYPE_NAME (t
) = decl
;
10955 if (TYPE_LANG_SPECIFIC (type
))
10956 TYPE_WAS_ANONYMOUS (type
) = 1;
10958 /* If this is a typedef within a template class, the nested
10959 type is a (non-primary) template. The name for the
10960 template needs updating as well. */
10961 if (TYPE_LANG_SPECIFIC (type
) && CLASSTYPE_TEMPLATE_INFO (type
))
10962 DECL_NAME (CLASSTYPE_TI_TEMPLATE (type
))
10963 = TYPE_IDENTIFIER (type
);
10965 /* XXX Temporarily set the scope.
10966 When returning, start_decl expects it as NULL_TREE,
10967 and will then then set it using pushdecl. */
10968 my_friendly_assert (DECL_CONTEXT (decl
) == NULL_TREE
, 980404);
10969 if (current_class_type
)
10970 DECL_CONTEXT (decl
) = current_class_type
;
10972 DECL_CONTEXT (decl
) = FROB_CONTEXT (current_namespace
);
10974 DECL_ASSEMBLER_NAME (decl
) = DECL_NAME (decl
);
10975 DECL_ASSEMBLER_NAME (decl
)
10976 = get_identifier (build_overload_name (type
, 1, 1));
10977 DECL_CONTEXT (decl
) = NULL_TREE
;
10979 /* FIXME remangle member functions; member functions of a
10980 type with external linkage have external linkage. */
10983 if (TREE_CODE (type
) == OFFSET_TYPE
|| TREE_CODE (type
) == METHOD_TYPE
)
10985 cp_error_at ("typedef name may not be class-qualified", decl
);
10990 if (ctype
== NULL_TREE
)
10992 if (TREE_CODE (type
) != METHOD_TYPE
)
10993 cp_error_at ("invalid type qualifier for non-member function type", decl
);
10995 ctype
= TYPE_METHOD_BASETYPE (type
);
10997 if (ctype
!= NULL_TREE
)
10998 grok_method_quals (ctype
, decl
, quals
);
11001 if (RIDBIT_SETP (RID_SIGNED
, specbits
)
11002 || (typedef_decl
&& C_TYPEDEF_EXPLICITLY_SIGNED (typedef_decl
)))
11003 C_TYPEDEF_EXPLICITLY_SIGNED (decl
) = 1;
11005 bad_specifiers (decl
, "type", virtualp
, quals
!= NULL_TREE
,
11006 inlinep
, friendp
, raises
!= NULL_TREE
);
11009 error ("typedef declaration includes an initializer");
11014 /* Detect the case of an array type of unspecified size
11015 which came, as such, direct from a typedef name.
11016 We must copy the type, so that each identifier gets
11017 a distinct type, so that each identifier's size can be
11018 controlled separately by its own initializer. */
11020 if (type
== typedef_type
&& TREE_CODE (type
) == ARRAY_TYPE
11021 && TYPE_DOMAIN (type
) == NULL_TREE
)
11023 type
= build_cplus_array_type (TREE_TYPE (type
), TYPE_DOMAIN (type
));
11026 /* If this is a type name (such as, in a cast or sizeof),
11027 compute the type and return it now. */
11029 if (decl_context
== TYPENAME
)
11031 /* Note that the grammar rejects storage classes
11032 in typenames, fields or parameters. */
11033 if (type_quals
!= TYPE_UNQUALIFIED
)
11034 type_quals
= TYPE_UNQUALIFIED
;
11036 /* Special case: "friend class foo" looks like a TYPENAME context. */
11039 if (type_quals
!= TYPE_UNQUALIFIED
)
11041 cp_error ("type qualifiers specified for friend class declaration");
11042 type_quals
= TYPE_UNQUALIFIED
;
11046 cp_error ("`inline' specified for friend class declaration");
11050 /* Only try to do this stuff if we didn't already give up. */
11051 if (type
!= integer_type_node
)
11053 /* A friendly class? */
11054 if (current_class_type
)
11055 make_friend_class (current_class_type
, TYPE_MAIN_VARIANT (type
));
11057 error ("trying to make class `%s' a friend of global scope",
11058 TYPE_NAME_STRING (type
));
11059 type
= void_type_node
;
11064 if (ctype
== NULL_TREE
)
11066 if (TREE_CODE (type
) != METHOD_TYPE
)
11067 cp_error ("invalid qualifiers on non-member function type");
11069 ctype
= TYPE_METHOD_BASETYPE (type
);
11073 tree dummy
= build_decl (TYPE_DECL
, declarator
, type
);
11074 grok_method_quals (ctype
, dummy
, quals
);
11075 type
= TREE_TYPE (dummy
);
11081 else if (declarator
== NULL_TREE
&& decl_context
!= PARM
11082 && decl_context
!= CATCHPARM
11083 && TREE_CODE (type
) != UNION_TYPE
11086 cp_error ("abstract declarator `%T' used as declaration", type
);
11087 declarator
= make_anon_name ();
11090 /* `void' at top level (not within pointer)
11091 is allowed only in typedefs or type names.
11092 We don't complain about parms either, but that is because
11093 a better error message can be made later. */
11095 if (TREE_CODE (type
) == VOID_TYPE
&& decl_context
!= PARM
)
11098 error ("unnamed variable or field declared void");
11099 else if (TREE_CODE (declarator
) == IDENTIFIER_NODE
)
11101 if (IDENTIFIER_OPNAME_P (declarator
))
11102 my_friendly_abort (356);
11104 error ("variable or field `%s' declared void", name
);
11107 error ("variable or field declared void");
11108 type
= integer_type_node
;
11111 /* Now create the decl, which may be a VAR_DECL, a PARM_DECL
11112 or a FUNCTION_DECL, depending on DECL_CONTEXT and TYPE. */
11114 if (decl_context
== PARM
|| decl_context
== CATCHPARM
)
11116 if (ctype
|| in_namespace
)
11117 error ("cannot use `::' in parameter declaration");
11119 /* A parameter declared as an array of T is really a pointer to T.
11120 One declared as a function is really a pointer to a function.
11121 One declared as a member is really a pointer to member. */
11123 if (TREE_CODE (type
) == ARRAY_TYPE
)
11125 /* Transfer const-ness of array into that of type pointed to. */
11126 type
= build_pointer_type (TREE_TYPE (type
));
11127 type_quals
= TYPE_UNQUALIFIED
;
11129 else if (TREE_CODE (type
) == FUNCTION_TYPE
)
11130 type
= build_pointer_type (type
);
11131 else if (TREE_CODE (type
) == OFFSET_TYPE
)
11132 type
= build_pointer_type (type
);
11133 else if (TREE_CODE (type
) == VOID_TYPE
&& declarator
)
11135 error ("declaration of `%s' as void", name
);
11141 register tree decl
;
11143 if (decl_context
== PARM
)
11145 decl
= build_decl (PARM_DECL
, declarator
, type
);
11147 bad_specifiers (decl
, "parameter", virtualp
, quals
!= NULL_TREE
,
11148 inlinep
, friendp
, raises
!= NULL_TREE
);
11150 /* Compute the type actually passed in the parmlist,
11151 for the case where there is no prototype.
11152 (For example, shorts and chars are passed as ints.)
11153 When there is a prototype, this is overridden later. */
11155 DECL_ARG_TYPE (decl
) = type_promotes_to (type
);
11157 else if (decl_context
== FIELD
)
11159 if (type
== error_mark_node
)
11161 /* Happens when declaring arrays of sizes which
11162 are error_mark_node, for example. */
11165 else if (in_namespace
&& !friendp
)
11167 /* Something like struct S { int N::j; }; */
11168 cp_error ("invalid use of `::'");
11171 else if (TREE_CODE (type
) == FUNCTION_TYPE
)
11174 tree function_context
;
11176 /* We catch the others as conflicts with the builtin
11178 if (friendp
&& declarator
== ridpointers
[(int) RID_SIGNED
])
11180 cp_error ("function `%D' cannot be declared friend",
11187 if (ctype
== NULL_TREE
)
11188 ctype
= current_class_type
;
11190 if (ctype
== NULL_TREE
)
11192 cp_error ("can't make `%D' into a method -- not in a class",
11194 return void_type_node
;
11197 /* ``A union may [ ... ] not [ have ] virtual functions.''
11199 if (virtualp
&& TREE_CODE (ctype
) == UNION_TYPE
)
11201 cp_error ("function `%D' declared virtual inside a union",
11203 return void_type_node
;
11206 if (declarator
== ansi_opname
[(int) NEW_EXPR
]
11207 || declarator
== ansi_opname
[(int) VEC_NEW_EXPR
]
11208 || declarator
== ansi_opname
[(int) DELETE_EXPR
]
11209 || declarator
== ansi_opname
[(int) VEC_DELETE_EXPR
])
11213 cp_error ("`%D' cannot be declared virtual, since it is always static",
11218 else if (staticp
< 2)
11219 type
= build_cplus_method_type (ctype
, TREE_TYPE (type
),
11220 TYPE_ARG_TYPES (type
));
11223 /* Tell grokfndecl if it needs to set TREE_PUBLIC on the node. */
11224 function_context
= (ctype
!= NULL_TREE
) ?
11225 decl_function_context (TYPE_MAIN_DECL (ctype
)) : NULL_TREE
;
11226 publicp
= (! friendp
|| ! staticp
)
11227 && function_context
== NULL_TREE
;
11228 decl
= grokfndecl (ctype
, type
,
11229 TREE_CODE (declarator
) != TEMPLATE_ID_EXPR
11230 ? declarator
: dname
,
11232 virtualp
, flags
, quals
, raises
,
11233 friendp
? -1 : 0, friendp
, publicp
, inlinep
,
11234 funcdef_flag
, template_count
, in_namespace
);
11235 if (decl
== NULL_TREE
)
11238 /* This clobbers the attrs stored in `decl' from `attrlist'. */
11239 /* The decl and setting of decl_machine_attr is also turned off. */
11240 decl
= build_decl_attribute_variant (decl
, decl_machine_attr
);
11243 /* [class.conv.ctor]
11245 A constructor declared without the function-specifier
11246 explicit that can be called with a single parameter
11247 specifies a conversion from the type of its first
11248 parameter to the type of its class. Such a constructor
11249 is called a converting constructor. */
11250 if (explicitp
== 2)
11251 DECL_NONCONVERTING_P (decl
) = 1;
11252 else if (DECL_CONSTRUCTOR_P (decl
))
11254 /* The constructor can be called with exactly one
11255 parameter if there is at least one parameter, and
11256 any subsequent parameters have default arguments.
11257 We don't look at the first parameter, which is
11258 really just the `this' parameter for the new
11261 TREE_CHAIN (TYPE_ARG_TYPES (TREE_TYPE (decl
)));
11263 /* Skip the `in_chrg' argument too, if present. */
11264 if (DECL_HAS_IN_CHARGE_PARM_P (decl
))
11265 arg_types
= TREE_CHAIN (arg_types
);
11267 if (arg_types
== void_list_node
11269 && TREE_CHAIN (arg_types
)
11270 && TREE_CHAIN (arg_types
) != void_list_node
11271 && !TREE_PURPOSE (TREE_CHAIN (arg_types
))))
11272 DECL_NONCONVERTING_P (decl
) = 1;
11275 else if (TREE_CODE (type
) == METHOD_TYPE
)
11277 /* We only get here for friend declarations of
11278 members of other classes. */
11279 /* All method decls are public, so tell grokfndecl to set
11280 TREE_PUBLIC, also. */
11281 decl
= grokfndecl (ctype
, type
, declarator
, declarator
,
11282 virtualp
, flags
, quals
, raises
,
11283 friendp
? -1 : 0, friendp
, 1, 0, funcdef_flag
,
11284 template_count
, in_namespace
);
11285 if (decl
== NULL_TREE
)
11288 else if (!staticp
&& ! processing_template_decl
11289 && !COMPLETE_TYPE_P (complete_type (type
))
11290 && (TREE_CODE (type
) != ARRAY_TYPE
|| initialized
== 0))
11293 cp_error ("field `%D' has incomplete type", declarator
);
11295 cp_error ("name `%T' has incomplete type", type
);
11297 /* If we're instantiating a template, tell them which
11298 instantiation made the field's type be incomplete. */
11299 if (current_class_type
11300 && TYPE_NAME (current_class_type
)
11301 && IDENTIFIER_TEMPLATE (TYPE_IDENTIFIER (current_class_type
))
11302 && declspecs
&& TREE_VALUE (declspecs
)
11303 && TREE_TYPE (TREE_VALUE (declspecs
)) == type
)
11304 cp_error (" in instantiation of template `%T'",
11305 current_class_type
);
11307 type
= error_mark_node
;
11314 error ("`%s' is neither function nor member function; cannot be declared friend",
11315 IDENTIFIER_POINTER (declarator
));
11323 /* Friends are treated specially. */
11324 if (ctype
== current_class_type
)
11325 warning ("member functions are implicitly friends of their class");
11328 tree t
= NULL_TREE
;
11329 if (decl
&& DECL_NAME (decl
))
11331 if (template_class_depth (current_class_type
) == 0)
11334 = check_explicit_specialization
11336 template_count
, 2 * (funcdef_flag
!= 0) + 4);
11337 if (decl
== error_mark_node
)
11338 return error_mark_node
;
11341 t
= do_friend (ctype
, declarator
, decl
,
11342 last_function_parms
, attrlist
, flags
, quals
,
11345 if (t
&& funcdef_flag
)
11348 return void_type_node
;
11352 /* Structure field. It may not be a function, except for C++ */
11354 if (decl
== NULL_TREE
)
11360 /* An attempt is being made to initialize a non-static
11361 member. But, from [class.mem]:
11363 4 A member-declarator can contain a
11364 constant-initializer only if it declares a static
11365 member (_class.static_) of integral or enumeration
11366 type, see _class.static.data_.
11368 This used to be relatively common practice, but
11369 the rest of the compiler does not correctly
11370 handle the initialization unless the member is
11371 static so we make it static below. */
11372 cp_pedwarn ("ISO C++ forbids initialization of member `%D'",
11374 cp_pedwarn ("making `%D' static", declarator
);
11378 if (uses_template_parms (type
))
11379 /* We'll check at instantiation time. */
11381 else if (check_static_variable_definition (declarator
,
11383 /* If we just return the declaration, crashes
11384 will sometimes occur. We therefore return
11385 void_type_node, as if this was a friend
11386 declaration, to cause callers to completely
11387 ignore this declaration. */
11388 return void_type_node
;
11391 /* 9.2p13 [class.mem] */
11392 if (declarator
== constructor_name (current_class_type
)
11393 /* Divergence from the standard: In extern "C", we
11394 allow non-static data members here, because C does
11395 and /usr/include/netinet/in.h uses that. */
11396 && (staticp
|| ! in_system_header
))
11397 cp_pedwarn ("ISO C++ forbids data member `%D' with same name as enclosing class",
11402 /* C++ allows static class members. All other work
11403 for this is done by grokfield. */
11404 decl
= build_lang_decl (VAR_DECL
, declarator
, type
);
11405 TREE_STATIC (decl
) = 1;
11406 /* In class context, 'static' means public access. */
11407 TREE_PUBLIC (decl
) = DECL_EXTERNAL (decl
) = 1;
11411 decl
= build_lang_decl (FIELD_DECL
, declarator
, type
);
11412 if (RIDBIT_SETP (RID_MUTABLE
, specbits
))
11414 DECL_MUTABLE_P (decl
) = 1;
11415 RIDBIT_RESET (RID_MUTABLE
, specbits
);
11419 bad_specifiers (decl
, "field", virtualp
, quals
!= NULL_TREE
,
11420 inlinep
, friendp
, raises
!= NULL_TREE
);
11423 else if (TREE_CODE (type
) == FUNCTION_TYPE
|| TREE_CODE (type
) == METHOD_TYPE
)
11425 tree original_name
;
11431 if (TREE_CODE (declarator
) == TEMPLATE_ID_EXPR
)
11432 original_name
= dname
;
11434 original_name
= declarator
;
11436 if (RIDBIT_SETP (RID_AUTO
, specbits
))
11437 error ("storage class `auto' invalid for function `%s'", name
);
11438 else if (RIDBIT_SETP (RID_REGISTER
, specbits
))
11439 error ("storage class `register' invalid for function `%s'", name
);
11441 /* Function declaration not at top level.
11442 Storage classes other than `extern' are not allowed
11443 and `extern' makes no difference. */
11444 if (! toplevel_bindings_p ()
11445 && (RIDBIT_SETP (RID_STATIC
, specbits
)
11446 || RIDBIT_SETP (RID_INLINE
, specbits
))
11449 if (RIDBIT_SETP (RID_STATIC
, specbits
))
11450 pedwarn ("storage class `static' invalid for function `%s' declared out of global scope", name
);
11452 pedwarn ("storage class `inline' invalid for function `%s' declared out of global scope", name
);
11455 if (ctype
== NULL_TREE
)
11459 error ("virtual non-class function `%s'", name
);
11463 else if (TREE_CODE (type
) == FUNCTION_TYPE
&& staticp
< 2)
11464 type
= build_cplus_method_type (ctype
, TREE_TYPE (type
),
11465 TYPE_ARG_TYPES (type
));
11467 /* Record presence of `static'. */
11468 publicp
= (ctype
!= NULL_TREE
11469 || RIDBIT_SETP (RID_EXTERN
, specbits
)
11470 || !RIDBIT_SETP (RID_STATIC
, specbits
));
11472 decl
= grokfndecl (ctype
, type
, original_name
, declarator
,
11473 virtualp
, flags
, quals
, raises
,
11475 publicp
, inlinep
, funcdef_flag
,
11476 template_count
, in_namespace
);
11477 if (decl
== NULL_TREE
)
11482 int illegal_static
= 0;
11484 /* Don't allow a static member function in a class, and forbid
11485 declaring main to be static. */
11486 if (TREE_CODE (type
) == METHOD_TYPE
)
11488 cp_pedwarn ("cannot declare member function `%D' to have static linkage", decl
);
11489 illegal_static
= 1;
11491 else if (current_function_decl
)
11493 /* FIXME need arm citation */
11494 error ("cannot declare static function inside another function");
11495 illegal_static
= 1;
11498 if (illegal_static
)
11501 RIDBIT_RESET (RID_STATIC
, specbits
);
11507 /* It's a variable. */
11509 /* An uninitialized decl with `extern' is a reference. */
11510 decl
= grokvardecl (type
, declarator
, &specbits
,
11512 (type_quals
& TYPE_QUAL_CONST
) != 0,
11514 bad_specifiers (decl
, "variable", virtualp
, quals
!= NULL_TREE
,
11515 inlinep
, friendp
, raises
!= NULL_TREE
);
11519 DECL_CONTEXT (decl
) = ctype
;
11522 cp_pedwarn ("static member `%D' re-declared as static", decl
);
11524 RIDBIT_RESET (RID_STATIC
, specbits
);
11526 if (RIDBIT_SETP (RID_REGISTER
, specbits
) && TREE_STATIC (decl
))
11528 cp_error ("static member `%D' declared `register'", decl
);
11529 RIDBIT_RESET (RID_REGISTER
, specbits
);
11531 if (RIDBIT_SETP (RID_EXTERN
, specbits
) && pedantic
)
11533 cp_pedwarn ("cannot explicitly declare member `%#D' to have extern linkage",
11535 RIDBIT_RESET (RID_EXTERN
, specbits
);
11540 my_friendly_assert (!RIDBIT_SETP (RID_MUTABLE
, specbits
), 19990927);
11542 /* Record `register' declaration for warnings on &
11543 and in case doing stupid register allocation. */
11545 if (RIDBIT_SETP (RID_REGISTER
, specbits
))
11546 DECL_REGISTER (decl
) = 1;
11548 if (RIDBIT_SETP (RID_EXTERN
, specbits
))
11549 DECL_THIS_EXTERN (decl
) = 1;
11551 if (RIDBIT_SETP (RID_STATIC
, specbits
))
11552 DECL_THIS_STATIC (decl
) = 1;
11554 /* Record constancy and volatility. There's no need to do this
11555 when processing a template; we'll do this for the instantiated
11556 declaration based on the type of DECL. */
11557 if (!processing_template_decl
)
11558 c_apply_type_quals_to_decl (type_quals
, decl
);
11564 /* Tell if a parmlist/exprlist looks like an exprlist or a parmlist.
11565 An empty exprlist is a parmlist. An exprlist which
11566 contains only identifiers at the global level
11567 is a parmlist. Otherwise, it is an exprlist. */
11570 parmlist_is_exprlist (exprs
)
11573 if (exprs
== NULL_TREE
|| TREE_PARMLIST (exprs
))
11576 if (toplevel_bindings_p ())
11578 /* At the global level, if these are all identifiers,
11579 then it is a parmlist. */
11582 if (TREE_CODE (TREE_VALUE (exprs
)) != IDENTIFIER_NODE
)
11584 exprs
= TREE_CHAIN (exprs
);
11591 /* Subroutine of start_function. Ensure that each of the parameter
11592 types (as listed in PARMS) is complete, as is required for a
11593 function definition. */
11596 require_complete_types_for_parms (parms
)
11599 for (; parms
; parms
= TREE_CHAIN (parms
))
11601 tree type
= TREE_TYPE (parms
);
11603 /* Try to complete the TYPE. */
11604 type
= complete_type (type
);
11606 if (type
== error_mark_node
)
11609 if (!COMPLETE_TYPE_P (type
))
11611 if (DECL_NAME (parms
))
11612 error ("parameter `%s' has incomplete type",
11613 IDENTIFIER_POINTER (DECL_NAME (parms
)));
11615 error ("parameter has incomplete type");
11616 TREE_TYPE (parms
) = error_mark_node
;
11619 layout_decl (parms
, 0);
11623 /* Returns non-zero if T is a local variable. */
11626 local_variable_p (t
)
11629 if ((TREE_CODE (t
) == VAR_DECL
11630 /* A VAR_DECL with a context that is a _TYPE is a static data
11632 && !TYPE_P (CP_DECL_CONTEXT (t
))
11633 /* Any other non-local variable must be at namespace scope. */
11634 && !DECL_NAMESPACE_SCOPE_P (t
))
11635 || (TREE_CODE (t
) == PARM_DECL
))
11641 /* Returns non-zero if T is an automatic local variable or a label.
11642 (These are the declarations that need to be remapped when the code
11643 containing them is duplicated.) */
11646 nonstatic_local_decl_p (t
)
11649 return ((local_variable_p (t
) && !TREE_STATIC (t
))
11650 || TREE_CODE (t
) == LABEL_DECL
11651 || TREE_CODE (t
) == RESULT_DECL
);
11654 /* Like local_variable_p, but suitable for use as a tree-walking
11658 local_variable_p_walkfn (tp
, walk_subtrees
, data
)
11660 int *walk_subtrees ATTRIBUTE_UNUSED
;
11661 void *data ATTRIBUTE_UNUSED
;
11663 return ((local_variable_p (*tp
) && !DECL_ARTIFICIAL (*tp
))
11664 ? *tp
: NULL_TREE
);
11667 /* Check that ARG, which is a default-argument expression for a
11668 parameter DECL, is legal. Returns ARG, or ERROR_MARK_NODE, if
11669 something goes wrong. DECL may also be a _TYPE node, rather than a
11670 DECL, if there is no DECL available. */
11673 check_default_argument (decl
, arg
)
11680 if (TREE_CODE (arg
) == DEFAULT_ARG
)
11681 /* We get a DEFAULT_ARG when looking at an in-class declaration
11682 with a default argument. Ignore the argument for now; we'll
11683 deal with it after the class is complete. */
11686 if (processing_template_decl
|| uses_template_parms (arg
))
11687 /* We don't do anything checking until instantiation-time. Note
11688 that there may be uninstantiated arguments even for an
11689 instantiated function, since default arguments are not
11690 instantiated until they are needed. */
11699 decl_type
= TREE_TYPE (decl
);
11701 if (arg
== error_mark_node
11702 || decl
== error_mark_node
11703 || TREE_TYPE (arg
) == error_mark_node
11704 || decl_type
== error_mark_node
)
11705 /* Something already went wrong. There's no need to check
11707 return error_mark_node
;
11709 /* [dcl.fct.default]
11711 A default argument expression is implicitly converted to the
11713 if (!TREE_TYPE (arg
)
11714 || !can_convert_arg (decl_type
, TREE_TYPE (arg
), arg
))
11717 cp_error ("default argument for `%#D' has type `%T'",
11718 decl
, TREE_TYPE (arg
));
11720 cp_error ("default argument for parameter of type `%T' has type `%T'",
11721 decl_type
, TREE_TYPE (arg
));
11723 return error_mark_node
;
11726 /* [dcl.fct.default]
11728 Local variables shall not be used in default argument
11731 The keyword `this' shall not be used in a default argument of a
11732 member function. */
11733 var
= walk_tree (&arg
, local_variable_p_walkfn
, NULL
);
11736 cp_error ("default argument `%E' uses local variable `%D'",
11738 return error_mark_node
;
11745 /* Decode the list of parameter types for a function type.
11746 Given the list of things declared inside the parens,
11747 return a list of types.
11749 The list we receive can have three kinds of elements:
11750 an IDENTIFIER_NODE for names given without types,
11751 a TREE_LIST node for arguments given as typespecs or names with typespecs,
11752 or void_type_node, to mark the end of an argument list
11753 when additional arguments are not permitted (... was not used).
11755 FUNCDEF_FLAG is nonzero for a function definition, 0 for
11756 a mere declaration. A nonempty identifier-list gets an error message
11757 when FUNCDEF_FLAG is zero.
11758 If FUNCDEF_FLAG is 1, then parameter types must be complete.
11759 If FUNCDEF_FLAG is -1, then parameter types may be incomplete.
11761 If all elements of the input list contain types,
11762 we return a list of the types.
11763 If all elements contain no type (except perhaps a void_type_node
11764 at the end), we return a null list.
11765 If some have types and some do not, it is an error, and we
11766 return a null list.
11768 Also set last_function_parms to either
11769 a list of names (IDENTIFIER_NODEs) or a chain of PARM_DECLs.
11770 A list of names is converted to a chain of PARM_DECLs
11771 by store_parm_decls so that ultimately it is always a chain of decls.
11773 Note that in C++, parameters can take default values. These default
11774 values are in the TREE_PURPOSE field of the TREE_LIST. It is
11775 an error to specify default values which are followed by parameters
11776 that have no default values, or an ELLIPSES. For simplicities sake,
11777 only parameters which are specified with their types can take on
11781 grokparms (first_parm
, funcdef_flag
)
11785 tree result
= NULL_TREE
;
11786 tree decls
= NULL_TREE
;
11788 if (first_parm
!= NULL_TREE
11789 && TREE_CODE (TREE_VALUE (first_parm
)) == IDENTIFIER_NODE
)
11791 if (! funcdef_flag
)
11792 pedwarn ("parameter names (without types) in function declaration");
11793 last_function_parms
= first_parm
;
11796 else if (first_parm
!= NULL_TREE
11797 && TREE_CODE (TREE_VALUE (first_parm
)) != TREE_LIST
11798 && TREE_CODE (TREE_VALUE (first_parm
)) != VOID_TYPE
)
11799 my_friendly_abort (145);
11802 /* Types were specified. This is a list of declarators
11803 each represented as a TREE_LIST node. */
11804 register tree parm
, chain
;
11805 int any_init
= 0, any_error
= 0;
11807 if (first_parm
!= NULL_TREE
)
11809 tree last_result
= NULL_TREE
;
11810 tree last_decl
= NULL_TREE
;
11812 for (parm
= first_parm
; parm
!= NULL_TREE
; parm
= chain
)
11814 tree type
= NULL_TREE
, list_node
= parm
;
11815 register tree decl
= TREE_VALUE (parm
);
11816 tree init
= TREE_PURPOSE (parm
);
11818 chain
= TREE_CHAIN (parm
);
11819 /* @@ weak defense against parse errors. */
11820 if (TREE_CODE (decl
) != VOID_TYPE
11821 && TREE_CODE (decl
) != TREE_LIST
)
11823 /* Give various messages as the need arises. */
11824 if (TREE_CODE (decl
) == STRING_CST
)
11825 cp_error ("invalid string constant `%E'", decl
);
11826 else if (TREE_CODE (decl
) == INTEGER_CST
)
11827 error ("invalid integer constant in parameter list, did you forget to give parameter name?");
11831 if (TREE_CODE (decl
) != VOID_TYPE
)
11833 decl
= grokdeclarator (TREE_VALUE (decl
),
11834 TREE_PURPOSE (decl
),
11835 PARM
, init
!= NULL_TREE
,
11837 if (! decl
|| TREE_TYPE (decl
) == error_mark_node
)
11840 /* Top-level qualifiers on the parameters are
11841 ignored for function types. */
11842 type
= TYPE_MAIN_VARIANT (TREE_TYPE (decl
));
11844 if (TREE_CODE (type
) == VOID_TYPE
)
11845 decl
= void_type_node
;
11846 else if (TREE_CODE (type
) == METHOD_TYPE
)
11848 if (DECL_NAME (decl
))
11849 /* Cannot use the decl here because
11850 we don't have DECL_CONTEXT set up yet. */
11851 cp_error ("parameter `%D' invalidly declared method type",
11854 error ("parameter invalidly declared method type");
11855 type
= build_pointer_type (type
);
11856 TREE_TYPE (decl
) = type
;
11858 else if (TREE_CODE (type
) == OFFSET_TYPE
)
11860 if (DECL_NAME (decl
))
11861 cp_error ("parameter `%D' invalidly declared offset type",
11864 error ("parameter invalidly declared offset type");
11865 type
= build_pointer_type (type
);
11866 TREE_TYPE (decl
) = type
;
11868 else if (abstract_virtuals_error (decl
, type
))
11869 any_error
= 1; /* Seems like a good idea. */
11870 else if (POINTER_TYPE_P (type
))
11873 while (POINTER_TYPE_P (t
)
11874 || (TREE_CODE (t
) == ARRAY_TYPE
11875 && TYPE_DOMAIN (t
) != NULL_TREE
))
11877 if (TREE_CODE (t
) == ARRAY_TYPE
)
11878 cp_error ("parameter type `%T' includes %s to array of unknown bound",
11880 TYPE_PTR_P (type
) ? "pointer" : "reference");
11884 if (TREE_CODE (decl
) == VOID_TYPE
)
11886 if (result
== NULL_TREE
)
11888 result
= void_list_node
;
11889 last_result
= result
;
11893 TREE_CHAIN (last_result
) = void_list_node
;
11894 last_result
= void_list_node
;
11897 && (chain
!= void_list_node
|| TREE_CHAIN (chain
)))
11898 error ("`void' in parameter list must be entire list");
11902 /* Since there is a prototype, args are passed in their own types. */
11903 DECL_ARG_TYPE (decl
) = TREE_TYPE (decl
);
11904 if (PROMOTE_PROTOTYPES
11905 && (TREE_CODE (type
) == INTEGER_TYPE
11906 || TREE_CODE (type
) == ENUMERAL_TYPE
)
11907 && TYPE_PRECISION (type
) < TYPE_PRECISION (integer_type_node
))
11908 DECL_ARG_TYPE (decl
) = integer_type_node
;
11909 if (!any_error
&& init
)
11912 init
= check_default_argument (decl
, init
);
11917 if (decls
== NULL_TREE
)
11924 TREE_CHAIN (last_decl
) = decl
;
11927 list_node
= tree_cons (init
, type
, NULL_TREE
);
11928 if (result
== NULL_TREE
)
11930 result
= list_node
;
11931 last_result
= result
;
11935 TREE_CHAIN (last_result
) = list_node
;
11936 last_result
= list_node
;
11940 TREE_CHAIN (last_result
) = NULL_TREE
;
11941 /* If there are no parameters, and the function does not end
11942 with `...', then last_decl will be NULL_TREE. */
11943 if (last_decl
!= NULL_TREE
)
11944 TREE_CHAIN (last_decl
) = NULL_TREE
;
11948 last_function_parms
= decls
;
11953 /* Called from the parser to update an element of TYPE_ARG_TYPES for some
11954 FUNCTION_TYPE with the newly parsed version of its default argument, which
11955 was previously digested as text. See snarf_defarg et al in lex.c. */
11958 replace_defarg (arg
, init
)
11961 if (! processing_template_decl
11962 && ! can_convert_arg (TREE_VALUE (arg
), TREE_TYPE (init
), init
))
11963 cp_pedwarn ("invalid type `%T' for default argument to `%T'",
11964 TREE_TYPE (init
), TREE_VALUE (arg
));
11965 TREE_PURPOSE (arg
) = init
;
11968 /* D is a constructor or overloaded `operator='. Returns non-zero if
11969 D's arguments allow it to be a copy constructor, or copy assignment
11978 if (!DECL_FUNCTION_MEMBER_P (d
))
11981 t
= FUNCTION_ARG_CHAIN (d
);
11982 if (DECL_CONSTRUCTOR_P (d
) && DECL_HAS_IN_CHARGE_PARM_P (d
))
11983 t
= TREE_CHAIN (t
);
11984 if (t
&& TREE_CODE (TREE_VALUE (t
)) == REFERENCE_TYPE
11985 && (TYPE_MAIN_VARIANT (TREE_TYPE (TREE_VALUE (t
)))
11986 == DECL_CONTEXT (d
))
11987 && (TREE_CHAIN (t
) == NULL_TREE
11988 || TREE_CHAIN (t
) == void_list_node
11989 || TREE_PURPOSE (TREE_CHAIN (t
))))
11994 /* These memoizing functions keep track of special properties which
11995 a class may have. `grok_ctor_properties' notices whether a class
11996 has a constructor of the form X(X&), and also complains
11997 if the class has a constructor of the form X(X).
11998 `grok_op_properties' takes notice of the various forms of
11999 operator= which are defined, as well as what sorts of type conversion
12000 may apply. Both functions take a FUNCTION_DECL as an argument. */
12003 grok_ctor_properties (ctype
, decl
)
12006 tree parmtypes
= FUNCTION_ARG_CHAIN (decl
);
12007 tree parmtype
= parmtypes
? TREE_VALUE (parmtypes
) : void_type_node
;
12009 /* When a type has virtual baseclasses, a magical first int argument is
12010 added to any ctor so we can tell if the class has been initialized
12011 yet. This could screw things up in this function, so we deliberately
12012 ignore the leading int if we're in that situation. */
12013 if (DECL_HAS_IN_CHARGE_PARM_P (decl
))
12015 my_friendly_assert (parmtypes
12016 && TREE_VALUE (parmtypes
) == integer_type_node
,
12018 parmtypes
= TREE_CHAIN (parmtypes
);
12019 parmtype
= TREE_VALUE (parmtypes
);
12024 A non-template constructor for class X is a copy constructor if
12025 its first parameter is of type X&, const X&, volatile X& or const
12026 volatile X&, and either there are no other parameters or else all
12027 other parameters have default arguments. */
12028 if (TREE_CODE (parmtype
) == REFERENCE_TYPE
12029 && TYPE_MAIN_VARIANT (TREE_TYPE (parmtype
)) == ctype
12030 && (TREE_CHAIN (parmtypes
) == NULL_TREE
12031 || TREE_CHAIN (parmtypes
) == void_list_node
12032 || TREE_PURPOSE (TREE_CHAIN (parmtypes
)))
12033 && !(DECL_TEMPLATE_INSTANTIATION (decl
)
12034 && is_member_template (DECL_TI_TEMPLATE (decl
))))
12036 TYPE_HAS_INIT_REF (ctype
) = 1;
12037 if (CP_TYPE_CONST_P (TREE_TYPE (parmtype
)))
12038 TYPE_HAS_CONST_INIT_REF (ctype
) = 1;
12042 A declaration of a constructor for a class X is ill-formed if its
12043 first parameter is of type (optionally cv-qualified) X and either
12044 there are no other parameters or else all other parameters have
12047 We *don't* complain about member template instantiations that
12048 have this form, though; they can occur as we try to decide what
12049 constructor to use during overload resolution. Since overload
12050 resolution will never prefer such a constructor to the
12051 non-template copy constructor (which is either explicitly or
12052 implicitly defined), there's no need to worry about their
12053 existence. Theoretically, they should never even be
12054 instantiated, but that's hard to forestall. */
12055 else if (TYPE_MAIN_VARIANT (parmtype
) == ctype
12056 && (TREE_CHAIN (parmtypes
) == NULL_TREE
12057 || TREE_CHAIN (parmtypes
) == void_list_node
12058 || TREE_PURPOSE (TREE_CHAIN (parmtypes
)))
12059 && !(DECL_TEMPLATE_INSTANTIATION (decl
)
12060 && is_member_template (DECL_TI_TEMPLATE (decl
))))
12062 cp_error ("invalid constructor; you probably meant `%T (const %T&)'",
12064 SET_IDENTIFIER_ERROR_LOCUS (DECL_NAME (decl
), ctype
);
12067 else if (TREE_CODE (parmtype
) == VOID_TYPE
12068 || TREE_PURPOSE (parmtypes
) != NULL_TREE
)
12069 TYPE_HAS_DEFAULT_CONSTRUCTOR (ctype
) = 1;
12074 /* An operator with this name can be either unary or binary. */
12080 return (name
== ansi_opname
[(int) INDIRECT_REF
]
12081 || name
== ansi_opname
[(int) ADDR_EXPR
]
12082 || name
== ansi_opname
[(int) NEGATE_EXPR
]
12083 || name
== ansi_opname
[(int) POSTINCREMENT_EXPR
]
12084 || name
== ansi_opname
[(int) POSTDECREMENT_EXPR
]
12085 || name
== ansi_opname
[(int) CONVERT_EXPR
]);
12088 /* An operator with this name can only be unary. */
12094 return (name
== ansi_opname
[(int) TRUTH_NOT_EXPR
]
12095 || name
== ansi_opname
[(int) BIT_NOT_EXPR
]
12096 || name
== ansi_opname
[(int) COMPONENT_REF
]
12097 || IDENTIFIER_TYPENAME_P (name
));
12100 /* Do a little sanity-checking on how they declared their operator. */
12103 grok_op_properties (decl
, virtualp
, friendp
)
12105 int virtualp
, friendp
;
12107 tree argtypes
= TYPE_ARG_TYPES (TREE_TYPE (decl
));
12108 int methodp
= (TREE_CODE (TREE_TYPE (decl
)) == METHOD_TYPE
);
12109 tree name
= DECL_NAME (decl
);
12111 if (current_class_type
== NULL_TREE
)
12118 A user-declared copy assignment operator X::operator= is a
12119 non-static non-template member function of class X with
12120 exactly one parameter of type X, X&, const X&, volatile X& or
12121 const volatile X&. */
12122 if (name
== ansi_opname
[(int) MODIFY_EXPR
]
12123 && !(DECL_TEMPLATE_INSTANTIATION (decl
)
12124 && is_member_template (DECL_TI_TEMPLATE (decl
))))
12126 else if (name
== ansi_opname
[(int) CALL_EXPR
])
12127 TYPE_OVERLOADS_CALL_EXPR (current_class_type
) = 1;
12128 else if (name
== ansi_opname
[(int) ARRAY_REF
])
12129 TYPE_OVERLOADS_ARRAY_REF (current_class_type
) = 1;
12130 else if (name
== ansi_opname
[(int) COMPONENT_REF
]
12131 || name
== ansi_opname
[(int) MEMBER_REF
])
12132 TYPE_OVERLOADS_ARROW (current_class_type
) = 1;
12133 else if (name
== ansi_opname
[(int) NEW_EXPR
])
12134 TYPE_HAS_NEW_OPERATOR (current_class_type
) = 1;
12135 else if (name
== ansi_opname
[(int) DELETE_EXPR
])
12136 TYPE_GETS_DELETE (current_class_type
) |= 1;
12137 else if (name
== ansi_opname
[(int) VEC_NEW_EXPR
])
12138 TYPE_HAS_ARRAY_NEW_OPERATOR (current_class_type
) = 1;
12139 else if (name
== ansi_opname
[(int) VEC_DELETE_EXPR
])
12140 TYPE_GETS_DELETE (current_class_type
) |= 2;
12143 if (name
== ansi_opname
[(int) NEW_EXPR
]
12144 || name
== ansi_opname
[(int) VEC_NEW_EXPR
])
12146 /* When the compiler encounters the definition of A::operator new, it
12147 doesn't look at the class declaration to find out if it's static. */
12149 revert_static_member_fn (decl
);
12151 /* Take care of function decl if we had syntax errors. */
12152 if (argtypes
== NULL_TREE
)
12154 = build_function_type (ptr_type_node
,
12155 hash_tree_chain (integer_type_node
,
12158 TREE_TYPE (decl
) = coerce_new_type (TREE_TYPE (decl
));
12160 else if (name
== ansi_opname
[(int) DELETE_EXPR
]
12161 || name
== ansi_opname
[(int) VEC_DELETE_EXPR
])
12164 revert_static_member_fn (decl
);
12166 if (argtypes
== NULL_TREE
)
12168 = build_function_type (void_type_node
,
12169 hash_tree_chain (ptr_type_node
,
12172 TREE_TYPE (decl
) = coerce_delete_type (TREE_TYPE (decl
));
12176 /* An operator function must either be a non-static member function
12177 or have at least one parameter of a class, a reference to a class,
12178 an enumeration, or a reference to an enumeration. 13.4.0.6 */
12179 if (! methodp
|| DECL_STATIC_FUNCTION_P (decl
))
12181 if (IDENTIFIER_TYPENAME_P (name
)
12182 || name
== ansi_opname
[(int) CALL_EXPR
]
12183 || name
== ansi_opname
[(int) MODIFY_EXPR
]
12184 || name
== ansi_opname
[(int) COMPONENT_REF
]
12185 || name
== ansi_opname
[(int) ARRAY_REF
])
12186 cp_error ("`%D' must be a nonstatic member function", decl
);
12191 if (DECL_STATIC_FUNCTION_P (decl
))
12192 cp_error ("`%D' must be either a non-static member function or a non-member function", decl
);
12195 for (; TREE_CODE (TREE_VALUE (p
)) != VOID_TYPE
; p
= TREE_CHAIN (p
))
12197 tree arg
= TREE_VALUE (p
);
12198 if (TREE_CODE (arg
) == REFERENCE_TYPE
)
12199 arg
= TREE_TYPE (arg
);
12201 /* This lets bad template code slip through. */
12202 if (IS_AGGR_TYPE (arg
)
12203 || TREE_CODE (arg
) == ENUMERAL_TYPE
12204 || TREE_CODE (arg
) == TEMPLATE_TYPE_PARM
12205 || TREE_CODE (arg
) == TEMPLATE_TEMPLATE_PARM
)
12209 ("`%D' must have an argument of class or enumerated type",
12216 if (name
== ansi_opname
[(int) CALL_EXPR
])
12217 return; /* No restrictions on args. */
12219 if (IDENTIFIER_TYPENAME_P (name
) && ! DECL_TEMPLATE_INFO (decl
))
12221 tree t
= TREE_TYPE (name
);
12224 int ref
= (TREE_CODE (t
) == REFERENCE_TYPE
);
12225 const char *what
= 0;
12228 t
= TYPE_MAIN_VARIANT (TREE_TYPE (t
));
12230 if (TREE_CODE (t
) == VOID_TYPE
)
12232 else if (t
== current_class_type
)
12233 what
= "the same type";
12234 /* Don't force t to be complete here. */
12235 else if (IS_AGGR_TYPE (t
)
12236 && COMPLETE_TYPE_P (t
)
12237 && DERIVED_FROM_P (t
, current_class_type
))
12238 what
= "a base class";
12241 warning ("conversion to %s%s will never use a type conversion operator",
12242 ref
? "a reference to " : "", what
);
12246 if (name
== ansi_opname
[(int) MODIFY_EXPR
])
12250 if (list_length (argtypes
) != 3 && methodp
)
12252 cp_error ("`%D' must take exactly one argument", decl
);
12255 parmtype
= TREE_VALUE (TREE_CHAIN (argtypes
));
12257 if (copy_assignment_arg_p (parmtype
, virtualp
)
12260 TYPE_HAS_ASSIGN_REF (current_class_type
) = 1;
12261 if (TREE_CODE (parmtype
) != REFERENCE_TYPE
12262 || CP_TYPE_CONST_P (TREE_TYPE (parmtype
)))
12263 TYPE_HAS_CONST_ASSIGN_REF (current_class_type
) = 1;
12266 else if (name
== ansi_opname
[(int) COND_EXPR
])
12269 cp_error ("ISO C++ prohibits overloading operator ?:");
12271 else if (ambi_op_p (name
))
12273 if (list_length (argtypes
) == 2)
12275 else if (list_length (argtypes
) == 3)
12277 if ((name
== ansi_opname
[(int) POSTINCREMENT_EXPR
]
12278 || name
== ansi_opname
[(int) POSTDECREMENT_EXPR
])
12279 && ! processing_template_decl
12280 && ! same_type_p (TREE_VALUE (TREE_CHAIN (argtypes
)), integer_type_node
))
12283 cp_error ("postfix `%D' must take `int' as its argument",
12287 ("postfix `%D' must take `int' as its second argument",
12294 cp_error ("`%D' must take either zero or one argument", decl
);
12296 cp_error ("`%D' must take either one or two arguments", decl
);
12299 /* More Effective C++ rule 6. */
12301 && (name
== ansi_opname
[(int) POSTINCREMENT_EXPR
]
12302 || name
== ansi_opname
[(int) POSTDECREMENT_EXPR
]))
12304 tree arg
= TREE_VALUE (argtypes
);
12305 tree ret
= TREE_TYPE (TREE_TYPE (decl
));
12306 if (methodp
|| TREE_CODE (arg
) == REFERENCE_TYPE
)
12307 arg
= TREE_TYPE (arg
);
12308 arg
= TYPE_MAIN_VARIANT (arg
);
12309 if (list_length (argtypes
) == 2)
12311 if (TREE_CODE (ret
) != REFERENCE_TYPE
12312 || !same_type_p (TYPE_MAIN_VARIANT (TREE_TYPE (ret
)),
12314 cp_warning ("prefix `%D' should return `%T'", decl
,
12315 build_reference_type (arg
));
12319 if (!same_type_p (TYPE_MAIN_VARIANT (ret
), arg
))
12320 cp_warning ("postfix `%D' should return `%T'", decl
, arg
);
12324 else if (unary_op_p (name
))
12326 if (list_length (argtypes
) != 2)
12329 cp_error ("`%D' must take `void'", decl
);
12331 cp_error ("`%D' must take exactly one argument", decl
);
12334 else /* if (binary_op_p (name)) */
12336 if (list_length (argtypes
) != 3)
12339 cp_error ("`%D' must take exactly one argument", decl
);
12341 cp_error ("`%D' must take exactly two arguments", decl
);
12344 /* More Effective C++ rule 7. */
12346 && (name
== ansi_opname
[TRUTH_ANDIF_EXPR
]
12347 || name
== ansi_opname
[TRUTH_ORIF_EXPR
]
12348 || name
== ansi_opname
[COMPOUND_EXPR
]))
12349 cp_warning ("user-defined `%D' always evaluates both arguments",
12353 /* Effective C++ rule 23. */
12355 && list_length (argtypes
) == 3
12356 && (name
== ansi_opname
[PLUS_EXPR
]
12357 || name
== ansi_opname
[MINUS_EXPR
]
12358 || name
== ansi_opname
[TRUNC_DIV_EXPR
]
12359 || name
== ansi_opname
[MULT_EXPR
])
12360 && TREE_CODE (TREE_TYPE (TREE_TYPE (decl
))) == REFERENCE_TYPE
)
12361 cp_warning ("`%D' should return by value", decl
);
12364 for (; argtypes
&& argtypes
!= void_list_node
;
12365 argtypes
= TREE_CHAIN (argtypes
))
12366 if (TREE_PURPOSE (argtypes
))
12368 TREE_PURPOSE (argtypes
) = NULL_TREE
;
12369 if (name
== ansi_opname
[(int) POSTINCREMENT_EXPR
]
12370 || name
== ansi_opname
[(int) POSTDECREMENT_EXPR
])
12373 cp_pedwarn ("`%D' cannot have default arguments", decl
);
12376 cp_error ("`%D' cannot have default arguments", decl
);
12382 static const char *
12384 enum tag_types code
;
12397 my_friendly_abort (981122);
12401 /* Get the struct, enum or union (CODE says which) with tag NAME.
12402 Define the tag as a forward-reference if it is not defined.
12404 C++: If a class derivation is given, process it here, and report
12405 an error if multiple derivation declarations are not identical.
12407 If this is a definition, come in through xref_tag and only look in
12408 the current frame for the name (since C++ allows new names in any
12412 xref_tag (code_type_node
, name
, globalize
)
12413 tree code_type_node
;
12417 enum tag_types tag_code
;
12418 enum tree_code code
;
12419 register tree ref
, t
;
12420 struct binding_level
*b
= current_binding_level
;
12422 tree attributes
= NULL_TREE
;
12423 tree context
= NULL_TREE
;
12425 /* If we are called from the parser, code_type_node will sometimes be a
12426 TREE_LIST. This indicates that the user wrote
12427 "class __attribute__ ((foo)) bar". Extract the attributes so we can
12429 if (TREE_CODE (code_type_node
) == TREE_LIST
)
12431 attributes
= TREE_PURPOSE (code_type_node
);
12432 code_type_node
= TREE_VALUE (code_type_node
);
12435 tag_code
= (enum tag_types
) tree_low_cst (code_type_node
, 1);
12440 code
= RECORD_TYPE
;
12446 code
= ENUMERAL_TYPE
;
12449 my_friendly_abort (18);
12452 /* If a cross reference is requested, look up the type
12453 already defined for this tag and return it. */
12457 name
= TYPE_IDENTIFIER (t
);
12461 t
= IDENTIFIER_TYPE_VALUE (name
);
12463 if (t
&& TREE_CODE (t
) != code
&& TREE_CODE (t
) != TEMPLATE_TYPE_PARM
12464 && TREE_CODE (t
) != TEMPLATE_TEMPLATE_PARM
)
12469 /* If we know we are defining this tag, only look it up in
12470 this scope and don't try to find it as a type. */
12471 ref
= lookup_tag (code
, name
, b
, 1);
12477 /* [dcl.type.elab] If the identifier resolves to a
12478 typedef-name or a template type-parameter, the
12479 elaborated-type-specifier is ill-formed. */
12480 if (t
!= TYPE_MAIN_VARIANT (t
)
12481 || (CLASS_TYPE_P (t
) && TYPE_WAS_ANONYMOUS (t
)))
12482 cp_pedwarn ("using typedef-name `%D' after `%s'",
12483 TYPE_NAME (t
), tag_name (tag_code
));
12484 else if (TREE_CODE (t
) == TEMPLATE_TYPE_PARM
)
12485 cp_error ("using template type parameter `%T' after `%s'",
12486 t
, tag_name (tag_code
));
12491 ref
= lookup_tag (code
, name
, b
, 0);
12495 /* Try finding it as a type declaration. If that wins,
12497 ref
= lookup_name (name
, 1);
12499 if (ref
!= NULL_TREE
12500 && processing_template_decl
12501 && DECL_CLASS_TEMPLATE_P (ref
)
12502 && template_class_depth (current_class_type
) == 0)
12503 /* Since GLOBALIZE is true, we're declaring a global
12504 template, so we want this type. */
12505 ref
= DECL_TEMPLATE_RESULT (ref
);
12507 if (ref
&& TREE_CODE (ref
) == TYPE_DECL
12508 && TREE_CODE (TREE_TYPE (ref
)) == code
)
12509 ref
= TREE_TYPE (ref
);
12514 if (ref
&& current_class_type
12515 && template_class_depth (current_class_type
)
12516 && PROCESSING_REAL_TEMPLATE_DECL_P ())
12518 /* Since GLOBALIZE is non-zero, we are not looking at a
12519 definition of this tag. Since, in addition, we are currently
12520 processing a (member) template declaration of a template
12521 class, we must be very careful; consider:
12528 { template <class V>
12529 friend struct S1; };
12531 Here, the S2::S1 declaration should not be confused with the
12532 outer declaration. In particular, the inner version should
12533 have a template parameter of level 2, not level 1. This
12534 would be particularly important if the member declaration
12537 template <class V = U> friend struct S1;
12539 say, when we should tsubst into `U' when instantiating
12540 S2. On the other hand, when presented with:
12550 we must find the inner binding eventually. We
12551 accomplish this by making sure that the new type we
12552 create to represent this declaration has the right
12554 context
= TYPE_CONTEXT (ref
);
12561 /* If no such tag is yet defined, create a forward-reference node
12562 and record it as the "definition".
12563 When a real declaration of this type is found,
12564 the forward-reference will be altered into a real type. */
12565 if (code
== ENUMERAL_TYPE
)
12567 cp_error ("use of enum `%#D' without previous declaration", name
);
12569 ref
= make_node (ENUMERAL_TYPE
);
12571 /* Give the type a default layout like unsigned int
12572 to avoid crashing if it does not get defined. */
12573 TYPE_MODE (ref
) = TYPE_MODE (unsigned_type_node
);
12574 TYPE_ALIGN (ref
) = TYPE_ALIGN (unsigned_type_node
);
12575 TREE_UNSIGNED (ref
) = 1;
12576 TYPE_PRECISION (ref
) = TYPE_PRECISION (unsigned_type_node
);
12577 TYPE_MIN_VALUE (ref
) = TYPE_MIN_VALUE (unsigned_type_node
);
12578 TYPE_MAX_VALUE (ref
) = TYPE_MAX_VALUE (unsigned_type_node
);
12580 /* Enable us to recognize when a type is created in class context.
12581 To do nested classes correctly, this should probably be cleared
12582 out when we leave this classes scope. Currently this in only
12583 done in `start_enum'. */
12585 pushtag (name
, ref
, globalize
);
12589 struct binding_level
*old_b
= class_binding_level
;
12591 ref
= make_aggr_type (code
);
12592 TYPE_CONTEXT (ref
) = context
;
12594 #ifdef NONNESTED_CLASSES
12595 /* Class types don't nest the way enums do. */
12596 class_binding_level
= (struct binding_level
*)0;
12598 pushtag (name
, ref
, globalize
);
12599 class_binding_level
= old_b
;
12604 if (!globalize
&& processing_template_decl
&& IS_AGGR_TYPE (ref
))
12605 redeclare_class_template (ref
, current_template_parms
);
12608 /* Until the type is defined, tentatively accept whatever
12609 structure tag the user hands us. */
12610 if (!COMPLETE_TYPE_P (ref
)
12611 && ref
!= current_class_type
12612 /* Have to check this, in case we have contradictory tag info. */
12613 && IS_AGGR_TYPE_CODE (TREE_CODE (ref
)))
12615 if (tag_code
== class_type
)
12616 CLASSTYPE_DECLARED_CLASS (ref
) = 1;
12617 else if (tag_code
== record_type
)
12618 CLASSTYPE_DECLARED_CLASS (ref
) = 0;
12621 TREE_TYPE (ref
) = attributes
;
12627 xref_tag_from_type (old
, id
, globalize
)
12631 tree code_type_node
;
12633 if (TREE_CODE (old
) == RECORD_TYPE
)
12634 code_type_node
= (CLASSTYPE_DECLARED_CLASS (old
)
12635 ? class_type_node
: record_type_node
);
12637 code_type_node
= union_type_node
;
12639 if (id
== NULL_TREE
)
12640 id
= TYPE_IDENTIFIER (old
);
12642 return xref_tag (code_type_node
, id
, globalize
);
12645 /* REF is a type (named NAME), for which we have just seen some
12646 baseclasses. BINFO is a list of those baseclasses; the
12647 TREE_PURPOSE is an access_* node, and the TREE_VALUE is the type of
12648 the base-class. CODE_TYPE_NODE indicates whether REF is a class,
12649 struct, or union. */
12652 xref_basetypes (code_type_node
, name
, ref
, binfo
)
12653 tree code_type_node
;
12657 /* In the declaration `A : X, Y, ... Z' we mark all the types
12658 (A, X, Y, ..., Z) so we can check for duplicates. */
12663 enum tag_types tag_code
= (enum tag_types
) tree_low_cst (code_type_node
, 1);
12665 if (tag_code
== union_type
)
12667 cp_error ("derived union `%T' invalid", ref
);
12671 len
= list_length (binfo
);
12673 /* First, make sure that any templates in base-classes are
12674 instantiated. This ensures that if we call ourselves recursively
12675 we do not get confused about which classes are marked and which
12677 for (base
= binfo
; base
; base
= TREE_CHAIN (base
))
12678 complete_type (TREE_VALUE (base
));
12680 SET_CLASSTYPE_MARKED (ref
);
12681 BINFO_BASETYPES (TYPE_BINFO (ref
)) = binfos
= make_tree_vec (len
);
12683 for (i
= 0; binfo
; binfo
= TREE_CHAIN (binfo
))
12685 /* The base of a derived struct is public by default. */
12687 = (TREE_PURPOSE (binfo
) == access_public_node
12688 || TREE_PURPOSE (binfo
) == access_public_virtual_node
12689 || (tag_code
!= class_type
12690 && (TREE_PURPOSE (binfo
) == access_default_node
12691 || TREE_PURPOSE (binfo
) == access_default_virtual_node
)));
12693 = (TREE_PURPOSE (binfo
) == access_protected_node
12694 || TREE_PURPOSE (binfo
) == access_protected_virtual_node
);
12696 = (TREE_PURPOSE (binfo
) == access_private_virtual_node
12697 || TREE_PURPOSE (binfo
) == access_protected_virtual_node
12698 || TREE_PURPOSE (binfo
) == access_public_virtual_node
12699 || TREE_PURPOSE (binfo
) == access_default_virtual_node
);
12700 tree basetype
= TREE_VALUE (binfo
);
12703 if (basetype
&& TREE_CODE (basetype
) == TYPE_DECL
)
12704 basetype
= TREE_TYPE (basetype
);
12706 || (TREE_CODE (basetype
) != RECORD_TYPE
12707 && TREE_CODE (basetype
) != TYPENAME_TYPE
12708 && TREE_CODE (basetype
) != TEMPLATE_TYPE_PARM
12709 && TREE_CODE (basetype
) != TEMPLATE_TEMPLATE_PARM
))
12711 cp_error ("base type `%T' fails to be a struct or class type",
12712 TREE_VALUE (binfo
));
12716 GNU_xref_hier (name
, basetype
, via_public
, via_virtual
, 0);
12718 /* This code replaces similar code in layout_basetypes.
12719 We put the complete_type first for implicit `typename'. */
12720 if (!COMPLETE_TYPE_P (basetype
)
12721 && ! (current_template_parms
&& uses_template_parms (basetype
)))
12723 cp_error ("base class `%T' has incomplete type", basetype
);
12728 if (CLASSTYPE_MARKED (basetype
))
12730 if (basetype
== ref
)
12731 cp_error ("recursive type `%T' undefined", basetype
);
12733 cp_error ("duplicate base type `%T' invalid", basetype
);
12737 if (TYPE_FOR_JAVA (basetype
)
12738 && (current_lang_stack
12739 == &VARRAY_TREE (current_lang_base
, 0)))
12740 TYPE_FOR_JAVA (ref
) = 1;
12742 /* Note that the BINFO records which describe individual
12743 inheritances are *not* shared in the lattice! They
12744 cannot be shared because a given baseclass may be
12745 inherited with different `accessibility' by different
12746 derived classes. (Each BINFO record describing an
12747 individual inheritance contains flags which say what
12748 the `accessibility' of that particular inheritance is.) */
12751 = make_binfo (size_zero_node
, basetype
,
12752 CLASS_TYPE_P (basetype
)
12753 ? TYPE_BINFO_VTABLE (basetype
) : NULL_TREE
,
12754 CLASS_TYPE_P (basetype
)
12755 ? TYPE_BINFO_VIRTUALS (basetype
) : NULL_TREE
);
12757 TREE_VEC_ELT (binfos
, i
) = base_binfo
;
12758 TREE_VIA_PUBLIC (base_binfo
) = via_public
;
12759 TREE_VIA_PROTECTED (base_binfo
) = via_protected
;
12760 TREE_VIA_VIRTUAL (base_binfo
) = via_virtual
;
12761 BINFO_INHERITANCE_CHAIN (base_binfo
) = TYPE_BINFO (ref
);
12763 /* We need to unshare the binfos now so that lookups during class
12764 definition work. */
12765 unshare_base_binfos (base_binfo
);
12767 SET_CLASSTYPE_MARKED (basetype
);
12769 /* We are free to modify these bits because they are meaningless
12770 at top level, and BASETYPE is a top-level type. */
12771 if (via_virtual
|| TYPE_USES_VIRTUAL_BASECLASSES (basetype
))
12773 TYPE_USES_VIRTUAL_BASECLASSES (ref
) = 1;
12774 /* Converting to a virtual base class requires looking
12775 up the offset of the virtual base. */
12776 TYPE_BASE_CONVS_MAY_REQUIRE_CODE_P (ref
) = 1;
12779 if (CLASS_TYPE_P (basetype
))
12781 TYPE_HAS_NEW_OPERATOR (ref
)
12782 |= TYPE_HAS_NEW_OPERATOR (basetype
);
12783 TYPE_HAS_ARRAY_NEW_OPERATOR (ref
)
12784 |= TYPE_HAS_ARRAY_NEW_OPERATOR (basetype
);
12785 TYPE_GETS_DELETE (ref
) |= TYPE_GETS_DELETE (basetype
);
12786 /* If the base-class uses multiple inheritance, so do we. */
12787 TYPE_USES_MULTIPLE_INHERITANCE (ref
)
12788 |= TYPE_USES_MULTIPLE_INHERITANCE (basetype
);
12789 /* Likewise, if converting to a base of the base may require
12790 code, then we may need to generate code to convert to a
12792 TYPE_BASE_CONVS_MAY_REQUIRE_CODE_P (ref
)
12793 |= TYPE_BASE_CONVS_MAY_REQUIRE_CODE_P (basetype
);
12800 TREE_VEC_LENGTH (binfos
) = i
;
12802 BINFO_BASETYPES (TYPE_BINFO (ref
)) = NULL_TREE
;
12806 TYPE_USES_MULTIPLE_INHERITANCE (ref
) = 1;
12807 /* If there is more than one non-empty they cannot be at the same
12809 TYPE_BASE_CONVS_MAY_REQUIRE_CODE_P (ref
) = 1;
12812 /* Unmark all the types. */
12814 CLEAR_CLASSTYPE_MARKED (BINFO_TYPE (TREE_VEC_ELT (binfos
, i
)));
12815 CLEAR_CLASSTYPE_MARKED (ref
);
12817 /* Now that we know all the base-classes, set up the list of virtual
12819 get_vbase_types (ref
);
12823 /* Begin compiling the definition of an enumeration type.
12824 NAME is its name (or null if anonymous).
12825 Returns the type object, as yet incomplete.
12826 Also records info about it so that build_enumerator
12827 may be used to declare the individual values as they are read. */
12833 register tree enumtype
= NULL_TREE
;
12834 struct binding_level
*b
= current_binding_level
;
12836 /* If this is the real definition for a previous forward reference,
12837 fill in the contents in the same object that used to be the
12838 forward reference. */
12840 if (name
!= NULL_TREE
)
12841 enumtype
= lookup_tag (ENUMERAL_TYPE
, name
, b
, 1);
12843 if (enumtype
!= NULL_TREE
&& TREE_CODE (enumtype
) == ENUMERAL_TYPE
)
12845 cp_error ("multiple definition of `%#T'", enumtype
);
12846 cp_error_at ("previous definition here", enumtype
);
12847 /* Clear out TYPE_VALUES, and start again. */
12848 TYPE_VALUES (enumtype
) = NULL_TREE
;
12852 enumtype
= make_node (ENUMERAL_TYPE
);
12853 pushtag (name
, enumtype
, 0);
12856 if (current_class_type
)
12857 TREE_ADDRESSABLE (b
->tags
) = 1;
12859 GNU_xref_decl (current_function_decl
, enumtype
);
12863 /* After processing and defining all the values of an enumeration type,
12864 install their decls in the enumeration type and finish it off.
12865 ENUMTYPE is the type object and VALUES a list of name-value pairs.
12866 Returns ENUMTYPE. */
12869 finish_enum (enumtype
)
12872 register tree minnode
= NULL_TREE
, maxnode
= NULL_TREE
;
12873 /* Calculate the maximum value of any enumerator in this type. */
12875 tree values
= TYPE_VALUES (enumtype
);
12880 for (pair
= values
; pair
; pair
= TREE_CHAIN (pair
))
12885 /* The TREE_VALUE is a CONST_DECL for this enumeration
12887 decl
= TREE_VALUE (pair
);
12891 Following the closing brace of an enum-specifier, each
12892 enumerator has the type of its enumeration. Prior to the
12893 closing brace, the type of each enumerator is the type of
12894 its initializing value. */
12895 TREE_TYPE (decl
) = enumtype
;
12897 /* The DECL_INITIAL will be NULL if we are processing a
12898 template declaration and this enumeration constant had no
12899 explicit initializer. */
12900 value
= DECL_INITIAL (decl
);
12901 if (value
&& !processing_template_decl
)
12903 /* Set the TREE_TYPE for the VALUE as well. That's so
12904 that when we call decl_constant_value we get an
12905 entity of the right type (but with the constant
12906 value). Since we shouldn't ever call
12907 decl_constant_value on a template type, there's no
12908 reason to do that when processing_template_decl.
12909 And, if the expression is something like a
12910 TEMPLATE_PARM_INDEX or a CAST_EXPR doing so will
12911 wreak havoc on the intended type of the expression.
12913 Of course, there's also no point in trying to compute
12914 minimum or maximum values if we're in a template. */
12915 TREE_TYPE (value
) = enumtype
;
12918 minnode
= maxnode
= value
;
12919 else if (tree_int_cst_lt (maxnode
, value
))
12921 else if (tree_int_cst_lt (value
, minnode
))
12925 if (processing_template_decl
)
12926 /* If this is just a template, leave the CONST_DECL
12927 alone. That way tsubst_copy will find CONST_DECLs for
12928 CONST_DECLs, and not INTEGER_CSTs. */
12931 /* In the list we're building up, we want the enumeration
12932 values, not the CONST_DECLs. */
12933 TREE_VALUE (pair
) = value
;
12937 maxnode
= minnode
= integer_zero_node
;
12939 TYPE_VALUES (enumtype
) = nreverse (values
);
12941 if (processing_template_decl
)
12943 tree scope
= current_scope ();
12944 if (scope
&& TREE_CODE (scope
) == FUNCTION_DECL
)
12945 add_tree (build_min (TAG_DEFN
, enumtype
));
12949 int unsignedp
= tree_int_cst_sgn (minnode
) >= 0;
12950 int lowprec
= min_precision (minnode
, unsignedp
);
12951 int highprec
= min_precision (maxnode
, unsignedp
);
12952 int precision
= MAX (lowprec
, highprec
);
12955 TYPE_SIZE (enumtype
) = NULL_TREE
;
12957 /* Set TYPE_MIN_VALUE and TYPE_MAX_VALUE according to `precision'. */
12959 TYPE_PRECISION (enumtype
) = precision
;
12961 fixup_unsigned_type (enumtype
);
12963 fixup_signed_type (enumtype
);
12965 if (flag_short_enums
|| (precision
> TYPE_PRECISION (integer_type_node
)))
12966 /* Use the width of the narrowest normal C type which is wide
12968 TYPE_PRECISION (enumtype
) = TYPE_PRECISION (type_for_size
12971 TYPE_PRECISION (enumtype
) = TYPE_PRECISION (integer_type_node
);
12973 TYPE_SIZE (enumtype
) = 0;
12974 layout_type (enumtype
);
12976 /* Fix up all variant types of this enum type. */
12977 for (tem
= TYPE_MAIN_VARIANT (enumtype
); tem
;
12978 tem
= TYPE_NEXT_VARIANT (tem
))
12980 TYPE_VALUES (tem
) = TYPE_VALUES (enumtype
);
12981 TYPE_MIN_VALUE (tem
) = TYPE_MIN_VALUE (enumtype
);
12982 TYPE_MAX_VALUE (tem
) = TYPE_MAX_VALUE (enumtype
);
12983 TYPE_SIZE (tem
) = TYPE_SIZE (enumtype
);
12984 TYPE_SIZE_UNIT (tem
) = TYPE_SIZE_UNIT (enumtype
);
12985 TYPE_MODE (tem
) = TYPE_MODE (enumtype
);
12986 TYPE_PRECISION (tem
) = TYPE_PRECISION (enumtype
);
12987 TYPE_ALIGN (tem
) = TYPE_ALIGN (enumtype
);
12988 TREE_UNSIGNED (tem
) = TREE_UNSIGNED (enumtype
);
12991 /* Finish debugging output for this type. */
12992 rest_of_type_compilation (enumtype
, namespace_bindings_p ());
12998 /* Build and install a CONST_DECL for an enumeration constant of the
12999 enumeration type ENUMTYPE whose NAME and VALUE (if any) are provided.
13000 Assignment of sequential values by default is handled here. */
13003 build_enumerator (name
, value
, enumtype
)
13013 /* Remove no-op casts from the value. */
13015 STRIP_TYPE_NOPS (value
);
13017 if (! processing_template_decl
)
13019 /* Validate and default VALUE. */
13020 if (value
!= NULL_TREE
)
13022 value
= decl_constant_value (value
);
13024 if (TREE_CODE (value
) == INTEGER_CST
)
13026 value
= default_conversion (value
);
13027 constant_expression_warning (value
);
13031 cp_error ("enumerator value for `%D' not integer constant", name
);
13036 /* Default based on previous value. */
13037 if (value
== NULL_TREE
&& ! processing_template_decl
)
13041 if (TYPE_VALUES (enumtype
))
13043 /* The next value is the previous value ... */
13044 prev_value
= DECL_INITIAL (TREE_VALUE (TYPE_VALUES (enumtype
)));
13045 /* ... plus one. */
13046 value
= build_binary_op (PLUS_EXPR
,
13050 if (tree_int_cst_lt (value
, prev_value
))
13051 cp_error ("overflow in enumeration values at `%D'", name
);
13054 value
= integer_zero_node
;
13057 /* Remove no-op casts from the value. */
13059 STRIP_TYPE_NOPS (value
);
13061 /* To fix MAX_VAL enum consts. (bkoz) */
13062 TREE_TYPE (value
) = integer_type_node
;
13066 /* We always have to copy here; not all INTEGER_CSTs are unshared.
13067 Even in other cases, we will later (in finish_enum) be setting
13068 the type of VALUE. But, we don't need to make a copy if this
13069 VALUE is one of the enumeration constants for this same
13070 enumeration type. */
13071 for (values
= TYPE_VALUES (enumtype
); values
; values
= TREE_CHAIN (values
))
13072 if (TREE_VALUE (values
) == value
)
13074 /* If we didn't break out of the loop, then we do need a copy. */
13075 if (!values
&& value
)
13076 value
= copy_node (value
);
13078 /* C++ associates enums with global, function, or class declarations. */
13079 context
= current_scope ();
13081 /* Build the actual enumeration constant. Note that the enumeration
13082 constants have the type of their initializers until the
13083 enumeration is complete:
13087 Following the closing brace of an enum-specifier, each enumer-
13088 ator has the type of its enumeration. Prior to the closing
13089 brace, the type of each enumerator is the type of its
13090 initializing value.
13092 In finish_enum we will reset the type. Of course, if we're
13093 processing a template, there may be no value. */
13094 type
= value
? TREE_TYPE (value
) : NULL_TREE
;
13096 if (context
&& context
== current_class_type
)
13097 /* This enum declaration is local to the class. We need the full
13098 lang_decl so that we can record DECL_CLASS_CONTEXT, for example. */
13099 decl
= build_lang_decl (CONST_DECL
, name
, type
);
13101 /* It's a global enum, or it's local to a function. (Note local to
13102 a function could mean local to a class method. */
13103 decl
= build_decl (CONST_DECL
, name
, type
);
13105 DECL_CONTEXT (decl
) = FROB_CONTEXT (context
);
13106 DECL_INITIAL (decl
) = value
;
13107 TREE_READONLY (decl
) = 1;
13109 if (context
&& context
== current_class_type
)
13110 /* In something like `struct S { enum E { i = 7 }; };' we put `i'
13111 on the TYPE_FIELDS list for `S'. (That's so that you can say
13112 things like `S::i' later.) */
13113 finish_member_declaration (decl
);
13117 GNU_xref_decl (current_function_decl
, decl
);
13120 /* Add this enumeration constant to the list for this type. */
13121 TYPE_VALUES (enumtype
) = tree_cons (name
, decl
, TYPE_VALUES (enumtype
));
13125 static int function_depth
;
13127 /* We're defining DECL. Make sure that it's type is OK. */
13130 check_function_type (decl
)
13133 tree fntype
= TREE_TYPE (decl
);
13134 tree return_type
= complete_type (TREE_TYPE (fntype
));
13136 /* In a function definition, arg types must be complete. */
13137 require_complete_types_for_parms (current_function_parms
);
13139 if (!COMPLETE_OR_VOID_TYPE_P (return_type
))
13141 cp_error ("return type `%#T' is incomplete", TREE_TYPE (fntype
));
13143 /* Make it return void instead, but don't change the
13144 type of the DECL_RESULT, in case we have a named return value. */
13145 if (TREE_CODE (fntype
) == METHOD_TYPE
)
13147 tree ctype
= TREE_TYPE (TREE_VALUE (TYPE_ARG_TYPES (fntype
)));
13149 = build_cplus_method_type (ctype
,
13151 FUNCTION_ARG_CHAIN (decl
));
13155 = build_function_type (void_type_node
,
13156 TYPE_ARG_TYPES (TREE_TYPE (decl
)));
13158 = build_exception_variant (fntype
,
13159 TYPE_RAISES_EXCEPTIONS (fntype
));
13162 abstract_virtuals_error (decl
, TREE_TYPE (fntype
));
13165 /* Create the FUNCTION_DECL for a function definition.
13166 DECLSPECS and DECLARATOR are the parts of the declaration;
13167 they describe the function's name and the type it returns,
13168 but twisted together in a fashion that parallels the syntax of C.
13170 FLAGS is a bitwise or of SF_PRE_PARSED (indicating that the
13171 DECLARATOR is really the DECL for the function we are about to
13172 process and that DECLSPECS should be ignored), SF_INCLASS_INLINE
13173 indicating that the function is an inline defined in-class, and
13174 SF_EXPAND indicating that we should generate RTL for this
13177 This function creates a binding context for the function body
13178 as well as setting up the FUNCTION_DECL in current_function_decl.
13180 Returns 1 on success. If the DECLARATOR is not suitable for a function
13181 (it defines a datum instead), we return 0, which tells
13182 yyparse to report a parse error.
13184 For C++, we must first check whether that datum makes any sense.
13185 For example, "class A local_a(1,2);" means that variable local_a
13186 is an aggregate of type A, which should have a constructor
13187 applied to it with the argument list [1, 2]. */
13190 start_function (declspecs
, declarator
, attrs
, flags
)
13191 tree declspecs
, declarator
, attrs
;
13195 tree ctype
= NULL_TREE
;
13198 extern int have_extern_spec
;
13199 extern int used_extern_spec
;
13200 int doing_friend
= 0;
13201 struct binding_level
*bl
;
13203 /* Sanity check. */
13204 my_friendly_assert (TREE_CODE (TREE_VALUE (void_list_node
)) == VOID_TYPE
, 160);
13205 my_friendly_assert (TREE_CHAIN (void_list_node
) == NULL_TREE
, 161);
13207 /* This should only be done once on the top most decl. */
13208 if (have_extern_spec
&& !used_extern_spec
)
13210 declspecs
= decl_tree_cons (NULL_TREE
, get_identifier ("extern"), declspecs
);
13211 used_extern_spec
= 1;
13214 if (flags
& SF_PRE_PARSED
)
13216 decl1
= declarator
;
13218 fntype
= TREE_TYPE (decl1
);
13219 if (TREE_CODE (fntype
) == METHOD_TYPE
)
13220 ctype
= TYPE_METHOD_BASETYPE (fntype
);
13222 /* ISO C++ 11.4/5. A friend function defined in a class is in
13223 the (lexical) scope of the class in which it is defined. */
13224 if (!ctype
&& DECL_FRIEND_P (decl1
))
13226 ctype
= DECL_FRIEND_CONTEXT (decl1
);
13228 /* CTYPE could be null here if we're dealing with a template;
13229 for example, `inline friend float foo()' inside a template
13230 will have no CTYPE set. */
13231 if (ctype
&& TREE_CODE (ctype
) != RECORD_TYPE
)
13237 last_function_parms
= DECL_ARGUMENTS (decl1
);
13238 last_function_parm_tags
= NULL_TREE
;
13242 decl1
= grokdeclarator (declarator
, declspecs
, FUNCDEF
, 1, NULL_TREE
);
13243 /* If the declarator is not suitable for a function definition,
13244 cause a syntax error. */
13245 if (decl1
== NULL_TREE
|| TREE_CODE (decl1
) != FUNCTION_DECL
) return 0;
13247 fntype
= TREE_TYPE (decl1
);
13249 restype
= TREE_TYPE (fntype
);
13250 if (CLASS_TYPE_P (restype
) && !CLASSTYPE_GOT_SEMICOLON (restype
))
13252 cp_error ("semicolon missing after declaration of `%#T'", restype
);
13253 shadow_tag (build_tree_list (NULL_TREE
, restype
));
13254 CLASSTYPE_GOT_SEMICOLON (restype
) = 1;
13255 if (TREE_CODE (fntype
) == FUNCTION_TYPE
)
13256 fntype
= build_function_type (integer_type_node
,
13257 TYPE_ARG_TYPES (fntype
));
13259 fntype
= build_cplus_method_type (build_type_variant (TYPE_METHOD_BASETYPE (fntype
), TREE_READONLY (decl1
), TREE_SIDE_EFFECTS (decl1
)),
13261 TYPE_ARG_TYPES (fntype
));
13262 TREE_TYPE (decl1
) = fntype
;
13265 if (TREE_CODE (fntype
) == METHOD_TYPE
)
13266 ctype
= TYPE_METHOD_BASETYPE (fntype
);
13267 else if (DECL_MAIN_P (decl1
))
13269 /* If this doesn't return integer_type, complain. */
13270 if (TREE_TYPE (TREE_TYPE (decl1
)) != integer_type_node
)
13272 if (pedantic
|| warn_return_type
)
13273 pedwarn ("return type for `main' changed to `int'");
13274 TREE_TYPE (decl1
) = fntype
= default_function_type
;
13279 /* Sometimes we don't notice that a function is a static member, and
13280 build a METHOD_TYPE for it. Fix that up now. */
13281 if (ctype
!= NULL_TREE
&& DECL_STATIC_FUNCTION_P (decl1
)
13282 && TREE_CODE (TREE_TYPE (decl1
)) == METHOD_TYPE
)
13284 revert_static_member_fn (decl1
);
13285 last_function_parms
= TREE_CHAIN (last_function_parms
);
13289 /* Warn if function was previously implicitly declared
13290 (but not if we warned then). */
13291 if (! warn_implicit
13292 && IDENTIFIER_IMPLICIT_DECL (DECL_NAME (decl1
)) != NULL_TREE
)
13293 cp_warning_at ("`%D' implicitly declared before its definition", IDENTIFIER_IMPLICIT_DECL (DECL_NAME (decl1
)));
13295 /* Set up current_class_type, and enter the scope of the class, if
13298 push_nested_class (ctype
, 1);
13299 else if (DECL_STATIC_FUNCTION_P (decl1
))
13300 push_nested_class (DECL_CONTEXT (decl1
), 2);
13302 /* Now that we have entered the scope of the class, we must restore
13303 the bindings for any template parameters surrounding DECL1, if it
13304 is an inline member template. (Order is important; consider the
13305 case where a template parameter has the same name as a field of
13306 the class.) It is not until after this point that
13307 PROCESSING_TEMPLATE_DECL is guaranteed to be set up correctly. */
13308 if (flags
& SF_INCLASS_INLINE
)
13309 maybe_begin_member_template_processing (decl1
);
13311 /* Effective C++ rule 15. See also c_expand_return. */
13313 && DECL_NAME (decl1
) == ansi_opname
[(int) MODIFY_EXPR
]
13314 && TREE_CODE (TREE_TYPE (fntype
)) == VOID_TYPE
)
13315 cp_warning ("`operator=' should return a reference to `*this'");
13317 /* Make the init_value nonzero so pushdecl knows this is not tentative.
13318 error_mark_node is replaced below (in poplevel) with the BLOCK. */
13319 if (!DECL_INITIAL (decl1
))
13320 DECL_INITIAL (decl1
) = error_mark_node
;
13322 #ifdef SET_DEFAULT_DECL_ATTRIBUTES
13323 SET_DEFAULT_DECL_ATTRIBUTES (decl1
, attrs
);
13326 /* This function exists in static storage.
13327 (This does not mean `static' in the C sense!) */
13328 TREE_STATIC (decl1
) = 1;
13330 /* We must call push_template_decl after current_class_type is set
13331 up. (If we are processing inline definitions after exiting a
13332 class scope, current_class_type will be NULL_TREE until set above
13333 by push_nested_class.) */
13334 if (processing_template_decl
)
13335 decl1
= push_template_decl (decl1
);
13337 /* We are now in the scope of the function being defined. */
13338 current_function_decl
= decl1
;
13340 /* Save the parm names or decls from this function's declarator
13341 where store_parm_decls will find them. */
13342 current_function_parms
= last_function_parms
;
13343 current_function_parm_tags
= last_function_parm_tags
;
13345 /* Make sure the parameter and return types are reasonable. When
13346 you declare a function, these types can be incomplete, but they
13347 must be complete when you define the function. */
13348 if (! processing_template_decl
)
13349 check_function_type (decl1
);
13351 /* Build the return declaration for the function. */
13352 restype
= TREE_TYPE (fntype
);
13353 if (!processing_template_decl
)
13355 if (!DECL_RESULT (decl1
))
13357 DECL_RESULT (decl1
)
13358 = build_decl (RESULT_DECL
, 0, TYPE_MAIN_VARIANT (restype
));
13359 c_apply_type_quals_to_decl (CP_TYPE_QUALS (restype
),
13360 DECL_RESULT (decl1
));
13364 /* Just use `void'. Nobody will ever look at this anyhow. */
13365 DECL_RESULT (decl1
) = build_decl (RESULT_DECL
, 0, void_type_node
);
13367 /* Initialize RTL machinery. We cannot do this until
13368 CURRENT_FUNCTION_DECL and DECL_RESULT are set up. We do this
13369 even when processing a template; this is how we get
13370 CFUN set up, and our per-function variables initialized. */
13371 bl
= current_binding_level
;
13372 init_function_start (decl1
, input_filename
, lineno
);
13373 current_binding_level
= bl
;
13374 expanding_p
= (flags
& SF_EXPAND
) != 0;
13376 /* Even though we're inside a function body, we still don't want to
13377 call expand_expr to calculate the size of a variable-sized array.
13378 We haven't necessarily assigned RTL to all variables yet, so it's
13379 not safe to try to expand expressions involving them. */
13380 immediate_size_expand
= 0;
13381 cfun
->x_dont_save_pending_sizes_p
= 1;
13383 /* If we're building a statement-tree, start the tree now. */
13384 if (processing_template_decl
|| !expanding_p
)
13385 begin_stmt_tree (&DECL_SAVED_TREE (decl1
));
13387 /* Let the user know we're compiling this function. */
13388 if (processing_template_decl
|| !building_stmt_tree ())
13389 announce_function (decl1
);
13391 /* Record the decl so that the function name is defined.
13392 If we already have a decl for this name, and it is a FUNCTION_DECL,
13393 use the old decl. */
13394 if (!processing_template_decl
&& !(flags
& SF_PRE_PARSED
))
13396 /* A specialization is not used to guide overload resolution. */
13397 if ((flag_guiding_decls
13398 || !DECL_TEMPLATE_SPECIALIZATION (decl1
))
13399 && ! DECL_FUNCTION_MEMBER_P (decl1
))
13400 decl1
= pushdecl (decl1
);
13403 /* We need to set the DECL_CONTEXT. */
13404 if (!DECL_CONTEXT (decl1
) && DECL_TEMPLATE_INFO (decl1
))
13405 DECL_CONTEXT (decl1
) = DECL_CONTEXT (DECL_TI_TEMPLATE (decl1
));
13406 /* And make sure we have enough default args. */
13407 check_default_args (decl1
);
13409 fntype
= TREE_TYPE (decl1
);
13412 /* Reset these in case the call to pushdecl changed them. */
13413 current_function_decl
= decl1
;
13414 cfun
->decl
= decl1
;
13416 /* Initialize the per-function data. */
13417 if (!DECL_PENDING_INLINE_P (decl1
) && DECL_SAVED_FUNCTION_DATA (decl1
))
13419 /* If we already parsed this function, and we're just expanding it
13420 now, restore saved state. */
13421 struct binding_level
*bl
= current_binding_level
;
13422 *cp_function_chain
= *DECL_SAVED_FUNCTION_DATA (decl1
);
13423 current_binding_level
= bl
;
13425 /* This function is being processed in whole-function mode; we
13426 already did semantic analysis. */
13427 cfun
->x_whole_function_mode_p
= 1;
13429 /* If we decided that we didn't want to inline this function,
13430 make sure the back-end knows that. */
13431 if (!current_function_cannot_inline
)
13432 current_function_cannot_inline
= cp_function_chain
->cannot_inline
;
13434 /* We don't need the saved data anymore. */
13435 free (DECL_SAVED_FUNCTION_DATA (decl1
));
13436 DECL_SAVED_FUNCTION_DATA (decl1
) = NULL
;
13438 else if (ctype
&& !doing_friend
&& !DECL_STATIC_FUNCTION_P (decl1
))
13440 /* We know that this was set up by `grokclassfn'. We do not
13441 wait until `store_parm_decls', since evil parse errors may
13442 never get us to that point. Here we keep the consistency
13443 between `current_class_type' and `current_class_ptr'. */
13444 tree t
= DECL_ARGUMENTS (decl1
);
13446 my_friendly_assert (t
!= NULL_TREE
&& TREE_CODE (t
) == PARM_DECL
,
13448 my_friendly_assert (TREE_CODE (TREE_TYPE (t
)) == POINTER_TYPE
,
13451 cp_function_chain
->x_current_class_ref
13452 = build_indirect_ref (t
, NULL_PTR
);
13453 cp_function_chain
->x_current_class_ptr
= t
;
13455 /* Constructors and destructors need to know whether they're "in
13456 charge" of initializing virtual base classes. */
13457 if (DECL_HAS_IN_CHARGE_PARM_P (decl1
))
13458 current_in_charge_parm
= TREE_CHAIN (t
);
13461 if (DECL_INTERFACE_KNOWN (decl1
))
13463 tree ctx
= decl_function_context (decl1
);
13465 if (DECL_NOT_REALLY_EXTERN (decl1
))
13466 DECL_EXTERNAL (decl1
) = 0;
13468 if (ctx
!= NULL_TREE
&& DECL_THIS_INLINE (ctx
)
13469 && TREE_PUBLIC (ctx
))
13470 /* This is a function in a local class in an extern inline
13472 comdat_linkage (decl1
);
13474 /* If this function belongs to an interface, it is public.
13475 If it belongs to someone else's interface, it is also external.
13476 This only affects inlines and template instantiations. */
13477 else if (interface_unknown
== 0
13478 && (! DECL_TEMPLATE_INSTANTIATION (decl1
)
13479 || flag_alt_external_templates
))
13481 if (DECL_THIS_INLINE (decl1
) || DECL_TEMPLATE_INSTANTIATION (decl1
)
13482 || processing_template_decl
)
13484 DECL_EXTERNAL (decl1
)
13486 || (DECL_THIS_INLINE (decl1
) && ! flag_implement_inlines
13487 && !DECL_VINDEX (decl1
)));
13489 /* For WIN32 we also want to put these in linkonce sections. */
13490 maybe_make_one_only (decl1
);
13493 DECL_EXTERNAL (decl1
) = 0;
13494 DECL_NOT_REALLY_EXTERN (decl1
) = 0;
13495 DECL_INTERFACE_KNOWN (decl1
) = 1;
13497 else if (interface_unknown
&& interface_only
13498 && (! DECL_TEMPLATE_INSTANTIATION (decl1
)
13499 || flag_alt_external_templates
))
13501 /* If MULTIPLE_SYMBOL_SPACES is defined and we saw a #pragma
13502 interface, we will have interface_only set but not
13503 interface_known. In that case, we don't want to use the normal
13504 heuristics because someone will supply a #pragma implementation
13505 elsewhere, and deducing it here would produce a conflict. */
13506 comdat_linkage (decl1
);
13507 DECL_EXTERNAL (decl1
) = 0;
13508 DECL_INTERFACE_KNOWN (decl1
) = 1;
13509 DECL_DEFER_OUTPUT (decl1
) = 1;
13513 /* This is a definition, not a reference.
13514 So clear DECL_EXTERNAL. */
13515 DECL_EXTERNAL (decl1
) = 0;
13517 if ((DECL_THIS_INLINE (decl1
) || DECL_TEMPLATE_INSTANTIATION (decl1
))
13518 && ! DECL_INTERFACE_KNOWN (decl1
)
13519 /* Don't try to defer nested functions for now. */
13520 && ! decl_function_context (decl1
))
13521 DECL_DEFER_OUTPUT (decl1
) = 1;
13523 DECL_INTERFACE_KNOWN (decl1
) = 1;
13526 if (doing_semantic_analysis_p ())
13529 current_binding_level
->parm_flag
= 1;
13533 cplus_decl_attributes (decl1
, NULL_TREE
, attrs
);
13535 if (!building_stmt_tree ())
13537 GNU_xref_function (decl1
, current_function_parms
);
13538 make_function_rtl (decl1
);
13541 /* Promote the value to int before returning it. */
13542 if (C_PROMOTING_INTEGER_TYPE_P (restype
))
13543 restype
= type_promotes_to (restype
);
13545 /* If this fcn was already referenced via a block-scope `extern' decl
13546 (or an implicit decl), propagate certain information about the usage. */
13547 if (TREE_ADDRESSABLE (DECL_ASSEMBLER_NAME (decl1
)))
13548 TREE_ADDRESSABLE (decl1
) = 1;
13550 if (DECL_RESULT (decl1
) == NULL_TREE
)
13552 DECL_RESULT (decl1
)
13553 = build_decl (RESULT_DECL
, 0, TYPE_MAIN_VARIANT (restype
));
13554 TREE_READONLY (DECL_RESULT (decl1
)) = CP_TYPE_CONST_P (restype
);
13555 TREE_THIS_VOLATILE (DECL_RESULT (decl1
)) = CP_TYPE_VOLATILE_P (restype
);
13560 if (DECL_DESTRUCTOR_P (decl1
))
13562 dtor_label
= build_decl (LABEL_DECL
, NULL_TREE
, NULL_TREE
);
13563 DECL_CONTEXT (dtor_label
) = current_function_decl
;
13565 /* Under the old ABI we return `this' from constructors, so we make
13566 ordinary `return' statements in constructors jump to CTOR_LABEL;
13567 from there we return `this'. Under the new ABI, we don't bother
13568 with any of this. By not setting CTOR_LABEL the remainder of the
13569 machinery is automatically disabled. */
13570 else if (!flag_new_abi
&& DECL_CONSTRUCTOR_P (decl1
))
13572 ctor_label
= build_decl (LABEL_DECL
, NULL_TREE
, NULL_TREE
);
13573 DECL_CONTEXT (ctor_label
) = current_function_decl
;
13579 /* Called after store_parm_decls for a function-try-block. */
13582 expand_start_early_try_stmts ()
13584 expand_start_try_stmts ();
13587 /* Store the parameter declarations into the current function declaration.
13588 This is called after parsing the parameter declarations, before
13589 digesting the body of the function.
13591 Also install to binding contour return value identifier, if any. */
13594 store_parm_decls ()
13596 register tree fndecl
= current_function_decl
;
13597 register tree parm
;
13598 int parms_have_cleanups
= 0;
13599 tree cleanups
= NULL_TREE
;
13601 /* This is a list of types declared among parms in a prototype. */
13602 tree parmtags
= current_function_parm_tags
;
13604 /* This is a chain of any other decls that came in among the parm
13605 declarations. If a parm is declared with enum {foo, bar} x;
13606 then CONST_DECLs for foo and bar are put here. */
13607 tree nonparms
= NULL_TREE
;
13609 /* Create a binding level for the parms. */
13610 if (!building_stmt_tree ())
13611 expand_start_bindings (2);
13613 if (current_function_parms
)
13615 /* This case is when the function was defined with an ANSI prototype.
13616 The parms already have decls, so we need not do anything here
13617 except record them as in effect
13618 and complain if any redundant old-style parm decls were written. */
13620 tree specparms
= current_function_parms
;
13623 if (doing_semantic_analysis_p ())
13625 /* Must clear this because it might contain TYPE_DECLs declared
13627 storedecls (NULL_TREE
);
13629 /* If we're doing semantic analysis, then we'll call pushdecl
13630 for each of these. We must do them in reverse order so that
13631 they end in the correct forward order. */
13632 specparms
= nreverse (specparms
);
13635 for (parm
= specparms
; parm
; parm
= next
)
13637 next
= TREE_CHAIN (parm
);
13638 if (TREE_CODE (parm
) == PARM_DECL
)
13640 tree type
= TREE_TYPE (parm
);
13642 if (doing_semantic_analysis_p ())
13646 if (DECL_NAME (parm
) == NULL_TREE
13647 || TREE_CODE (parm
) != VOID_TYPE
)
13650 cp_error ("parameter `%D' declared void", parm
);
13652 cleanup
= (processing_template_decl
13654 : maybe_build_cleanup (parm
));
13657 cleanups
= tree_cons (parm
, cleanup
, cleanups
);
13659 else if (type
!= error_mark_node
13660 && TYPE_HAS_NONTRIVIAL_DESTRUCTOR (type
))
13661 parms_have_cleanups
= 1;
13665 /* If we find an enum constant or a type tag,
13666 put it aside for the moment. */
13667 TREE_CHAIN (parm
) = NULL_TREE
;
13668 nonparms
= chainon (nonparms
, parm
);
13672 if (doing_semantic_analysis_p ())
13674 /* Get the decls in their original chain order
13675 and record in the function. This is all and only the
13676 PARM_DECLs that were pushed into scope by the loop above. */
13677 DECL_ARGUMENTS (fndecl
) = getdecls ();
13678 storetags (chainon (parmtags
, gettags ()));
13682 DECL_ARGUMENTS (fndecl
) = NULL_TREE
;
13684 /* Now store the final chain of decls for the arguments
13685 as the decl-chain of the current lexical scope.
13686 Put the enumerators in as well, at the front so that
13687 DECL_ARGUMENTS is not modified. */
13688 if (doing_semantic_analysis_p ())
13689 storedecls (chainon (nonparms
, DECL_ARGUMENTS (fndecl
)));
13691 /* Initialize the RTL code for the function. */
13692 DECL_SAVED_INSNS (fndecl
) = 0;
13693 if (! building_stmt_tree ())
13694 expand_function_start (fndecl
, parms_have_cleanups
);
13696 current_function_parms_stored
= 1;
13698 /* If this function is `main', emit a call to `__main'
13699 to run global initializers, etc. */
13700 if (DECL_MAIN_P (fndecl
) && !building_stmt_tree ())
13701 expand_main_function ();
13703 /* Now that we have initialized the parms, we can start their
13704 cleanups. We cannot do this before, since expand_decl_cleanup
13705 should not be called before the parm can be used. */
13708 finish_decl_cleanup (TREE_PURPOSE (cleanups
),
13709 TREE_VALUE (cleanups
));
13710 cleanups
= TREE_CHAIN (cleanups
);
13713 /* Create a binding contour which can be used to catch
13714 cleanup-generated temporaries. Also, if the return value needs or
13715 has initialization, deal with that now. */
13716 if (parms_have_cleanups
)
13719 if (!building_stmt_tree ())
13720 expand_start_bindings (2);
13723 /* Do the starting of the exception specifications, if we have any. */
13724 if (flag_exceptions
&& !processing_template_decl
13725 && flag_enforce_eh_specs
13726 && building_stmt_tree ()
13727 && TYPE_RAISES_EXCEPTIONS (TREE_TYPE (current_function_decl
)))
13728 current_eh_spec_try_block
= expand_start_eh_spec ();
13731 /* Bind a name and initialization to the return value of
13732 the current function. */
13735 store_return_init (decl
)
13738 /* If this named return value comes in a register, put it in a
13739 pseudo-register. */
13740 if (DECL_REGISTER (decl
))
13742 original_result_rtx
= DECL_RTL (decl
);
13743 /* Note that the mode of the old DECL_RTL may be wider than the
13744 mode of DECL_RESULT, depending on the calling conventions for
13745 the processor. For example, on the Alpha, a 32-bit integer
13746 is returned in a DImode register -- the DECL_RESULT has
13747 SImode but the DECL_RTL for the DECL_RESULT has DImode. So,
13748 here, we use the mode the back-end has already assigned for
13749 the return value. */
13750 DECL_RTL (decl
) = gen_reg_rtx (GET_MODE (original_result_rtx
));
13755 /* We have finished doing semantic analysis on DECL, but have not yet
13756 generated RTL for its body. Save away our current state, so that
13757 when we want to generate RTL later we know what to do. */
13760 save_function_data (decl
)
13763 struct language_function
*f
;
13765 /* Save the language-specific per-function data so that we can
13766 get it back when we really expand this function. */
13767 my_friendly_assert (!DECL_PENDING_INLINE_P (decl
),
13771 f
= ((struct language_function
*)
13772 xmalloc (sizeof (struct language_function
)));
13773 bcopy ((char *) cp_function_chain
, (char *) f
,
13774 sizeof (struct language_function
));
13775 DECL_SAVED_FUNCTION_DATA (decl
) = f
;
13777 /* Clear out the bits we don't need. */
13778 f
->x_base_init_list
= NULL_TREE
;
13779 f
->x_member_init_list
= NULL_TREE
;
13780 f
->x_stmt_tree
.x_last_stmt
= NULL_TREE
;
13781 f
->x_stmt_tree
.x_last_expr_type
= NULL_TREE
;
13782 f
->x_result_rtx
= NULL_RTX
;
13783 f
->x_named_label_uses
= NULL
;
13784 f
->bindings
= NULL
;
13786 /* When we get back here again, we will be expanding. */
13787 f
->x_expanding_p
= 1;
13789 /* If we've already decided that we cannot inline this function, we
13790 must remember that fact when we actually go to expand the
13792 f
->cannot_inline
= current_function_cannot_inline
;
13795 /* At the end of every constructor we generate to code to return
13796 `this'. Do that now. */
13799 finish_constructor_body ()
13801 /* Any return from a constructor will end up here. */
13803 add_tree (build_min_nt (LABEL_STMT
, ctor_label
));
13805 /* Clear CTOR_LABEL so that finish_return_stmt knows to really
13806 generate the return, rather than a goto to CTOR_LABEL. */
13807 ctor_label
= NULL_TREE
;
13808 /* In check_return_expr we translate an empty return from a
13809 constructor to a return of `this'. */
13810 finish_return_stmt (NULL_TREE
);
13811 /* Mark the end of the constructor. */
13812 add_tree (build_min_nt (CTOR_STMT
));
13815 /* At the end of every destructor we generate code to restore virtual
13816 function tables to the values desired by base classes and to call
13817 to base class destructors. Do that now. */
13820 finish_destructor_body ()
13822 tree compound_stmt
;
13827 /* Create a block to contain all the extra code. */
13828 compound_stmt
= begin_compound_stmt (/*has_no_scope=*/0);
13830 /* Any return from a destructor will end up here. */
13831 add_tree (build_min_nt (LABEL_STMT
, dtor_label
));
13833 /* Generate the code to call destructor on base class. If this
13834 destructor belongs to a class with virtual functions, then set
13835 the virtual function table pointer to represent the type of our
13838 /* This side-effect makes call to `build_delete' generate the code
13839 we have to have at the end of this destructor. `build_delete'
13840 will set the flag again. */
13841 TYPE_HAS_DESTRUCTOR (current_class_type
) = 0;
13843 exprstmt
= build_delete (current_class_type
,
13846 LOOKUP_NONVIRTUAL
|LOOKUP_DESTRUCTOR
|LOOKUP_NORMAL
,
13849 if (exprstmt
!= error_mark_node
13850 && (TREE_CODE (exprstmt
) != NOP_EXPR
13851 || TREE_OPERAND (exprstmt
, 0) != integer_zero_node
13852 || TYPE_USES_VIRTUAL_BASECLASSES (current_class_type
)))
13854 if (exprstmt
!= void_zero_node
)
13855 /* Don't call `expand_expr_stmt' if we're not going to do
13856 anything, since -Wall will give a diagnostic. */
13857 finish_expr_stmt (exprstmt
);
13859 /* Run destructors for all virtual baseclasses. */
13860 if (TYPE_USES_VIRTUAL_BASECLASSES (current_class_type
))
13862 tree vbases
= nreverse (copy_list (CLASSTYPE_VBASECLASSES (current_class_type
)));
13863 tree if_stmt
= begin_if_stmt ();
13864 finish_if_stmt_cond (build (BIT_AND_EXPR
, integer_type_node
,
13865 current_in_charge_parm
,
13871 if (TYPE_HAS_NONTRIVIAL_DESTRUCTOR (BINFO_TYPE (vbases
)))
13873 tree vb
= get_vbase
13874 (BINFO_TYPE (vbases
),
13875 TYPE_BINFO (current_class_type
));
13877 (build_scoped_method_call
13878 (current_class_ref
, vb
, base_dtor_identifier
,
13881 vbases
= TREE_CHAIN (vbases
);
13884 finish_then_clause (if_stmt
);
13889 virtual_size
= c_sizeof (current_class_type
);
13891 /* At the end, call delete if that's what's requested. */
13893 /* FDIS sez: At the point of definition of a virtual destructor
13894 (including an implicit definition), non-placement operator delete
13895 shall be looked up in the scope of the destructor's class and if
13896 found shall be accessible and unambiguous.
13898 This is somewhat unclear, but I take it to mean that if the class
13899 only defines placement deletes we don't do anything here. So we
13900 pass LOOKUP_SPECULATIVELY; delete_sanity will complain for us if
13901 they ever try to delete one of these. */
13902 exprstmt
= build_op_delete_call
13903 (DELETE_EXPR
, current_class_ptr
, virtual_size
,
13904 LOOKUP_NORMAL
| LOOKUP_SPECULATIVELY
, NULL_TREE
);
13906 if_stmt
= begin_if_stmt ();
13907 finish_if_stmt_cond (build (BIT_AND_EXPR
, integer_type_node
,
13908 current_in_charge_parm
,
13911 finish_expr_stmt (exprstmt
);
13912 finish_then_clause (if_stmt
);
13915 /* Close the block we started above. */
13916 finish_compound_stmt (/*has_no_scope=*/0, compound_stmt
);
13919 /* Finish up a function declaration and compile that function
13920 all the way to assembler language output. The free the storage
13921 for the function definition.
13923 FLAGS is a bitwise or of the following values:
13925 An extra call to poplevel (and expand_end_bindings) must be
13926 made to take care of the binding contour for the base
13927 initializers. This is only relevant for constructors.
13929 We just finished processing the body of an in-class inline
13930 function definition. (This processing will have taken place
13931 after the class definition is complete.) */
13934 finish_function (flags
)
13937 register tree fndecl
= current_function_decl
;
13938 tree fntype
, ctype
= NULL_TREE
;
13939 /* Label to use if this function is supposed to return a value. */
13940 tree no_return_label
= NULL_TREE
;
13941 int call_poplevel
= (flags
& 1) != 0;
13942 int inclass_inline
= (flags
& 2) != 0;
13945 int current_line
= lineno
;
13947 /* When we get some parse errors, we can end up without a
13948 current_function_decl, so cope. */
13949 if (fndecl
== NULL_TREE
)
13950 return error_mark_node
;
13952 nested
= function_depth
> 1;
13953 fntype
= TREE_TYPE (fndecl
);
13955 /* TREE_READONLY (fndecl) = 1;
13956 This caused &foo to be of type ptr-to-const-function
13957 which then got a warning when stored in a ptr-to-function variable. */
13959 /* This happens on strange parse errors. */
13960 if (! current_function_parms_stored
)
13963 store_parm_decls ();
13966 /* For a cloned function, we've already got all the code we need;
13967 there's no need to add any extra bits. */
13968 if (building_stmt_tree () && DECL_CLONED_FUNCTION_P (fndecl
))
13970 else if (building_stmt_tree ())
13972 if (DECL_CONSTRUCTOR_P (fndecl
))
13974 finish_constructor_body ();
13978 else if (DECL_DESTRUCTOR_P (fndecl
) && !processing_template_decl
)
13979 finish_destructor_body ();
13980 else if (DECL_MAIN_P (fndecl
))
13982 /* Make it so that `main' always returns 0 by default. */
13984 finish_return_stmt (integer_one_node
);
13986 finish_return_stmt (integer_zero_node
);
13990 /* Finish dealing with exception specifiers. */
13991 if (flag_exceptions
&& !processing_template_decl
13992 && flag_enforce_eh_specs
13993 && TYPE_RAISES_EXCEPTIONS (TREE_TYPE (current_function_decl
)))
13994 expand_end_eh_spec (TYPE_RAISES_EXCEPTIONS
13995 (TREE_TYPE (current_function_decl
)),
13996 current_eh_spec_try_block
);
14001 if (write_symbols
!= NO_DEBUG
/*&& TREE_CODE (fntype) != METHOD_TYPE*/)
14003 /* Keep this code around in case we later want to control debug info
14004 based on whether a type is "used". (jason 1999-11-11) */
14006 tree ttype
= target_type (fntype
);
14009 if (IS_AGGR_TYPE (ttype
))
14010 /* Let debugger know it should output info for this type. */
14011 note_debug_info_needed (ttype
);
14013 for (parmdecl
= DECL_ARGUMENTS (fndecl
); parmdecl
; parmdecl
= TREE_CHAIN (parmdecl
))
14015 ttype
= target_type (TREE_TYPE (parmdecl
));
14016 if (IS_AGGR_TYPE (ttype
))
14017 /* Let debugger know it should output info for this type. */
14018 note_debug_info_needed (ttype
);
14023 /* Clean house because we will need to reorder insns here. */
14024 do_pending_stack_adjust ();
14028 else if (DECL_CONSTRUCTOR_P (fndecl
))
14033 else if (return_label
!= NULL_RTX
14034 && flag_this_is_variable
<= 0
14035 && current_function_return_value
== NULL_TREE
14036 && ! DECL_NAME (DECL_RESULT (current_function_decl
)))
14037 no_return_label
= build_decl (LABEL_DECL
, NULL_TREE
, NULL_TREE
);
14039 if (flag_exceptions
)
14040 expand_exception_blocks ();
14042 /* If this function is supposed to return a value, ensure that
14043 we do not fall into the cleanups by mistake. The end of our
14044 function will look like this:
14046 user code (may have return stmt somewhere)
14047 goto no_return_label
14052 NOTE_INSN_FUNCTION_END
14056 If the user omits a return stmt in the USER CODE section, we
14057 will have a control path which reaches NOTE_INSN_FUNCTION_END.
14058 Otherwise, we won't. */
14059 if (no_return_label
)
14061 DECL_CONTEXT (no_return_label
) = fndecl
;
14062 DECL_INITIAL (no_return_label
) = error_mark_node
;
14063 DECL_SOURCE_FILE (no_return_label
) = input_filename
;
14064 DECL_SOURCE_LINE (no_return_label
) = current_line
;
14065 expand_goto (no_return_label
);
14070 /* Remove the binding contour which is used
14071 to catch cleanup-generated temporaries. */
14072 expand_end_bindings (0, 0, 0);
14073 poplevel (0, 0, 0);
14075 /* Emit label at beginning of cleanup code for parameters. */
14076 emit_label (cleanup_label
);
14079 /* Get return value into register if that's where it's supposed
14081 if (original_result_rtx
)
14082 fixup_result_decl (DECL_RESULT (fndecl
), original_result_rtx
);
14084 /* Finish building code that will trigger warnings if users forget
14085 to make their functions return values. */
14086 if (no_return_label
|| cleanup_label
)
14087 emit_jump (return_label
);
14088 if (no_return_label
)
14090 /* We don't need to call `expand_*_return' here because we
14091 don't need any cleanups here--this path of code is only
14092 for error checking purposes. */
14093 expand_label (no_return_label
);
14096 /* We hard-wired immediate_size_expand to zero in
14097 start_function. Expand_function_end will decrement this
14098 variable. So, we set the variable to one here, so that after
14099 the decrement it will remain zero. */
14100 immediate_size_expand
= 1;
14102 /* Generate rtl for function exit. */
14103 expand_function_end (input_filename
, current_line
, 1);
14106 /* We have to save this value here in case
14107 maybe_end_member_template_processing decides to pop all the
14108 template parameters. */
14109 expand_p
= !building_stmt_tree ();
14111 /* If we're saving up tree structure, tie off the function now. */
14113 finish_stmt_tree (&DECL_SAVED_TREE (fndecl
));
14115 /* This must come after expand_function_end because cleanups might
14116 have declarations (from inline functions) that need to go into
14117 this function's blocks. */
14118 if (doing_semantic_analysis_p ())
14120 if (current_binding_level
->parm_flag
!= 1)
14121 my_friendly_abort (122);
14122 poplevel (1, 0, 1);
14125 /* Remember that we were in class scope. */
14126 if (current_class_name
)
14127 ctype
= current_class_type
;
14129 /* Must mark the RESULT_DECL as being in this function. */
14130 DECL_CONTEXT (DECL_RESULT (fndecl
)) = fndecl
;
14132 /* Set the BLOCK_SUPERCONTEXT of the outermost function scope to point
14133 to the FUNCTION_DECL node itself. */
14134 BLOCK_SUPERCONTEXT (DECL_INITIAL (fndecl
)) = fndecl
;
14136 /* Save away current state, if appropriate. */
14137 if (!expanding_p
&& !processing_template_decl
)
14138 save_function_data (fndecl
);
14140 /* If this function calls `setjmp' it cannot be inlined. When
14141 `longjmp' is called it is not guaranteed to restore the value of
14142 local variables that have been modified since the call to
14143 `setjmp'. So, if were to inline this function into some caller
14144 `c', then when we `longjmp', we might not restore all variables
14145 in `c'. (It might seem, at first blush, that there's no way for
14146 this function to modify local variables in `c', but their
14147 addresses may have been stored somewhere accessible to this
14149 if (!expanding_p
&& !processing_template_decl
&& calls_setjmp_p (fndecl
))
14150 DECL_UNINLINABLE (fndecl
) = 1;
14157 /* So we can tell if jump_optimize sets it to 1. */
14160 /* Before we call rest_of_compilation (which will pop the
14161 CURRENT_FUNCTION), we must save these values. */
14162 returns_null
= current_function_returns_null
;
14163 returns_value
= current_function_returns_value
;
14165 /* If this is a nested function (like a template instantiation
14166 that we're compiling in the midst of compiling something
14167 else), push a new GC context. That will keep local variables
14168 on the stack from being collected while we're doing the
14169 compilation of this function. */
14170 if (function_depth
> 1)
14171 ggc_push_context ();
14173 /* Run the optimizers and output the assembler code for this
14175 rest_of_compilation (fndecl
);
14177 /* Undo the call to ggc_push_context above. */
14178 if (function_depth
> 1)
14179 ggc_pop_context ();
14181 if (DECL_SAVED_INSNS (fndecl
) && ! TREE_ASM_WRITTEN (fndecl
))
14183 /* Set DECL_EXTERNAL so that assemble_external will be called as
14184 necessary. We'll clear it again in finish_file. */
14185 if (! DECL_EXTERNAL (fndecl
))
14186 DECL_NOT_REALLY_EXTERN (fndecl
) = 1;
14187 DECL_EXTERNAL (fndecl
) = 1;
14192 /* Keep this code around in case we later want to control debug info
14193 based on whether a type is "used". (jason 1999-11-11) */
14195 if (ctype
&& TREE_ASM_WRITTEN (fndecl
))
14196 note_debug_info_needed (ctype
);
14199 returns_null
|= can_reach_end
;
14201 /* Since we don't normally go through c_expand_return for constructors,
14202 this normally gets the wrong value.
14203 Also, named return values have their return codes emitted after
14204 NOTE_INSN_FUNCTION_END, confusing jump.c. */
14205 if (DECL_CONSTRUCTOR_P (fndecl
)
14206 || DECL_NAME (DECL_RESULT (fndecl
)) != NULL_TREE
)
14209 if (TREE_THIS_VOLATILE (fndecl
) && returns_null
)
14210 cp_warning ("`noreturn' function `%D' does return", fndecl
);
14211 else if ((warn_return_type
|| pedantic
)
14213 && TREE_CODE (TREE_TYPE (fntype
)) != VOID_TYPE
)
14215 /* If this function returns non-void and control can drop through,
14217 cp_warning ("control reaches end of non-void function `%D'", fndecl
);
14219 /* With just -W, complain only if function returns both with
14220 and without a value. */
14221 else if (extra_warnings
&& returns_value
&& returns_null
)
14222 warning ("this function may return with or without a value");
14226 /* Clear out memory we no longer need. */
14227 free_after_parsing (cfun
);
14228 /* Since we never call rest_of_compilation, we never clear
14229 CFUN. Do so explicitly. */
14230 free_after_compilation (cfun
);
14234 /* If this is a in-class inline definition, we may have to pop the
14235 bindings for the template parameters that we added in
14236 maybe_begin_member_template_processing when start_function was
14238 if (inclass_inline
)
14239 maybe_end_member_template_processing ();
14241 /* Leave the scope of the class. */
14243 pop_nested_class ();
14247 if (!DECL_SAVED_INSNS (fndecl
) && !DECL_SAVED_FUNCTION_DATA (fndecl
)
14248 && !(flag_inline_trees
&& DECL_INLINE (fndecl
)))
14252 /* Stop pointing to the local nodes about to be freed. */
14253 /* But DECL_INITIAL must remain nonzero so we know this
14254 was an actual function definition. */
14255 DECL_INITIAL (fndecl
) = error_mark_node
;
14256 for (t
= DECL_ARGUMENTS (fndecl
); t
; t
= TREE_CHAIN (t
))
14257 DECL_RTL (t
) = DECL_INCOMING_RTL (t
) = NULL_RTX
;
14260 if (DECL_STATIC_CONSTRUCTOR (fndecl
))
14261 static_ctors
= tree_cons (NULL_TREE
, fndecl
, static_ctors
);
14262 if (DECL_STATIC_DESTRUCTOR (fndecl
))
14263 static_dtors
= tree_cons (NULL_TREE
, fndecl
, static_dtors
);
14268 /* Let the error reporting routines know that we're outside a
14269 function. For a nested function, this value is used in
14270 pop_cp_function_context and then reset via pop_function_context. */
14271 current_function_decl
= NULL_TREE
;
14272 /* We don't really care about obstacks, but the middle-end
14273 sometimes cares on what obstck things are located. */
14274 permanent_allocation (1);
14280 /* Create the FUNCTION_DECL for a function definition.
14281 DECLSPECS and DECLARATOR are the parts of the declaration;
14282 they describe the return type and the name of the function,
14283 but twisted together in a fashion that parallels the syntax of C.
14285 This function creates a binding context for the function body
14286 as well as setting up the FUNCTION_DECL in current_function_decl.
14288 Returns a FUNCTION_DECL on success.
14290 If the DECLARATOR is not suitable for a function (it defines a datum
14291 instead), we return 0, which tells yyparse to report a parse error.
14293 May return void_type_node indicating that this method is actually
14294 a friend. See grokfield for more details.
14296 Came here with a `.pushlevel' .
14298 DO NOT MAKE ANY CHANGES TO THIS CODE WITHOUT MAKING CORRESPONDING
14299 CHANGES TO CODE IN `grokfield'. */
14302 start_method (declspecs
, declarator
, attrlist
)
14303 tree declarator
, declspecs
, attrlist
;
14305 tree fndecl
= grokdeclarator (declarator
, declspecs
, MEMFUNCDEF
, 0,
14308 /* Something too ugly to handle. */
14309 if (fndecl
== NULL_TREE
)
14312 /* Pass friends other than inline friend functions back. */
14313 if (fndecl
== void_type_node
)
14316 if (TREE_CODE (fndecl
) != FUNCTION_DECL
)
14317 /* Not a function, tell parser to report parse error. */
14320 if (DECL_IN_AGGR_P (fndecl
))
14322 if (IDENTIFIER_ERROR_LOCUS (DECL_ASSEMBLER_NAME (fndecl
)) != current_class_type
)
14324 if (DECL_CONTEXT (fndecl
)
14325 && TREE_CODE( DECL_CONTEXT (fndecl
)) != NAMESPACE_DECL
)
14326 cp_error ("`%D' is already defined in class %s", fndecl
,
14327 TYPE_NAME_STRING (DECL_CONTEXT (fndecl
)));
14329 return void_type_node
;
14332 check_template_shadow (fndecl
);
14334 DECL_THIS_INLINE (fndecl
) = 1;
14336 if (flag_default_inline
)
14337 DECL_INLINE (fndecl
) = 1;
14339 /* We process method specializations in finish_struct_1. */
14340 if (processing_template_decl
&& !DECL_TEMPLATE_SPECIALIZATION (fndecl
))
14341 fndecl
= push_template_decl (fndecl
);
14343 if (! DECL_FRIEND_P (fndecl
))
14345 if (TREE_CHAIN (fndecl
))
14347 fndecl
= copy_node (fndecl
);
14348 TREE_CHAIN (fndecl
) = NULL_TREE
;
14351 if (DECL_CONSTRUCTOR_P (fndecl
))
14353 if (! grok_ctor_properties (current_class_type
, fndecl
))
14354 return void_type_node
;
14356 else if (IDENTIFIER_OPNAME_P (DECL_NAME (fndecl
)))
14357 grok_op_properties (fndecl
, DECL_VIRTUAL_P (fndecl
), 0);
14360 cp_finish_decl (fndecl
, NULL_TREE
, NULL_TREE
, 0);
14362 /* Make a place for the parms */
14364 current_binding_level
->parm_flag
= 1;
14366 DECL_IN_AGGR_P (fndecl
) = 1;
14370 /* Go through the motions of finishing a function definition.
14371 We don't compile this method until after the whole class has
14374 FINISH_METHOD must return something that looks as though it
14375 came from GROKFIELD (since we are defining a method, after all).
14377 This is called after parsing the body of the function definition.
14378 STMTS is the chain of statements that makes up the function body.
14380 DECL is the ..._DECL that `start_method' provided. */
14383 finish_method (decl
)
14386 register tree fndecl
= decl
;
14389 register tree link
;
14391 if (decl
== void_type_node
)
14394 old_initial
= DECL_INITIAL (fndecl
);
14396 /* Undo the level for the parms (from start_method).
14397 This is like poplevel, but it causes nothing to be
14398 saved. Saving information here confuses symbol-table
14399 output routines. Besides, this information will
14400 be correctly output when this method is actually
14403 /* Clear out the meanings of the local variables of this level;
14404 also record in each decl which block it belongs to. */
14406 for (link
= current_binding_level
->names
; link
; link
= TREE_CHAIN (link
))
14408 if (DECL_NAME (link
) != NULL_TREE
)
14409 pop_binding (DECL_NAME (link
), link
);
14410 my_friendly_assert (TREE_CODE (link
) != FUNCTION_DECL
, 163);
14411 DECL_CONTEXT (link
) = NULL_TREE
;
14414 GNU_xref_end_scope ((HOST_WIDE_INT
) current_binding_level
,
14415 (HOST_WIDE_INT
) current_binding_level
->level_chain
,
14416 current_binding_level
->parm_flag
,
14417 current_binding_level
->keep
);
14419 poplevel (0, 0, 0);
14421 DECL_INITIAL (fndecl
) = old_initial
;
14423 /* We used to check if the context of FNDECL was different from
14424 current_class_type as another way to get inside here. This didn't work
14425 for String.cc in libg++. */
14426 if (DECL_FRIEND_P (fndecl
))
14428 CLASSTYPE_INLINE_FRIENDS (current_class_type
)
14429 = tree_cons (NULL_TREE
, fndecl
, CLASSTYPE_INLINE_FRIENDS (current_class_type
));
14430 decl
= void_type_node
;
14436 /* Called when a new struct TYPE is defined.
14437 If this structure or union completes the type of any previous
14438 variable declaration, lay it out and output its rtl. */
14441 hack_incomplete_structures (type
)
14445 struct binding_level
*level
;
14447 if (!type
) /* Don't do this for class templates. */
14450 if (namespace_bindings_p ())
14453 list
= &namespace_scope_incomplete
;
14457 level
= innermost_nonclass_level ();
14458 list
= &level
->incomplete
;
14465 tree decl
= TREE_VALUE (*list
);
14466 if ((decl
&& TREE_TYPE (decl
) == type
)
14467 || (TREE_TYPE (decl
)
14468 && TREE_CODE (TREE_TYPE (decl
)) == ARRAY_TYPE
14469 && TREE_TYPE (TREE_TYPE (decl
)) == type
))
14471 int toplevel
= toplevel_bindings_p ();
14472 if (TREE_CODE (TREE_TYPE (decl
)) == ARRAY_TYPE
14473 && TREE_TYPE (TREE_TYPE (decl
)) == type
)
14474 layout_type (TREE_TYPE (decl
));
14475 layout_decl (decl
, 0);
14476 rest_of_decl_compilation (decl
, NULL_PTR
, toplevel
, 0);
14480 expand_decl (decl
);
14481 cleanup
= maybe_build_cleanup (decl
);
14482 expand_decl_init (decl
);
14483 if (! expand_decl_cleanup (decl
, cleanup
))
14484 cp_error ("parser lost in parsing declaration of `%D'",
14487 *list
= TREE_CHAIN (*list
);
14490 list
= &TREE_CHAIN (*list
);
14493 /* Keep looking through artificial binding levels generated
14494 for local variables. */
14495 if (level
&& level
->keep
== 2)
14497 level
= level
->level_chain
;
14498 list
= &level
->incomplete
;
14505 /* If DECL is of a type which needs a cleanup, build that cleanup here.
14506 See build_delete for information about AUTO_DELETE. */
14509 maybe_build_cleanup_1 (decl
, auto_delete
)
14510 tree decl
, auto_delete
;
14512 tree type
= TREE_TYPE (decl
);
14513 if (type
!= error_mark_node
&& TYPE_HAS_NONTRIVIAL_DESTRUCTOR (type
))
14515 int flags
= LOOKUP_NORMAL
|LOOKUP_DESTRUCTOR
;
14518 if (TREE_CODE (type
) == ARRAY_TYPE
)
14522 mark_addressable (decl
);
14523 rval
= build_unary_op (ADDR_EXPR
, decl
, 0);
14526 /* Optimize for space over speed here. */
14527 if (! TYPE_USES_VIRTUAL_BASECLASSES (type
)
14528 || flag_expensive_optimizations
)
14529 flags
|= LOOKUP_NONVIRTUAL
;
14531 rval
= build_delete (TREE_TYPE (rval
), rval
, auto_delete
, flags
, 0);
14533 if (TYPE_USES_VIRTUAL_BASECLASSES (type
)
14534 && ! TYPE_HAS_DESTRUCTOR (type
))
14535 rval
= build_compound_expr (tree_cons (NULL_TREE
, rval
,
14536 build_tree_list (NULL_TREE
, build_vbase_delete (type
, decl
))));
14543 /* If DECL is of a type which needs a cleanup, build that cleanup
14544 here. The cleanup does not free the storage with a call a delete. */
14547 maybe_build_cleanup (decl
)
14550 return maybe_build_cleanup_1 (decl
, integer_two_node
);
14553 /* Expand a C++ expression at the statement level.
14554 This is needed to ferret out nodes which have UNKNOWN_TYPE.
14555 The C++ type checker should get all of these out when
14556 expressions are combined with other, type-providing, expressions,
14557 leaving only orphan expressions, such as:
14559 &class::bar; / / takes its address, but does nothing with it. */
14562 cplus_expand_expr_stmt (exp
)
14566 /* We should do this eventually, but right now this causes regex.o from
14567 libg++ to miscompile, and tString to core dump. */
14568 exp
= build1 (CLEANUP_POINT_EXPR
, TREE_TYPE (exp
), exp
);
14571 /* If we don't do this, we end up down inside expand_expr
14572 trying to do TYPE_MODE on the ERROR_MARK, and really
14573 go outside the bounds of the type. */
14574 if (exp
!= error_mark_node
)
14575 expand_expr_stmt (exp
);
14578 /* When a stmt has been parsed, this function is called. */
14583 /* Always assume this statement was not an expression statement. If
14584 it actually was an expression statement, its our callers
14585 responsibility to fix this up. */
14586 last_expr_type
= NULL_TREE
;
14589 /* DECL was originally constructed as a non-static member function,
14590 but turned out to be static. Update it accordingly. */
14593 revert_static_member_fn (decl
)
14597 tree function
= TREE_TYPE (decl
);
14598 tree args
= TYPE_ARG_TYPES (function
);
14600 if (CP_TYPE_QUALS (TREE_TYPE (TREE_VALUE (args
)))
14601 != TYPE_UNQUALIFIED
)
14602 cp_error ("static member function `%#D' declared with type qualifiers",
14605 args
= TREE_CHAIN (args
);
14606 tmp
= build_function_type (TREE_TYPE (function
), args
);
14607 tmp
= build_qualified_type (tmp
, CP_TYPE_QUALS (function
));
14608 tmp
= build_exception_variant (tmp
,
14609 TYPE_RAISES_EXCEPTIONS (function
));
14610 TREE_TYPE (decl
) = tmp
;
14611 if (DECL_ARGUMENTS (decl
))
14612 DECL_ARGUMENTS (decl
) = TREE_CHAIN (DECL_ARGUMENTS (decl
));
14613 DECL_STATIC_FUNCTION_P (decl
) = 1;
14616 /* Initialize the variables used during compilation of a C++
14620 push_cp_function_context (f
)
14621 struct function
*f
;
14623 struct language_function
*p
14624 = ((struct language_function
*)
14625 xcalloc (1, sizeof (struct language_function
)));
14628 /* It takes an explicit call to expand_body to generate RTL for a
14632 /* Whenever we start a new function, we destroy temporaries in the
14634 stmts_are_full_exprs_p
= 1;
14637 /* Free the language-specific parts of F, now that we've finished
14638 compiling the function. */
14641 pop_cp_function_context (f
)
14642 struct function
*f
;
14645 free (f
->language
);
14649 /* Mark P for GC. */
14652 mark_lang_function (p
)
14653 struct language_function
*p
;
14658 ggc_mark_tree (p
->x_named_labels
);
14659 ggc_mark_tree (p
->x_ctor_label
);
14660 ggc_mark_tree (p
->x_dtor_label
);
14661 ggc_mark_tree (p
->x_base_init_list
);
14662 ggc_mark_tree (p
->x_member_init_list
);
14663 ggc_mark_tree (p
->x_current_class_ptr
);
14664 ggc_mark_tree (p
->x_current_class_ref
);
14665 ggc_mark_tree (p
->x_eh_spec_try_block
);
14666 ggc_mark_tree (p
->x_scope_stmt_stack
);
14668 ggc_mark_rtx (p
->x_result_rtx
);
14670 mark_stmt_tree (&p
->x_stmt_tree
);
14671 mark_binding_level (&p
->bindings
);
14674 /* Mark the language-specific data in F for GC. */
14677 mark_cp_function_context (f
)
14678 struct function
*f
;
14680 mark_lang_function (f
->language
);
14684 lang_mark_false_label_stack (l
)
14685 struct label_node
*l
;
14687 /* C++ doesn't use false_label_stack. It better be NULL. */
14688 my_friendly_assert (l
== NULL
, 19990904);
14695 enum tree_code code
= TREE_CODE (t
);
14696 if (code
== IDENTIFIER_NODE
)
14698 struct lang_identifier
*li
= (struct lang_identifier
*) t
;
14699 struct lang_id2
*li2
= li
->x
;
14700 ggc_mark_tree (li
->namespace_bindings
);
14701 ggc_mark_tree (li
->bindings
);
14702 ggc_mark_tree (li
->class_value
);
14703 ggc_mark_tree (li
->class_template_info
);
14707 ggc_mark_tree (li2
->label_value
);
14708 ggc_mark_tree (li2
->implicit_decl
);
14709 ggc_mark_tree (li2
->error_locus
);
14712 else if (code
== CPLUS_BINDING
)
14714 if (BINDING_HAS_LEVEL_P (t
))
14715 mark_binding_level (&BINDING_LEVEL (t
));
14717 ggc_mark_tree (BINDING_SCOPE (t
));
14718 ggc_mark_tree (BINDING_VALUE (t
));
14720 else if (code
== OVERLOAD
)
14721 ggc_mark_tree (OVL_FUNCTION (t
));
14722 else if (code
== TEMPLATE_PARM_INDEX
)
14723 ggc_mark_tree (TEMPLATE_PARM_DECL (t
));
14724 else if (TREE_CODE_CLASS (code
) == 'd')
14726 struct lang_decl
*ld
= DECL_LANG_SPECIFIC (t
);
14731 if (!DECL_GLOBAL_CTOR_P (t
) && !DECL_GLOBAL_DTOR_P (t
))
14732 ggc_mark_tree (ld
->decl_flags
.u2
.access
);
14733 ggc_mark_tree (ld
->decl_flags
.context
);
14734 if (TREE_CODE (t
) != NAMESPACE_DECL
)
14735 ggc_mark_tree (ld
->decl_flags
.u
.template_info
);
14737 mark_binding_level (&NAMESPACE_LEVEL (t
));
14738 if (CAN_HAVE_FULL_LANG_DECL_P (t
))
14740 ggc_mark_tree (ld
->befriending_classes
);
14741 ggc_mark_tree (ld
->saved_tree
);
14742 ggc_mark_tree (ld
->cloned_function
);
14743 if (TREE_CODE (t
) == TYPE_DECL
)
14744 ggc_mark_tree (ld
->u
.sorted_fields
);
14745 else if (TREE_CODE (t
) == FUNCTION_DECL
14746 && !DECL_PENDING_INLINE_P (t
))
14747 mark_lang_function (DECL_SAVED_FUNCTION_DATA (t
));
14751 else if (TREE_CODE_CLASS (code
) == 't')
14753 struct lang_type
*lt
= TYPE_LANG_SPECIFIC (t
);
14755 if (lt
&& !(TREE_CODE (t
) == POINTER_TYPE
14756 && TREE_CODE (TREE_TYPE (t
)) == METHOD_TYPE
))
14759 ggc_mark_tree (lt
->vfields
);
14760 ggc_mark_tree (lt
->vbases
);
14761 ggc_mark_tree (lt
->tags
);
14762 ggc_mark_tree (lt
->search_slot
);
14763 ggc_mark_tree (lt
->size
);
14764 ggc_mark_tree (lt
->pure_virtuals
);
14765 ggc_mark_tree (lt
->friend_classes
);
14766 ggc_mark_tree (lt
->rtti
);
14767 ggc_mark_tree (lt
->methods
);
14768 ggc_mark_tree (lt
->template_info
);
14769 ggc_mark_tree (lt
->befriending_classes
);
14772 /* In the case of pointer-to-member function types, the
14773 TYPE_LANG_SPECIFIC is really just a tree. */
14774 ggc_mark_tree ((tree
) lt
);