2 * Copyright (C) 2008 Dan Carpenter.
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.
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.
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
19 * Imagine we have this code:
26 * if (foo == 99) // <-- point #2
27 * bar->baz; // <-- point #3
30 * At point #3 bar is non null and can be dereferenced.
32 * It's smatch_implied.c which sets bar to non null at point #2.
34 * At point #1 merge_slist() stores the list of states from both
35 * the true and false paths. On the true path foo == 99 and on
36 * the false path foo == 1. merge_slist() sets their pool
37 * list to show the other states which were there when foo == 99.
39 * When it comes to the if (foo == 99) the smatch implied hook
40 * looks for all the pools where foo was not 99. It makes a list
43 * Then for bar (and all the other states) it says, ok bar is a
44 * merged state that came from these previous states. We'll
45 * chop out all the states where it came from a pool where
46 * foo != 99 and merge it all back together.
48 * That is the implied state of bar.
50 * merge_slist() sets up ->pool. An sm_state only has one ->pool and
51 * that is the pool where it was first set. The my pool gets set when
52 * code paths merge. States that have been set since the last merge do
54 * merge_sm_state() sets ->left and ->right. (These are the states which were
55 * merged to form the current state.)
56 * a pool: a pool is an slist that has been merged with another slist.
62 #include "smatch_slist.h"
63 #include "smatch_extra.h"
65 char *implied_debug_msg
;
66 #define DIMPLIED(msg...) do { if (option_debug_implied || option_debug) printf(msg); } while (0)
68 int option_debug_implied
= 0;
72 * It messes things up to free range list allocations. This helper fuction
73 * lets us reuse memory instead of doing new allocations.
75 static struct range_list
*tmp_range_list(struct symbol
*type
, long long num
)
77 static struct range_list
*my_list
= NULL
;
78 static struct data_range
*my_range
;
80 __free_ptr_list((struct ptr_list
**)&my_list
);
81 my_range
= alloc_range(ll_to_sval(num
), ll_to_sval(num
));
82 add_ptr_list(&my_list
, my_range
);
86 static void print_debug_tf(struct sm_state
*sm
, int istrue
, int isfalse
)
88 if (!option_debug_implied
&& !option_debug
)
91 if (istrue
&& isfalse
) {
92 printf("%s: %d: does not exist.\n", show_sm(sm
), sm
->line
);
94 printf("'%s = %s' from %d is true. %s[stree %d]\n", sm
->name
, show_state(sm
->state
),
95 sm
->line
, sm
->merged
? "[merged]" : "[leaf]",
96 get_stree_id(sm
->pool
));
98 printf("'%s = %s' from %d is false. %s[stree %d]\n", sm
->name
, show_state(sm
->state
),
100 sm
->merged
? "[merged]" : "[leaf]",
101 get_stree_id(sm
->pool
));
103 printf("'%s = %s' from %d could be true or false. %s[stree %d]\n", sm
->name
,
104 show_state(sm
->state
), sm
->line
,
105 sm
->merged
? "[merged]" : "[leaf]",
106 get_stree_id(sm
->pool
));
110 static int create_fake_history(struct sm_state
*sm
, int comparison
, struct range_list
*rl
)
112 struct range_list
*orig_rl
;
113 struct range_list
*true_rl
, *false_rl
;
114 struct stree
*true_stree
, *false_stree
;
115 struct sm_state
*true_sm
, *false_sm
;
118 if (is_merged(sm
) || sm
->left
|| sm
->right
)
120 if (!rl_to_sval(rl
, &sval
))
122 if (!estate_rl(sm
->state
))
125 orig_rl
= cast_rl(rl_type(rl
), estate_rl(sm
->state
));
126 split_comparison_rl(orig_rl
, comparison
, rl
, &true_rl
, &false_rl
, NULL
, NULL
);
128 true_rl
= rl_truncate_cast(estate_type(sm
->state
), true_rl
);
129 false_rl
= rl_truncate_cast(estate_type(sm
->state
), false_rl
);
130 if (is_whole_rl(true_rl
) || is_whole_rl(false_rl
) ||
131 !true_rl
|| !false_rl
||
132 rl_equiv(orig_rl
, true_rl
) || rl_equiv(orig_rl
, false_rl
) ||
133 rl_equiv(estate_rl(sm
->state
), true_rl
) || rl_equiv(estate_rl(sm
->state
), false_rl
))
136 if (rl_intersection(true_rl
, false_rl
)) {
137 sm_msg("internal error parsing (%s (%s) %s %s)",
138 sm
->name
, sm
->state
->name
, show_special(comparison
), show_rl(rl
));
139 sm_msg("true_rl = %s false_rl = %s intersection = %s",
140 show_rl(true_rl
), show_rl(false_rl
), show_rl(rl_intersection(true_rl
, false_rl
)));
145 sm_msg("fake_history: %s vs %s. %s %s %s. --> T: %s F: %s",
146 sm
->name
, show_rl(rl
), sm
->state
->name
, show_special(comparison
), show_rl(rl
),
147 show_rl(true_rl
), show_rl(false_rl
));
149 true_sm
= clone_sm(sm
);
150 false_sm
= clone_sm(sm
);
152 true_sm
->state
= alloc_estate_rl(cast_rl(estate_type(sm
->state
), true_rl
));
153 free_slist(&true_sm
->possible
);
154 add_possible_sm(true_sm
, true_sm
);
155 false_sm
->state
= alloc_estate_rl(cast_rl(estate_type(sm
->state
), false_rl
));
156 free_slist(&false_sm
->possible
);
157 add_possible_sm(false_sm
, false_sm
);
159 true_stree
= clone_stree(sm
->pool
);
160 false_stree
= clone_stree(sm
->pool
);
162 overwrite_sm_state_stree(&true_stree
, true_sm
);
163 overwrite_sm_state_stree(&false_stree
, false_sm
);
165 true_sm
->pool
= true_stree
;
166 false_sm
->pool
= false_stree
;
170 sm
->right
= false_sm
;
176 * add_pool() adds a slist to *pools. If the slist has already been
177 * added earlier then it doesn't get added a second time.
179 void add_pool(struct state_list
**pools
, struct sm_state
*new)
181 struct sm_state
*tmp
;
183 FOR_EACH_PTR(*pools
, tmp
) {
184 if (tmp
->pool
< new->pool
)
186 else if (tmp
->pool
== new->pool
) {
189 INSERT_CURRENT(new, tmp
);
192 } END_FOR_EACH_PTR(tmp
);
193 add_ptr_list(pools
, new);
196 static int pool_in_pools(struct stree
*pool
,
197 const struct state_list
*slist
)
199 struct sm_state
*tmp
;
201 FOR_EACH_PTR(slist
, tmp
) {
204 if (tmp
->pool
== pool
)
206 } END_FOR_EACH_PTR(tmp
);
210 static int remove_pool(struct state_list
**pools
, struct stree
*remove
)
212 struct sm_state
*tmp
;
215 FOR_EACH_PTR(*pools
, tmp
) {
216 if (tmp
->pool
== remove
) {
217 DELETE_CURRENT_PTR(tmp
);
220 } END_FOR_EACH_PTR(tmp
);
226 * If 'foo' == 99 add it that pool to the true pools. If it's false, add it to
227 * the false pools. If we're not sure, then we don't add it to either.
229 static void do_compare(struct sm_state
*sm
, int comparison
, struct range_list
*rl
,
230 struct state_list
**true_stack
,
231 struct state_list
**maybe_stack
,
232 struct state_list
**false_stack
,
233 int *mixed
, struct sm_state
*gate_sm
)
237 struct range_list
*var_rl
;
242 var_rl
= cast_rl(rl_type(rl
), estate_rl(sm
->state
));
244 istrue
= !possibly_false_rl(var_rl
, comparison
, rl
);
245 isfalse
= !possibly_true_rl(var_rl
, comparison
, rl
);
247 print_debug_tf(sm
, istrue
, isfalse
);
249 /* give up if we have borrowed implications (smatch_equiv.c) */
250 if (sm
->sym
!= gate_sm
->sym
||
251 strcmp(sm
->name
, gate_sm
->name
) != 0) {
256 if (mixed
&& !*mixed
&& !is_merged(sm
) && !istrue
&& !isfalse
) {
257 if (!create_fake_history(sm
, comparison
, rl
)) {
264 add_pool(true_stack
, sm
);
266 add_pool(false_stack
, sm
);
268 add_pool(maybe_stack
, sm
);
272 static int is_checked(struct state_list
*checked
, struct sm_state
*sm
)
274 struct sm_state
*tmp
;
276 FOR_EACH_PTR(checked
, tmp
) {
279 } END_FOR_EACH_PTR(tmp
);
285 * Example code: if (foo == 99) {
287 * Say 'foo' is a merged state that has many possible values. It is the combination
288 * of merges. separate_pools() iterates through the pools recursively and calls
289 * do_compare() for each time 'foo' was set.
291 static void __separate_pools(struct sm_state
*sm
, int comparison
, struct range_list
*rl
,
292 struct state_list
**true_stack
,
293 struct state_list
**maybe_stack
,
294 struct state_list
**false_stack
,
295 struct state_list
**checked
, int *mixed
, struct sm_state
*gate_sm
)
297 int free_checked
= 0;
298 struct state_list
*checked_states
= NULL
;
304 * If it looks like this is going to take too long as-is, then don't
305 * create even more fake history.
307 if (mixed
&& sm
->nr_children
> 100)
311 Sometimes the implications are just too big to deal with
312 so we bail. Theoretically, bailing out here can cause more false
313 positives but won't hide actual bugs.
315 if (sm
->nr_children
> 4000) {
316 if (option_debug
|| option_debug_implied
) {
317 static char buf
[1028];
318 snprintf(buf
, sizeof(buf
), "debug: %s: nr_children over 4000 (%d). (%s %s)",
319 __func__
, sm
->nr_children
, sm
->name
, show_state(sm
->state
));
320 implied_debug_msg
= buf
;
325 if (checked
== NULL
) {
326 checked
= &checked_states
;
329 if (is_checked(*checked
, sm
))
331 add_ptr_list(checked
, sm
);
333 do_compare(sm
, comparison
, rl
, true_stack
, maybe_stack
, false_stack
, mixed
, gate_sm
);
335 __separate_pools(sm
->left
, comparison
, rl
, true_stack
, maybe_stack
, false_stack
, checked
, mixed
, gate_sm
);
336 __separate_pools(sm
->right
, comparison
, rl
, true_stack
, maybe_stack
, false_stack
, checked
, mixed
, gate_sm
);
341 static void separate_pools(struct sm_state
*sm
, int comparison
, struct range_list
*rl
,
342 struct state_list
**true_stack
,
343 struct state_list
**false_stack
,
344 struct state_list
**checked
, int *mixed
)
346 struct state_list
*maybe_stack
= NULL
;
347 struct sm_state
*tmp
;
349 __separate_pools(sm
, comparison
, rl
, true_stack
, &maybe_stack
, false_stack
, checked
, mixed
, sm
);
354 FOR_EACH_PTR(*true_stack
, sm
) {
355 sm_msg("TRUE %s [stree %d]", show_sm(sm
), get_stree_id(sm
->pool
));
356 } END_FOR_EACH_PTR(sm
);
358 FOR_EACH_PTR(maybe_stack
, sm
) {
359 sm_msg("MAYBE %s [stree %d]", show_sm(sm
), get_stree_id(sm
->pool
));
360 } END_FOR_EACH_PTR(sm
);
362 FOR_EACH_PTR(*false_stack
, sm
) {
363 sm_msg("FALSE %s [stree %d]", show_sm(sm
), get_stree_id(sm
->pool
));
364 } END_FOR_EACH_PTR(sm
);
366 /* if it's a maybe then remove it */
367 FOR_EACH_PTR(maybe_stack
, tmp
) {
368 remove_pool(false_stack
, tmp
->pool
);
369 remove_pool(true_stack
, tmp
->pool
);
370 } END_FOR_EACH_PTR(tmp
);
372 /* if it's both true and false remove it from both */
373 FOR_EACH_PTR(*true_stack
, tmp
) {
374 if (remove_pool(false_stack
, tmp
->pool
))
375 DELETE_CURRENT_PTR(tmp
);
376 } END_FOR_EACH_PTR(tmp
);
379 static int sm_in_keep_leafs(struct sm_state
*sm
, const struct state_list
*keep_gates
)
381 struct sm_state
*tmp
, *old
;
383 FOR_EACH_PTR(keep_gates
, tmp
) {
386 old
= get_sm_state_stree(tmp
->pool
, sm
->owner
, sm
->name
, sm
->sym
);
391 } END_FOR_EACH_PTR(tmp
);
396 * NOTE: If a state is in both the keep stack and the remove stack then it is
397 * removed. If that happens it means you have a bug. Only add states which are
398 * definitely true or definitely false. If you have a leaf state that could be
399 * both true and false, then create a fake split history where one side is true
400 * and one side is false. Otherwise, if you can't do that, then don't add it to
401 * either list, and it will be treated as true.
403 struct sm_state
*filter_pools(struct sm_state
*sm
,
404 const struct state_list
*remove_stack
,
405 const struct state_list
*keep_stack
,
408 struct sm_state
*ret
= NULL
;
409 struct sm_state
*left
;
410 struct sm_state
*right
;
416 if (sm
->nr_children
> 4000) {
417 if (option_debug
|| option_debug_implied
) {
418 static char buf
[1028];
419 snprintf(buf
, sizeof(buf
), "debug: %s: nr_children over 4000 (%d). (%s %s)",
420 __func__
, sm
->nr_children
, sm
->name
, show_state(sm
->state
));
421 implied_debug_msg
= buf
;
426 if (pool_in_pools(sm
->pool
, remove_stack
)) {
427 DIMPLIED("removed [stree %d] %s from %d\n", get_stree_id(sm
->pool
), show_sm(sm
), sm
->line
);
432 if (!is_merged(sm
) || pool_in_pools(sm
->pool
, keep_stack
) || sm_in_keep_leafs(sm
, keep_stack
)) {
433 DIMPLIED("kept [stree %d] %s from %d. %s. %s. %s.\n", get_stree_id(sm
->pool
), show_sm(sm
), sm
->line
,
434 is_merged(sm
) ? "merged" : "not merged",
435 pool_in_pools(sm
->pool
, keep_stack
) ? "not in keep pools" : "in keep pools",
436 sm_in_keep_leafs(sm
, keep_stack
) ? "reachable keep leaf" : "no keep leaf");
440 DIMPLIED("checking [stree %d] %s from %d (%d) left = %s [stree %d] right = %s [stree %d]\n",
441 get_stree_id(sm
->pool
),
442 show_sm(sm
), sm
->line
, sm
->nr_children
,
443 sm
->left
? sm
->left
->state
->name
: "<none>", sm
->left
? get_stree_id(sm
->left
->pool
) : -1,
444 sm
->right
? sm
->right
->state
->name
: "<none>", sm
->right
? get_stree_id(sm
->right
->pool
) : -1);
445 left
= filter_pools(sm
->left
, remove_stack
, keep_stack
, &removed
);
446 right
= filter_pools(sm
->right
, remove_stack
, keep_stack
, &removed
);
448 DIMPLIED("kept [stree %d] %s from %d\n", get_stree_id(sm
->pool
), show_sm(sm
), sm
->line
);
452 if (!left
&& !right
) {
453 DIMPLIED("removed [stree %d] %s from %d <none>\n", get_stree_id(sm
->pool
), show_sm(sm
), sm
->line
);
458 ret
= clone_sm(right
);
463 ret
= clone_sm(left
);
468 if (left
->sym
!= sm
->sym
|| strcmp(left
->name
, sm
->name
) != 0) {
469 left
= clone_sm(left
);
471 left
->name
= sm
->name
;
473 if (right
->sym
!= sm
->sym
|| strcmp(right
->name
, sm
->name
) != 0) {
474 right
= clone_sm(right
);
475 right
->sym
= sm
->sym
;
476 right
->name
= sm
->name
;
478 ret
= merge_sm_states(left
, right
);
481 ret
->pool
= sm
->pool
;
483 DIMPLIED("partial %s => ", show_sm(sm
));
484 DIMPLIED("%s from %d [stree %d]\n", show_sm(ret
), sm
->line
, get_stree_id(sm
->pool
));
488 static struct stree
*filter_stack(struct sm_state
*gate_sm
,
489 struct stree
*pre_stree
,
490 const struct state_list
*remove_stack
,
491 const struct state_list
*keep_stack
)
493 struct stree
*ret
= NULL
;
494 struct sm_state
*tmp
;
495 struct sm_state
*filtered_sm
;
501 FOR_EACH_SM(pre_stree
, tmp
) {
503 sm_msg("%s: %s", __func__
, show_sm(tmp
));
506 if (sm_in_keep_leafs(tmp
, keep_stack
))
509 filtered_sm
= filter_pools(tmp
, remove_stack
, keep_stack
, &modified
);
510 if (!filtered_sm
|| !modified
)
512 /* the assignments here are for borrowed implications */
513 filtered_sm
->name
= tmp
->name
;
514 filtered_sm
->sym
= tmp
->sym
;
515 avl_insert(&ret
, filtered_sm
);
519 } END_FOR_EACH_SM(tmp
);
523 static void separate_and_filter(struct sm_state
*sm
, int comparison
, struct range_list
*rl
,
524 struct stree
*pre_stree
,
525 struct stree
**true_states
,
526 struct stree
**false_states
,
529 struct state_list
*true_stack
= NULL
;
530 struct state_list
*false_stack
= NULL
;
531 struct timeval time_before
;
532 struct timeval time_after
;
534 gettimeofday(&time_before
, NULL
);
536 if (!is_merged(sm
)) {
537 DIMPLIED("%d '%s' is not merged.\n", get_lineno(), sm
->name
);
541 if (option_debug_implied
|| option_debug
) {
542 sm_msg("checking implications: (%s %s %s)",
543 sm
->name
, show_special(comparison
), show_rl(rl
));
546 separate_pools(sm
, comparison
, rl
, &true_stack
, &false_stack
, NULL
, mixed
);
548 DIMPLIED("filtering true stack.\n");
549 *true_states
= filter_stack(sm
, pre_stree
, false_stack
, true_stack
);
550 DIMPLIED("filtering false stack.\n");
551 *false_states
= filter_stack(sm
, pre_stree
, true_stack
, false_stack
);
552 free_slist(&true_stack
);
553 free_slist(&false_stack
);
554 if (option_debug_implied
|| option_debug
) {
555 printf("These are the implied states for the true path: (%s %s %s)\n",
556 sm
->name
, show_special(comparison
), show_rl(rl
));
557 __print_stree(*true_states
);
558 printf("These are the implied states for the false path: (%s %s %s)\n",
559 sm
->name
, show_special(comparison
), show_rl(rl
));
560 __print_stree(*false_states
);
563 gettimeofday(&time_after
, NULL
);
564 if (time_after
.tv_sec
- time_before
.tv_sec
> 20) {
565 sm
->nr_children
= 4000;
566 sm_msg("Function too hairy. Giving up after 20 seconds.");
570 static struct expression
*get_last_expr(struct statement
*stmt
)
572 struct statement
*last
;
574 last
= last_ptr_list((struct ptr_list
*)stmt
->stmts
);
575 if (last
->type
== STMT_EXPRESSION
)
576 return last
->expression
;
578 if (last
->type
== STMT_LABEL
) {
579 if (last
->label_statement
&&
580 last
->label_statement
->type
== STMT_EXPRESSION
)
581 return last
->label_statement
->expression
;
587 static struct expression
*get_left_most_expr(struct expression
*expr
)
589 struct statement
*compound
;
591 compound
= get_expression_statement(expr
);
593 return get_last_expr(compound
);
595 expr
= strip_parens(expr
);
596 if (expr
->type
== EXPR_ASSIGNMENT
)
597 return get_left_most_expr(expr
->left
);
601 static int is_merged_expr(struct expression
*expr
)
606 if (get_value(expr
, &dummy
))
608 sm
= get_sm_state_expr(SMATCH_EXTRA
, expr
);
616 static void delete_gate_sm_equiv(struct stree
**stree
, const char *name
, struct symbol
*sym
)
618 struct smatch_state
*state
;
619 struct relation
*rel
;
621 state
= get_state(SMATCH_EXTRA
, name
, sym
);
624 FOR_EACH_PTR(estate_related(state
), rel
) {
625 delete_state_stree(stree
, SMATCH_EXTRA
, rel
->name
, rel
->sym
);
626 } END_FOR_EACH_PTR(rel
);
629 static void delete_gate_sm(struct stree
**stree
, const char *name
, struct symbol
*sym
)
631 delete_state_stree(stree
, SMATCH_EXTRA
, name
, sym
);
634 static int handle_comparison(struct expression
*expr
,
635 struct stree
**implied_true
,
636 struct stree
**implied_false
)
638 struct sm_state
*sm
= NULL
;
639 struct range_list
*rl
= NULL
;
640 struct expression
*left
;
641 struct expression
*right
;
643 int comparison
= expr
->op
;
646 left
= get_left_most_expr(expr
->left
);
647 right
= get_left_most_expr(expr
->right
);
649 if (is_merged_expr(left
)) {
650 sm
= get_sm_state_expr(SMATCH_EXTRA
, left
);
651 get_implied_rl(right
, &rl
);
652 } else if (is_merged_expr(right
)) {
653 sm
= get_sm_state_expr(SMATCH_EXTRA
, right
);
654 get_implied_rl(left
, &rl
);
655 comparison
= flip_comparison(comparison
);
663 type
= get_type(expr
);
666 if (type_positive_bits(rl_type(rl
)) > type_positive_bits(type
))
668 if (type_positive_bits(type
) < 31)
670 rl
= cast_rl(type
, rl
);
672 separate_and_filter(sm
, comparison
, rl
, __get_cur_stree(), implied_true
, implied_false
, &mixed
);
675 delete_gate_sm_equiv(implied_true
, sm
->name
, sm
->sym
);
676 delete_gate_sm_equiv(implied_false
, sm
->name
, sm
->sym
);
678 delete_gate_sm(implied_true
, sm
->name
, sm
->sym
);
679 delete_gate_sm(implied_false
, sm
->name
, sm
->sym
);
685 static int handle_zero_comparison(struct expression
*expr
,
686 struct stree
**implied_true
,
687 struct stree
**implied_false
)
695 if (expr
->type
== EXPR_POSTOP
)
696 expr
= strip_expr(expr
->unop
);
698 if (expr
->type
== EXPR_ASSIGNMENT
) {
699 /* most of the time ->pools will be empty here because we
700 just set the state, but if have assigned a conditional
701 function there are implications. */
705 name
= expr_to_var_sym(expr
, &sym
);
708 sm
= get_sm_state(SMATCH_EXTRA
, name
, sym
);
712 separate_and_filter(sm
, SPECIAL_NOTEQUAL
, tmp_range_list(estate_type(sm
->state
), 0), __get_cur_stree(), implied_true
, implied_false
, &mixed
);
713 delete_gate_sm_equiv(implied_true
, sm
->name
, sm
->sym
);
714 delete_gate_sm_equiv(implied_false
, sm
->name
, sm
->sym
);
716 delete_gate_sm(implied_true
, sm
->name
, sm
->sym
);
717 delete_gate_sm(implied_false
, sm
->name
, sm
->sym
);
726 static int handled_by_comparison_hook(struct expression
*expr
,
727 struct stree
**implied_true
,
728 struct stree
**implied_false
)
730 struct state_list
*true_stack
= NULL
;
731 struct state_list
*false_stack
= NULL
;
732 struct stree
*pre_stree
;
735 sm
= comparison_implication_hook(expr
, &true_stack
, &false_stack
);
739 pre_stree
= clone_stree(__get_cur_stree());
741 *implied_true
= filter_stack(sm
, pre_stree
, false_stack
, true_stack
);
742 *implied_false
= filter_stack(sm
, pre_stree
, true_stack
, false_stack
);
744 free_stree(&pre_stree
);
745 free_slist(&true_stack
);
746 free_slist(&false_stack
);
751 static int handled_by_extra_states(struct expression
*expr
,
752 struct stree
**implied_true
,
753 struct stree
**implied_false
)
755 if (expr
->type
== EXPR_COMPARE
)
756 return handle_comparison(expr
, implied_true
, implied_false
);
758 return handle_zero_comparison(expr
, implied_true
, implied_false
);
761 static int handled_by_stored_conditions(struct expression
*expr
,
762 struct stree
**implied_true
,
763 struct stree
**implied_false
)
765 struct state_list
*true_stack
= NULL
;
766 struct state_list
*false_stack
= NULL
;
767 struct stree
*pre_stree
;
770 sm
= stored_condition_implication_hook(expr
, &true_stack
, &false_stack
);
774 pre_stree
= clone_stree(__get_cur_stree());
776 *implied_true
= filter_stack(sm
, pre_stree
, false_stack
, true_stack
);
777 *implied_false
= filter_stack(sm
, pre_stree
, true_stack
, false_stack
);
779 free_stree(&pre_stree
);
780 free_slist(&true_stack
);
781 free_slist(&false_stack
);
786 static int found_implications
;
787 static struct stree
*saved_implied_true
;
788 static struct stree
*saved_implied_false
;
789 static struct stree
*extra_saved_implied_true
;
790 static struct stree
*extra_saved_implied_false
;
792 static void get_tf_states(struct expression
*expr
,
793 struct stree
**implied_true
,
794 struct stree
**implied_false
)
796 if (handled_by_comparison_hook(expr
, implied_true
, implied_false
))
799 if (handled_by_extra_states(expr
, implied_true
, implied_false
)) {
800 /* We process these later. */
801 extra_saved_implied_true
= *implied_true
;
802 extra_saved_implied_false
= *implied_false
;
803 *implied_true
= NULL
;
804 *implied_false
= NULL
;
808 if (handled_by_stored_conditions(expr
, implied_true
, implied_false
))
813 found_implications
= 1;
816 static void save_implications_hook(struct expression
*expr
)
818 get_tf_states(expr
, &saved_implied_true
, &saved_implied_false
);
821 static void set_implied_states(struct expression
*expr
)
825 FOR_EACH_SM(saved_implied_true
, sm
) {
826 __set_true_false_sm(sm
, NULL
);
827 } END_FOR_EACH_SM(sm
);
828 free_stree(&saved_implied_true
);
830 FOR_EACH_SM(saved_implied_false
, sm
) {
831 __set_true_false_sm(NULL
, sm
);
832 } END_FOR_EACH_SM(sm
);
833 free_stree(&saved_implied_false
);
836 static void set_extra_implied_states(struct expression
*expr
)
838 saved_implied_true
= extra_saved_implied_true
;
839 saved_implied_false
= extra_saved_implied_false
;
840 extra_saved_implied_true
= NULL
;
841 extra_saved_implied_false
= NULL
;
842 set_implied_states(NULL
);
845 void param_limit_implications(struct expression
*expr
, int param
, char *key
, char *value
)
847 struct expression
*arg
;
848 struct symbol
*compare_type
;
852 struct sm_state
*tmp
;
853 struct stree
*implied_true
= NULL
;
854 struct stree
*implied_false
= NULL
;
855 struct range_list
*orig
, *limit
;
857 while (expr
->type
== EXPR_ASSIGNMENT
)
858 expr
= strip_expr(expr
->right
);
859 if (expr
->type
!= EXPR_CALL
)
862 arg
= get_argument_from_call_expr(expr
->args
, param
);
866 name
= get_variable_from_key(arg
, key
, &sym
);
870 sm
= get_sm_state(SMATCH_EXTRA
, name
, sym
);
871 if (!sm
|| !sm
->merged
)
874 if (strcmp(key
, "$") == 0)
875 compare_type
= get_arg_type(expr
->fn
, param
);
877 compare_type
= get_member_type_from_key(arg
, key
);
879 orig
= estate_rl(sm
->state
);
880 orig
= cast_rl(compare_type
, orig
);
882 call_results_to_rl(expr
, compare_type
, value
, &limit
);
884 separate_and_filter(sm
, SPECIAL_EQUAL
, limit
, __get_cur_stree(), &implied_true
, &implied_false
, NULL
);
886 FOR_EACH_SM(implied_true
, tmp
) {
887 __set_sm_fake_stree(tmp
);
888 } END_FOR_EACH_SM(tmp
);
890 free_stree(&implied_true
);
891 free_stree(&implied_false
);
896 struct stree
*__implied_case_stree(struct expression
*switch_expr
,
897 struct range_list
*rl
,
898 struct range_list_stack
**remaining_cases
,
899 struct stree
**raw_stree
)
903 struct var_sym_list
*vsl
;
905 struct stree
*true_states
= NULL
;
906 struct stree
*false_states
= NULL
;
907 struct stree
*extra_states
;
908 struct stree
*ret
= clone_stree(*raw_stree
);
910 name
= expr_to_chunk_sym_vsl(switch_expr
, &sym
, &vsl
);
913 filter_top_rl(remaining_cases
, rl
);
915 rl
= clone_rl(top_rl(*remaining_cases
));
918 sm
= get_sm_state_stree(*raw_stree
, SMATCH_EXTRA
, name
, sym
);
920 separate_and_filter(sm
, SPECIAL_EQUAL
, rl
, *raw_stree
, &true_states
, &false_states
, NULL
);
923 __push_fake_cur_stree();
926 set_extra_nomod_vsl(name
, sym
, vsl
, alloc_estate_rl(rl
));
927 __pass_case_to_client(switch_expr
, rl
);
928 extra_states
= __pop_fake_cur_stree();
929 overwrite_stree(extra_states
, &true_states
);
930 overwrite_stree(true_states
, &ret
);
931 free_stree(&extra_states
);
932 free_stree(&true_states
);
933 free_stree(&false_states
);
939 static void match_end_func(struct symbol
*sym
)
943 implied_debug_msg
= NULL
;
946 static void get_tf_stacks_from_pool(struct sm_state
*gate_sm
,
947 struct sm_state
*pool_sm
,
948 struct state_list
**true_stack
,
949 struct state_list
**false_stack
)
951 struct sm_state
*tmp
;
952 int possibly_true
= 0;
957 if (strcmp(gate_sm
->state
->name
, pool_sm
->state
->name
) == 0) {
958 add_ptr_list(true_stack
, pool_sm
);
962 FOR_EACH_PTR(gate_sm
->possible
, tmp
) {
963 if (strcmp(tmp
->state
->name
, pool_sm
->state
->name
) == 0) {
967 } END_FOR_EACH_PTR(tmp
);
969 if (!possibly_true
) {
970 add_ptr_list(false_stack
, gate_sm
);
974 get_tf_stacks_from_pool(gate_sm
->left
, pool_sm
, true_stack
, false_stack
);
975 get_tf_stacks_from_pool(gate_sm
->right
, pool_sm
, true_stack
, false_stack
);
979 * The situation is we have a SMATCH_EXTRA state and we want to break it into
980 * each of the ->possible states and find the implications of each. The caller
981 * has to use __push_fake_cur_stree() to preserve the correct states so they
982 * can be restored later.
984 void overwrite_states_using_pool(struct sm_state
*gate_sm
, struct sm_state
*pool_sm
)
986 struct state_list
*true_stack
= NULL
;
987 struct state_list
*false_stack
= NULL
;
988 struct stree
*pre_stree
;
989 struct stree
*implied_true
;
990 struct sm_state
*tmp
;
995 get_tf_stacks_from_pool(gate_sm
, pool_sm
, &true_stack
, &false_stack
);
997 pre_stree
= clone_stree(__get_cur_stree());
999 implied_true
= filter_stack(gate_sm
, pre_stree
, false_stack
, true_stack
);
1001 free_stree(&pre_stree
);
1002 free_slist(&true_stack
);
1003 free_slist(&false_stack
);
1005 FOR_EACH_SM(implied_true
, tmp
) {
1006 set_state(tmp
->owner
, tmp
->name
, tmp
->sym
, tmp
->state
);
1007 } END_FOR_EACH_SM(tmp
);
1009 free_stree(&implied_true
);
1012 int assume(struct expression
*expr
)
1014 int orig_final_pass
= final_pass
;
1017 __push_fake_cur_stree();
1018 found_implications
= 0;
1019 __split_whole_condition(expr
);
1020 final_pass
= orig_final_pass
;
1022 if (!found_implications
) {
1023 __discard_false_states();
1024 __free_fake_cur_stree();
1031 void end_assume(void)
1033 __discard_false_states();
1034 __free_fake_cur_stree();
1037 void __extra_match_condition(struct expression
*expr
);
1038 void __comparison_match_condition(struct expression
*expr
);
1039 void __stored_condition(struct expression
*expr
);
1040 void register_implications(int id
)
1042 add_hook(&save_implications_hook
, CONDITION_HOOK
);
1043 add_hook(&set_implied_states
, CONDITION_HOOK
);
1044 add_hook(&__extra_match_condition
, CONDITION_HOOK
);
1045 add_hook(&set_extra_implied_states
, CONDITION_HOOK
);
1046 add_hook(&__comparison_match_condition
, CONDITION_HOOK
);
1047 add_hook(&__stored_condition
, CONDITION_HOOK
);
1048 add_hook(&match_end_func
, END_FUNC_HOOK
);