1 /* Strict aliasing checks.
2 Copyright (C) 2007 Free Software Foundation, Inc.
3 Contributed by Silvius Rus <rus@google.com>.
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 3, or (at your option)
12 GCC is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
17 You should have received a copy of the GNU General Public License
18 along with GCC; see the file COPYING3. If not see
19 <http://www.gnu.org/licenses/>. */
23 #include "coretypes.h"
25 #include "alloc-pool.h"
27 #include "tree-dump.h"
28 #include "tree-flow.h"
33 #include "diagnostic.h"
34 #include "tree-ssa-structalias.h"
35 #include "tree-ssa-propagate.h"
36 #include "langhooks.h"
38 /* Module to issue a warning when a program uses data through a type
39 different from the type through which the data were defined.
40 Implements -Wstrict-aliasing and -Wstrict-aliasing=n.
41 These checks only happen when -fstrict-aliasing is present.
43 The idea is to use the compiler to identify occurrences of nonstandard
44 aliasing, and report them to programmers. Programs free of such aliasing
45 are more portable, maintainable, and can usually be optimized better.
47 The current, as of April 2007, C and C++ language standards forbid
48 accessing data of type A through an lvalue of another type B,
49 with certain exceptions. See the C Standard ISO/IEC 9899:1999,
50 section 6.5, paragraph 7, and the C++ Standard ISO/IEC 14882:1998,
51 section 3.10, paragraph 15.
53 Example 1:*a is used as int but was defined as a float, *b.
55 float* b = reinterpret_cast<float*> (a);
59 Unfortunately, the problem is in general undecidable if we take into
60 account arithmetic expressions such as array indices or pointer arithmetic.
61 (It is at least as hard as Peano arithmetic decidability.)
62 Even ignoring arithmetic, the problem is still NP-hard, because it is
63 at least as hard as flow-insensitive may-alias analysis, which was proved
64 NP-hard by Horwitz et al, TOPLAS 1997.
66 It is clear that we need to choose some heuristics.
67 Unfortunately, various users have different goals which correspond to
68 different time budgets so a common approach will not suit all.
69 We present the user with three effort/accuracy levels. By accuracy, we mean
70 a common-sense mix of low count of false positives with a
71 reasonably low number of false negatives. We are heavily biased
72 towards a low count of false positives.
73 The effort (compilation time) is likely to increase with the level.
77 Most aggressive, least accurate. Possibly useful when higher levels
78 do not warn but -fstrict-aliasing still breaks the code, as
79 it has very few false negatives.
80 Warn for all bad pointer conversions, even if never dereferenced.
81 Implemented in the front end (c-common.c).
82 Uses alias_sets_might_conflict to compare types.
86 Aggressive, not too precise.
87 May still have many false positives (not as many as level 1 though),
88 and few false negatives (but possibly more than level 1).
89 Runs only in the front end. Uses alias_sets_might_conflict to
90 compare types. Does not check for pointer dereferences.
91 Only warns when an address is taken. Warns about incomplete type punning.
93 -Wstrict-aliasing=3 (default)
95 Should have very few false positives and few false negatives.
96 Takes care of the common punn+dereference pattern in the front end:
98 Takes care of multiple statement cases in the back end,
99 using flow-sensitive points-to information (-O required).
100 Uses alias_sets_conflict_p to compare types and only warns
101 when the converted pointer is dereferenced.
102 Does not warn about incomplete type punning.
104 Future improvements can be included by adding higher levels.
106 In summary, expression level analysis is performed in the front-end,
107 and multiple-statement analysis is performed in the backend.
108 The remainder of this discussion is only about the backend analysis.
110 This implementation uses flow-sensitive points-to information.
111 Flow-sensitivity refers to accesses to the pointer, and not the object
112 pointed. For instance, we do not warn about the following case.
115 int* a = (int*)malloc (...);
116 float* b = reinterpret_cast<float*> (a);
118 a = (int*)malloc (...);
121 In SSA, it becomes clear that the INT value *A_2 referenced in the
122 return statement is not aliased to the FLOAT defined through *B_1.
123 int* a_1 = (int*)malloc (...);
124 float* b_1 = reinterpret_cast<float*> (a_1);
126 a_2 = (int*)malloc (...);
133 ForEach (ptr, object) in the points-to table
134 If (incompatible_types (*ptr, object))
135 If (referenced (ptr, current function)
136 and referenced (object, current function))
137 Issue warning (ptr, object, reference locations)
140 O (sizeof (points-to table)
141 + sizeof (function body) * lookup_time (points-to table))
143 Pointer dereference locations are looked up on demand. The search is
144 a single scan of the function body, in which all references to pointers
145 and objects in the points-to table are recorded. However, this dominant
146 time factor occurs rarely, only when cross-type aliasing was detected.
149 Limitations of the Proposed Implementation
150 ==========================================
152 1. We do not catch the following case, because -fstrict-aliasing will
153 associate different tags with MEM while building points-to information,
154 thus before we get to analyze it.
155 XXX: this could be solved by either running with -fno-strict-aliasing
156 or by recording the points-to information before splitting the original
160 void* mem = malloc (...);
161 int* pi = reinterpret_cast<int*> (mem);
162 float* b = reinterpret_cast<float*> (mem);
166 2. We do not check whether the two conflicting (de)references can
167 reach each other in the control flow sense. If we fixed limitation
168 1, we would wrongly issue a warning in the following case.
171 void* raw = malloc (...);
173 float* b = reinterpret_cast<float*> (raw);
177 int* a = reinterpret_cast<int*> (raw);
181 3. Only simple types are compared, thus no structures, unions or classes
182 are analyzed. A first attempt to deal with structures introduced much
183 complication and has not showed much improvement in preliminary tests,
186 4. All analysis is intraprocedural. */
189 /* Local declarations. */
190 static void find_references_in_function (void);
194 /* Get main type of tree TYPE, stripping array dimensions and qualifiers. */
197 get_main_type (tree type
)
199 while (TREE_CODE (type
) == ARRAY_TYPE
)
200 type
= TREE_TYPE (type
);
201 return TYPE_MAIN_VARIANT (type
);
205 /* Get the type of the given object. If IS_PTR is true, get the type of the
206 object pointed to or referenced by OBJECT instead.
207 For arrays, return the element type. Ignore all qualifiers. */
210 get_otype (tree object
, bool is_ptr
)
212 tree otype
= TREE_TYPE (object
);
216 gcc_assert (POINTER_TYPE_P (otype
));
217 otype
= TREE_TYPE (otype
);
219 return get_main_type (otype
);
223 /* Return true if tree TYPE is struct, class or union. */
226 struct_class_union_p (tree type
)
228 return (TREE_CODE (type
) == RECORD_TYPE
229 || TREE_CODE (type
) == UNION_TYPE
230 || TREE_CODE (type
) == QUAL_UNION_TYPE
);
235 /* Keep data during a search for an aliasing site.
236 RHS = object or pointer aliased. No LHS is specified because we are only
237 looking in the UseDef paths of a given variable, so LHS will always be
238 an SSA name of the same variable.
239 When IS_RHS_POINTER = true, we are looking for ... = RHS. Otherwise,
240 we are looking for ... = &RHS.
241 SITE is the output of a search, non-NULL if the search succeeded. */
251 /* Callback for find_alias_site. Return true if the right hand site
252 of STMT matches DATA. */
255 find_alias_site_helper (tree var ATTRIBUTE_UNUSED
, tree stmt
, void *data
)
257 struct alias_match
*match
= (struct alias_match
*) data
;
258 tree rhs_pointer
= get_rhs (stmt
);
259 tree to_match
= NULL_TREE
;
261 while (TREE_CODE (rhs_pointer
) == NOP_EXPR
262 || TREE_CODE (rhs_pointer
) == CONVERT_EXPR
263 || TREE_CODE (rhs_pointer
) == VIEW_CONVERT_EXPR
)
264 rhs_pointer
= TREE_OPERAND (rhs_pointer
, 0);
267 /* Not a type conversion. */
270 if (TREE_CODE (rhs_pointer
) == ADDR_EXPR
&& !match
->is_rhs_pointer
)
271 to_match
= TREE_OPERAND (rhs_pointer
, 0);
272 else if (POINTER_TYPE_P (rhs_pointer
) && match
->is_rhs_pointer
)
273 to_match
= rhs_pointer
;
275 if (to_match
!= match
->rhs
)
276 /* Type conversion, but not a name match. */
285 /* Find the statement where OBJECT1 gets aliased to OBJECT2.
286 If IS_PTR2 is true, consider OBJECT2 to be the name of a pointer or
287 reference rather than the actual aliased object.
288 For now, just implement the case where OBJECT1 is an SSA name defined
289 by a PHI statement. */
292 find_alias_site (tree object1
, bool is_ptr1 ATTRIBUTE_UNUSED
,
293 tree object2
, bool is_ptr2
)
295 struct alias_match match
;
298 match
.is_rhs_pointer
= is_ptr2
;
299 match
.site
= NULL_TREE
;
301 if (TREE_CODE (object1
) != SSA_NAME
)
304 walk_use_def_chains (object1
, find_alias_site_helper
, &match
, false);
309 /* Structure to store temporary results when trying to figure out whether
310 an object is referenced. Just its presence in the text is not enough,
311 as we may just be taking its address. */
317 /* The difference between the number of references to OBJECT
318 and the number of occurrences of &OBJECT. */
323 /* Return the base if EXPR is an SSA name. Return EXPR otherwise. */
326 get_ssa_base (tree expr
)
328 if (TREE_CODE (expr
) == SSA_NAME
)
329 return SSA_NAME_VAR (expr
);
335 /* Record references to objects and pointer dereferences across some piece of
336 code. The number of references is recorded for each item.
337 References to an object just to take its address are not counted.
338 For instance, if PTR is a pointer and OBJ is an object:
339 1. Expression &obj + *ptr will have the following reference match structure:
342 OBJ does not appear as referenced because we just take its address.
343 2. Expression ptr + *ptr will have the following reference match structure:
346 PTR shows up twice as an object, but is dereferenced only once.
348 The elements of the hash tables are tree_map objects. */
349 struct reference_matches
356 /* Return the match, if any. Otherwise, return NULL_TREE. It will
357 return NULL_TREE even when a match was found, if the value associated
358 to KEY is NULL_TREE. */
361 match (htab_t ref_map
, tree key
)
363 struct tree_map
*found
;
365 slot
= htab_find_slot (ref_map
, &key
, NO_INSERT
);
370 found
= (struct tree_map
*) *slot
;
375 /* Set the entry corresponding to KEY, but only if the entry
376 already exists and its value is NULL_TREE. Otherwise, do nothing. */
379 maybe_add_match (htab_t ref_map
, struct tree_map
*key
)
381 struct tree_map
*found
= (struct tree_map
*) htab_find (ref_map
, key
);
383 if (found
&& !found
->to
)
388 /* Add an entry to HT, with key T and value NULL_TREE. */
391 add_key (htab_t ht
, tree t
, alloc_pool references_pool
)
394 struct tree_map
*tp
= (struct tree_map
*) pool_alloc (references_pool
);
398 slot
= htab_find_slot (ht
, &t
, INSERT
);
403 /* Some memory to keep the objects in the reference table. */
405 static alloc_pool ref_table_alloc_pool
= NULL
;
408 /* Get some memory to keep the objects in the reference table. */
410 static inline alloc_pool
411 reference_table_alloc_pool (bool build
)
413 if (ref_table_alloc_pool
|| !build
)
414 return ref_table_alloc_pool
;
416 ref_table_alloc_pool
=
417 create_alloc_pool ("ref_table_alloc_pool", sizeof (struct tree_map
), 20);
419 return ref_table_alloc_pool
;
423 /* Initialize the reference table by adding all pointers in the points-to
424 table as keys, and NULL_TREE as associated values. */
426 static struct reference_matches
*
427 build_reference_table (void)
430 struct reference_matches
*ref_table
= NULL
;
431 alloc_pool references_pool
= reference_table_alloc_pool (true);
433 ref_table
= XNEW (struct reference_matches
);
434 ref_table
->objs
= htab_create (10, tree_map_base_hash
, tree_map_eq
, NULL
);
435 ref_table
->ptrs
= htab_create (10, tree_map_base_hash
, tree_map_eq
, NULL
);
437 for (i
= 1; i
< num_ssa_names
; i
++)
439 tree ptr
= ssa_name (i
);
440 struct ptr_info_def
*pi
;
442 if (ptr
== NULL_TREE
)
445 pi
= SSA_NAME_PTR_INFO (ptr
);
447 if (!SSA_NAME_IN_FREE_LIST (ptr
) && pi
&& pi
->name_mem_tag
)
449 /* Add pointer to the interesting dereference list. */
450 add_key (ref_table
->ptrs
, ptr
, references_pool
);
452 /* Add all aliased names to the interesting reference list. */
458 EXECUTE_IF_SET_IN_BITMAP (pi
->pt_vars
, 0, ix
, bi
)
460 tree alias
= referenced_var (ix
);
461 add_key (ref_table
->objs
, alias
, references_pool
);
471 /* Reference table. */
473 static struct reference_matches
*ref_table
= NULL
;
476 /* Clean up the reference table if allocated. */
479 maybe_free_reference_table (void)
483 htab_delete (ref_table
->ptrs
);
484 htab_delete (ref_table
->objs
);
489 if (ref_table_alloc_pool
)
491 free_alloc_pool (ref_table_alloc_pool
);
492 ref_table_alloc_pool
= NULL
;
497 /* Get the reference table. Initialize it if needed. */
499 static inline struct reference_matches
*
500 reference_table (bool build
)
502 if (ref_table
|| !build
)
505 ref_table
= build_reference_table ();
506 find_references_in_function ();
511 /* Callback for find_references_in_function.
512 Check whether *TP is an object reference or pointer dereference for the
513 variables given in ((struct match_info*)DATA)->OBJS or
514 ((struct match_info*)DATA)->PTRS. The total number of references
515 is stored in the same structures. */
518 find_references_in_tree_helper (tree
*tp
,
519 int *walk_subtrees ATTRIBUTE_UNUSED
,
522 struct tree_map match
;
523 static int parent_tree_code
= ERROR_MARK
;
525 /* Do not report references just for the purpose of taking an address.
526 XXX: we rely on the fact that the tree walk is in preorder
527 and that ADDR_EXPR is not a leaf, thus cannot be carried over across
529 if (parent_tree_code
== ADDR_EXPR
)
532 match
.to
= (tree
) data
;
534 if (TREE_CODE (*tp
) == INDIRECT_REF
)
536 match
.base
.from
= TREE_OPERAND (*tp
, 0);
537 maybe_add_match (reference_table (true)->ptrs
, &match
);
541 match
.base
.from
= *tp
;
542 maybe_add_match (reference_table (true)->objs
, &match
);
546 parent_tree_code
= TREE_CODE (*tp
);
551 /* Find all the references to aliased variables in the current function. */
554 find_references_in_function (void)
557 block_stmt_iterator i
;
560 for (i
= bsi_start (bb
); !bsi_end_p (i
); bsi_next (&i
))
561 walk_tree (bsi_stmt_ptr (i
), find_references_in_tree_helper
,
562 (void *) *bsi_stmt_ptr (i
), NULL
);
566 /* Find the reference site for OBJECT.
567 If IS_PTR is true, look for dereferences of OBJECT instead.
568 XXX: only the first site is returned in the current
569 implementation. If there are no matching sites, return NULL_TREE. */
572 reference_site (tree object
, bool is_ptr
)
575 return match (reference_table (true)->ptrs
, object
);
577 return match (reference_table (true)->objs
, object
);
581 /* Try to get more location info when something is missing.
582 OBJECT1 and OBJECT2 are aliased names. If IS_PTR1 or IS_PTR2, the alias
583 is on the memory referenced or pointed to by OBJECT1 and OBJECT2.
584 ALIAS_SITE, DEREF_SITE1 and DEREF_SITE2 are the statements where the
585 alias takes place (some pointer assignment usually) and where the
586 alias is referenced through OBJECT1 and OBJECT2 respectively.
587 REF_TYPE1 and REF_TYPE2 will return the type of the reference at the
588 respective sites. Only the first matching reference is returned for
589 each name. If no statement is found, the function header is returned. */
592 maybe_find_missing_stmts (tree object1
, bool is_ptr1
,
593 tree object2
, bool is_ptr2
,
598 if (object1
&& object2
)
600 if (!*alias_site
|| !EXPR_HAS_LOCATION (*alias_site
))
601 *alias_site
= find_alias_site (object1
, is_ptr1
, object2
, is_ptr2
);
603 if (!*deref_site1
|| !EXPR_HAS_LOCATION (*deref_site1
))
604 *deref_site1
= reference_site (object1
, is_ptr1
);
606 if (!*deref_site2
|| !EXPR_HAS_LOCATION (*deref_site2
))
607 *deref_site2
= reference_site (object2
, is_ptr2
);
610 /* If we could not find the alias site, set it to one of the dereference
611 sites, if available. */
615 *alias_site
= *deref_site1
;
616 else if (*deref_site2
)
617 *alias_site
= *deref_site2
;
620 /* If we could not find the dereference sites, set them to the alias site,
622 if (!*deref_site1
&& *alias_site
)
623 *deref_site1
= *alias_site
;
624 if (!*deref_site2
&& *alias_site
)
625 *deref_site2
= *alias_site
;
629 /* Callback for find_first_artificial_name.
630 Find out if there are no artificial names at tree node *T. */
633 ffan_walker (tree
*t
,
634 int *go_below ATTRIBUTE_UNUSED
,
635 void *data ATTRIBUTE_UNUSED
)
637 if (DECL_P (*t
) && !MTAG_P (*t
) && DECL_ARTIFICIAL (*t
))
643 /* Return the first artificial name within EXPR, or NULL_TREE if
647 find_first_artificial_name (tree expr
)
649 return walk_tree_without_duplicates (&expr
, ffan_walker
, NULL
);
653 /* Get a name from the original program for VAR. */
656 get_var_name (tree var
)
658 if (TREE_CODE (var
) == SSA_NAME
)
659 return get_var_name (get_ssa_base (var
));
661 if (find_first_artificial_name (var
))
664 if (TREE_CODE (var
) == VAR_DECL
|| TREE_CODE (var
) == PARM_DECL
)
666 return IDENTIFIER_POINTER (DECL_NAME (var
));
672 /* Return "*" if OBJECT is not the actual alias but a pointer to it, or
674 IS_PTR is true when OBJECT is not the actual alias.
675 In addition to checking IS_PTR, we also make sure that OBJECT is a pointer
676 since IS_PTR would also be true for C++ references, but we should only
677 print a * before a pointer and not before a reference. */
680 get_maybe_star_prefix (tree object
, bool is_ptr
)
684 && TREE_CODE (TREE_TYPE (object
)) == POINTER_TYPE
) ? "*" : "";
688 /* Callback for contains_node_type_p.
689 Returns true if *T has tree code *(int*)DATA. */
692 contains_node_type_p_callback (tree
*t
,
693 int *go_below ATTRIBUTE_UNUSED
,
696 return ((int) TREE_CODE (*t
) == *((int *) data
)) ? *t
: NULL_TREE
;
700 /* Return true if T contains a node with tree code TYPE. */
703 contains_node_type_p (tree t
, int type
)
705 return (walk_tree_without_duplicates (&t
, contains_node_type_p_callback
,
711 /* Return true if a warning was issued in the front end at STMT. */
714 already_warned_in_frontend_p (tree stmt
)
718 if (stmt
== NULL_TREE
)
721 rhs_pointer
= get_rhs (stmt
);
723 if ((TREE_CODE (rhs_pointer
) == NOP_EXPR
724 || TREE_CODE (rhs_pointer
) == CONVERT_EXPR
725 || TREE_CODE (rhs_pointer
) == VIEW_CONVERT_EXPR
)
726 && TREE_NO_WARNING (rhs_pointer
))
733 /* Return true if and only if TYPE is a function or method pointer type,
734 or pointer to a pointer to ... to a function or method. */
737 is_method_pointer (tree type
)
739 while (TREE_CODE (type
) == POINTER_TYPE
)
740 type
= TREE_TYPE (type
);
741 return TREE_CODE (type
) == METHOD_TYPE
|| TREE_CODE (type
) == FUNCTION_TYPE
;
745 /* Issue a -Wstrict-aliasing warning.
746 OBJECT1 and OBJECT2 are aliased names.
747 If IS_PTR1 and/or IS_PTR2 is true, then the corresponding name
748 OBJECT1/OBJECT2 is a pointer or reference to the aliased memory,
749 rather than actual storage.
750 ALIAS_SITE is a statement where the alias took place. In the most common
751 case, that is where a pointer was assigned to the address of an object. */
754 strict_aliasing_warn (tree alias_site
,
755 tree object1
, bool is_ptr1
,
756 tree object2
, bool is_ptr2
,
757 bool filter_artificials
)
759 tree ref_site1
= NULL_TREE
;
760 tree ref_site2
= NULL_TREE
;
763 location_t alias_loc
;
766 gcc_assert (object1
);
767 gcc_assert (object2
);
768 name1
= get_var_name (object1
);
769 name2
= get_var_name (object2
);
772 if (is_method_pointer (get_main_type (TREE_TYPE (object2
))))
775 maybe_find_missing_stmts (object1
, is_ptr1
, object2
, is_ptr2
, &alias_site
,
776 &ref_site1
, &ref_site2
);
778 if (EXPR_HAS_LOCATION (alias_site
))
779 alias_loc
= EXPR_LOCATION (alias_site
);
783 if (EXPR_HAS_LOCATION (ref_site1
))
784 ref1_loc
= EXPR_LOCATION (ref_site1
);
786 ref1_loc
= alias_loc
;
788 if (EXPR_HAS_LOCATION (ref_site2
))
789 ref2_loc
= EXPR_LOCATION (ref_site2
);
791 ref2_loc
= alias_loc
;
793 if (already_warned_in_frontend_p (alias_site
))
796 /* If they are not SSA names, but contain SSA names, drop the warning
797 because it cannot be displayed well.
798 Also drop it if they both contain artificials.
799 XXX: this is a hack, must figure out a better way to display them. */
800 if (filter_artificials
)
801 if ((find_first_artificial_name (get_ssa_base (object1
))
802 && find_first_artificial_name (get_ssa_base (object2
)))
803 || (TREE_CODE (object1
) != SSA_NAME
804 && contains_node_type_p (object1
, SSA_NAME
))
805 || (TREE_CODE (object2
) != SSA_NAME
806 && contains_node_type_p (object2
, SSA_NAME
)))
810 /* XXX: In the following format string, %s:%d should be replaced by %H.
811 However, in my tests only the first %H printed ok, while the
812 second and third were printed as blanks. */
813 warning (OPT_Wstrict_aliasing
,
814 "%Hlikely type-punning may break strict-aliasing rules: "
815 "object %<%s%s%> of main type %qT is referenced at or around "
817 "aliased to object %<%s%s%> of main type %qT which is referenced "
818 "at or around %s:%d.",
820 get_maybe_star_prefix (object1
, is_ptr1
),
821 name1
, get_otype (object1
, is_ptr1
),
822 LOCATION_FILE (ref1_loc
), LOCATION_LINE (ref1_loc
),
823 get_maybe_star_prefix (object2
, is_ptr2
),
824 name2
, get_otype (object2
, is_ptr2
),
825 LOCATION_FILE (ref2_loc
), LOCATION_LINE (ref2_loc
));
832 /* Return true when any objects of TYPE1 and TYPE2 respectively
833 may not be aliased according to the language standard. */
836 nonstandard_alias_types_p (tree type1
, tree type2
)
841 if (VOID_TYPE_P (type1
) || VOID_TYPE_P (type2
))
844 set1
= get_alias_set (type1
);
845 set2
= get_alias_set (type2
);
846 return !alias_sets_conflict_p (set1
, set2
);
851 /* Returns true when *PTR may not be aliased to ALIAS.
852 See C standard 6.5p7 and C++ standard 3.10p15.
853 If PTR_PTR is true, ALIAS represents a pointer or reference to the
854 aliased storage rather than its actual name. */
857 nonstandard_alias_p (tree ptr
, tree alias
, bool ptr_ptr
)
859 /* Find the types to compare. */
860 tree ptr_type
= get_otype (ptr
, true);
861 tree alias_type
= get_otype (alias
, ptr_ptr
);
863 /* XXX: for now, say it's OK if the alias escapes.
864 Not sure this is needed in general, but otherwise GCC will not
866 if (var_ann (get_ssa_base (alias
))->escape_mask
!= NO_ESCAPE
)
869 /* XXX: don't get into structures for now. It brings much complication
870 and little benefit. */
871 if (struct_class_union_p (ptr_type
) || struct_class_union_p (alias_type
))
874 /* If they are both SSA names of artificials, let it go, the warning
876 if (find_first_artificial_name (ptr
) && find_first_artificial_name (alias
))
879 /* Compare the types. */
880 return nonstandard_alias_types_p (ptr_type
, alias_type
);
884 /* Return true when we should skip analysis for pointer PTR based on the
885 fact that their alias information *PI is not considered relevant. */
888 skip_this_pointer (tree ptr ATTRIBUTE_UNUSED
, struct ptr_info_def
*pi
)
890 /* If it is not dereferenced, it is not a problem (locally). */
891 if (!pi
->is_dereferenced
)
894 /* This would probably cause too many false positives. */
895 if (pi
->value_escapes_p
|| pi
->pt_anything
)
902 /* Find aliasing to named objects for pointer PTR. */
905 dsa_named_for (tree ptr
)
907 struct ptr_info_def
*pi
= SSA_NAME_PTR_INFO (ptr
);
911 if (skip_this_pointer (ptr
, pi
))
914 /* For all the variables it could be aliased to. */
920 EXECUTE_IF_SET_IN_BITMAP (pi
->pt_vars
, 0, ix
, bi
)
922 tree alias
= referenced_var (ix
);
924 if (nonstandard_alias_p (ptr
, alias
, false))
925 strict_aliasing_warn (SSA_NAME_DEF_STMT (ptr
),
926 ptr
, true, alias
, false, true);
933 /* Detect and report strict aliasing violation of named objects. */
936 detect_strict_aliasing_named (void)
940 for (i
= 1; i
< num_ssa_names
; i
++)
942 tree ptr
= ssa_name (i
);
943 struct ptr_info_def
*pi
;
945 if (ptr
== NULL_TREE
)
948 pi
= SSA_NAME_PTR_INFO (ptr
);
950 if (!SSA_NAME_IN_FREE_LIST (ptr
) && pi
&& pi
->name_mem_tag
)
956 /* Return false only the first time I see each instance of FUNC. */
959 processed_func_p (tree func
)
961 static htab_t seen
= NULL
;
965 seen
= htab_create (10, tree_map_base_hash
, tree_map_eq
, NULL
);
967 slot
= htab_find_slot (seen
, &func
, INSERT
);
979 /* Detect and warn about type-punning using points-to information. */
982 strict_aliasing_warning_backend (void)
984 if (flag_strict_aliasing
&& warn_strict_aliasing
== 3
985 && !processed_func_p (current_function_decl
))
987 detect_strict_aliasing_named ();
988 maybe_free_reference_table ();