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conditions: handle comma condtions
[smatch.git] / smatch_slist.c
blobf030ae579dd7e323213a203f632cd26610dd7305
1 /*
2 * Copyright (C) 2008,2009 Dan Carpenter.
3 *
4 * This program is free software; you can redistribute it and/or
5 * modify it under the terms of the GNU General Public License
6 * as published by the Free Software Foundation; either version 2
7 * of the License, or (at your option) any later version.
8 *
9 * This program is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 * GNU General Public License for more details.
13 *
14 * You should have received a copy of the GNU General Public License
15 * along with this program; if not, see http://www.gnu.org/copyleft/gpl.txt
16 */
17
18 #include <stdlib.h>
19 #include <stdio.h>
20 #include "smatch.h"
21 #include "smatch_slist.h"
22
23 #undef CHECKORDER
24
25 ALLOCATOR(smatch_state, "smatch state");
26 ALLOCATOR(sm_state, "sm state");
27 ALLOCATOR(named_stree, "named slist");
28 __DO_ALLOCATOR(char, 1, 4, "state names", sname);
29
30 static int sm_state_counter;
31
32 static struct stree_stack *all_pools;
33
34 char *show_sm(struct sm_state *sm)
35 {
36 static char buf[256];
37 struct sm_state *tmp;
38 int pos;
39 int i;
40
41 pos = snprintf(buf, sizeof(buf), "[%s] '%s' = %s (",
42 check_name(sm->owner), sm->name, show_state(sm->state));
43 if (pos > sizeof(buf))
44 goto truncate;
45
46 i = 0;
47 FOR_EACH_PTR(sm->possible, tmp) {
48 if (i++)
49 pos += snprintf(buf + pos, sizeof(buf) - pos, ", ");
50 if (pos > sizeof(buf))
51 goto truncate;
52 pos += snprintf(buf + pos, sizeof(buf) - pos, "%s",
53 show_state(tmp->state));
54 if (pos > sizeof(buf))
55 goto truncate;
56 } END_FOR_EACH_PTR(tmp);
57 snprintf(buf + pos, sizeof(buf) - pos, ")");
58
59 return buf;
60
61 truncate:
62 for (i = 0; i < 3; i++)
63 buf[sizeof(buf) - 2 - i] = '.';
64 return buf;
65 }
66
67 void __print_stree(struct stree *stree)
68 {
69 struct sm_state *sm;
70
71 printf("dumping stree at %d\n", get_lineno());
72 FOR_EACH_SM(stree, sm) {
73 printf("%s\n", show_sm(sm));
74 } END_FOR_EACH_SM(sm);
75 printf("---\n");
76 }
77
78 /* NULL states go at the end to simplify merge_slist */
79 int cmp_tracker(const struct sm_state *a, const struct sm_state *b)
80 {
81 int ret;
82
83 if (a == b)
84 return 0;
85 if (!b)
86 return -1;
87 if (!a)
88 return 1;
89
90 if (a->owner > b->owner)
91 return -1;
92 if (a->owner < b->owner)
93 return 1;
94
95 ret = strcmp(a->name, b->name);
96 if (ret)
97 return ret;
98
99 if (!b->sym && a->sym)
100 return -1;
101 if (!a->sym && b->sym)
102 return 1;
103 if (a->sym > b->sym)
104 return -1;
105 if (a->sym < b->sym)
106 return 1;
107
108 return 0;
109 }
110
111 static int cmp_sm_states(const struct sm_state *a, const struct sm_state *b, int preserve)
112 {
113 int ret;
114
115 ret = cmp_tracker(a, b);
116 if (ret)
117 return ret;
118
119 /* todo: add hook for smatch_extra.c */
120 if (a->state > b->state)
121 return -1;
122 if (a->state < b->state)
123 return 1;
124 /* This is obviously a massive disgusting hack but we need to preserve
125 * the unmerged states for smatch extra because we use them in
126 * smatch_db.c. Meanwhile if we preserve all the other unmerged states
127 * then it uses a lot of memory and we don't use it. Hence this hack.
128 *
129 * Also sometimes even just preserving every possible SMATCH_EXTRA state
130 * takes too much resources so we have to cap that. Capping is probably
131 * not often a problem in real life.
132 */
133 if (a->owner == SMATCH_EXTRA && preserve) {
134 if (a == b)
135 return 0;
136 if (a->merged == 1 && b->merged == 0)
137 return -1;
138 if (a->merged == 0)
139 return 1;
140 }
141
142 return 0;
143 }
144
145 static struct sm_state *alloc_sm_state(int owner, const char *name,
146 struct symbol *sym, struct smatch_state *state)
147 {
148 struct sm_state *sm_state = __alloc_sm_state(0);
149
150 sm_state_counter++;
151
152 sm_state->name = alloc_sname(name);
153 sm_state->owner = owner;
154 sm_state->sym = sym;
155 sm_state->state = state;
156 sm_state->line = get_lineno();
157 sm_state->merged = 0;
158 sm_state->implied = 0;
159 sm_state->pool = NULL;
160 sm_state->left = NULL;
161 sm_state->right = NULL;
162 sm_state->nr_children = 1;
163 sm_state->possible = NULL;
164 add_ptr_list(&sm_state->possible, sm_state);
165 return sm_state;
166 }
167
168 static struct sm_state *alloc_state_no_name(int owner, const char *name,
169 struct symbol *sym,
170 struct smatch_state *state)
171 {
172 struct sm_state *tmp;
173
174 tmp = alloc_sm_state(owner, NULL, sym, state);
175 tmp->name = name;
176 return tmp;
177 }
178
179 int too_many_possible(struct sm_state *sm)
180 {
181 if (ptr_list_size((struct ptr_list *)sm->possible) >= 100)
182 return 1;
183 return 0;
184 }
185
186 void add_possible_sm(struct sm_state *to, struct sm_state *new)
187 {
188 struct sm_state *tmp;
189 int preserve = 1;
190
191 if (too_many_possible(to))
192 preserve = 0;
193
194 FOR_EACH_PTR(to->possible, tmp) {
195 if (cmp_sm_states(tmp, new, preserve) < 0)
196 continue;
197 else if (cmp_sm_states(tmp, new, preserve) == 0) {
198 return;
199 } else {
200 INSERT_CURRENT(new, tmp);
201 return;
202 }
203 } END_FOR_EACH_PTR(tmp);
204 add_ptr_list(&to->possible, new);
205 }
206
207 static void copy_possibles(struct sm_state *to, struct sm_state *from)
208 {
209 struct sm_state *tmp;
210
211 FOR_EACH_PTR(from->possible, tmp) {
212 add_possible_sm(to, tmp);
213 } END_FOR_EACH_PTR(tmp);
214 }
215
216 char *alloc_sname(const char *str)
217 {
218 char *tmp;
219
220 if (!str)
221 return NULL;
222 tmp = __alloc_sname(strlen(str) + 1);
223 strcpy(tmp, str);
224 return tmp;
225 }
226
227 int out_of_memory(void)
228 {
229 /*
230 * I decided to use 50M here based on trial and error.
231 * It works out OK for the kernel and so it should work
232 * for most other projects as well.
233 */
234 if (sm_state_counter * sizeof(struct sm_state) >= 50000000)
235 return 1;
236 return 0;
237 }
238
239 int low_on_memory(void)
240 {
241 if (sm_state_counter * sizeof(struct sm_state) >= 25000000)
242 return 1;
243 return 0;
244 }
245
246 static void free_sm_state(struct sm_state *sm)
247 {
248 free_slist(&sm->possible);
249 /*
250 * fixme. Free the actual state.
251 * Right now we leave it until the end of the function
252 * because we don't want to double free it.
253 * Use the freelist to not double free things
254 */
255 }
256
257 static void free_all_sm_states(struct allocation_blob *blob)
258 {
259 unsigned int size = sizeof(struct sm_state);
260 unsigned int offset = 0;
261
262 while (offset < blob->offset) {
263 free_sm_state((struct sm_state *)(blob->data + offset));
264 offset += size;
265 }
266 }
267
268 /* At the end of every function we free all the sm_states */
269 void free_every_single_sm_state(void)
270 {
271 struct allocator_struct *desc = &sm_state_allocator;
272 struct allocation_blob *blob = desc->blobs;
273
274 desc->blobs = NULL;
275 desc->allocations = 0;
276 desc->total_bytes = 0;
277 desc->useful_bytes = 0;
278 desc->freelist = NULL;
279 while (blob) {
280 struct allocation_blob *next = blob->next;
281 free_all_sm_states(blob);
282 blob_free(blob, desc->chunking);
283 blob = next;
284 }
285 clear_sname_alloc();
286 clear_smatch_state_alloc();
287
288 free_stack_and_strees(&all_pools);
289 sm_state_counter = 0;
290 }
291
292 struct sm_state *clone_sm(struct sm_state *s)
293 {
294 struct sm_state *ret;
295
296 ret = alloc_state_no_name(s->owner, s->name, s->sym, s->state);
297 ret->merged = s->merged;
298 ret->implied = s->implied;
299 ret->line = s->line;
300 /* clone_sm() doesn't copy the pools. Each state needs to have
301 only one pool. */
302 ret->possible = clone_slist(s->possible);
303 ret->left = s->left;
304 ret->right = s->right;
305 ret->nr_children = s->nr_children;
306 return ret;
307 }
308
309 int is_merged(struct sm_state *sm)
310 {
311 return sm->merged;
312 }
313
314 int is_implied(struct sm_state *sm)
315 {
316 return sm->implied;
317 }
318
319 int slist_has_state(struct state_list *slist, struct smatch_state *state)
320 {
321 struct sm_state *tmp;
322
323 FOR_EACH_PTR(slist, tmp) {
324 if (tmp->state == state)
325 return 1;
326 } END_FOR_EACH_PTR(tmp);
327 return 0;
328 }
329
330 struct state_list *clone_slist(struct state_list *from_slist)
331 {
332 struct sm_state *sm;
333 struct state_list *to_slist = NULL;
334
335 FOR_EACH_PTR(from_slist, sm) {
336 add_ptr_list(&to_slist, sm);
337 } END_FOR_EACH_PTR(sm);
338 return to_slist;
339 }
340
341 struct smatch_state *merge_states(int owner, const char *name,
342 struct symbol *sym,
343 struct smatch_state *state1,
344 struct smatch_state *state2)
345 {
346 struct smatch_state *ret;
347
348 if (state1 == state2)
349 ret = state1;
350 else if (__has_merge_function(owner))
351 ret = __client_merge_function(owner, state1, state2);
352 else if (state1 == &ghost)
353 ret = state2;
354 else if (state2 == &ghost)
355 ret = state1;
356 else if (!state1 || !state2)
357 ret = &undefined;
358 else
359 ret = &merged;
360 return ret;
361 }
362
363 struct sm_state *merge_sm_states(struct sm_state *one, struct sm_state *two)
364 {
365 struct smatch_state *s;
366 struct sm_state *result;
367
368 if (one == two)
369 return one;
370 s = merge_states(one->owner, one->name, one->sym, one->state, two->state);
371 result = alloc_state_no_name(one->owner, one->name, one->sym, s);
372 result->merged = 1;
373 result->left = one;
374 result->right = two;
375 result->nr_children = one->nr_children + two->nr_children;
376 copy_possibles(result, one);
377 copy_possibles(result, two);
378
379 if (option_debug ||
380 strcmp(check_name(one->owner), option_debug_check) == 0) {
381 struct sm_state *tmp;
382 int i = 0;
383
384 printf("%s:%d %s() merge [%s] '%s' %s(L %d) + %s(L %d) => %s (",
385 get_filename(), get_lineno(), get_function(),
386 check_name(one->owner), one->name,
387 show_state(one->state), one->line,
388 show_state(two->state), two->line,
389 show_state(s));
390
391 FOR_EACH_PTR(result->possible, tmp) {
392 if (i++)
393 printf(", ");
394 printf("%s", show_state(tmp->state));
395 } END_FOR_EACH_PTR(tmp);
396 printf(")\n");
397 }
398
399 return result;
400 }
401
402 struct sm_state *get_sm_state_stree(struct stree *stree, int owner, const char *name,
403 struct symbol *sym)
404 {
405 struct tracker tracker = {
406 .owner = owner,
407 .name = (char *)name,
408 .sym = sym,
409 };
410
411 if (!name)
412 return NULL;
413
414
415 return avl_lookup(stree, (struct sm_state *)&tracker);
416 }
417
418 struct smatch_state *get_state_stree(struct stree *stree,
419 int owner, const char *name,
420 struct symbol *sym)
421 {
422 struct sm_state *sm;
423
424 sm = get_sm_state_stree(stree, owner, name, sym);
425 if (sm)
426 return sm->state;
427 return NULL;
428 }
429
430 /* FIXME: this is almost exactly the same as set_sm_state_slist() */
431 void overwrite_sm_state_stree(struct stree **stree, struct sm_state *new)
432 {
433 avl_insert(stree, new);
434 }
435
436 void overwrite_sm_state_stree_stack(struct stree_stack **stack,
437 struct sm_state *sm)
438 {
439 struct stree *stree;
440
441 stree = pop_stree(stack);
442 overwrite_sm_state_stree(&stree, sm);
443 push_stree(stack, stree);
444 }
445
446 struct sm_state *set_state_stree(struct stree **stree, int owner, const char *name,
447 struct symbol *sym, struct smatch_state *state)
448 {
449 struct sm_state *new = alloc_sm_state(owner, name, sym, state);
450
451 avl_insert(stree, new);
452 return new;
453 }
454
455 void set_state_stree_perm(struct stree **stree, int owner, const char *name,
456 struct symbol *sym, struct smatch_state *state)
457 {
458 struct sm_state *sm;
459
460 sm = malloc(sizeof(*sm) + strlen(name) + 1);
461 memset(sm, 0, sizeof(*sm));
462 sm->owner = owner;
463 sm->name = (char *)(sm + 1);
464 strcpy((char *)sm->name, name);
465 sm->sym = sym;
466 sm->state = state;
467
468 overwrite_sm_state_stree(stree, sm);
469 }
470
471 void delete_state_stree(struct stree **stree, int owner, const char *name,
472 struct symbol *sym)
473 {
474 struct tracker tracker = {
475 .owner = owner,
476 .name = (char *)name,
477 .sym = sym,
478 };
479
480 avl_remove(stree, (struct sm_state *)&tracker);
481 }
482
483 void delete_state_stree_stack(struct stree_stack **stack, int owner, const char *name,
484 struct symbol *sym)
485 {
486 struct stree *stree;
487
488 stree = pop_stree(stack);
489 delete_state_stree(&stree, owner, name, sym);
490 push_stree(stack, stree);
491 }
492
493 void push_stree(struct stree_stack **stack, struct stree *stree)
494 {
495 add_ptr_list(stack, stree);
496 }
497
498 struct stree *pop_stree(struct stree_stack **stack)
499 {
500 struct stree *stree;
501
502 stree = last_ptr_list((struct ptr_list *)*stack);
503 delete_ptr_list_last((struct ptr_list **)stack);
504 return stree;
505 }
506
507 void free_slist(struct state_list **slist)
508 {
509 __free_ptr_list((struct ptr_list **)slist);
510 }
511
512 void free_stree_stack(struct stree_stack **stack)
513 {
514 __free_ptr_list((struct ptr_list **)stack);
515 }
516
517 void free_stack_and_strees(struct stree_stack **stree_stack)
518 {
519 struct stree *stree;
520
521 FOR_EACH_PTR(*stree_stack, stree) {
522 free_stree(&stree);
523 } END_FOR_EACH_PTR(stree);
524 free_stree_stack(stree_stack);
525 }
526
527 struct sm_state *set_state_stree_stack(struct stree_stack **stack, int owner, const char *name,
528 struct symbol *sym, struct smatch_state *state)
529 {
530 struct stree *stree;
531 struct sm_state *sm;
532
533 stree = pop_stree(stack);
534 sm = set_state_stree(&stree, owner, name, sym, state);
535 push_stree(stack, stree);
536
537 return sm;
538 }
539
540 /*
541 * get_sm_state_stack() gets the state for the top slist on the stack.
542 */
543 struct sm_state *get_sm_state_stree_stack(struct stree_stack *stack,
544 int owner, const char *name,
545 struct symbol *sym)
546 {
547 struct stree *stree;
548 struct sm_state *ret;
549
550 stree = pop_stree(&stack);
551 ret = get_sm_state_stree(stree, owner, name, sym);
552 push_stree(&stack, stree);
553 return ret;
554 }
555
556 struct smatch_state *get_state_stree_stack(struct stree_stack *stack,
557 int owner, const char *name,
558 struct symbol *sym)
559 {
560 struct sm_state *sm;
561
562 sm = get_sm_state_stree_stack(stack, owner, name, sym);
563 if (sm)
564 return sm->state;
565 return NULL;
566 }
567
568 static void match_states_stree(struct stree **one, struct stree **two)
569 {
570 struct smatch_state *tmp_state;
571 struct sm_state *sm;
572 struct state_list *add_to_one = NULL;
573 struct state_list *add_to_two = NULL;
574 AvlIter one_iter;
575 AvlIter two_iter;
576
577 avl_iter_begin(&one_iter, *one, FORWARD);
578 avl_iter_begin(&two_iter, *two, FORWARD);
579
580 for (;;) {
581 if (!one_iter.sm && !two_iter.sm)
582 break;
583 if (cmp_tracker(one_iter.sm, two_iter.sm) < 0) {
584 __set_fake_cur_stree_fast(*two);
585 tmp_state = __client_unmatched_state_function(one_iter.sm);
586 __pop_fake_cur_stree_fast();
587 sm = alloc_state_no_name(one_iter.sm->owner, one_iter.sm->name,
588 one_iter.sm->sym, tmp_state);
589 add_ptr_list(&add_to_two, sm);
590 avl_iter_next(&one_iter);
591 } else if (cmp_tracker(one_iter.sm, two_iter.sm) == 0) {
592 avl_iter_next(&one_iter);
593 avl_iter_next(&two_iter);
594 } else {
595 __set_fake_cur_stree_fast(*one);
596 tmp_state = __client_unmatched_state_function(two_iter.sm);
597 __pop_fake_cur_stree_fast();
598 sm = alloc_state_no_name(two_iter.sm->owner, two_iter.sm->name,
599 two_iter.sm->sym, tmp_state);
600 add_ptr_list(&add_to_one, sm);
601 avl_iter_next(&two_iter);
602 }
603 }
604
605 FOR_EACH_PTR(add_to_one, sm) {
606 avl_insert(one, sm);
607 } END_FOR_EACH_PTR(sm);
608
609 FOR_EACH_PTR(add_to_two, sm) {
610 avl_insert(two, sm);
611 } END_FOR_EACH_PTR(sm);
612
613 free_slist(&add_to_one);
614 free_slist(&add_to_two);
615 }
616
617 static void clone_pool_havers_stree(struct stree **stree)
618 {
619 struct sm_state *sm, *tmp;
620 struct state_list *slist = NULL;
621
622 FOR_EACH_SM(*stree, sm) {
623 if (sm->pool) {
624 tmp = clone_sm(sm);
625 add_ptr_list(&slist, tmp);
626 }
627 } END_FOR_EACH_SM(sm);
628
629 FOR_EACH_PTR(slist, sm) {
630 avl_insert(stree, sm);
631 } END_FOR_EACH_PTR(sm);
632
633 free_slist(&slist);
634 }
635
636 int __stree_id;
637
638 /*
639 * merge_slist() is called whenever paths merge, such as after
640 * an if statement. It takes the two slists and creates one.
641 */
642 static void __merge_stree(struct stree **to, struct stree *stree, int add_pool)
643 {
644 struct stree *results = NULL;
645 struct stree *implied_one = NULL;
646 struct stree *implied_two = NULL;
647 AvlIter one_iter;
648 AvlIter two_iter;
649 struct sm_state *tmp_sm;
650
651 if (out_of_memory())
652 return;
653
654 /* merging a null and nonnull path gives you only the nonnull path */
655 if (!stree)
656 return;
657 if (*to == stree)
658 return;
659
660 if (!*to) {
661 *to = clone_stree(stree);
662 return;
663 }
664
665 implied_one = clone_stree(*to);
666 implied_two = clone_stree(stree);
667
668 match_states_stree(&implied_one, &implied_two);
669
670 if (add_pool) {
671 clone_pool_havers_stree(&implied_one);
672 clone_pool_havers_stree(&implied_two);
673
674 set_stree_id(&implied_one, ++__stree_id);
675 set_stree_id(&implied_two, ++__stree_id);
676 }
677
678 push_stree(&all_pools, implied_one);
679 push_stree(&all_pools, implied_two);
680
681 avl_iter_begin(&one_iter, implied_one, FORWARD);
682 avl_iter_begin(&two_iter, implied_two, FORWARD);
683
684 for (;;) {
685 if (!one_iter.sm && !two_iter.sm)
686 break;
687 if (cmp_tracker(one_iter.sm, two_iter.sm) < 0) {
688 sm_msg("error: Internal smatch error.");
689 avl_iter_next(&one_iter);
690 } else if (cmp_tracker(one_iter.sm, two_iter.sm) == 0) {
691 if (add_pool && one_iter.sm != two_iter.sm) {
692 one_iter.sm->pool = implied_one;
693 two_iter.sm->pool = implied_two;
694 }
695 tmp_sm = merge_sm_states(one_iter.sm, two_iter.sm);
696 avl_insert(&results, tmp_sm);
697 avl_iter_next(&one_iter);
698 avl_iter_next(&two_iter);
699 } else {
700 sm_msg("error: Internal smatch error.");
701 avl_iter_next(&two_iter);
702 }
703 }
704
705 free_stree(to);
706 *to = results;
707 }
708
709 void merge_stree(struct stree **to, struct stree *stree)
710 {
711 __merge_stree(to, stree, 1);
712 }
713
714 void merge_stree_no_pools(struct stree **to, struct stree *stree)
715 {
716 __merge_stree(to, stree, 0);
717 }
718
719 /*
720 * This is unfortunately a bit subtle... The problem is that if a
721 * state is set on one fake stree but not the other then we should
722 * look up the the original state and use that as the unset state.
723 * Fortunately, after you pop your fake stree then the cur_slist should
724 * reflect the original state.
725 */
726 void merge_fake_stree(struct stree **to, struct stree *stree)
727 {
728 struct stree *one = *to;
729 struct stree *two = stree;
730 struct sm_state *sm;
731 struct state_list *add_to_one = NULL;
732 struct state_list *add_to_two = NULL;
733 AvlIter one_iter;
734 AvlIter two_iter;
735
736 if (!stree)
737 return;
738 if (*to == stree)
739 return;
740 if (!*to) {
741 *to = clone_stree(stree);
742 return;
743 }
744
745 avl_iter_begin(&one_iter, one, FORWARD);
746 avl_iter_begin(&two_iter, two, FORWARD);
747
748 for (;;) {
749 if (!one_iter.sm && !two_iter.sm)
750 break;
751 if (cmp_tracker(one_iter.sm, two_iter.sm) < 0) {
752 sm = get_sm_state(one_iter.sm->owner, one_iter.sm->name,
753 one_iter.sm->sym);
754 if (sm)
755 add_ptr_list(&add_to_two, sm);
756 avl_iter_next(&one_iter);
757 } else if (cmp_tracker(one_iter.sm, two_iter.sm) == 0) {
758 avl_iter_next(&one_iter);
759 avl_iter_next(&two_iter);
760 } else {
761 sm = get_sm_state(two_iter.sm->owner, two_iter.sm->name,
762 two_iter.sm->sym);
763 if (sm)
764 add_ptr_list(&add_to_one, sm);
765 avl_iter_next(&two_iter);
766 }
767 }
768
769 FOR_EACH_PTR(add_to_one, sm) {
770 avl_insert(&one, sm);
771 } END_FOR_EACH_PTR(sm);
772
773 FOR_EACH_PTR(add_to_two, sm) {
774 avl_insert(&two, sm);
775 } END_FOR_EACH_PTR(sm);
776
777 free_slist(&add_to_one);
778 free_slist(&add_to_two);
779
780 __merge_stree(&one, two, 1);
781
782 *to = one;
783 }
784
785 /*
786 * filter_slist() removes any sm states "slist" holds in common with "filter"
787 */
788 void filter_stree(struct stree **stree, struct stree *filter)
789 {
790 struct stree *results = NULL;
791 AvlIter one_iter;
792 AvlIter two_iter;
793
794 avl_iter_begin(&one_iter, *stree, FORWARD);
795 avl_iter_begin(&two_iter, filter, FORWARD);
796
797 /* FIXME: This should probably be re-written with trees in mind */
798
799 for (;;) {
800 if (!one_iter.sm && !two_iter.sm)
801 break;
802 if (cmp_tracker(one_iter.sm, two_iter.sm) < 0) {
803 avl_insert(&results, one_iter.sm);
804 avl_iter_next(&one_iter);
805 } else if (cmp_tracker(one_iter.sm, two_iter.sm) == 0) {
806 if (one_iter.sm != two_iter.sm)
807 avl_insert(&results, one_iter.sm);
808 avl_iter_next(&one_iter);
809 avl_iter_next(&two_iter);
810 } else {
811 avl_iter_next(&two_iter);
812 }
813 }
814
815 free_stree(stree);
816 *stree = results;
817 }
818
819
820 /*
821 * and_slist_stack() pops the top two slists, overwriting the one with
822 * the other and pushing it back on the stack.
823 */
824 void and_stree_stack(struct stree_stack **stack)
825 {
826 struct sm_state *tmp;
827 struct stree *right_stree = pop_stree(stack);
828
829 FOR_EACH_SM(right_stree, tmp) {
830 overwrite_sm_state_stree_stack(stack, tmp);
831 } END_FOR_EACH_SM(tmp);
832 free_stree(&right_stree);
833 }
834
835 /*
836 * or_slist_stack() is for if we have: if (foo || bar) { foo->baz;
837 * It pops the two slists from the top of the stack and merges them
838 * together in a way that preserves the things they have in common
839 * but creates a merged state for most of the rest.
840 * You could have code that had: if (foo || foo) { foo->baz;
841 * It's this function which ensures smatch does the right thing.
842 */
843 void or_stree_stack(struct stree_stack **pre_conds,
844 struct stree *cur_stree,
845 struct stree_stack **stack)
846 {
847 struct stree *new;
848 struct stree *old;
849 struct stree *pre_stree;
850 struct stree *res;
851 struct stree *tmp_stree;
852
853 new = pop_stree(stack);
854 old = pop_stree(stack);
855
856 pre_stree = pop_stree(pre_conds);
857 push_stree(pre_conds, clone_stree(pre_stree));
858
859 res = clone_stree(pre_stree);
860 overwrite_stree(old, &res);
861
862 tmp_stree = clone_stree(cur_stree);
863 overwrite_stree(new, &tmp_stree);
864
865 merge_stree(&res, tmp_stree);
866 filter_stree(&res, pre_stree);
867
868 push_stree(stack, res);
869 free_stree(&tmp_stree);
870 free_stree(&pre_stree);
871 free_stree(&new);
872 free_stree(&old);
873 }
874
875 /*
876 * get_named_stree() is only used for gotos.
877 */
878 struct stree **get_named_stree(struct named_stree_stack *stack,
879 const char *name)
880 {
881 struct named_stree *tmp;
882
883 FOR_EACH_PTR(stack, tmp) {
884 if (!strcmp(tmp->name, name))
885 return &tmp->stree;
886 } END_FOR_EACH_PTR(tmp);
887 return NULL;
888 }
889
890 /* FIXME: These parameters are in a different order from expected */
891 void overwrite_stree(struct stree *from, struct stree **to)
892 {
893 struct sm_state *tmp;
894
895 FOR_EACH_SM(from, tmp) {
896 overwrite_sm_state_stree(to, tmp);
897 } END_FOR_EACH_SM(tmp);
898 }
899
Static analysis for C