Import final gcc2 snapshot (990109)
[official-gcc.git] / gcc / cp / search.c
blob4624ca99518abed92d01e7e9caae4cc96710edac
1 /* Breadth-first and depth-first routines for
2 searching multiple-inheritance lattice for GNU C++.
3 Copyright (C) 1987, 89, 92-96, 1997 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)
11 any later version.
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. */
23 /* High-level class interface. */
25 #include "config.h"
26 #include "tree.h"
27 #include <stdio.h>
28 #include "cp-tree.h"
29 #include "obstack.h"
30 #include "flags.h"
31 #include "rtl.h"
32 #include "output.h"
34 #define obstack_chunk_alloc xmalloc
35 #define obstack_chunk_free free
37 extern struct obstack *current_obstack;
38 extern tree abort_fndecl;
40 #include "stack.h"
42 /* Obstack used for remembering decision points of breadth-first. */
44 static struct obstack search_obstack;
46 /* Methods for pushing and popping objects to and from obstacks. */
48 struct stack_level *
49 push_stack_level (obstack, tp, size)
50 struct obstack *obstack;
51 char *tp; /* Sony NewsOS 5.0 compiler doesn't like void * here. */
52 int size;
54 struct stack_level *stack;
55 obstack_grow (obstack, tp, size);
56 stack = (struct stack_level *) ((char*)obstack_next_free (obstack) - size);
57 obstack_finish (obstack);
58 stack->obstack = obstack;
59 stack->first = (tree *) obstack_base (obstack);
60 stack->limit = obstack_room (obstack) / sizeof (tree *);
61 return stack;
64 struct stack_level *
65 pop_stack_level (stack)
66 struct stack_level *stack;
68 struct stack_level *tem = stack;
69 struct obstack *obstack = tem->obstack;
70 stack = tem->prev;
71 obstack_free (obstack, tem);
72 return stack;
75 #define search_level stack_level
76 static struct search_level *search_stack;
78 static void clear_memoized_cache PROTO((void));
79 static tree make_memoized_table_entry PROTO((tree, tree, int));
80 static tree get_abstract_virtuals_1 PROTO((tree, int, tree));
81 static tree get_vbase_1 PROTO((tree, tree, unsigned int *));
82 static tree convert_pointer_to_vbase PROTO((tree, tree));
83 static tree lookup_field_1 PROTO((tree, tree));
84 static tree convert_pointer_to_single_level PROTO((tree, tree));
85 static int lookup_fnfields_1 PROTO((tree, tree));
86 static int lookup_fnfields_here PROTO((tree, tree));
87 static int is_subobject_of_p PROTO((tree, tree));
88 static int hides PROTO((tree, tree));
89 static tree virtual_context PROTO((tree, tree, tree));
90 static tree get_template_base_recursive
91 PROTO((tree, tree, tree, int));
92 static void dfs_walk PROTO((tree, void (*) (tree), int (*) (tree)));
93 static void envelope_add_decl PROTO((tree, tree, tree *));
94 static int get_base_distance_recursive
95 PROTO((tree, int, int, int, int *, tree *, tree, tree *,
96 int, int *, int, int));
97 static void expand_upcast_fixups
98 PROTO((tree, tree, tree, tree, tree, tree, tree *));
99 static void fixup_virtual_upcast_offsets
100 PROTO((tree, tree, int, int, tree, tree, tree, tree,
101 tree *));
102 static int markedp PROTO((tree));
103 static int unmarkedp PROTO((tree));
104 static int numberedp PROTO((tree));
105 static int unnumberedp PROTO((tree));
106 static int marked_vtable_pathp PROTO((tree));
107 static int unmarked_vtable_pathp PROTO((tree));
108 static int marked_new_vtablep PROTO((tree));
109 static int unmarked_new_vtablep PROTO((tree));
110 static int dfs_debug_unmarkedp PROTO((tree));
111 static void dfs_number PROTO((tree));
112 static void dfs_unnumber PROTO((tree));
113 static void dfs_debug_mark PROTO((tree));
114 static void dfs_find_vbases PROTO((tree));
115 static void dfs_clear_vbase_slots PROTO((tree));
116 static void dfs_unmark PROTO((tree));
117 static void dfs_init_vbase_pointers PROTO((tree));
118 static void dfs_get_vbase_types PROTO((tree));
119 static void dfs_record_inheritance PROTO((tree));
120 static void dfs_pushdecls PROTO((tree));
121 static void dfs_compress_decls PROTO((tree));
122 static void dfs_unuse_fields PROTO((tree));
123 static void add_conversions PROTO((tree));
124 static tree get_virtuals_named_this PROTO((tree));
125 static tree get_virtual_destructor PROTO((tree, int));
126 static int tree_has_any_destructor_p PROTO((tree, int));
127 static struct search_level *push_search_level
128 PROTO((struct stack_level *, struct obstack *));
129 static struct search_level *pop_search_level
130 PROTO((struct stack_level *));
131 static struct type_level *push_type_level
132 PROTO((struct stack_level *, struct obstack *));
133 static struct type_level *pop_type_level
134 PROTO((struct type_level *));
135 static tree my_tree_cons PROTO((tree, tree, tree));
136 static tree my_build_string PROTO((char *));
137 static struct memoized_entry * my_new_memoized_entry
138 PROTO((struct memoized_entry *));
139 static HOST_WIDE_INT breadth_first_search
140 PROTO((tree, int (*) (tree, int), int (*) (tree, int)));
142 static tree vbase_types;
143 static tree vbase_decl_ptr_intermediate, vbase_decl_ptr;
144 static tree vbase_init_result;
146 /* Allocate a level of searching. */
148 static struct search_level *
149 push_search_level (stack, obstack)
150 struct stack_level *stack;
151 struct obstack *obstack;
153 struct search_level tem;
155 tem.prev = stack;
156 return push_stack_level (obstack, (char *)&tem, sizeof (tem));
159 /* Discard a level of search allocation. */
161 static struct search_level *
162 pop_search_level (obstack)
163 struct stack_level *obstack;
165 register struct search_level *stack = pop_stack_level (obstack);
167 return stack;
170 /* Search memoization. */
172 struct type_level
174 struct stack_level base;
176 /* First object allocated in obstack of entries. */
177 char *entries;
179 /* Number of types memoized in this context. */
180 int len;
182 /* Type being memoized; save this if we are saving
183 memoized contexts. */
184 tree type;
187 /* Obstack used for memoizing member and member function lookup. */
189 static struct obstack type_obstack, type_obstack_entries;
190 static struct type_level *type_stack;
191 static tree _vptr_name;
193 /* Make things that look like tree nodes, but allocate them
194 on type_obstack_entries. */
195 static int my_tree_node_counter;
197 extern int flag_memoize_lookups, flag_save_memoized_contexts;
199 /* Variables for gathering statistics. */
200 static int my_memoized_entry_counter;
201 static int memoized_fast_finds[2], memoized_adds[2], memoized_fast_rejects[2];
202 static int memoized_fields_searched[2];
203 #ifdef GATHER_STATISTICS
204 static int n_fields_searched;
205 static int n_calls_lookup_field, n_calls_lookup_field_1;
206 static int n_calls_lookup_fnfields, n_calls_lookup_fnfields_1;
207 static int n_calls_get_base_type;
208 static int n_outer_fields_searched;
209 static int n_contexts_saved;
210 #endif /* GATHER_STATISTICS */
212 /* Local variables to help save memoization contexts. */
213 static tree prev_type_memoized;
214 static struct type_level *prev_type_stack;
216 /* This list is used by push_class_decls to know what decls need to
217 be pushed into class scope. */
218 static tree closed_envelopes = NULL_TREE;
220 /* Allocate a level of type memoization context. */
222 static struct type_level *
223 push_type_level (stack, obstack)
224 struct stack_level *stack;
225 struct obstack *obstack;
227 struct type_level tem;
229 tem.base.prev = stack;
231 obstack_finish (&type_obstack_entries);
232 tem.entries = (char *) obstack_base (&type_obstack_entries);
233 tem.len = 0;
234 tem.type = NULL_TREE;
236 return (struct type_level *)push_stack_level (obstack, (char *)&tem, sizeof (tem));
239 /* Discard a level of type memoization context. */
241 static struct type_level *
242 pop_type_level (stack)
243 struct type_level *stack;
245 obstack_free (&type_obstack_entries, stack->entries);
246 return (struct type_level *)pop_stack_level ((struct stack_level *)stack);
249 /* Make something that looks like a TREE_LIST, but
250 do it on the type_obstack_entries obstack. */
252 static tree
253 my_tree_cons (purpose, value, chain)
254 tree purpose, value, chain;
256 tree p = (tree)obstack_alloc (&type_obstack_entries, sizeof (struct tree_list));
257 ++my_tree_node_counter;
258 TREE_TYPE (p) = NULL_TREE;
259 ((HOST_WIDE_INT *)p)[3] = 0;
260 TREE_SET_CODE (p, TREE_LIST);
261 TREE_PURPOSE (p) = purpose;
262 TREE_VALUE (p) = value;
263 TREE_CHAIN (p) = chain;
264 return p;
267 static tree
268 my_build_string (str)
269 char *str;
271 tree p = (tree)obstack_alloc (&type_obstack_entries, sizeof (struct tree_string));
272 ++my_tree_node_counter;
273 TREE_TYPE (p) = 0;
274 ((int *)p)[3] = 0;
275 TREE_SET_CODE (p, STRING_CST);
276 TREE_STRING_POINTER (p) = str;
277 TREE_STRING_LENGTH (p) = strlen (str);
278 return p;
281 /* Memoizing machinery to make searches for multiple inheritance
282 reasonably efficient. */
284 #define MEMOIZE_HASHSIZE 8
285 typedef struct memoized_entry
287 struct memoized_entry *chain;
288 int uid;
289 tree data_members[MEMOIZE_HASHSIZE];
290 tree function_members[MEMOIZE_HASHSIZE];
291 } *ME;
293 #define MEMOIZED_CHAIN(ENTRY) (((ME)ENTRY)->chain)
294 #define MEMOIZED_UID(ENTRY) (((ME)ENTRY)->uid)
295 #define MEMOIZED_FIELDS(ENTRY,INDEX) (((ME)ENTRY)->data_members[INDEX])
296 #define MEMOIZED_FNFIELDS(ENTRY,INDEX) (((ME)ENTRY)->function_members[INDEX])
297 /* The following is probably a lousy hash function. */
298 #define MEMOIZED_HASH_FN(NODE) (((long)(NODE)>>4)&(MEMOIZE_HASHSIZE - 1))
300 static struct memoized_entry *
301 my_new_memoized_entry (chain)
302 struct memoized_entry *chain;
304 struct memoized_entry *p
305 = (struct memoized_entry *)obstack_alloc (&type_obstack_entries,
306 sizeof (struct memoized_entry));
307 bzero ((char *) p, sizeof (struct memoized_entry));
308 MEMOIZED_CHAIN (p) = chain;
309 MEMOIZED_UID (p) = ++my_memoized_entry_counter;
310 return p;
313 /* Clears the deferred pop from pop_memoized_context, if any. */
315 static void
316 clear_memoized_cache ()
318 if (prev_type_stack)
320 type_stack = pop_type_level (prev_type_stack);
321 prev_type_memoized = 0;
322 prev_type_stack = 0;
326 /* Make an entry in the memoized table for type TYPE
327 that the entry for NAME is FIELD. */
329 static tree
330 make_memoized_table_entry (type, name, function_p)
331 tree type, name;
332 int function_p;
334 int idx = MEMOIZED_HASH_FN (name);
335 tree entry, *prev_entry;
337 /* Since we allocate from the type_obstack, we must pop any deferred
338 levels. */
339 clear_memoized_cache ();
341 memoized_adds[function_p] += 1;
342 if (CLASSTYPE_MTABLE_ENTRY (type) == 0)
344 obstack_ptr_grow (&type_obstack, type);
345 obstack_blank (&type_obstack, sizeof (struct memoized_entry *));
346 CLASSTYPE_MTABLE_ENTRY (type) = (char *)my_new_memoized_entry ((struct memoized_entry *)0);
347 type_stack->len++;
348 if (type_stack->len * 2 >= type_stack->base.limit)
349 my_friendly_abort (88);
351 if (function_p)
352 prev_entry = &MEMOIZED_FNFIELDS (CLASSTYPE_MTABLE_ENTRY (type), idx);
353 else
354 prev_entry = &MEMOIZED_FIELDS (CLASSTYPE_MTABLE_ENTRY (type), idx);
356 entry = my_tree_cons (name, NULL_TREE, *prev_entry);
357 *prev_entry = entry;
359 /* Don't know the error message to give yet. */
360 TREE_TYPE (entry) = error_mark_node;
362 return entry;
365 /* When a new function or class context is entered, we build
366 a table of types which have been searched for members.
367 The table is an array (obstack) of types. When a type is
368 entered into the obstack, its CLASSTYPE_MTABLE_ENTRY
369 field is set to point to a new record, of type struct memoized_entry.
371 A non-NULL TREE_TYPE of the entry contains an access control error message.
373 The slots for the data members are arrays of tree nodes.
374 These tree nodes are lists, with the TREE_PURPOSE
375 of this list the known member name, and the TREE_VALUE
376 as the FIELD_DECL for the member.
378 For member functions, the TREE_PURPOSE is again the
379 name of the member functions for that class,
380 and the TREE_VALUE of the list is a pairs
381 whose TREE_PURPOSE is a member functions of this name,
382 and whose TREE_VALUE is a list of known argument lists this
383 member function has been called with. The TREE_TYPE of the pair,
384 if non-NULL, is an error message to print. */
386 /* Tell search machinery that we are entering a new context, and
387 to update tables appropriately.
389 TYPE is the type of the context we are entering, which can
390 be NULL_TREE if we are not in a class's scope.
392 USE_OLD, if nonzero tries to use previous context. */
394 void
395 push_memoized_context (type, use_old)
396 tree type;
397 int use_old;
399 int len;
400 tree *tem;
402 if (prev_type_stack)
404 if (use_old && prev_type_memoized == type)
406 #ifdef GATHER_STATISTICS
407 n_contexts_saved++;
408 #endif /* GATHER_STATISTICS */
409 type_stack = prev_type_stack;
410 prev_type_stack = 0;
412 tem = &type_stack->base.first[0];
413 len = type_stack->len;
414 while (len--)
415 CLASSTYPE_MTABLE_ENTRY (tem[len*2]) = (char *)tem[len*2+1];
416 return;
418 /* Otherwise, need to pop old stack here. */
419 clear_memoized_cache ();
422 type_stack = push_type_level ((struct stack_level *)type_stack,
423 &type_obstack);
424 type_stack->type = type;
427 /* Tell search machinery that we have left a context.
428 We do not currently save these contexts for later use.
429 If we wanted to, we could not use pop_search_level, since
430 poping that level allows the data we have collected to
431 be clobbered; a stack of obstacks would be needed. */
433 void
434 pop_memoized_context (use_old)
435 int use_old;
437 int len;
438 tree *tem = &type_stack->base.first[0];
440 if (! flag_save_memoized_contexts)
441 use_old = 0;
442 else if (use_old)
444 len = type_stack->len;
445 while (len--)
446 tem[len*2+1] = (tree)CLASSTYPE_MTABLE_ENTRY (tem[len*2]);
448 /* If there was a deferred pop, we need to pop it now. */
449 clear_memoized_cache ();
451 prev_type_stack = type_stack;
452 prev_type_memoized = type_stack->type;
455 if (flag_memoize_lookups)
457 len = type_stack->len;
458 while (len--)
459 CLASSTYPE_MTABLE_ENTRY (tem[len*2])
460 = (char *)MEMOIZED_CHAIN (CLASSTYPE_MTABLE_ENTRY (tem[len*2]));
462 if (! use_old)
463 type_stack = pop_type_level (type_stack);
464 else
465 type_stack = (struct type_level *)type_stack->base.prev;
468 /* Get a virtual binfo that is found inside BINFO's hierarchy that is
469 the same type as the type given in PARENT. To be optimal, we want
470 the first one that is found by going through the least number of
471 virtual bases. */
473 static tree
474 get_vbase_1 (parent, binfo, depth)
475 tree parent, binfo;
476 unsigned int *depth;
478 tree binfos;
479 int i, n_baselinks;
480 tree rval = NULL_TREE;
482 if (BINFO_TYPE (binfo) == parent && TREE_VIA_VIRTUAL (binfo))
484 *depth = 0;
485 return binfo;
488 *depth = *depth - 1;
490 binfos = BINFO_BASETYPES (binfo);
491 n_baselinks = binfos ? TREE_VEC_LENGTH (binfos) : 0;
493 /* Process base types. */
494 for (i = 0; i < n_baselinks; i++)
496 tree base_binfo = TREE_VEC_ELT (binfos, i);
497 tree nrval;
499 if (*depth == 0)
500 break;
502 nrval = get_vbase_1 (parent, base_binfo, depth);
503 if (nrval)
504 rval = nrval;
506 *depth = *depth+1;
507 return rval;
510 tree
511 get_vbase (parent, binfo)
512 tree parent;
513 tree binfo;
515 unsigned int d = (unsigned int)-1;
516 return get_vbase_1 (parent, binfo, &d);
519 /* Convert EXPR to a virtual base class of type TYPE. We know that
520 EXPR is a non-null POINTER_TYPE to RECORD_TYPE. We also know that
521 the type of what expr points to has a virtual base of type TYPE. */
523 static tree
524 convert_pointer_to_vbase (type, expr)
525 tree type;
526 tree expr;
528 tree vb = get_vbase (type, TYPE_BINFO (TREE_TYPE (TREE_TYPE (expr))));
529 return convert_pointer_to_real (vb, expr);
532 /* Check whether the type given in BINFO is derived from PARENT. If
533 it isn't, return 0. If it is, but the derivation is MI-ambiguous
534 AND protect != 0, emit an error message and return error_mark_node.
536 Otherwise, if TYPE is derived from PARENT, return the actual base
537 information, unless a one of the protection violations below
538 occurs, in which case emit an error message and return error_mark_node.
540 If PROTECT is 1, then check if access to a public field of PARENT
541 would be private. Also check for ambiguity. */
543 tree
544 get_binfo (parent, binfo, protect)
545 register tree parent, binfo;
546 int protect;
548 tree type;
549 int dist;
550 tree rval = NULL_TREE;
552 if (TREE_CODE (parent) == TREE_VEC)
553 parent = BINFO_TYPE (parent);
554 else if (! IS_AGGR_TYPE_CODE (TREE_CODE (parent)))
555 my_friendly_abort (89);
557 if (TREE_CODE (binfo) == TREE_VEC)
558 type = BINFO_TYPE (binfo);
559 else if (IS_AGGR_TYPE_CODE (TREE_CODE (binfo)))
560 type = binfo;
561 else
562 my_friendly_abort (90);
564 dist = get_base_distance (parent, binfo, protect, &rval);
566 if (dist == -3)
568 cp_error ("fields of `%T' are inaccessible in `%T' due to private inheritance",
569 parent, type);
570 return error_mark_node;
572 else if (dist == -2 && protect)
574 cp_error ("type `%T' is ambiguous base class for type `%T'", parent,
575 type);
576 return error_mark_node;
579 return rval;
582 /* This is the newer depth first get_base_distance routine. */
584 static int
585 get_base_distance_recursive (binfo, depth, is_private, rval,
586 rval_private_ptr, new_binfo_ptr, parent, path_ptr,
587 protect, via_virtual_ptr, via_virtual,
588 current_scope_in_chain)
589 tree binfo;
590 int depth, is_private, rval;
591 int *rval_private_ptr;
592 tree *new_binfo_ptr, parent, *path_ptr;
593 int protect, *via_virtual_ptr, via_virtual;
594 int current_scope_in_chain;
596 tree binfos;
597 int i, n_baselinks;
599 if (protect
600 && !current_scope_in_chain
601 && is_friend (BINFO_TYPE (binfo), current_scope ()))
602 current_scope_in_chain = 1;
604 if (BINFO_TYPE (binfo) == parent || binfo == parent)
606 if (rval == -1)
608 rval = depth;
609 *rval_private_ptr = is_private;
610 *new_binfo_ptr = binfo;
611 *via_virtual_ptr = via_virtual;
613 else
615 int same_object = (tree_int_cst_equal (BINFO_OFFSET (*new_binfo_ptr),
616 BINFO_OFFSET (binfo))
617 && *via_virtual_ptr && via_virtual);
619 if (*via_virtual_ptr && via_virtual==0)
621 *rval_private_ptr = is_private;
622 *new_binfo_ptr = binfo;
623 *via_virtual_ptr = via_virtual;
625 else if (same_object)
627 if (*rval_private_ptr && ! is_private)
629 *rval_private_ptr = is_private;
630 *new_binfo_ptr = binfo;
631 *via_virtual_ptr = via_virtual;
633 return rval;
636 rval = -2;
638 return rval;
641 binfos = BINFO_BASETYPES (binfo);
642 n_baselinks = binfos ? TREE_VEC_LENGTH (binfos) : 0;
643 depth += 1;
645 /* Process base types. */
646 for (i = 0; i < n_baselinks; i++)
648 tree base_binfo = TREE_VEC_ELT (binfos, i);
650 /* Find any specific instance of a virtual base, when searching with
651 a binfo... */
652 if (BINFO_MARKED (base_binfo) == 0 || TREE_CODE (parent) == TREE_VEC)
654 int via_private
655 = (protect
656 && (is_private
657 || (!TREE_VIA_PUBLIC (base_binfo)
658 && !(TREE_VIA_PROTECTED (base_binfo)
659 && current_scope_in_chain)
660 && !is_friend (BINFO_TYPE (binfo), current_scope ()))));
661 int this_virtual = via_virtual || TREE_VIA_VIRTUAL (base_binfo);
662 int was;
664 /* When searching for a non-virtual, we cannot mark
665 virtually found binfos. */
666 if (! this_virtual)
667 SET_BINFO_MARKED (base_binfo);
669 #define WATCH_VALUES(rval, via_private) (rval == -1 ? 3 : via_private)
671 was = WATCH_VALUES (rval, *via_virtual_ptr);
672 rval = get_base_distance_recursive (base_binfo, depth, via_private,
673 rval, rval_private_ptr,
674 new_binfo_ptr, parent, path_ptr,
675 protect, via_virtual_ptr,
676 this_virtual,
677 current_scope_in_chain);
678 /* watch for updates; only update if path is good. */
679 if (path_ptr && WATCH_VALUES (rval, *via_virtual_ptr) != was)
680 BINFO_INHERITANCE_CHAIN (base_binfo) = binfo;
681 if (rval == -2 && *via_virtual_ptr == 0)
682 return rval;
684 #undef WATCH_VALUES
689 return rval;
692 /* Return the number of levels between type PARENT and the type given
693 in BINFO, following the leftmost path to PARENT not found along a
694 virtual path, if there are no real PARENTs (all come from virtual
695 base classes), then follow the leftmost path to PARENT.
697 Return -1 if TYPE is not derived from PARENT.
698 Return -2 if PARENT is an ambiguous base class of TYPE, and PROTECT is
699 non-negative.
700 Return -3 if PARENT is private to TYPE, and PROTECT is non-zero.
702 If PATH_PTR is non-NULL, then also build the list of types
703 from PARENT to TYPE, with TREE_VIA_VIRTUAL and TREE_VIA_PUBLIC
704 set.
706 PARENT can also be a binfo, in which case that exact parent is found
707 and no other. convert_pointer_to_real uses this functionality.
709 If BINFO is a binfo, its BINFO_INHERITANCE_CHAIN will be left alone. */
712 get_base_distance (parent, binfo, protect, path_ptr)
713 register tree parent, binfo;
714 int protect;
715 tree *path_ptr;
717 int rval;
718 int rval_private = 0;
719 tree type;
720 tree new_binfo = NULL_TREE;
721 int via_virtual;
722 int watch_access = protect;
724 /* Should we be completing types here? */
725 if (TREE_CODE (parent) != TREE_VEC)
726 parent = complete_type (TYPE_MAIN_VARIANT (parent));
727 else
728 complete_type (TREE_TYPE (parent));
730 if (TREE_CODE (binfo) == TREE_VEC)
731 type = BINFO_TYPE (binfo);
732 else if (IS_AGGR_TYPE_CODE (TREE_CODE (binfo)))
734 type = complete_type (binfo);
735 binfo = TYPE_BINFO (type);
737 if (path_ptr)
738 BINFO_INHERITANCE_CHAIN (binfo) = NULL_TREE;
740 else
741 my_friendly_abort (92);
743 if (parent == type || parent == binfo)
745 /* If the distance is 0, then we don't really need
746 a path pointer, but we shouldn't let garbage go back. */
747 if (path_ptr)
748 *path_ptr = binfo;
749 return 0;
752 if (path_ptr)
753 watch_access = 1;
755 rval = get_base_distance_recursive (binfo, 0, 0, -1,
756 &rval_private, &new_binfo, parent,
757 path_ptr, watch_access, &via_virtual, 0,
760 dfs_walk (binfo, dfs_unmark, markedp);
762 /* Access restrictions don't count if we found an ambiguous basetype. */
763 if (rval == -2 && protect >= 0)
764 rval_private = 0;
766 if (rval && protect && rval_private)
767 return -3;
769 /* find real virtual base classes. */
770 if (rval == -1 && TREE_CODE (parent) == TREE_VEC
771 && parent == binfo_member (BINFO_TYPE (parent),
772 CLASSTYPE_VBASECLASSES (type)))
774 BINFO_INHERITANCE_CHAIN (parent) = binfo;
775 new_binfo = parent;
776 rval = 1;
779 if (path_ptr)
780 *path_ptr = new_binfo;
781 return rval;
784 /* Search for a member with name NAME in a multiple inheritance lattice
785 specified by TYPE. If it does not exist, return NULL_TREE.
786 If the member is ambiguously referenced, return `error_mark_node'.
787 Otherwise, return the FIELD_DECL. */
789 /* Do a 1-level search for NAME as a member of TYPE. The caller must
790 figure out whether it can access this field. (Since it is only one
791 level, this is reasonable.) */
793 static tree
794 lookup_field_1 (type, name)
795 tree type, name;
797 register tree field = TYPE_FIELDS (type);
799 #ifdef GATHER_STATISTICS
800 n_calls_lookup_field_1++;
801 #endif /* GATHER_STATISTICS */
802 while (field)
804 #ifdef GATHER_STATISTICS
805 n_fields_searched++;
806 #endif /* GATHER_STATISTICS */
807 if (DECL_NAME (field) == NULL_TREE
808 && TREE_CODE (TREE_TYPE (field)) == UNION_TYPE)
810 tree temp = lookup_field_1 (TREE_TYPE (field), name);
811 if (temp)
812 return temp;
814 if (DECL_NAME (field) == name)
816 if ((TREE_CODE(field) == VAR_DECL || TREE_CODE(field) == CONST_DECL)
817 && DECL_ASSEMBLER_NAME (field) != NULL)
818 GNU_xref_ref(current_function_decl,
819 IDENTIFIER_POINTER (DECL_ASSEMBLER_NAME (field)));
820 return field;
822 field = TREE_CHAIN (field);
824 /* Not found. */
825 if (name == _vptr_name)
827 /* Give the user what s/he thinks s/he wants. */
828 if (TYPE_VIRTUAL_P (type))
829 return CLASSTYPE_VFIELD (type);
831 return NULL_TREE;
834 /* There are a number of cases we need to be aware of here:
835 current_class_type current_function_decl
836 global NULL NULL
837 fn-local NULL SET
838 class-local SET NULL
839 class->fn SET SET
840 fn->class SET SET
842 Those last two make life interesting. If we're in a function which is
843 itself inside a class, we need decls to go into the fn's decls (our
844 second case below). But if we're in a class and the class itself is
845 inside a function, we need decls to go into the decls for the class. To
846 achieve this last goal, we must see if, when both current_class_ptr and
847 current_function_decl are set, the class was declared inside that
848 function. If so, we know to put the decls into the class's scope. */
850 tree
851 current_scope ()
853 if (current_function_decl == NULL_TREE)
854 return current_class_type;
855 if (current_class_type == NULL_TREE)
856 return current_function_decl;
857 if (DECL_CLASS_CONTEXT (current_function_decl) == current_class_type)
858 return current_function_decl;
860 return current_class_type;
863 /* Compute the access of FIELD. This is done by computing
864 the access available to each type in BASETYPES (which comes
865 as a list of [via_public/basetype] in reverse order, namely base
866 class before derived class). The first one which defines a
867 access defines the access for the field. Otherwise, the
868 access of the field is that which occurs normally.
870 Uses global variables CURRENT_CLASS_TYPE and
871 CURRENT_FUNCTION_DECL to use friend relationships
872 if necessary.
874 This will be static when lookup_fnfield comes into this file.
876 access_public_node means that the field can be accessed by the current lexical
877 scope.
879 access_protected_node means that the field cannot be accessed by the current
880 lexical scope because it is protected.
882 access_private_node means that the field cannot be accessed by the current
883 lexical scope because it is private. */
885 #if 0
886 #define PUBLIC_RETURN return (DECL_PUBLIC (field) = 1), access_public_node
887 #define PROTECTED_RETURN return (DECL_PROTECTED (field) = 1), access_protected_node
888 #define PRIVATE_RETURN return (DECL_PRIVATE (field) = 1), access_private_node
889 #else
890 #define PUBLIC_RETURN return access_public_node
891 #define PROTECTED_RETURN return access_protected_node
892 #define PRIVATE_RETURN return access_private_node
893 #endif
895 #if 0
896 /* Disabled with DECL_PUBLIC &c. */
897 static tree previous_scope = NULL_TREE;
898 #endif
900 tree
901 compute_access (basetype_path, field)
902 tree basetype_path, field;
904 tree access;
905 tree types;
906 tree context;
907 int protected_ok, via_protected;
908 extern int flag_access_control;
909 #if 1
910 /* Replaces static decl above. */
911 tree previous_scope;
912 #endif
913 int static_mem
914 = ((TREE_CODE (field) == FUNCTION_DECL && DECL_STATIC_FUNCTION_P (field))
915 || (TREE_CODE (field) != FUNCTION_DECL && TREE_STATIC (field)));
917 if (! flag_access_control)
918 return access_public_node;
920 /* The field lives in the current class. */
921 if (BINFO_TYPE (basetype_path) == current_class_type)
922 return access_public_node;
924 #if 0
925 /* Disabled until pushing function scope clears these out. If ever. */
926 /* Make these special cases fast. */
927 if (current_scope () == previous_scope)
929 if (DECL_PUBLIC (field))
930 return access_public_node;
931 if (DECL_PROTECTED (field))
932 return access_protected_node;
933 if (DECL_PRIVATE (field))
934 return access_private_node;
936 #endif
938 /* We don't currently support access control on nested types. */
939 if (TREE_CODE (field) == TYPE_DECL)
940 return access_public_node;
942 previous_scope = current_scope ();
944 context = DECL_CLASS_CONTEXT (field);
945 if (context == NULL_TREE)
946 context = DECL_CONTEXT (field);
948 /* Fields coming from nested anonymous unions have their DECL_CLASS_CONTEXT
949 slot set to the union type rather than the record type containing
950 the anonymous union. */
951 if (context && TREE_CODE (context) == UNION_TYPE
952 && ANON_AGGRNAME_P (TYPE_IDENTIFIER (context)))
953 context = TYPE_CONTEXT (context);
955 /* Virtual function tables are never private. But we should know that
956 we are looking for this, and not even try to hide it. */
957 if (DECL_NAME (field) && VFIELD_NAME_P (DECL_NAME (field)) == 1)
958 PUBLIC_RETURN;
960 /* Member found immediately within object. */
961 if (BINFO_INHERITANCE_CHAIN (basetype_path) == NULL_TREE)
963 /* Are we (or an enclosing scope) friends with the class that has
964 FIELD? */
965 if (is_friend (context, previous_scope))
966 PUBLIC_RETURN;
968 /* If it's private, it's private, you letch. */
969 if (TREE_PRIVATE (field))
970 PRIVATE_RETURN;
972 /* ARM $11.5. Member functions of a derived class can access the
973 non-static protected members of a base class only through a
974 pointer to the derived class, a reference to it, or an object
975 of it. Also any subsequently derived classes also have
976 access. */
977 else if (TREE_PROTECTED (field))
979 if (current_class_type
980 && static_mem
981 && ACCESSIBLY_DERIVED_FROM_P (context, current_class_type))
982 PUBLIC_RETURN;
983 else
984 PROTECTED_RETURN;
986 else
987 PUBLIC_RETURN;
990 /* must reverse more than one element */
991 basetype_path = reverse_path (basetype_path);
992 types = basetype_path;
993 via_protected = 0;
994 access = access_default_node;
995 protected_ok = static_mem && current_class_type
996 && ACCESSIBLY_DERIVED_FROM_P (BINFO_TYPE (types), current_class_type);
998 while (1)
1000 tree member;
1001 tree binfo = types;
1002 tree type = BINFO_TYPE (binfo);
1003 int private_ok = 0;
1005 /* Friends of a class can see protected members of its bases.
1006 Note that classes are their own friends. */
1007 if (is_friend (type, previous_scope))
1009 protected_ok = 1;
1010 private_ok = 1;
1013 member = purpose_member (type, DECL_ACCESS (field));
1014 if (member)
1016 access = TREE_VALUE (member);
1017 break;
1020 types = BINFO_INHERITANCE_CHAIN (types);
1022 /* If the next type was VIA_PROTECTED, then fields of all remaining
1023 classes past that one are *at least* protected. */
1024 if (types)
1026 if (TREE_VIA_PROTECTED (types))
1027 via_protected = 1;
1028 else if (! TREE_VIA_PUBLIC (types) && ! private_ok)
1030 access = access_private_node;
1031 break;
1034 else
1035 break;
1037 reverse_path (basetype_path);
1039 /* No special visibilities apply. Use normal rules. */
1041 if (access == access_default_node)
1043 if (is_friend (context, previous_scope))
1044 access = access_public_node;
1045 else if (TREE_PRIVATE (field))
1046 access = access_private_node;
1047 else if (TREE_PROTECTED (field))
1048 access = access_protected_node;
1049 else
1050 access = access_public_node;
1053 if (access == access_public_node && via_protected)
1054 access = access_protected_node;
1056 if (access == access_protected_node && protected_ok)
1057 access = access_public_node;
1059 #if 0
1060 if (access == access_public_node)
1061 DECL_PUBLIC (field) = 1;
1062 else if (access == access_protected_node)
1063 DECL_PROTECTED (field) = 1;
1064 else if (access == access_private_node)
1065 DECL_PRIVATE (field) = 1;
1066 else my_friendly_abort (96);
1067 #endif
1068 return access;
1071 /* Routine to see if the sub-object denoted by the binfo PARENT can be
1072 found as a base class and sub-object of the object denoted by
1073 BINFO. This routine relies upon binfos not being shared, except
1074 for binfos for virtual bases. */
1076 static int
1077 is_subobject_of_p (parent, binfo)
1078 tree parent, binfo;
1080 tree binfos = BINFO_BASETYPES (binfo);
1081 int i, n_baselinks = binfos ? TREE_VEC_LENGTH (binfos) : 0;
1083 if (parent == binfo)
1084 return 1;
1086 /* Process and/or queue base types. */
1087 for (i = 0; i < n_baselinks; i++)
1089 tree base_binfo = TREE_VEC_ELT (binfos, i);
1090 if (TREE_VIA_VIRTUAL (base_binfo))
1091 base_binfo = TYPE_BINFO (BINFO_TYPE (base_binfo));
1092 if (is_subobject_of_p (parent, base_binfo))
1093 return 1;
1095 return 0;
1098 /* See if a one FIELD_DECL hides another. This routine is meant to
1099 correspond to ANSI working paper Sept 17, 1992 10p4. The two
1100 binfos given are the binfos corresponding to the particular places
1101 the FIELD_DECLs are found. This routine relies upon binfos not
1102 being shared, except for virtual bases. */
1104 static int
1105 hides (hider_binfo, hidee_binfo)
1106 tree hider_binfo, hidee_binfo;
1108 /* hider hides hidee, if hider has hidee as a base class and
1109 the instance of hidee is a sub-object of hider. The first
1110 part is always true is the second part is true.
1112 When hider and hidee are the same (two ways to get to the exact
1113 same member) we consider either one as hiding the other. */
1114 return is_subobject_of_p (hidee_binfo, hider_binfo);
1117 /* Very similar to lookup_fnfields_1 but it ensures that at least one
1118 function was declared inside the class given by TYPE. It really should
1119 only return functions that match the given TYPE. */
1121 static int
1122 lookup_fnfields_here (type, name)
1123 tree type, name;
1125 int idx = lookup_fnfields_1 (type, name);
1126 tree fndecls;
1128 /* ctors and dtors are always only in the right class. */
1129 if (idx <= 1)
1130 return idx;
1131 fndecls = TREE_VEC_ELT (CLASSTYPE_METHOD_VEC (type), idx);
1132 while (fndecls)
1134 if (TYPE_MAIN_VARIANT (DECL_CLASS_CONTEXT (fndecls))
1135 == TYPE_MAIN_VARIANT (type))
1136 return idx;
1137 fndecls = TREE_CHAIN (fndecls);
1139 return -1;
1142 /* Look for a field named NAME in an inheritance lattice dominated by
1143 XBASETYPE. PROTECT is zero if we can avoid computing access
1144 information, otherwise it is 1. WANT_TYPE is 1 when we should only
1145 return TYPE_DECLs, if no TYPE_DECL can be found return NULL_TREE.
1147 It was not clear what should happen if WANT_TYPE is set, and an
1148 ambiguity is found. At least one use (lookup_name) to not see
1149 the error. */
1151 tree
1152 lookup_field (xbasetype, name, protect, want_type)
1153 register tree xbasetype, name;
1154 int protect, want_type;
1156 int head = 0, tail = 0;
1157 tree rval, rval_binfo = NULL_TREE, rval_binfo_h;
1158 tree type, basetype_chain, basetype_path;
1159 tree this_v = access_default_node;
1160 tree entry, binfo, binfo_h;
1161 tree own_access = access_default_node;
1162 int vbase_name_p = VBASE_NAME_P (name);
1164 /* rval_binfo is the binfo associated with the found member, note,
1165 this can be set with useful information, even when rval is not
1166 set, because it must deal with ALL members, not just non-function
1167 members. It is used for ambiguity checking and the hidden
1168 checks. Whereas rval is only set if a proper (not hidden)
1169 non-function member is found. */
1171 /* rval_binfo_h and binfo_h are binfo values used when we perform the
1172 hiding checks, as virtual base classes may not be shared. The strategy
1173 is we always go into the the binfo hierarchy owned by TYPE_BINFO of
1174 virtual base classes, as we cross virtual base class lines. This way
1175 we know that binfo of a virtual base class will always == itself when
1176 found along any line. (mrs) */
1178 char *errstr = 0;
1180 /* Set this to nonzero if we don't know how to compute
1181 accurate error messages for access control. */
1182 int idx = MEMOIZED_HASH_FN (name);
1184 #if 0
1185 /* We cannot search for constructor/destructor names like this. */
1186 /* This can't go here, but where should it go? */
1187 /* If we are looking for a constructor in a templated type, use the
1188 unspecialized name, as that is how we store it. */
1189 if (IDENTIFIER_TEMPLATE (name))
1190 name = constructor_name (name);
1191 #endif
1193 if (xbasetype == current_class_type && TYPE_BEING_DEFINED (xbasetype)
1194 && IDENTIFIER_CLASS_VALUE (name))
1196 tree field = IDENTIFIER_CLASS_VALUE (name);
1197 if (TREE_CODE (field) != FUNCTION_DECL
1198 && ! (want_type && TREE_CODE (field) != TYPE_DECL))
1199 return field;
1202 if (TREE_CODE (xbasetype) == TREE_VEC)
1204 type = BINFO_TYPE (xbasetype);
1205 basetype_path = xbasetype;
1207 else if (IS_AGGR_TYPE_CODE (TREE_CODE (xbasetype)))
1209 type = xbasetype;
1210 basetype_path = TYPE_BINFO (type);
1211 BINFO_VIA_PUBLIC (basetype_path) = 1;
1212 BINFO_INHERITANCE_CHAIN (basetype_path) = NULL_TREE;
1214 else
1215 my_friendly_abort (97);
1217 complete_type (type);
1219 if (CLASSTYPE_MTABLE_ENTRY (type))
1221 tree tem = MEMOIZED_FIELDS (CLASSTYPE_MTABLE_ENTRY (type), idx);
1223 while (tem && TREE_PURPOSE (tem) != name)
1225 memoized_fields_searched[0]++;
1226 tem = TREE_CHAIN (tem);
1228 if (tem)
1230 if (protect && TREE_TYPE (tem))
1232 error (TREE_STRING_POINTER (TREE_TYPE (tem)),
1233 IDENTIFIER_POINTER (name),
1234 TYPE_NAME_STRING (DECL_FIELD_CONTEXT (TREE_VALUE (tem))));
1235 return error_mark_node;
1237 if (TREE_VALUE (tem) == NULL_TREE)
1238 memoized_fast_rejects[0] += 1;
1239 else
1240 memoized_fast_finds[0] += 1;
1241 return TREE_VALUE (tem);
1245 #ifdef GATHER_STATISTICS
1246 n_calls_lookup_field++;
1247 #endif /* GATHER_STATISTICS */
1248 if (protect && flag_memoize_lookups && ! global_bindings_p ())
1249 entry = make_memoized_table_entry (type, name, 0);
1250 else
1251 entry = 0;
1253 rval = lookup_field_1 (type, name);
1255 if (rval || lookup_fnfields_here (type, name) >= 0)
1257 if (rval)
1259 if (want_type)
1261 if (TREE_CODE (rval) != TYPE_DECL)
1263 rval = purpose_member (name, CLASSTYPE_TAGS (type));
1264 if (rval)
1265 rval = TYPE_MAIN_DECL (TREE_VALUE (rval));
1268 else
1270 if (TREE_CODE (rval) == TYPE_DECL
1271 && lookup_fnfields_here (type, name) >= 0)
1272 rval = NULL_TREE;
1276 if (protect && rval)
1278 if (TREE_PRIVATE (rval) | TREE_PROTECTED (rval))
1279 this_v = compute_access (basetype_path, rval);
1280 if (TREE_CODE (rval) == CONST_DECL)
1282 if (this_v == access_private_node)
1283 errstr = "enum `%D' is a private value of class `%T'";
1284 else if (this_v == access_protected_node)
1285 errstr = "enum `%D' is a protected value of class `%T'";
1287 else
1289 if (this_v == access_private_node)
1290 errstr = "member `%D' is a private member of class `%T'";
1291 else if (this_v == access_protected_node)
1292 errstr = "member `%D' is a protected member of class `%T'";
1296 if (entry)
1298 if (errstr)
1300 /* This depends on behavior of lookup_field_1! */
1301 tree error_string = my_build_string (errstr);
1302 TREE_TYPE (entry) = error_string;
1304 else
1306 /* Let entry know there is no problem with this access. */
1307 TREE_TYPE (entry) = NULL_TREE;
1309 TREE_VALUE (entry) = rval;
1312 if (errstr && protect)
1314 cp_error (errstr, name, type);
1315 return error_mark_node;
1317 return rval;
1320 basetype_chain = build_expr_list (NULL_TREE, basetype_path);
1321 TREE_VIA_PUBLIC (basetype_chain) = TREE_VIA_PUBLIC (basetype_path);
1322 TREE_VIA_PROTECTED (basetype_chain) = TREE_VIA_PROTECTED (basetype_path);
1323 TREE_VIA_VIRTUAL (basetype_chain) = TREE_VIA_VIRTUAL (basetype_path);
1325 /* The ambiguity check relies upon breadth first searching. */
1327 search_stack = push_search_level (search_stack, &search_obstack);
1328 binfo = basetype_path;
1329 binfo_h = binfo;
1331 while (1)
1333 tree binfos = BINFO_BASETYPES (binfo);
1334 int i, n_baselinks = binfos ? TREE_VEC_LENGTH (binfos) : 0;
1335 tree nval;
1337 /* Process and/or queue base types. */
1338 for (i = 0; i < n_baselinks; i++)
1340 tree base_binfo = TREE_VEC_ELT (binfos, i);
1341 if (BINFO_FIELDS_MARKED (base_binfo) == 0)
1343 tree btypes;
1345 SET_BINFO_FIELDS_MARKED (base_binfo);
1346 btypes = my_tree_cons (NULL_TREE, base_binfo, basetype_chain);
1347 TREE_VIA_PUBLIC (btypes) = TREE_VIA_PUBLIC (base_binfo);
1348 TREE_VIA_PROTECTED (btypes) = TREE_VIA_PROTECTED (base_binfo);
1349 TREE_VIA_VIRTUAL (btypes) = TREE_VIA_VIRTUAL (base_binfo);
1350 if (TREE_VIA_VIRTUAL (base_binfo))
1351 btypes = my_tree_cons (NULL_TREE,
1352 TYPE_BINFO (BINFO_TYPE (TREE_VEC_ELT (BINFO_BASETYPES (binfo_h), i))),
1353 btypes);
1354 else
1355 btypes = my_tree_cons (NULL_TREE,
1356 TREE_VEC_ELT (BINFO_BASETYPES (binfo_h), i),
1357 btypes);
1358 obstack_ptr_grow (&search_obstack, btypes);
1359 tail += 1;
1360 if (tail >= search_stack->limit)
1361 my_friendly_abort (98);
1365 /* Process head of queue, if one exists. */
1366 if (head >= tail)
1367 break;
1369 basetype_chain = search_stack->first[head++];
1370 binfo_h = TREE_VALUE (basetype_chain);
1371 basetype_chain = TREE_CHAIN (basetype_chain);
1372 basetype_path = TREE_VALUE (basetype_chain);
1373 if (TREE_CHAIN (basetype_chain))
1374 BINFO_INHERITANCE_CHAIN (basetype_path) = TREE_VALUE (TREE_CHAIN (basetype_chain));
1375 else
1376 BINFO_INHERITANCE_CHAIN (basetype_path) = NULL_TREE;
1378 binfo = basetype_path;
1379 type = BINFO_TYPE (binfo);
1381 /* See if we can find NAME in TYPE. If RVAL is nonzero,
1382 and we do find NAME in TYPE, verify that such a second
1383 sighting is in fact valid. */
1385 nval = lookup_field_1 (type, name);
1387 if (nval || lookup_fnfields_here (type, name)>=0)
1389 if (nval && nval == rval && SHARED_MEMBER_P (nval))
1391 /* This is ok, the member found is the same [class.ambig] */
1393 else if (rval_binfo && hides (rval_binfo_h, binfo_h))
1395 /* This is ok, the member found is in rval_binfo, not
1396 here (binfo). */
1398 else if (rval_binfo==NULL_TREE || hides (binfo_h, rval_binfo_h))
1400 /* This is ok, the member found is here (binfo), not in
1401 rval_binfo. */
1402 if (nval)
1404 rval = nval;
1405 if (entry || protect)
1406 this_v = compute_access (basetype_path, rval);
1407 /* These may look ambiguous, but they really are not. */
1408 if (vbase_name_p)
1409 break;
1411 else
1413 /* Undo finding it before, as something else hides it. */
1414 rval = NULL_TREE;
1416 rval_binfo = binfo;
1417 rval_binfo_h = binfo_h;
1419 else
1421 /* This is ambiguous. */
1422 errstr = "request for member `%D' is ambiguous";
1423 protect += 2;
1424 break;
1429 tree *tp = search_stack->first;
1430 tree *search_tail = tp + tail;
1432 if (entry)
1433 TREE_VALUE (entry) = rval;
1435 if (rval_binfo)
1437 type = BINFO_TYPE (rval_binfo);
1439 if (rval)
1441 if (want_type)
1443 if (TREE_CODE (rval) != TYPE_DECL)
1445 rval = purpose_member (name, CLASSTYPE_TAGS (type));
1446 if (rval)
1447 rval = TYPE_MAIN_DECL (TREE_VALUE (rval));
1450 else
1452 if (TREE_CODE (rval) == TYPE_DECL
1453 && lookup_fnfields_here (type, name) >= 0)
1454 rval = NULL_TREE;
1459 if (rval == NULL_TREE)
1460 errstr = 0;
1462 /* If this FIELD_DECL defines its own access level, deal with that. */
1463 if (rval && errstr == 0
1464 && ((protect&1) || entry)
1465 && DECL_LANG_SPECIFIC (rval)
1466 && DECL_ACCESS (rval))
1468 while (tp < search_tail)
1470 /* If is possible for one of the derived types on the path to
1471 have defined special access for this field. Look for such
1472 declarations and report an error if a conflict is found. */
1473 tree new_v;
1475 if (this_v != access_default_node)
1476 new_v = compute_access (TREE_VALUE (TREE_CHAIN (*tp)), rval);
1477 if (this_v != access_default_node && new_v != this_v)
1479 errstr = "conflicting access to member `%D'";
1480 this_v = access_default_node;
1482 own_access = new_v;
1483 CLEAR_BINFO_FIELDS_MARKED (TREE_VALUE (TREE_CHAIN (*tp)));
1484 tp += 1;
1487 else
1489 while (tp < search_tail)
1491 CLEAR_BINFO_FIELDS_MARKED (TREE_VALUE (TREE_CHAIN (*tp)));
1492 tp += 1;
1496 search_stack = pop_search_level (search_stack);
1498 if (errstr == 0)
1500 if (own_access == access_private_node)
1501 errstr = "member `%D' declared private";
1502 else if (own_access == access_protected_node)
1503 errstr = "member `%D' declared protected";
1504 else if (this_v == access_private_node)
1505 errstr = TREE_PRIVATE (rval)
1506 ? "member `%D' is private"
1507 : "member `%D' is from private base class";
1508 else if (this_v == access_protected_node)
1509 errstr = TREE_PROTECTED (rval)
1510 ? "member `%D' is protected"
1511 : "member `%D' is from protected base class";
1514 if (entry)
1516 if (errstr)
1518 tree error_string = my_build_string (errstr);
1519 /* Save error message with entry. */
1520 TREE_TYPE (entry) = error_string;
1522 else
1524 /* Mark entry as having no error string. */
1525 TREE_TYPE (entry) = NULL_TREE;
1529 if (protect == 2)
1531 /* If we are not interested in ambiguities, don't report them,
1532 just return NULL_TREE. */
1533 rval = NULL_TREE;
1534 protect = 0;
1537 if (errstr && protect)
1539 cp_error (errstr, name, type);
1540 rval = error_mark_node;
1542 return rval;
1545 /* Try to find NAME inside a nested class. */
1547 tree
1548 lookup_nested_field (name, complain)
1549 tree name;
1550 int complain;
1552 register tree t;
1554 tree id = NULL_TREE;
1555 if (TREE_CHAIN (current_class_type))
1557 /* Climb our way up the nested ladder, seeing if we're trying to
1558 modify a field in an enclosing class. If so, we should only
1559 be able to modify if it's static. */
1560 for (t = TREE_CHAIN (current_class_type);
1561 t && DECL_CONTEXT (t);
1562 t = TREE_CHAIN (DECL_CONTEXT (t)))
1564 if (TREE_CODE (DECL_CONTEXT (t)) != RECORD_TYPE)
1565 break;
1567 /* N.B.: lookup_field will do the access checking for us */
1568 id = lookup_field (DECL_CONTEXT (t), name, complain, 0);
1569 if (id == error_mark_node)
1571 id = NULL_TREE;
1572 continue;
1575 if (id != NULL_TREE)
1577 if (TREE_CODE (id) == FIELD_DECL
1578 && ! TREE_STATIC (id)
1579 && TREE_TYPE (id) != error_mark_node)
1581 if (complain)
1583 /* At parse time, we don't want to give this error, since
1584 we won't have enough state to make this kind of
1585 decision properly. But there are times (e.g., with
1586 enums in nested classes) when we do need to call
1587 this fn at parse time. So, in those cases, we pass
1588 complain as a 0 and just return a NULL_TREE. */
1589 cp_error ("assignment to non-static member `%D' of enclosing class `%T'",
1590 id, DECL_CONTEXT (t));
1591 /* Mark this for do_identifier(). It would otherwise
1592 claim that the variable was undeclared. */
1593 TREE_TYPE (id) = error_mark_node;
1595 else
1597 id = NULL_TREE;
1598 continue;
1601 break;
1606 return id;
1609 /* TYPE is a class type. Return the index of the fields within
1610 the method vector with name NAME, or -1 is no such field exists. */
1612 static int
1613 lookup_fnfields_1 (type, name)
1614 tree type, name;
1616 register tree method_vec = CLASSTYPE_METHOD_VEC (type);
1618 if (method_vec != 0)
1620 register tree *methods = &TREE_VEC_ELT (method_vec, 0);
1621 register tree *end = TREE_VEC_END (method_vec);
1623 #ifdef GATHER_STATISTICS
1624 n_calls_lookup_fnfields_1++;
1625 #endif /* GATHER_STATISTICS */
1627 /* Constructors are first... */
1628 if (*methods && name == ctor_identifier)
1629 return 0;
1631 /* and destructors are second. */
1632 if (*++methods && name == dtor_identifier)
1633 return 1;
1635 while (++methods != end)
1637 #ifdef GATHER_STATISTICS
1638 n_outer_fields_searched++;
1639 #endif /* GATHER_STATISTICS */
1640 if (DECL_NAME (*methods) == name)
1641 break;
1644 /* If we didn't find it, it might have been a template
1645 conversion operator. (Note that we don't look for this case
1646 above so that we will always find specializations first.) */
1647 if (methods == end
1648 && IDENTIFIER_TYPENAME_P (name))
1650 methods = &TREE_VEC_ELT (method_vec, 0) + 1;
1652 while (++methods != end)
1654 if (TREE_CODE (*methods) == TEMPLATE_DECL
1655 && IDENTIFIER_TYPENAME_P (DECL_NAME (*methods)))
1656 break;
1660 if (methods != end)
1661 return methods - &TREE_VEC_ELT (method_vec, 0);
1664 return -1;
1667 /* Starting from BASETYPE, return a TREE_BASELINK-like object
1668 which gives the following information (in a list):
1670 TREE_TYPE: list of basetypes needed to get to...
1671 TREE_VALUE: list of all functions in a given type
1672 which have name NAME.
1674 No access information is computed by this function,
1675 other then to adorn the list of basetypes with
1676 TREE_VIA_PUBLIC.
1678 If there are two ways to find a name (two members), if COMPLAIN is
1679 non-zero, then error_mark_node is returned, and an error message is
1680 printed, otherwise, just an error_mark_node is returned.
1682 As a special case, is COMPLAIN is -1, we don't complain, and we
1683 don't return error_mark_node, but rather the complete list of
1684 virtuals. This is used by get_virtuals_named_this. */
1686 tree
1687 lookup_fnfields (basetype_path, name, complain)
1688 tree basetype_path, name;
1689 int complain;
1691 int head = 0, tail = 0;
1692 tree type, rval, rval_binfo = NULL_TREE, rvals = NULL_TREE, rval_binfo_h;
1693 tree entry, binfo, basetype_chain, binfo_h;
1694 int find_all = 0;
1696 /* rval_binfo is the binfo associated with the found member, note,
1697 this can be set with useful information, even when rval is not
1698 set, because it must deal with ALL members, not just function
1699 members. It is used for ambiguity checking and the hidden
1700 checks. Whereas rval is only set if a proper (not hidden)
1701 function member is found. */
1703 /* rval_binfo_h and binfo_h are binfo values used when we perform the
1704 hiding checks, as virtual base classes may not be shared. The strategy
1705 is we always go into the the binfo hierarchy owned by TYPE_BINFO of
1706 virtual base classes, as we cross virtual base class lines. This way
1707 we know that binfo of a virtual base class will always == itself when
1708 found along any line. (mrs) */
1710 /* For now, don't try this. */
1711 int protect = complain;
1713 char *errstr = 0;
1715 /* Set this to nonzero if we don't know how to compute
1716 accurate error messages for access control. */
1717 int idx = MEMOIZED_HASH_FN (name);
1719 if (complain == -1)
1721 find_all = 1;
1722 protect = complain = 0;
1725 #if 0
1726 /* We cannot search for constructor/destructor names like this. */
1727 /* This can't go here, but where should it go? */
1728 /* If we are looking for a constructor in a templated type, use the
1729 unspecialized name, as that is how we store it. */
1730 if (IDENTIFIER_TEMPLATE (name))
1731 name = constructor_name (name);
1732 #endif
1734 binfo = basetype_path;
1735 binfo_h = binfo;
1736 type = complete_type (BINFO_TYPE (basetype_path));
1738 /* The memoization code is in need of maintenance. */
1739 if (!find_all && CLASSTYPE_MTABLE_ENTRY (type))
1741 tree tem = MEMOIZED_FNFIELDS (CLASSTYPE_MTABLE_ENTRY (type), idx);
1743 while (tem && TREE_PURPOSE (tem) != name)
1745 memoized_fields_searched[1]++;
1746 tem = TREE_CHAIN (tem);
1748 if (tem)
1750 if (protect && TREE_TYPE (tem))
1752 error (TREE_STRING_POINTER (TREE_TYPE (tem)),
1753 IDENTIFIER_POINTER (name),
1754 TYPE_NAME_STRING (DECL_CLASS_CONTEXT (TREE_VALUE (TREE_VALUE (tem)))));
1755 return error_mark_node;
1757 if (TREE_VALUE (tem) == NULL_TREE)
1759 memoized_fast_rejects[1] += 1;
1760 return NULL_TREE;
1762 else
1764 /* Want to return this, but we must make sure
1765 that access information is consistent. */
1766 tree baselink = TREE_VALUE (tem);
1767 tree memoized_basetypes = TREE_PURPOSE (baselink);
1768 tree these_basetypes = basetype_path;
1769 while (memoized_basetypes && these_basetypes)
1771 memoized_fields_searched[1]++;
1772 if (TREE_VALUE (memoized_basetypes) != these_basetypes)
1773 break;
1774 memoized_basetypes = TREE_CHAIN (memoized_basetypes);
1775 these_basetypes = BINFO_INHERITANCE_CHAIN (these_basetypes);
1777 /* The following statement is true only when both are NULL. */
1778 if (memoized_basetypes == these_basetypes)
1780 memoized_fast_finds[1] += 1;
1781 return TREE_VALUE (tem);
1783 /* else, we must re-find this field by hand. */
1784 baselink = tree_cons (basetype_path, TREE_VALUE (baselink), TREE_CHAIN (baselink));
1785 return baselink;
1790 #ifdef GATHER_STATISTICS
1791 n_calls_lookup_fnfields++;
1792 #endif /* GATHER_STATISTICS */
1793 if (protect && flag_memoize_lookups && ! global_bindings_p ())
1794 entry = make_memoized_table_entry (type, name, 1);
1795 else
1796 entry = 0;
1798 idx = lookup_fnfields_here (type, name);
1799 if (idx >= 0 || lookup_field_1 (type, name))
1801 rval_binfo = basetype_path;
1802 rval_binfo_h = rval_binfo;
1805 if (idx >= 0)
1807 rval = TREE_VEC_ELT (CLASSTYPE_METHOD_VEC (type), idx);
1808 rvals = my_tree_cons (basetype_path, rval, rvals);
1809 if (BINFO_BASETYPES (binfo) && CLASSTYPE_BASELINK_VEC (type))
1810 TREE_TYPE (rvals) = TREE_VEC_ELT (CLASSTYPE_BASELINK_VEC (type), idx);
1812 if (entry)
1814 TREE_VALUE (entry) = rvals;
1815 TREE_TYPE (entry) = NULL_TREE;
1818 return rvals;
1820 rval = NULL_TREE;
1822 if (name == ctor_identifier || name == dtor_identifier)
1824 /* Don't allow lookups of constructors and destructors to go
1825 deeper than the first place we look. */
1826 if (entry)
1827 TREE_TYPE (entry) = TREE_VALUE (entry) = NULL_TREE;
1829 return NULL_TREE;
1832 if (basetype_path == TYPE_BINFO (type))
1834 basetype_chain = CLASSTYPE_BINFO_AS_LIST (type);
1835 TREE_VIA_PUBLIC (basetype_chain) = 1;
1836 BINFO_VIA_PUBLIC (basetype_path) = 1;
1837 BINFO_INHERITANCE_CHAIN (basetype_path) = NULL_TREE;
1839 else
1841 basetype_chain = build_expr_list (NULL_TREE, basetype_path);
1842 TREE_VIA_PUBLIC (basetype_chain) = TREE_VIA_PUBLIC (basetype_path);
1843 TREE_VIA_PROTECTED (basetype_chain) = TREE_VIA_PROTECTED (basetype_path);
1844 TREE_VIA_VIRTUAL (basetype_chain) = TREE_VIA_VIRTUAL (basetype_path);
1847 /* The ambiguity check relies upon breadth first searching. */
1849 search_stack = push_search_level (search_stack, &search_obstack);
1850 binfo = basetype_path;
1851 binfo_h = binfo;
1853 while (1)
1855 tree binfos = BINFO_BASETYPES (binfo);
1856 int i, n_baselinks = binfos ? TREE_VEC_LENGTH (binfos) : 0;
1857 int idx;
1859 /* Process and/or queue base types. */
1860 for (i = 0; i < n_baselinks; i++)
1862 tree base_binfo = TREE_VEC_ELT (binfos, i);
1863 if (BINFO_FIELDS_MARKED (base_binfo) == 0)
1865 tree btypes;
1867 SET_BINFO_FIELDS_MARKED (base_binfo);
1868 btypes = my_tree_cons (NULL_TREE, base_binfo, basetype_chain);
1869 TREE_VIA_PUBLIC (btypes) = TREE_VIA_PUBLIC (base_binfo);
1870 TREE_VIA_PROTECTED (btypes) = TREE_VIA_PROTECTED (base_binfo);
1871 TREE_VIA_VIRTUAL (btypes) = TREE_VIA_VIRTUAL (base_binfo);
1872 if (TREE_VIA_VIRTUAL (base_binfo))
1873 btypes = my_tree_cons (NULL_TREE,
1874 TYPE_BINFO (BINFO_TYPE (TREE_VEC_ELT (BINFO_BASETYPES (binfo_h), i))),
1875 btypes);
1876 else
1877 btypes = my_tree_cons (NULL_TREE,
1878 TREE_VEC_ELT (BINFO_BASETYPES (binfo_h), i),
1879 btypes);
1880 obstack_ptr_grow (&search_obstack, btypes);
1881 tail += 1;
1882 if (tail >= search_stack->limit)
1883 my_friendly_abort (99);
1887 /* Process head of queue, if one exists. */
1888 if (head >= tail)
1889 break;
1891 basetype_chain = search_stack->first[head++];
1892 binfo_h = TREE_VALUE (basetype_chain);
1893 basetype_chain = TREE_CHAIN (basetype_chain);
1894 basetype_path = TREE_VALUE (basetype_chain);
1895 if (TREE_CHAIN (basetype_chain))
1896 BINFO_INHERITANCE_CHAIN (basetype_path) = TREE_VALUE (TREE_CHAIN (basetype_chain));
1897 else
1898 BINFO_INHERITANCE_CHAIN (basetype_path) = NULL_TREE;
1900 binfo = basetype_path;
1901 type = BINFO_TYPE (binfo);
1903 /* See if we can find NAME in TYPE. If RVAL is nonzero,
1904 and we do find NAME in TYPE, verify that such a second
1905 sighting is in fact valid. */
1907 idx = lookup_fnfields_here (type, name);
1909 if (idx >= 0 || (lookup_field_1 (type, name)!=NULL_TREE && !find_all))
1911 if (rval_binfo && !find_all && hides (rval_binfo_h, binfo_h))
1913 /* This is ok, the member found is in rval_binfo, not
1914 here (binfo). */
1916 else if (rval_binfo==NULL_TREE || find_all || hides (binfo_h, rval_binfo_h))
1918 /* This is ok, the member found is here (binfo), not in
1919 rval_binfo. */
1920 if (idx >= 0)
1922 rval = TREE_VEC_ELT (CLASSTYPE_METHOD_VEC (type), idx);
1923 /* Note, rvals can only be previously set if find_all is
1924 true. */
1925 rvals = my_tree_cons (basetype_path, rval, rvals);
1926 if (TYPE_BINFO_BASETYPES (type)
1927 && CLASSTYPE_BASELINK_VEC (type))
1928 TREE_TYPE (rvals) = TREE_VEC_ELT (CLASSTYPE_BASELINK_VEC (type), idx);
1930 else
1932 /* Undo finding it before, as something else hides it. */
1933 rval = NULL_TREE;
1934 rvals = NULL_TREE;
1936 rval_binfo = binfo;
1937 rval_binfo_h = binfo_h;
1939 else
1941 /* This is ambiguous. */
1942 errstr = "request for method `%D' is ambiguous";
1943 rvals = error_mark_node;
1944 break;
1949 tree *tp = search_stack->first;
1950 tree *search_tail = tp + tail;
1952 while (tp < search_tail)
1954 CLEAR_BINFO_FIELDS_MARKED (TREE_VALUE (TREE_CHAIN (*tp)));
1955 tp += 1;
1958 search_stack = pop_search_level (search_stack);
1960 if (entry)
1962 if (errstr)
1964 tree error_string = my_build_string (errstr);
1965 /* Save error message with entry. */
1966 TREE_TYPE (entry) = error_string;
1968 else
1970 /* Mark entry as having no error string. */
1971 TREE_TYPE (entry) = NULL_TREE;
1972 TREE_VALUE (entry) = rvals;
1976 if (errstr && protect)
1978 cp_error (errstr, name);
1979 rvals = error_mark_node;
1982 return rvals;
1985 /* BREADTH-FIRST SEARCH ROUTINES. */
1987 /* Search a multiple inheritance hierarchy by breadth-first search.
1989 BINFO is an aggregate type, possibly in a multiple-inheritance hierarchy.
1990 TESTFN is a function, which, if true, means that our condition has been met,
1991 and its return value should be returned.
1992 QFN, if non-NULL, is a predicate dictating whether the type should
1993 even be queued. */
1995 static HOST_WIDE_INT
1996 breadth_first_search (binfo, testfn, qfn)
1997 tree binfo;
1998 int (*testfn) PROTO((tree, int));
1999 int (*qfn) PROTO((tree, int));
2001 int head = 0, tail = 0;
2002 int rval = 0;
2004 search_stack = push_search_level (search_stack, &search_obstack);
2006 while (1)
2008 tree binfos = BINFO_BASETYPES (binfo);
2009 int n_baselinks = binfos ? TREE_VEC_LENGTH (binfos) : 0;
2010 int i;
2012 /* Process and/or queue base types. */
2013 for (i = 0; i < n_baselinks; i++)
2015 tree base_binfo = TREE_VEC_ELT (binfos, i);
2017 if (BINFO_MARKED (base_binfo) == 0
2018 && (qfn == 0 || (*qfn) (binfo, i)))
2020 SET_BINFO_MARKED (base_binfo);
2021 obstack_ptr_grow (&search_obstack, binfo);
2022 obstack_ptr_grow (&search_obstack, (HOST_WIDE_INT) i);
2023 tail += 2;
2024 if (tail >= search_stack->limit)
2025 my_friendly_abort (100);
2028 /* Process head of queue, if one exists. */
2029 if (head >= tail)
2031 rval = 0;
2032 break;
2035 binfo = search_stack->first[head++];
2036 i = (HOST_WIDE_INT) search_stack->first[head++];
2037 if (rval = (*testfn) (binfo, i))
2038 break;
2039 binfo = BINFO_BASETYPE (binfo, i);
2042 tree *tp = search_stack->first;
2043 tree *search_tail = tp + tail;
2044 while (tp < search_tail)
2046 tree binfo = *tp++;
2047 int i = (HOST_WIDE_INT)(*tp++);
2048 CLEAR_BINFO_MARKED (BINFO_BASETYPE (binfo, i));
2052 search_stack = pop_search_level (search_stack);
2053 return rval;
2056 /* Functions to use in breadth first searches. */
2057 typedef int (*pfi) PROTO((tree, int));
2059 static tree declarator;
2061 static tree
2062 get_virtuals_named_this (binfo)
2063 tree binfo;
2065 tree fields;
2067 fields = lookup_fnfields (binfo, declarator, -1);
2068 /* fields cannot be error_mark_node */
2070 if (fields == 0)
2071 return 0;
2073 /* Get to the function decls, and return the first virtual function
2074 with this name, if there is one. */
2075 while (fields)
2077 tree fndecl;
2079 for (fndecl = TREE_VALUE (fields); fndecl; fndecl = DECL_CHAIN (fndecl))
2080 if (DECL_VINDEX (fndecl))
2081 return fields;
2082 fields = next_baselink (fields);
2084 return NULL_TREE;
2087 static tree
2088 get_virtual_destructor (binfo, i)
2089 tree binfo;
2090 int i;
2092 tree type = BINFO_TYPE (binfo);
2093 if (i >= 0)
2094 type = BINFO_TYPE (TREE_VEC_ELT (BINFO_BASETYPES (binfo), i));
2095 if (TYPE_HAS_DESTRUCTOR (type)
2096 && DECL_VINDEX (TREE_VEC_ELT (CLASSTYPE_METHOD_VEC (type), 1)))
2097 return TREE_VEC_ELT (CLASSTYPE_METHOD_VEC (type), 1);
2098 return 0;
2101 static int
2102 tree_has_any_destructor_p (binfo, i)
2103 tree binfo;
2104 int i;
2106 tree type = BINFO_TYPE (binfo);
2107 if (i >= 0)
2108 type = BINFO_TYPE (TREE_VEC_ELT (BINFO_BASETYPES (binfo), i));
2109 return TYPE_NEEDS_DESTRUCTOR (type);
2112 /* Given a class type TYPE, and a function decl FNDECL, look for a
2113 virtual function in TYPE's hierarchy which FNDECL could match as a
2114 virtual function. It doesn't matter which one we find.
2116 DTORP is nonzero if we are looking for a destructor. Destructors
2117 need special treatment because they do not match by name. */
2119 tree
2120 get_matching_virtual (binfo, fndecl, dtorp)
2121 tree binfo, fndecl;
2122 int dtorp;
2124 tree tmp = NULL_TREE;
2126 /* Breadth first search routines start searching basetypes
2127 of TYPE, so we must perform first ply of search here. */
2128 if (dtorp)
2130 if (tree_has_any_destructor_p (binfo, -1))
2131 tmp = get_virtual_destructor (binfo, -1);
2133 if (tmp)
2134 return tmp;
2136 tmp = (tree) breadth_first_search (binfo,
2137 (pfi) get_virtual_destructor,
2138 tree_has_any_destructor_p);
2139 return tmp;
2141 else
2143 tree drettype, dtypes, btypes, instptr_type;
2144 tree basetype = DECL_CLASS_CONTEXT (fndecl);
2145 tree baselink, best = NULL_TREE;
2146 tree name = DECL_ASSEMBLER_NAME (fndecl);
2148 declarator = DECL_NAME (fndecl);
2149 if (IDENTIFIER_VIRTUAL_P (declarator) == 0)
2150 return NULL_TREE;
2152 baselink = get_virtuals_named_this (binfo);
2153 if (baselink == NULL_TREE)
2154 return NULL_TREE;
2156 drettype = TREE_TYPE (TREE_TYPE (fndecl));
2157 dtypes = TYPE_ARG_TYPES (TREE_TYPE (fndecl));
2158 if (DECL_STATIC_FUNCTION_P (fndecl))
2159 instptr_type = NULL_TREE;
2160 else
2161 instptr_type = TREE_TYPE (TREE_VALUE (dtypes));
2163 for (; baselink; baselink = next_baselink (baselink))
2165 for (tmp = TREE_VALUE (baselink); tmp; tmp = DECL_CHAIN (tmp))
2167 if (! DECL_VINDEX (tmp))
2168 continue;
2170 btypes = TYPE_ARG_TYPES (TREE_TYPE (tmp));
2171 if (instptr_type == NULL_TREE)
2173 if (compparms (TREE_CHAIN (btypes), dtypes, 3))
2174 /* Caller knows to give error in this case. */
2175 return tmp;
2176 return NULL_TREE;
2179 if ((TYPE_READONLY (TREE_TYPE (TREE_VALUE (btypes)))
2180 == TYPE_READONLY (instptr_type))
2181 && compparms (TREE_CHAIN (btypes), TREE_CHAIN (dtypes), 3))
2183 tree brettype = TREE_TYPE (TREE_TYPE (tmp));
2184 if (comptypes (brettype, drettype, 1))
2185 /* OK */;
2186 else if
2187 (TREE_CODE (brettype) == TREE_CODE (drettype)
2188 && (TREE_CODE (brettype) == POINTER_TYPE
2189 || TREE_CODE (brettype) == REFERENCE_TYPE)
2190 && comptypes (TYPE_MAIN_VARIANT (TREE_TYPE (brettype)),
2191 TYPE_MAIN_VARIANT (TREE_TYPE (drettype)),
2193 /* covariant return type */
2195 tree b = TREE_TYPE (brettype), d = TREE_TYPE (drettype);
2196 if (TYPE_MAIN_VARIANT (b) != TYPE_MAIN_VARIANT (d))
2198 tree binfo = get_binfo (b, d, 1);
2199 if (binfo != error_mark_node
2200 && (! BINFO_OFFSET_ZEROP (binfo)
2201 || TREE_VIA_VIRTUAL (binfo)))
2202 sorry ("adjusting pointers for covariant returns");
2204 if (TYPE_READONLY (d) > TYPE_READONLY (b))
2206 cp_error_at ("return type of `%#D' adds const", fndecl);
2207 cp_error_at (" overriding definition as `%#D'",
2208 tmp);
2210 else if (TYPE_VOLATILE (d) > TYPE_VOLATILE (b))
2212 cp_error_at ("return type of `%#D' adds volatile",
2213 fndecl);
2214 cp_error_at (" overriding definition as `%#D'",
2215 tmp);
2218 else if (IS_AGGR_TYPE_2 (brettype, drettype)
2219 && comptypes (brettype, drettype, 0))
2221 error ("invalid covariant return type (must use pointer or reference)");
2222 cp_error_at (" overriding `%#D'", tmp);
2223 cp_error_at (" with `%#D'", fndecl);
2225 else if (IDENTIFIER_ERROR_LOCUS (name) == NULL_TREE)
2227 cp_error_at ("conflicting return type specified for virtual function `%#D'", fndecl);
2228 cp_error_at (" overriding definition as `%#D'", tmp);
2229 SET_IDENTIFIER_ERROR_LOCUS (name, basetype);
2231 break;
2234 if (tmp)
2236 best = tmp;
2237 break;
2241 return best;
2245 /* Return the list of virtual functions which are abstract in type
2246 TYPE that come from non virtual base classes. See
2247 expand_direct_vtbls_init for the style of search we do. */
2249 static tree
2250 get_abstract_virtuals_1 (binfo, do_self, abstract_virtuals)
2251 tree binfo;
2252 int do_self;
2253 tree abstract_virtuals;
2255 tree binfos = BINFO_BASETYPES (binfo);
2256 int i, n_baselinks = binfos ? TREE_VEC_LENGTH (binfos) : 0;
2258 for (i = 0; i < n_baselinks; i++)
2260 tree base_binfo = TREE_VEC_ELT (binfos, i);
2261 int is_not_base_vtable
2262 = i != CLASSTYPE_VFIELD_PARENT (BINFO_TYPE (binfo));
2263 if (! TREE_VIA_VIRTUAL (base_binfo))
2264 abstract_virtuals
2265 = get_abstract_virtuals_1 (base_binfo, is_not_base_vtable,
2266 abstract_virtuals);
2268 /* Should we use something besides CLASSTYPE_VFIELDS? */
2269 if (do_self && CLASSTYPE_VFIELDS (BINFO_TYPE (binfo)))
2271 tree virtuals = BINFO_VIRTUALS (binfo);
2273 skip_rtti_stuff (&virtuals);
2275 while (virtuals)
2277 tree base_pfn = FNADDR_FROM_VTABLE_ENTRY (TREE_VALUE (virtuals));
2278 tree base_fndecl = TREE_OPERAND (base_pfn, 0);
2279 if (DECL_ABSTRACT_VIRTUAL_P (base_fndecl))
2280 abstract_virtuals = tree_cons (NULL_TREE, base_fndecl, abstract_virtuals);
2281 virtuals = TREE_CHAIN (virtuals);
2284 return abstract_virtuals;
2287 /* Return the list of virtual functions which are abstract in type TYPE.
2288 This information is cached, and so must be built on a
2289 non-temporary obstack. */
2291 tree
2292 get_abstract_virtuals (type)
2293 tree type;
2295 tree vbases;
2296 tree abstract_virtuals = CLASSTYPE_ABSTRACT_VIRTUALS (type);
2298 /* First get all from non-virtual bases. */
2299 abstract_virtuals
2300 = get_abstract_virtuals_1 (TYPE_BINFO (type), 1, abstract_virtuals);
2302 for (vbases = CLASSTYPE_VBASECLASSES (type); vbases; vbases = TREE_CHAIN (vbases))
2304 tree virtuals = BINFO_VIRTUALS (vbases);
2306 skip_rtti_stuff (&virtuals);
2308 while (virtuals)
2310 tree base_pfn = FNADDR_FROM_VTABLE_ENTRY (TREE_VALUE (virtuals));
2311 tree base_fndecl = TREE_OPERAND (base_pfn, 0);
2312 if (DECL_ABSTRACT_VIRTUAL_P (base_fndecl))
2313 abstract_virtuals = tree_cons (NULL_TREE, base_fndecl, abstract_virtuals);
2314 virtuals = TREE_CHAIN (virtuals);
2317 return nreverse (abstract_virtuals);
2320 /* For the type TYPE, return a list of member functions available from
2321 base classes with name NAME. The TREE_VALUE of the list is a chain of
2322 member functions with name NAME. The TREE_PURPOSE of the list is a
2323 basetype, or a list of base types (in reverse order) which were
2324 traversed to reach the chain of member functions. If we reach a base
2325 type which provides a member function of name NAME, and which has at
2326 most one base type itself, then we can terminate the search. */
2328 tree
2329 get_baselinks (type_as_binfo_list, type, name)
2330 tree type_as_binfo_list;
2331 tree type, name;
2333 int head = 0, tail = 0, idx;
2334 tree rval = 0, nval = 0;
2335 tree basetypes = type_as_binfo_list;
2336 tree binfo = TYPE_BINFO (type);
2338 search_stack = push_search_level (search_stack, &search_obstack);
2340 while (1)
2342 tree binfos = BINFO_BASETYPES (binfo);
2343 int i, n_baselinks = binfos ? TREE_VEC_LENGTH (binfos) : 0;
2345 /* Process and/or queue base types. */
2346 for (i = 0; i < n_baselinks; i++)
2348 tree base_binfo = TREE_VEC_ELT (binfos, i);
2349 tree btypes;
2351 btypes = hash_tree_cons (TREE_VIA_PUBLIC (base_binfo),
2352 TREE_VIA_VIRTUAL (base_binfo),
2353 TREE_VIA_PROTECTED (base_binfo),
2354 NULL_TREE, base_binfo,
2355 basetypes);
2356 obstack_ptr_grow (&search_obstack, btypes);
2357 search_stack->first = (tree *)obstack_base (&search_obstack);
2358 tail += 1;
2361 dont_queue:
2362 /* Process head of queue, if one exists. */
2363 if (head >= tail)
2364 break;
2366 basetypes = search_stack->first[head++];
2367 binfo = TREE_VALUE (basetypes);
2368 type = BINFO_TYPE (binfo);
2369 idx = lookup_fnfields_1 (type, name);
2370 if (idx >= 0)
2372 nval = TREE_VEC_ELT (CLASSTYPE_METHOD_VEC (type), idx);
2373 rval = hash_tree_cons (0, 0, 0, basetypes, nval, rval);
2374 if (TYPE_BINFO_BASETYPES (type) == 0)
2375 goto dont_queue;
2376 else if (TREE_VEC_LENGTH (TYPE_BINFO_BASETYPES (type)) == 1)
2378 if (CLASSTYPE_BASELINK_VEC (type))
2379 TREE_TYPE (rval) = TREE_VEC_ELT (CLASSTYPE_BASELINK_VEC (type), idx);
2380 goto dont_queue;
2383 nval = NULL_TREE;
2386 search_stack = pop_search_level (search_stack);
2387 return rval;
2390 tree
2391 next_baselink (baselink)
2392 tree baselink;
2394 tree tmp = TREE_TYPE (baselink);
2395 baselink = TREE_CHAIN (baselink);
2396 while (tmp)
2398 /* @@ does not yet add previous base types. */
2399 baselink = tree_cons (TREE_PURPOSE (tmp), TREE_VALUE (tmp),
2400 baselink);
2401 TREE_TYPE (baselink) = TREE_TYPE (tmp);
2402 tmp = TREE_CHAIN (tmp);
2404 return baselink;
2407 /* DEPTH-FIRST SEARCH ROUTINES. */
2409 /* Assign unique numbers to _CLASSTYPE members of the lattice
2410 specified by TYPE. The root nodes are marked first; the nodes
2411 are marked depth-fisrt, left-right. */
2413 static int cid;
2415 /* Matrix implementing a relation from CLASSTYPE X CLASSTYPE => INT.
2416 Relation yields 1 if C1 <= C2, 0 otherwise. */
2417 typedef char mi_boolean;
2418 static mi_boolean *mi_matrix;
2420 /* Type for which this matrix is defined. */
2421 static tree mi_type;
2423 /* Size of the matrix for indexing purposes. */
2424 static int mi_size;
2426 /* Return nonzero if class C2 derives from class C1. */
2427 #define BINFO_DERIVES_FROM(C1, C2) \
2428 ((mi_matrix+mi_size*(BINFO_CID (C1)-1))[BINFO_CID (C2)-1])
2429 #define TYPE_DERIVES_FROM(C1, C2) \
2430 ((mi_matrix+mi_size*(CLASSTYPE_CID (C1)-1))[CLASSTYPE_CID (C2)-1])
2431 #define BINFO_DERIVES_FROM_STAR(C) \
2432 (mi_matrix+(BINFO_CID (C)-1))
2434 /* This routine converts a pointer to be a pointer of an immediate
2435 base class. The normal convert_pointer_to routine would diagnose
2436 the conversion as ambiguous, under MI code that has the base class
2437 as an ambiguous base class. */
2439 static tree
2440 convert_pointer_to_single_level (to_type, expr)
2441 tree to_type, expr;
2443 tree binfo_of_derived;
2444 tree last;
2446 binfo_of_derived = TYPE_BINFO (TREE_TYPE (TREE_TYPE (expr)));
2447 last = get_binfo (to_type, TREE_TYPE (TREE_TYPE (expr)), 0);
2448 BINFO_INHERITANCE_CHAIN (last) = binfo_of_derived;
2449 BINFO_INHERITANCE_CHAIN (binfo_of_derived) = NULL_TREE;
2450 return build_vbase_path (PLUS_EXPR, build_pointer_type (to_type), expr, last, 1);
2453 /* The main function which implements depth first search.
2455 This routine has to remember the path it walked up, when
2456 dfs_init_vbase_pointers is the work function, as otherwise there
2457 would be no record. */
2459 static void
2460 dfs_walk (binfo, fn, qfn)
2461 tree binfo;
2462 void (*fn) PROTO((tree));
2463 int (*qfn) PROTO((tree));
2465 tree binfos = BINFO_BASETYPES (binfo);
2466 int i, n_baselinks = binfos ? TREE_VEC_LENGTH (binfos) : 0;
2468 for (i = 0; i < n_baselinks; i++)
2470 tree base_binfo = TREE_VEC_ELT (binfos, i);
2472 if (qfn == 0 || (*qfn)(base_binfo))
2474 if (TREE_CODE (BINFO_TYPE (base_binfo)) == TEMPLATE_TYPE_PARM)
2475 /* Pass */;
2476 else if (fn == dfs_init_vbase_pointers)
2478 /* When traversing an arbitrary MI hierarchy, we need to keep
2479 a record of the path we took to get down to the final base
2480 type, as otherwise there would be no record of it, and just
2481 trying to blindly convert at the bottom would be ambiguous.
2483 The easiest way is to do the conversions one step at a time,
2484 as we know we want the immediate base class at each step.
2486 The only special trick to converting one step at a time,
2487 is that when we hit the last virtual base class, we must
2488 use the SLOT value for it, and not use the normal convert
2489 routine. We use the last virtual base class, as in our
2490 implementation, we have pointers to all virtual base
2491 classes in the base object. */
2493 tree saved_vbase_decl_ptr_intermediate
2494 = vbase_decl_ptr_intermediate;
2496 if (TREE_VIA_VIRTUAL (base_binfo))
2498 /* No need for the conversion here, as we know it is the
2499 right type. */
2500 vbase_decl_ptr_intermediate
2501 = CLASSTYPE_SEARCH_SLOT (BINFO_TYPE (base_binfo));
2503 else
2505 vbase_decl_ptr_intermediate
2506 = convert_pointer_to_single_level (BINFO_TYPE (base_binfo),
2507 vbase_decl_ptr_intermediate);
2510 dfs_walk (base_binfo, fn, qfn);
2512 vbase_decl_ptr_intermediate = saved_vbase_decl_ptr_intermediate;
2514 else
2515 dfs_walk (base_binfo, fn, qfn);
2519 fn (binfo);
2522 /* Predicate functions which serve for dfs_walk. */
2523 static int numberedp (binfo) tree binfo;
2524 { return BINFO_CID (binfo); }
2525 static int unnumberedp (binfo) tree binfo;
2526 { return BINFO_CID (binfo) == 0; }
2528 static int markedp (binfo) tree binfo;
2529 { return BINFO_MARKED (binfo); }
2530 static int unmarkedp (binfo) tree binfo;
2531 { return BINFO_MARKED (binfo) == 0; }
2533 #if 0
2534 static int bfs_markedp (binfo, i) tree binfo; int i;
2535 { return BINFO_MARKED (BINFO_BASETYPE (binfo, i)); }
2536 static int bfs_unmarkedp (binfo, i) tree binfo; int i;
2537 { return BINFO_MARKED (BINFO_BASETYPE (binfo, i)) == 0; }
2538 static int bfs_marked_vtable_pathp (binfo, i) tree binfo; int i;
2539 { return BINFO_VTABLE_PATH_MARKED (BINFO_BASETYPE (binfo, i)); }
2540 static int bfs_unmarked_vtable_pathp (binfo, i) tree binfo; int i;
2541 { return BINFO_VTABLE_PATH_MARKED (BINFO_BASETYPE (binfo, i)) == 0; }
2542 static int bfs_marked_new_vtablep (binfo, i) tree binfo; int i;
2543 { return BINFO_NEW_VTABLE_MARKED (BINFO_BASETYPE (binfo, i)); }
2544 static int bfs_unmarked_new_vtablep (binfo, i) tree binfo; int i;
2545 { return BINFO_NEW_VTABLE_MARKED (BINFO_BASETYPE (binfo, i)) == 0; }
2546 #endif
2548 static int marked_vtable_pathp (binfo) tree binfo;
2549 { return BINFO_VTABLE_PATH_MARKED (binfo); }
2550 static int unmarked_vtable_pathp (binfo) tree binfo;
2551 { return BINFO_VTABLE_PATH_MARKED (binfo) == 0; }
2552 static int marked_new_vtablep (binfo) tree binfo;
2553 { return BINFO_NEW_VTABLE_MARKED (binfo); }
2554 static int unmarked_new_vtablep (binfo) tree binfo;
2555 { return BINFO_NEW_VTABLE_MARKED (binfo) == 0; }
2557 #if 0
2558 static int dfs_search_slot_nonempty_p (binfo) tree binfo;
2559 { return CLASSTYPE_SEARCH_SLOT (BINFO_TYPE (binfo)) != 0; }
2560 #endif
2562 static int dfs_debug_unmarkedp (binfo) tree binfo;
2563 { return CLASSTYPE_DEBUG_REQUESTED (BINFO_TYPE (binfo)) == 0; }
2565 /* The worker functions for `dfs_walk'. These do not need to
2566 test anything (vis a vis marking) if they are paired with
2567 a predicate function (above). */
2569 /* Assign each type within the lattice a number which is unique
2570 in the lattice. The first number assigned is 1. */
2572 static void
2573 dfs_number (binfo)
2574 tree binfo;
2576 BINFO_CID (binfo) = ++cid;
2579 static void
2580 dfs_unnumber (binfo)
2581 tree binfo;
2583 BINFO_CID (binfo) = 0;
2586 #if 0
2587 static void
2588 dfs_mark (binfo) tree binfo;
2589 { SET_BINFO_MARKED (binfo); }
2590 #endif
2592 static void
2593 dfs_unmark (binfo) tree binfo;
2594 { CLEAR_BINFO_MARKED (binfo); }
2596 #if 0
2597 static void
2598 dfs_mark_vtable_path (binfo) tree binfo;
2599 { SET_BINFO_VTABLE_PATH_MARKED (binfo); }
2601 static void
2602 dfs_unmark_vtable_path (binfo) tree binfo;
2603 { CLEAR_BINFO_VTABLE_PATH_MARKED (binfo); }
2605 static void
2606 dfs_mark_new_vtable (binfo) tree binfo;
2607 { SET_BINFO_NEW_VTABLE_MARKED (binfo); }
2609 static void
2610 dfs_unmark_new_vtable (binfo) tree binfo;
2611 { CLEAR_BINFO_NEW_VTABLE_MARKED (binfo); }
2613 static void
2614 dfs_clear_search_slot (binfo) tree binfo;
2615 { CLASSTYPE_SEARCH_SLOT (BINFO_TYPE (binfo)) = 0; }
2616 #endif
2618 static void
2619 dfs_debug_mark (binfo)
2620 tree binfo;
2622 tree t = BINFO_TYPE (binfo);
2624 /* Use heuristic that if there are virtual functions,
2625 ignore until we see a non-inline virtual function. */
2626 tree methods = CLASSTYPE_METHOD_VEC (t);
2628 CLASSTYPE_DEBUG_REQUESTED (t) = 1;
2630 if (methods == 0)
2631 return;
2633 /* If interface info is known, either we've already emitted the debug
2634 info or we don't need to. */
2635 if (CLASSTYPE_INTERFACE_KNOWN (t)
2636 || (write_virtuals == 2 && TYPE_VIRTUAL_P (t)))
2637 return;
2639 /* If debug info is requested from this context for this type, supply it.
2640 If debug info is requested from another context for this type,
2641 see if some third context can supply it. */
2642 if (current_function_decl == NULL_TREE
2643 || DECL_CLASS_CONTEXT (current_function_decl) != t)
2645 if (TREE_VEC_ELT (methods, 1))
2646 methods = TREE_VEC_ELT (methods, 1);
2647 else if (TREE_VEC_ELT (methods, 0))
2648 methods = TREE_VEC_ELT (methods, 0);
2649 else
2650 methods = TREE_VEC_ELT (methods, 2);
2651 while (methods)
2653 if (DECL_VINDEX (methods)
2654 && DECL_THIS_INLINE (methods) == 0
2655 && DECL_ABSTRACT_VIRTUAL_P (methods) == 0)
2657 /* Somebody, somewhere is going to have to define this
2658 virtual function. When they do, they will provide
2659 the debugging info. */
2660 return;
2662 methods = TREE_CHAIN (methods);
2665 /* We cannot rely on some alien method to solve our problems,
2666 so we must write out the debug info ourselves. */
2667 TYPE_DECL_SUPPRESS_DEBUG (TYPE_NAME (t)) = 0;
2668 rest_of_type_compilation (t, global_bindings_p ());
2671 /* Attach to the type of the virtual base class, the pointer to the
2672 virtual base class, given the global pointer vbase_decl_ptr.
2674 We use the global vbase_types. ICK! */
2676 static void
2677 dfs_find_vbases (binfo)
2678 tree binfo;
2680 tree binfos = BINFO_BASETYPES (binfo);
2681 int i, n_baselinks = binfos ? TREE_VEC_LENGTH (binfos) : 0;
2683 for (i = n_baselinks-1; i >= 0; i--)
2685 tree base_binfo = TREE_VEC_ELT (binfos, i);
2687 if (TREE_VIA_VIRTUAL (base_binfo)
2688 && CLASSTYPE_SEARCH_SLOT (BINFO_TYPE (base_binfo)) == 0)
2690 tree vbase = BINFO_TYPE (base_binfo);
2691 tree binfo = binfo_member (vbase, vbase_types);
2693 CLASSTYPE_SEARCH_SLOT (vbase)
2694 = build (PLUS_EXPR, build_pointer_type (vbase),
2695 vbase_decl_ptr, BINFO_OFFSET (binfo));
2698 SET_BINFO_VTABLE_PATH_MARKED (binfo);
2699 SET_BINFO_NEW_VTABLE_MARKED (binfo);
2702 static void
2703 dfs_init_vbase_pointers (binfo)
2704 tree binfo;
2706 tree type = BINFO_TYPE (binfo);
2707 tree fields = TYPE_FIELDS (type);
2708 tree this_vbase_ptr;
2710 CLEAR_BINFO_VTABLE_PATH_MARKED (binfo);
2712 #if 0
2713 /* See finish_struct_1 for when we can enable this. */
2714 /* If we have a vtable pointer first, skip it. */
2715 if (VFIELD_NAME_P (DECL_NAME (fields)))
2716 fields = TREE_CHAIN (fields);
2717 #endif
2719 if (fields == NULL_TREE
2720 || DECL_NAME (fields) == NULL_TREE
2721 || ! VBASE_NAME_P (DECL_NAME (fields)))
2722 return;
2724 this_vbase_ptr = vbase_decl_ptr_intermediate;
2726 if (build_pointer_type (type) != TYPE_MAIN_VARIANT (TREE_TYPE (this_vbase_ptr)))
2727 my_friendly_abort (125);
2729 while (fields && DECL_NAME (fields)
2730 && VBASE_NAME_P (DECL_NAME (fields)))
2732 tree ref = build (COMPONENT_REF, TREE_TYPE (fields),
2733 build_indirect_ref (this_vbase_ptr, NULL_PTR), fields);
2734 tree init = CLASSTYPE_SEARCH_SLOT (TREE_TYPE (TREE_TYPE (fields)));
2735 vbase_init_result = tree_cons (binfo_member (TREE_TYPE (TREE_TYPE (fields)),
2736 vbase_types),
2737 build_modify_expr (ref, NOP_EXPR, init),
2738 vbase_init_result);
2739 fields = TREE_CHAIN (fields);
2743 /* Sometimes this needs to clear both VTABLE_PATH and NEW_VTABLE. Other
2744 times, just NEW_VTABLE, but optimizer should make both with equal
2745 efficiency (though it does not currently). */
2747 static void
2748 dfs_clear_vbase_slots (binfo)
2749 tree binfo;
2751 tree type = BINFO_TYPE (binfo);
2752 CLASSTYPE_SEARCH_SLOT (type) = 0;
2753 CLEAR_BINFO_VTABLE_PATH_MARKED (binfo);
2754 CLEAR_BINFO_NEW_VTABLE_MARKED (binfo);
2757 tree
2758 init_vbase_pointers (type, decl_ptr)
2759 tree type;
2760 tree decl_ptr;
2762 if (TYPE_USES_VIRTUAL_BASECLASSES (type))
2764 int old_flag = flag_this_is_variable;
2765 tree binfo = TYPE_BINFO (type);
2766 flag_this_is_variable = -2;
2767 vbase_types = CLASSTYPE_VBASECLASSES (type);
2768 vbase_decl_ptr = vbase_decl_ptr_intermediate = decl_ptr;
2769 vbase_init_result = NULL_TREE;
2770 dfs_walk (binfo, dfs_find_vbases, unmarked_vtable_pathp);
2771 dfs_walk (binfo, dfs_init_vbase_pointers, marked_vtable_pathp);
2772 dfs_walk (binfo, dfs_clear_vbase_slots, marked_new_vtablep);
2773 flag_this_is_variable = old_flag;
2774 return vbase_init_result;
2776 return 0;
2779 /* get the virtual context (the vbase that directly contains the
2780 DECL_CLASS_CONTEXT of the FNDECL) that the given FNDECL is declared in,
2781 or NULL_TREE if there is none.
2783 FNDECL must come from a virtual table from a virtual base to ensure that
2784 there is only one possible DECL_CLASS_CONTEXT.
2786 We know that if there is more than one place (binfo) the fndecl that the
2787 declared, they all refer to the same binfo. See get_class_offset_1 for
2788 the check that ensures this. */
2790 static tree
2791 virtual_context (fndecl, t, vbase)
2792 tree fndecl, t, vbase;
2794 tree path;
2795 if (get_base_distance (DECL_CLASS_CONTEXT (fndecl), t, 0, &path) < 0)
2797 /* DECL_CLASS_CONTEXT can be ambiguous in t. */
2798 if (get_base_distance (DECL_CLASS_CONTEXT (fndecl), vbase, 0, &path) >= 0)
2800 while (path)
2802 /* Not sure if checking path == vbase is necessary here, but just in
2803 case it is. */
2804 if (TREE_VIA_VIRTUAL (path) || path == vbase)
2805 return binfo_member (BINFO_TYPE (path), CLASSTYPE_VBASECLASSES (t));
2806 path = BINFO_INHERITANCE_CHAIN (path);
2809 /* This shouldn't happen, I don't want errors! */
2810 warning ("recoverable compiler error, fixups for virtual function");
2811 return vbase;
2813 while (path)
2815 if (TREE_VIA_VIRTUAL (path))
2816 return binfo_member (BINFO_TYPE (path), CLASSTYPE_VBASECLASSES (t));
2817 path = BINFO_INHERITANCE_CHAIN (path);
2819 return 0;
2822 /* Fixups upcast offsets for one vtable.
2823 Entries may stay within the VBASE given, or
2824 they may upcast into a direct base, or
2825 they may upcast into a different vbase.
2827 We only need to do fixups in case 2 and 3. In case 2, we add in
2828 the virtual base offset to effect an upcast, in case 3, we add in
2829 the virtual base offset to effect an upcast, then subtract out the
2830 offset for the other virtual base, to effect a downcast into it.
2832 This routine mirrors fixup_vtable_deltas in functionality, though
2833 this one is runtime based, and the other is compile time based.
2834 Conceivably that routine could be removed entirely, and all fixups
2835 done at runtime.
2837 VBASE_OFFSETS is an association list of virtual bases that contains
2838 offset information for the virtual bases, so the offsets are only
2839 calculated once. The offsets are computed by where we think the
2840 vbase should be (as noted by the CLASSTYPE_SEARCH_SLOT) minus where
2841 the vbase really is. */
2843 static void
2844 expand_upcast_fixups (binfo, addr, orig_addr, vbase, vbase_addr, t,
2845 vbase_offsets)
2846 tree binfo, addr, orig_addr, vbase, vbase_addr, t, *vbase_offsets;
2848 tree virtuals = BINFO_VIRTUALS (binfo);
2849 tree vc;
2850 tree delta;
2851 unsigned HOST_WIDE_INT n;
2853 delta = purpose_member (vbase, *vbase_offsets);
2854 if (! delta)
2856 delta = CLASSTYPE_SEARCH_SLOT (BINFO_TYPE (vbase));
2857 delta = build (MINUS_EXPR, ptrdiff_type_node, delta, vbase_addr);
2858 delta = save_expr (delta);
2859 delta = tree_cons (vbase, delta, *vbase_offsets);
2860 *vbase_offsets = delta;
2863 n = skip_rtti_stuff (&virtuals);
2865 while (virtuals)
2867 tree current_fndecl = TREE_VALUE (virtuals);
2868 current_fndecl = FNADDR_FROM_VTABLE_ENTRY (current_fndecl);
2869 current_fndecl = TREE_OPERAND (current_fndecl, 0);
2870 if (current_fndecl
2871 && current_fndecl != abort_fndecl
2872 && (vc=virtual_context (current_fndecl, t, vbase)) != vbase)
2874 /* This may in fact need a runtime fixup. */
2875 tree idx = build_int_2 (n, 0);
2876 tree vtbl = BINFO_VTABLE (binfo);
2877 tree nvtbl = lookup_name (DECL_NAME (vtbl), 0);
2878 tree aref, ref, naref;
2879 tree old_delta, new_delta;
2880 tree init;
2882 if (nvtbl == NULL_TREE
2883 || nvtbl == IDENTIFIER_GLOBAL_VALUE (DECL_NAME (vtbl)))
2885 /* Dup it if it isn't in local scope yet. */
2886 nvtbl = build_decl (VAR_DECL,
2887 DECL_NAME (vtbl),
2888 TYPE_MAIN_VARIANT (TREE_TYPE (BINFO_VTABLE (binfo))));
2889 DECL_ALIGN (nvtbl) = MAX (TYPE_ALIGN (double_type_node),
2890 DECL_ALIGN (nvtbl));
2891 TREE_READONLY (nvtbl) = 0;
2892 DECL_ARTIFICIAL (nvtbl) = 1;
2893 nvtbl = pushdecl (nvtbl);
2894 init = NULL_TREE;
2895 cp_finish_decl (nvtbl, init, NULL_TREE, 0, LOOKUP_ONLYCONVERTING);
2896 DECL_VIRTUAL_P (nvtbl) = 1;
2897 DECL_CONTEXT (nvtbl) = t;
2898 init = build (MODIFY_EXPR, TREE_TYPE (nvtbl),
2899 nvtbl, vtbl);
2900 TREE_SIDE_EFFECTS (init) = 1;
2901 expand_expr_stmt (init);
2902 /* Update the vtable pointers as necessary. */
2903 ref = build_vfield_ref (build_indirect_ref (addr, NULL_PTR), DECL_CONTEXT (CLASSTYPE_VFIELD (BINFO_TYPE (binfo))));
2904 expand_expr_stmt (build_modify_expr (ref, NOP_EXPR,
2905 build_unary_op (ADDR_EXPR, nvtbl, 0)));
2907 assemble_external (vtbl);
2908 aref = build_array_ref (vtbl, idx);
2909 naref = build_array_ref (nvtbl, idx);
2910 old_delta = build_component_ref (aref, delta_identifier, NULL_TREE, 0);
2911 new_delta = build_component_ref (naref, delta_identifier, NULL_TREE, 0);
2913 /* This is a upcast, so we have to add the offset for the
2914 virtual base. */
2915 old_delta = build_binary_op (PLUS_EXPR, old_delta,
2916 TREE_VALUE (delta), 0);
2917 if (vc)
2919 /* If this is set, we need to subtract out the delta
2920 adjustments for the other virtual base that we
2921 downcast into. */
2922 tree vc_delta = purpose_member (vc, *vbase_offsets);
2923 if (! vc_delta)
2925 tree vc_addr = convert_pointer_to_real (vc, orig_addr);
2926 vc_delta = CLASSTYPE_SEARCH_SLOT (BINFO_TYPE (vc));
2927 vc_delta = build (MINUS_EXPR, ptrdiff_type_node,
2928 vc_delta, vc_addr);
2929 vc_delta = save_expr (vc_delta);
2930 *vbase_offsets = tree_cons (vc, vc_delta, *vbase_offsets);
2932 else
2933 vc_delta = TREE_VALUE (vc_delta);
2935 /* This is a downcast, so we have to subtract the offset
2936 for the virtual base. */
2937 old_delta = build_binary_op (MINUS_EXPR, old_delta, vc_delta, 0);
2940 TREE_READONLY (new_delta) = 0;
2941 expand_expr_stmt (build_modify_expr (new_delta, NOP_EXPR,
2942 old_delta));
2944 ++n;
2945 virtuals = TREE_CHAIN (virtuals);
2949 /* Fixup upcast offsets for all direct vtables. Patterned after
2950 expand_direct_vtbls_init. */
2952 static void
2953 fixup_virtual_upcast_offsets (real_binfo, binfo, init_self, can_elide, addr, orig_addr, type, vbase, vbase_offsets)
2954 tree real_binfo, binfo;
2955 int init_self, can_elide;
2956 tree addr, orig_addr, type, vbase, *vbase_offsets;
2958 tree real_binfos = BINFO_BASETYPES (real_binfo);
2959 tree binfos = BINFO_BASETYPES (binfo);
2960 int i, n_baselinks = real_binfos ? TREE_VEC_LENGTH (real_binfos) : 0;
2962 for (i = 0; i < n_baselinks; i++)
2964 tree real_base_binfo = TREE_VEC_ELT (real_binfos, i);
2965 tree base_binfo = TREE_VEC_ELT (binfos, i);
2966 int is_not_base_vtable
2967 = i != CLASSTYPE_VFIELD_PARENT (BINFO_TYPE (real_binfo));
2968 if (! TREE_VIA_VIRTUAL (real_base_binfo))
2969 fixup_virtual_upcast_offsets (real_base_binfo, base_binfo,
2970 is_not_base_vtable, can_elide, addr,
2971 orig_addr, type, vbase, vbase_offsets);
2973 #if 0
2974 /* Before turning this on, make sure it is correct. */
2975 if (can_elide && ! BINFO_MODIFIED (binfo))
2976 return;
2977 #endif
2978 /* Should we use something besides CLASSTYPE_VFIELDS? */
2979 if (init_self && CLASSTYPE_VFIELDS (BINFO_TYPE (real_binfo)))
2981 tree new_addr = convert_pointer_to_real (binfo, addr);
2982 expand_upcast_fixups (real_binfo, new_addr, orig_addr, vbase, addr,
2983 type, vbase_offsets);
2987 /* Build a COMPOUND_EXPR which when expanded will generate the code
2988 needed to initialize all the virtual function table slots of all
2989 the virtual baseclasses. MAIN_BINFO is the binfo which determines
2990 the virtual baseclasses to use; TYPE is the type of the object to
2991 which the initialization applies. TRUE_EXP is the true object we
2992 are initializing, and DECL_PTR is the pointer to the sub-object we
2993 are initializing.
2995 When USE_COMPUTED_OFFSETS is non-zero, we can assume that the
2996 object was laid out by a top-level constructor and the computed
2997 offsets are valid to store vtables. When zero, we must store new
2998 vtables through virtual baseclass pointers.
3000 We setup and use the globals: vbase_decl_ptr, vbase_types
3001 ICK! */
3003 void
3004 expand_indirect_vtbls_init (binfo, true_exp, decl_ptr)
3005 tree binfo;
3006 tree true_exp, decl_ptr;
3008 tree type = BINFO_TYPE (binfo);
3010 if (TYPE_USES_VIRTUAL_BASECLASSES (type))
3012 rtx fixup_insns = NULL_RTX;
3013 tree vbases = CLASSTYPE_VBASECLASSES (type);
3014 vbase_types = vbases;
3015 vbase_decl_ptr = true_exp ? build_unary_op (ADDR_EXPR, true_exp, 0) : decl_ptr;
3017 dfs_walk (binfo, dfs_find_vbases, unmarked_new_vtablep);
3019 /* Initialized with vtables of type TYPE. */
3020 for (; vbases; vbases = TREE_CHAIN (vbases))
3022 tree addr;
3024 addr = convert_pointer_to_vbase (TREE_TYPE (vbases), vbase_decl_ptr);
3026 /* Do all vtables from this virtual base. */
3027 /* This assumes that virtual bases can never serve as parent
3028 binfos. (in the CLASSTYPE_VFIELD_PARENT sense) */
3029 expand_direct_vtbls_init (vbases, TYPE_BINFO (BINFO_TYPE (vbases)),
3030 1, 0, addr);
3032 /* Now we adjust the offsets for virtual functions that
3033 cross virtual boundaries on an implicit upcast on vf call
3034 so that the layout of the most complete type is used,
3035 instead of assuming the layout of the virtual bases from
3036 our current type. */
3038 if (flag_vtable_thunks)
3040 /* We don't have dynamic thunks yet!
3041 So for now, just fail silently. */
3043 else
3045 tree vbase_offsets = NULL_TREE;
3046 push_to_sequence (fixup_insns);
3047 fixup_virtual_upcast_offsets (vbases,
3048 TYPE_BINFO (BINFO_TYPE (vbases)),
3049 1, 0, addr, vbase_decl_ptr,
3050 type, vbases, &vbase_offsets);
3051 fixup_insns = get_insns ();
3052 end_sequence ();
3056 if (fixup_insns)
3058 extern tree in_charge_identifier;
3059 tree in_charge_node = lookup_name (in_charge_identifier, 0);
3060 if (! in_charge_node)
3062 warning ("recoverable internal compiler error, nobody's in charge!");
3063 in_charge_node = integer_zero_node;
3065 in_charge_node = build_binary_op (EQ_EXPR, in_charge_node, integer_zero_node, 1);
3066 expand_start_cond (in_charge_node, 0);
3067 emit_insns (fixup_insns);
3068 expand_end_cond ();
3071 dfs_walk (binfo, dfs_clear_vbase_slots, marked_new_vtablep);
3075 /* get virtual base class types.
3076 This adds type to the vbase_types list in reverse dfs order.
3077 Ordering is very important, so don't change it. */
3079 static void
3080 dfs_get_vbase_types (binfo)
3081 tree binfo;
3083 if (TREE_VIA_VIRTUAL (binfo) && ! BINFO_VBASE_MARKED (binfo))
3085 vbase_types = make_binfo (integer_zero_node, binfo,
3086 BINFO_VTABLE (binfo),
3087 BINFO_VIRTUALS (binfo), vbase_types);
3088 TREE_VIA_VIRTUAL (vbase_types) = 1;
3089 SET_BINFO_VBASE_MARKED (binfo);
3091 SET_BINFO_MARKED (binfo);
3094 /* get a list of virtual base classes in dfs order. */
3096 tree
3097 get_vbase_types (type)
3098 tree type;
3100 tree vbases;
3101 tree binfo;
3103 if (TREE_CODE (type) == TREE_VEC)
3104 binfo = type;
3105 else
3106 binfo = TYPE_BINFO (type);
3108 vbase_types = NULL_TREE;
3109 dfs_walk (binfo, dfs_get_vbase_types, unmarkedp);
3110 dfs_walk (binfo, dfs_unmark, markedp);
3111 /* Rely upon the reverse dfs ordering from dfs_get_vbase_types, and now
3112 reverse it so that we get normal dfs ordering. */
3113 vbase_types = nreverse (vbase_types);
3115 /* unmark marked vbases */
3116 for (vbases = vbase_types; vbases; vbases = TREE_CHAIN (vbases))
3117 CLEAR_BINFO_VBASE_MARKED (vbases);
3119 return vbase_types;
3122 static void
3123 dfs_record_inheritance (binfo)
3124 tree binfo;
3126 tree binfos = BINFO_BASETYPES (binfo);
3127 int i, n_baselinks = binfos ? TREE_VEC_LENGTH (binfos) : 0;
3128 mi_boolean *derived_row = BINFO_DERIVES_FROM_STAR (binfo);
3130 for (i = n_baselinks-1; i >= 0; i--)
3132 int j;
3133 tree base_binfo = TREE_VEC_ELT (binfos, i);
3134 tree baseclass = BINFO_TYPE (base_binfo);
3135 mi_boolean *base_row = BINFO_DERIVES_FROM_STAR (base_binfo);
3137 if (TREE_CODE (baseclass) == TEMPLATE_TYPE_PARM)
3138 continue;
3139 my_friendly_assert (CLASSTYPE_CID (baseclass) != 0, 2365);
3141 /* Don't search if there's nothing there! MI_SIZE can be
3142 zero as a result of parse errors. */
3143 if (TYPE_BINFO_BASETYPES (baseclass) && mi_size > 0)
3144 for (j = mi_size*(CLASSTYPE_CID (baseclass)-1); j >= 0; j -= mi_size)
3145 derived_row[j] |= base_row[j];
3146 TYPE_DERIVES_FROM (baseclass, BINFO_TYPE (binfo)) = 1;
3149 SET_BINFO_MARKED (binfo);
3152 /* Given a _CLASSTYPE node in a multiple inheritance lattice,
3153 convert the lattice into a simple relation such that,
3154 given to CIDs, C1 and C2, one can determine if C1 <= C2
3155 or C2 <= C1 or C1 <> C2.
3157 Once constructed, we walk the lattice depth fisrt,
3158 applying various functions to elements as they are encountered.
3160 We use xmalloc here, in case we want to randomly free these tables. */
3162 #define SAVE_MI_MATRIX
3164 void
3165 build_mi_matrix (type)
3166 tree type;
3168 tree binfo = TYPE_BINFO (type);
3169 cid = 0;
3171 #ifdef SAVE_MI_MATRIX
3172 if (CLASSTYPE_MI_MATRIX (type))
3174 mi_size = CLASSTYPE_N_SUPERCLASSES (type) + CLASSTYPE_N_VBASECLASSES (type);
3175 mi_matrix = CLASSTYPE_MI_MATRIX (type);
3176 mi_type = type;
3177 dfs_walk (binfo, dfs_number, unnumberedp);
3178 return;
3180 #endif
3182 dfs_walk (binfo, dfs_number, unnumberedp);
3184 mi_size = CLASSTYPE_N_SUPERCLASSES (type) + CLASSTYPE_N_VBASECLASSES (type);
3185 if (mi_size < (cid-1))
3186 mi_size = cid-1;
3187 mi_matrix = (char *)xmalloc ((mi_size + 1) * (mi_size + 1));
3188 mi_type = type;
3189 bzero (mi_matrix, (mi_size + 1) * (mi_size + 1));
3190 dfs_walk (binfo, dfs_record_inheritance, unmarkedp);
3191 dfs_walk (binfo, dfs_unmark, markedp);
3194 void
3195 free_mi_matrix ()
3197 dfs_walk (TYPE_BINFO (mi_type), dfs_unnumber, numberedp);
3199 #ifdef SAVE_MI_MATRIX
3200 CLASSTYPE_MI_MATRIX (mi_type) = mi_matrix;
3201 #else
3202 free (mi_matrix);
3203 mi_size = 0;
3204 cid = 0;
3205 #endif
3208 /* If we want debug info for a type TYPE, make sure all its base types
3209 are also marked as being potentially interesting. This avoids
3210 the problem of not writing any debug info for intermediate basetypes
3211 that have abstract virtual functions. Also mark member types. */
3213 void
3214 note_debug_info_needed (type)
3215 tree type;
3217 tree field;
3219 if (current_template_parms)
3220 return;
3222 /* We can't do the TYPE_DECL_SUPPRESS_DEBUG thing with DWARF, which
3223 does not support name references between translation units. Well, we
3224 could, but that would mean putting global labels in the debug output
3225 before each exported type and each of its functions and static data
3226 members. */
3227 if (write_symbols == DWARF_DEBUG || write_symbols == DWARF2_DEBUG)
3228 return;
3230 dfs_walk (TYPE_BINFO (type), dfs_debug_mark, dfs_debug_unmarkedp);
3231 for (field = TYPE_FIELDS (type); field; field = TREE_CHAIN (field))
3233 tree ttype;
3234 if (TREE_CODE (field) == FIELD_DECL
3235 && IS_AGGR_TYPE (ttype = target_type (TREE_TYPE (field)))
3236 && dfs_debug_unmarkedp (TYPE_BINFO (ttype)))
3237 note_debug_info_needed (ttype);
3241 /* Subroutines of push_class_decls (). */
3243 /* Add in a decl to the envelope. */
3244 static void
3245 envelope_add_decl (type, decl, values)
3246 tree type, decl, *values;
3248 tree context, *tmp;
3249 tree name = DECL_NAME (decl);
3250 int dont_add = 0;
3252 /* virtual base names are always unique. */
3253 if (VBASE_NAME_P (name))
3254 *values = NULL_TREE;
3256 /* Possible ambiguity. If its defining type(s)
3257 is (are all) derived from us, no problem. */
3258 else if (*values && TREE_CODE (*values) != TREE_LIST)
3260 tree value = *values;
3261 /* Only complain if we shadow something we can access. */
3262 if (warn_shadow && TREE_CODE (decl) == FUNCTION_DECL
3263 && ((DECL_LANG_SPECIFIC (*values)
3264 && DECL_CLASS_CONTEXT (value) == current_class_type)
3265 || ! TREE_PRIVATE (value)))
3266 /* Should figure out access control more accurately. */
3268 cp_warning_at ("member `%#D' is shadowed", value);
3269 cp_warning_at ("by member function `%#D'", decl);
3270 warning ("in this context");
3273 context = (TREE_CODE (value) == FUNCTION_DECL
3274 && DECL_VIRTUAL_P (value))
3275 ? DECL_CLASS_CONTEXT (value)
3276 : DECL_CONTEXT (value);
3278 if (context == type)
3280 if (TREE_CODE (value) == TYPE_DECL
3281 && DECL_ARTIFICIAL (value))
3282 *values = NULL_TREE;
3283 else
3284 dont_add = 1;
3286 /* If we don't check CLASSTYPE_CID on CONTEXT right now, we'll end
3287 up subtracting from the address of MI_MATRIX, putting us off
3288 in la la land. */
3289 else if (context
3290 && CLASSTYPE_CID (context)
3291 && TYPE_DERIVES_FROM (context, type))
3293 /* Don't add in *values to list */
3294 *values = NULL_TREE;
3296 else
3297 *values = build_tree_list (NULL_TREE, value);
3299 else
3300 for (tmp = values; *tmp;)
3302 tree value = TREE_VALUE (*tmp);
3303 my_friendly_assert (TREE_CODE (value) != TREE_LIST, 999);
3304 context = (TREE_CODE (value) == FUNCTION_DECL
3305 && DECL_VIRTUAL_P (value))
3306 ? DECL_CLASS_CONTEXT (value)
3307 : DECL_CONTEXT (value);
3309 /* If we don't check CLASSTYPE_CID on CONTEXT right now, we'll end
3310 up subtracting from the address of MI_MATRIX, putting us off
3311 in la la land. */
3312 if (context
3313 && CLASSTYPE_CID (context)
3314 && TYPE_DERIVES_FROM (context, type))
3316 /* remove *tmp from list */
3317 *tmp = TREE_CHAIN (*tmp);
3319 else
3320 tmp = &TREE_CHAIN (*tmp);
3323 if (! dont_add)
3325 /* Put the new contents in our envelope. */
3326 if (TREE_CODE (decl) == FUNCTION_DECL)
3328 *values = tree_cons (name, decl, *values);
3329 TREE_NONLOCAL_FLAG (*values) = 1;
3330 TREE_TYPE (*values) = unknown_type_node;
3332 else
3334 if (*values)
3336 *values = tree_cons (NULL_TREE, decl, *values);
3337 /* Mark this as a potentially ambiguous member. */
3338 /* Leaving TREE_TYPE blank is intentional.
3339 We cannot use `error_mark_node' (lookup_name)
3340 or `unknown_type_node' (all member functions use this). */
3341 TREE_NONLOCAL_FLAG (*values) = 1;
3343 else
3344 *values = decl;
3349 /* Add the instance variables which this class contributed to the
3350 current class binding contour. When a redefinition occurs, if the
3351 redefinition is strictly within a single inheritance path, we just
3352 overwrite the old declaration with the new. If the fields are not
3353 within a single inheritance path, we must cons them.
3355 In order to know what decls are new (stemming from the current
3356 invocation of push_class_decls) we enclose them in an "envelope",
3357 which is a TREE_LIST node where the TREE_PURPOSE slot contains the
3358 new decl (or possibly a list of competing ones), the TREE_VALUE slot
3359 points to the old value and the TREE_CHAIN slot chains together all
3360 envelopes which needs to be "opened" in push_class_decls. Opening an
3361 envelope means: push the old value onto the class_shadowed list,
3362 install the new one and if it's a TYPE_DECL do the same to the
3363 IDENTIFIER_TYPE_VALUE. Such an envelope is recognized by seeing that
3364 the TREE_PURPOSE slot is non-null, and that it is not an identifier.
3365 Because if it is, it could be a set of overloaded methods from an
3366 outer scope. */
3368 static void
3369 dfs_pushdecls (binfo)
3370 tree binfo;
3372 tree type = BINFO_TYPE (binfo);
3373 tree fields, *methods, *end;
3374 tree method_vec;
3376 for (fields = TYPE_FIELDS (type); fields; fields = TREE_CHAIN (fields))
3378 /* Unmark so that if we are in a constructor, and then find that
3379 this field was initialized by a base initializer,
3380 we can emit an error message. */
3381 if (TREE_CODE (fields) == FIELD_DECL)
3382 TREE_USED (fields) = 0;
3384 /* Recurse into anonymous unions. */
3385 if (DECL_NAME (fields) == NULL_TREE
3386 && TREE_CODE (TREE_TYPE (fields)) == UNION_TYPE)
3388 dfs_pushdecls (TYPE_BINFO (TREE_TYPE (fields)));
3389 continue;
3392 if (DECL_NAME (fields))
3394 tree name = DECL_NAME (fields);
3395 tree class_value = IDENTIFIER_CLASS_VALUE (name);
3397 /* If the class value is not an envelope of the kind described in
3398 the comment above, we create a new envelope. */
3399 if (class_value == NULL_TREE || TREE_CODE (class_value) != TREE_LIST
3400 || TREE_PURPOSE (class_value) == NULL_TREE
3401 || TREE_CODE (TREE_PURPOSE (class_value)) == IDENTIFIER_NODE)
3403 /* See comment above for a description of envelopes. */
3404 closed_envelopes = tree_cons (NULL_TREE, class_value,
3405 closed_envelopes);
3406 IDENTIFIER_CLASS_VALUE (name) = closed_envelopes;
3407 class_value = IDENTIFIER_CLASS_VALUE (name);
3410 envelope_add_decl (type, fields, &TREE_PURPOSE (class_value));
3414 method_vec = CLASSTYPE_METHOD_VEC (type);
3415 if (method_vec)
3417 /* Farm out constructors and destructors. */
3418 methods = &TREE_VEC_ELT (method_vec, 2);
3419 end = TREE_VEC_END (method_vec);
3421 while (methods != end)
3423 /* This will cause lookup_name to return a pointer
3424 to the tree_list of possible methods of this name. */
3425 tree name = DECL_NAME (*methods);
3426 tree class_value = IDENTIFIER_CLASS_VALUE (name);
3428 /* If the class value is not an envelope of the kind described in
3429 the comment above, we create a new envelope. */
3430 if (class_value == NULL_TREE || TREE_CODE (class_value) != TREE_LIST
3431 || TREE_PURPOSE (class_value) == NULL_TREE
3432 || TREE_CODE (TREE_PURPOSE (class_value)) == IDENTIFIER_NODE)
3434 /* See comment above for a description of envelopes. */
3435 closed_envelopes = tree_cons (NULL_TREE, class_value,
3436 closed_envelopes);
3437 IDENTIFIER_CLASS_VALUE (name) = closed_envelopes;
3438 class_value = IDENTIFIER_CLASS_VALUE (name);
3441 /* Here we try to rule out possible ambiguities.
3442 If we can't do that, keep a TREE_LIST with possibly ambiguous
3443 decls in there. */
3444 maybe_push_cache_obstack ();
3445 envelope_add_decl (type, *methods, &TREE_PURPOSE (class_value));
3446 pop_obstacks ();
3448 methods++;
3451 SET_BINFO_MARKED (binfo);
3454 /* Consolidate unique (by name) member functions. */
3456 static void
3457 dfs_compress_decls (binfo)
3458 tree binfo;
3460 tree type = BINFO_TYPE (binfo);
3461 tree method_vec = CLASSTYPE_METHOD_VEC (type);
3463 if (method_vec != 0)
3465 /* Farm out constructors and destructors. */
3466 tree *methods = &TREE_VEC_ELT (method_vec, 2);
3467 tree *end = TREE_VEC_END (method_vec);
3469 for (; methods != end; methods++)
3471 /* This is known to be an envelope of the kind described before
3472 dfs_pushdecls. */
3473 tree class_value = IDENTIFIER_CLASS_VALUE (DECL_NAME (*methods));
3474 tree tmp = TREE_PURPOSE (class_value);
3476 /* This was replaced in scope by somebody else. Just leave it
3477 alone. */
3478 if (TREE_CODE (tmp) != TREE_LIST)
3479 continue;
3481 if (TREE_CHAIN (tmp) == NULL_TREE
3482 && TREE_VALUE (tmp)
3483 && DECL_CHAIN (TREE_VALUE (tmp)) == NULL_TREE)
3485 TREE_PURPOSE (class_value) = TREE_VALUE (tmp);
3489 CLEAR_BINFO_MARKED (binfo);
3492 /* When entering the scope of a class, we cache all of the
3493 fields that that class provides within its inheritance
3494 lattice. Where ambiguities result, we mark them
3495 with `error_mark_node' so that if they are encountered
3496 without explicit qualification, we can emit an error
3497 message. */
3499 void
3500 push_class_decls (type)
3501 tree type;
3503 struct obstack *ambient_obstack = current_obstack;
3504 search_stack = push_search_level (search_stack, &search_obstack);
3506 /* Push class fields into CLASS_VALUE scope, and mark. */
3507 dfs_walk (TYPE_BINFO (type), dfs_pushdecls, unmarkedp);
3509 /* Compress fields which have only a single entry
3510 by a given name, and unmark. */
3511 dfs_walk (TYPE_BINFO (type), dfs_compress_decls, markedp);
3513 /* Open up all the closed envelopes and push the contained decls into
3514 class scope. */
3515 while (closed_envelopes)
3517 tree new = TREE_PURPOSE (closed_envelopes);
3518 tree id;
3520 /* This is messy because the class value may be a *_DECL, or a
3521 TREE_LIST of overloaded *_DECLs or even a TREE_LIST of ambiguous
3522 *_DECLs. The name is stored at different places in these three
3523 cases. */
3524 if (TREE_CODE (new) == TREE_LIST)
3526 if (TREE_PURPOSE (new) != NULL_TREE)
3527 id = TREE_PURPOSE (new);
3528 else
3530 tree node = TREE_VALUE (new);
3532 if (TREE_CODE (node) == TYPE_DECL
3533 && DECL_ARTIFICIAL (node)
3534 && IS_AGGR_TYPE (TREE_TYPE (node))
3535 && CLASSTYPE_TEMPLATE_INFO (TREE_TYPE (node)))
3537 tree t = CLASSTYPE_TI_TEMPLATE (TREE_TYPE (node));
3538 tree n = new;
3540 for (; n; n = TREE_CHAIN (n))
3542 tree d = TREE_VALUE (n);
3543 if (TREE_CODE (d) == TYPE_DECL
3544 && DECL_ARTIFICIAL (node)
3545 && IS_AGGR_TYPE (TREE_TYPE (d))
3546 && CLASSTYPE_TEMPLATE_INFO (TREE_TYPE (d))
3547 && CLASSTYPE_TI_TEMPLATE (TREE_TYPE (d)) == t)
3548 /* OK */;
3549 else
3550 break;
3553 if (n == NULL_TREE)
3554 new = t;
3556 else while (TREE_CODE (node) == TREE_LIST)
3557 node = TREE_VALUE (node);
3558 id = DECL_NAME (node);
3561 else
3562 id = DECL_NAME (new);
3564 /* Install the original class value in order to make
3565 pushdecl_class_level work correctly. */
3566 IDENTIFIER_CLASS_VALUE (id) = TREE_VALUE (closed_envelopes);
3567 if (TREE_CODE (new) == TREE_LIST)
3568 push_class_level_binding (id, new);
3569 else
3570 pushdecl_class_level (new);
3571 closed_envelopes = TREE_CHAIN (closed_envelopes);
3573 current_obstack = ambient_obstack;
3576 /* Here's a subroutine we need because C lacks lambdas. */
3578 static void
3579 dfs_unuse_fields (binfo)
3580 tree binfo;
3582 tree type = TREE_TYPE (binfo);
3583 tree fields;
3585 for (fields = TYPE_FIELDS (type); fields; fields = TREE_CHAIN (fields))
3587 if (TREE_CODE (fields) != FIELD_DECL)
3588 continue;
3590 TREE_USED (fields) = 0;
3591 if (DECL_NAME (fields) == NULL_TREE
3592 && TREE_CODE (TREE_TYPE (fields)) == UNION_TYPE)
3593 unuse_fields (TREE_TYPE (fields));
3597 void
3598 unuse_fields (type)
3599 tree type;
3601 dfs_walk (TYPE_BINFO (type), dfs_unuse_fields, unmarkedp);
3604 void
3605 pop_class_decls ()
3607 /* We haven't pushed a search level when dealing with cached classes,
3608 so we'd better not try to pop it. */
3609 if (search_stack)
3610 search_stack = pop_search_level (search_stack);
3613 void
3614 print_search_statistics ()
3616 #ifdef GATHER_STATISTICS
3617 if (flag_memoize_lookups)
3619 fprintf (stderr, "%d memoized contexts saved\n",
3620 n_contexts_saved);
3621 fprintf (stderr, "%d local tree nodes made\n", my_tree_node_counter);
3622 fprintf (stderr, "%d local hash nodes made\n", my_memoized_entry_counter);
3623 fprintf (stderr, "fields statistics:\n");
3624 fprintf (stderr, " memoized finds = %d; rejects = %d; (searches = %d)\n",
3625 memoized_fast_finds[0], memoized_fast_rejects[0],
3626 memoized_fields_searched[0]);
3627 fprintf (stderr, " memoized_adds = %d\n", memoized_adds[0]);
3628 fprintf (stderr, "fnfields statistics:\n");
3629 fprintf (stderr, " memoized finds = %d; rejects = %d; (searches = %d)\n",
3630 memoized_fast_finds[1], memoized_fast_rejects[1],
3631 memoized_fields_searched[1]);
3632 fprintf (stderr, " memoized_adds = %d\n", memoized_adds[1]);
3634 fprintf (stderr, "%d fields searched in %d[%d] calls to lookup_field[_1]\n",
3635 n_fields_searched, n_calls_lookup_field, n_calls_lookup_field_1);
3636 fprintf (stderr, "%d fnfields searched in %d calls to lookup_fnfields\n",
3637 n_outer_fields_searched, n_calls_lookup_fnfields);
3638 fprintf (stderr, "%d calls to get_base_type\n", n_calls_get_base_type);
3639 #else /* GATHER_STATISTICS */
3640 fprintf (stderr, "no search statistics\n");
3641 #endif /* GATHER_STATISTICS */
3644 void
3645 init_search_processing ()
3647 gcc_obstack_init (&search_obstack);
3648 gcc_obstack_init (&type_obstack);
3649 gcc_obstack_init (&type_obstack_entries);
3651 /* This gives us room to build our chains of basetypes,
3652 whether or not we decide to memoize them. */
3653 type_stack = push_type_level ((struct stack_level *)0, &type_obstack);
3654 _vptr_name = get_identifier ("_vptr");
3657 void
3658 reinit_search_statistics ()
3660 my_memoized_entry_counter = 0;
3661 memoized_fast_finds[0] = 0;
3662 memoized_fast_finds[1] = 0;
3663 memoized_adds[0] = 0;
3664 memoized_adds[1] = 0;
3665 memoized_fast_rejects[0] = 0;
3666 memoized_fast_rejects[1] = 0;
3667 memoized_fields_searched[0] = 0;
3668 memoized_fields_searched[1] = 0;
3669 #ifdef GATHER_STATISTICS
3670 n_fields_searched = 0;
3671 n_calls_lookup_field = 0, n_calls_lookup_field_1 = 0;
3672 n_calls_lookup_fnfields = 0, n_calls_lookup_fnfields_1 = 0;
3673 n_calls_get_base_type = 0;
3674 n_outer_fields_searched = 0;
3675 n_contexts_saved = 0;
3676 #endif /* GATHER_STATISTICS */
3679 #define scratch_tree_cons expr_tree_cons
3681 static tree conversions;
3682 static void
3683 add_conversions (binfo)
3684 tree binfo;
3686 int i;
3687 tree method_vec = CLASSTYPE_METHOD_VEC (BINFO_TYPE (binfo));
3689 for (i = 2; i < TREE_VEC_LENGTH (method_vec); ++i)
3691 tree tmp = TREE_VEC_ELT (method_vec, i);
3692 if (! IDENTIFIER_TYPENAME_P (DECL_NAME (tmp)))
3693 break;
3694 conversions = scratch_tree_cons (binfo, tmp, conversions);
3696 SET_BINFO_MARKED (binfo);
3699 tree
3700 lookup_conversions (type)
3701 tree type;
3703 conversions = NULL_TREE;
3704 if (TYPE_SIZE (type))
3706 dfs_walk (TYPE_BINFO (type), add_conversions, unmarkedp);
3707 dfs_walk (TYPE_BINFO (type), dfs_unmark, markedp);
3709 return conversions;
3712 /* Subroutine of get_template_base. */
3714 static tree
3715 get_template_base_recursive (binfo, rval, template, via_virtual)
3716 tree binfo, template, rval;
3717 int via_virtual;
3719 tree binfos;
3720 int i, n_baselinks;
3721 tree type = BINFO_TYPE (binfo);
3723 if (CLASSTYPE_TEMPLATE_INFO (type)
3724 && CLASSTYPE_TI_TEMPLATE (type) == template)
3726 if (rval == NULL_TREE || rval == type)
3727 return type;
3728 else
3729 return error_mark_node;
3732 binfos = BINFO_BASETYPES (binfo);
3733 n_baselinks = binfos ? TREE_VEC_LENGTH (binfos) : 0;
3735 /* Process base types. */
3736 for (i = 0; i < n_baselinks; i++)
3738 tree base_binfo = TREE_VEC_ELT (binfos, i);
3740 /* Find any specific instance of a virtual base, when searching with
3741 a binfo... */
3742 if (BINFO_MARKED (base_binfo) == 0)
3744 int this_virtual = via_virtual || TREE_VIA_VIRTUAL (base_binfo);
3746 /* When searching for a non-virtual, we cannot mark
3747 virtually found binfos. */
3748 if (! this_virtual)
3749 SET_BINFO_MARKED (base_binfo);
3751 rval = get_template_base_recursive
3752 (base_binfo, rval, template, this_virtual);
3753 if (rval == error_mark_node)
3754 return rval;
3758 return rval;
3761 /* Given a class template TEMPLATE and a class type or binfo node BINFO,
3762 find the unique base type in BINFO that is an instance of TEMPLATE.
3763 If there are more than one, return error_mark_node. Used by unify. */
3765 tree
3766 get_template_base (template, binfo)
3767 register tree template, binfo;
3769 tree type, rval;
3771 if (TREE_CODE (binfo) == TREE_VEC)
3772 type = BINFO_TYPE (binfo);
3773 else if (IS_AGGR_TYPE_CODE (TREE_CODE (binfo)))
3775 type = complete_type (binfo);
3776 binfo = TYPE_BINFO (type);
3778 else
3779 my_friendly_abort (92);
3781 if (CLASSTYPE_TEMPLATE_INFO (type)
3782 && CLASSTYPE_TI_TEMPLATE (type) == template)
3783 return type;
3785 rval = get_template_base_recursive (binfo, NULL_TREE, template, 0);
3786 dfs_walk (binfo, dfs_unmark, markedp);
3788 return rval;