* configure.ac: Don't test for [build] __cxa_atexit when building a
[official-gcc.git] / gcc / tree-ssa-alias.c
blob9dab4c676ac95524a4a829962066c887d2dcc858
1 /* Alias analysis for trees.
2 Copyright (C) 2004 Free Software Foundation, Inc.
3 Contributed by Diego Novillo <dnovillo@redhat.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 2, or (at your option)
10 any later version.
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 COPYING. If not, write to
19 the Free Software Foundation, 59 Temple Place - Suite 330,
20 Boston, MA 02111-1307, USA. */
22 #include "config.h"
23 #include "system.h"
24 #include "coretypes.h"
25 #include "tm.h"
26 #include "tree.h"
27 #include "rtl.h"
28 #include "tm_p.h"
29 #include "hard-reg-set.h"
30 #include "basic-block.h"
31 #include "timevar.h"
32 #include "expr.h"
33 #include "ggc.h"
34 #include "langhooks.h"
35 #include "flags.h"
36 #include "function.h"
37 #include "diagnostic.h"
38 #include "tree-dump.h"
39 #include "tree-gimple.h"
40 #include "tree-flow.h"
41 #include "tree-inline.h"
42 #include "tree-pass.h"
43 #include "convert.h"
44 #include "params.h"
47 /* Structure to map a variable to its alias set and keep track of the
48 virtual operands that will be needed to represent it. */
49 struct alias_map_d
51 /* Variable and its alias set. */
52 tree var;
53 HOST_WIDE_INT set;
55 /* Total number of virtual operands that will be needed to represent
56 all the aliases of VAR. */
57 long total_alias_vops;
59 /* Nonzero if the aliases for this memory tag have been grouped
60 already. Used in group_aliases. */
61 unsigned int grouped_p : 1;
63 /* Set of variables aliased with VAR. This is the exact same
64 information contained in VAR_ANN (VAR)->MAY_ALIASES, but in
65 bitmap form to speed up alias grouping. */
66 sbitmap may_aliases;
70 /* Alias information used by compute_may_aliases and its helpers. */
71 struct alias_info
73 /* SSA names visited while collecting points-to information. If bit I
74 is set, it means that SSA variable with version I has already been
75 visited. */
76 bitmap ssa_names_visited;
78 /* Array of SSA_NAME pointers processed by the points-to collector. */
79 varray_type processed_ptrs;
81 /* Variables whose address is still needed. */
82 bitmap addresses_needed;
84 /* ADDRESSABLE_VARS contains all the global variables and locals that
85 have had their address taken. */
86 struct alias_map_d **addressable_vars;
87 size_t num_addressable_vars;
89 /* POINTERS contains all the _DECL pointers with unique memory tags
90 that have been referenced in the program. */
91 struct alias_map_d **pointers;
92 size_t num_pointers;
94 /* Number of function calls found in the program. */
95 size_t num_calls_found;
97 /* Array of counters to keep track of how many times each pointer has
98 been dereferenced in the program. This is used by the alias grouping
99 heuristic in compute_flow_insensitive_aliasing. */
100 varray_type num_references;
102 /* Total number of virtual operands that will be needed to represent
103 all the aliases of all the pointers found in the program. */
104 long total_alias_vops;
106 /* Variables that have been written to. */
107 bitmap written_vars;
109 /* Pointers that have been used in an indirect store operation. */
110 bitmap dereferenced_ptrs_store;
112 /* Pointers that have been used in an indirect load operation. */
113 bitmap dereferenced_ptrs_load;
117 /* Counters used to display statistics on alias analysis. */
118 struct alias_stats_d
120 unsigned int alias_queries;
121 unsigned int alias_mayalias;
122 unsigned int alias_noalias;
123 unsigned int simple_queries;
124 unsigned int simple_resolved;
125 unsigned int tbaa_queries;
126 unsigned int tbaa_resolved;
130 /* Local variables. */
131 static struct alias_stats_d alias_stats;
133 /* Local functions. */
134 static void compute_flow_insensitive_aliasing (struct alias_info *);
135 static void dump_alias_stats (FILE *);
136 static bool may_alias_p (tree, HOST_WIDE_INT, tree, HOST_WIDE_INT);
137 static tree create_memory_tag (tree type, bool is_type_tag);
138 static tree get_tmt_for (tree, struct alias_info *);
139 static tree get_nmt_for (tree);
140 static void add_may_alias (tree, tree);
141 static void replace_may_alias (tree, size_t, tree);
142 static struct alias_info *init_alias_info (void);
143 static void delete_alias_info (struct alias_info *);
144 static void compute_points_to_and_addr_escape (struct alias_info *);
145 static void compute_flow_sensitive_aliasing (struct alias_info *);
146 static void setup_pointers_and_addressables (struct alias_info *);
147 static bool collect_points_to_info_r (tree, tree, void *);
148 static bool is_escape_site (tree, size_t *);
149 static void add_pointed_to_var (struct alias_info *, tree, tree);
150 static void create_global_var (void);
151 static void collect_points_to_info_for (struct alias_info *, tree);
152 static bool ptr_is_dereferenced_by (tree, tree, bool *);
153 static void maybe_create_global_var (struct alias_info *ai);
154 static void group_aliases (struct alias_info *);
155 static struct ptr_info_def *get_ptr_info (tree t);
156 static void set_pt_anything (tree ptr);
157 static void set_pt_malloc (tree ptr);
159 /* Global declarations. */
161 /* Call clobbered variables in the function. If bit I is set, then
162 REFERENCED_VARS (I) is call-clobbered. */
163 bitmap call_clobbered_vars;
165 /* Addressable variables in the function. If bit I is set, then
166 REFERENCED_VARS (I) has had its address taken. Note that
167 CALL_CLOBBERED_VARS and ADDRESSABLE_VARS are not related. An
168 addressable variable is not necessarily call-clobbered (e.g., a
169 local addressable whose address does not escape) and not all
170 call-clobbered variables are addressable (e.g., a local static
171 variable). */
172 bitmap addressable_vars;
174 /* When the program has too many call-clobbered variables and call-sites,
175 this variable is used to represent the clobbering effects of function
176 calls. In these cases, all the call clobbered variables in the program
177 are forced to alias this variable. This reduces compile times by not
178 having to keep track of too many V_MAY_DEF expressions at call sites. */
179 tree global_var;
182 /* Compute may-alias information for every variable referenced in function
183 FNDECL.
185 Alias analysis proceeds in 3 main phases:
187 1- Points-to and escape analysis.
189 This phase walks the use-def chains in the SSA web looking for three
190 things:
192 * Assignments of the form P_i = &VAR
193 * Assignments of the form P_i = malloc()
194 * Pointers and ADDR_EXPR that escape the current function.
196 The concept of 'escaping' is the same one used in the Java world. When
197 a pointer or an ADDR_EXPR escapes, it means that it has been exposed
198 outside of the current function. So, assignment to global variables,
199 function arguments and returning a pointer are all escape sites.
201 This is where we are currently limited. Since not everything is renamed
202 into SSA, we lose track of escape properties when a pointer is stashed
203 inside a field in a structure, for instance. In those cases, we are
204 assuming that the pointer does escape.
206 We use escape analysis to determine whether a variable is
207 call-clobbered. Simply put, if an ADDR_EXPR escapes, then the variable
208 is call-clobbered. If a pointer P_i escapes, then all the variables
209 pointed-to by P_i (and its memory tag) also escape.
211 2- Compute flow-sensitive aliases
213 We have two classes of memory tags. Memory tags associated with the
214 pointed-to data type of the pointers in the program. These tags are
215 called "type memory tag" (TMT). The other class are those associated
216 with SSA_NAMEs, called "name memory tag" (NMT). The basic idea is that
217 when adding operands for an INDIRECT_REF *P_i, we will first check
218 whether P_i has a name tag, if it does we use it, because that will have
219 more precise aliasing information. Otherwise, we use the standard type
220 tag.
222 In this phase, we go through all the pointers we found in points-to
223 analysis and create alias sets for the name memory tags associated with
224 each pointer P_i. If P_i escapes, we mark call-clobbered the variables
225 it points to and its tag.
228 3- Compute flow-insensitive aliases
230 This pass will compare the alias set of every type memory tag and every
231 addressable variable found in the program. Given a type memory tag TMT
232 and an addressable variable V. If the alias sets of TMT and V conflict
233 (as computed by may_alias_p), then V is marked as an alias tag and added
234 to the alias set of TMT.
236 For instance, consider the following function:
238 foo (int i)
240 int *p, *q, a, b;
242 if (i > 10)
243 p = &a;
244 else
245 q = &b;
247 *p = 3;
248 *q = 5;
249 a = b + 2;
250 return *p;
253 After aliasing analysis has finished, the type memory tag for pointer
254 'p' will have two aliases, namely variables 'a' and 'b'. Every time
255 pointer 'p' is dereferenced, we want to mark the operation as a
256 potential reference to 'a' and 'b'.
258 foo (int i)
260 int *p, a, b;
262 if (i_2 > 10)
263 p_4 = &a;
264 else
265 p_6 = &b;
266 # p_1 = PHI <p_4(1), p_6(2)>;
268 # a_7 = V_MAY_DEF <a_3>;
269 # b_8 = V_MAY_DEF <b_5>;
270 *p_1 = 3;
272 # a_9 = V_MAY_DEF <a_7>
273 # VUSE <b_8>
274 a_9 = b_8 + 2;
276 # VUSE <a_9>;
277 # VUSE <b_8>;
278 return *p_1;
281 In certain cases, the list of may aliases for a pointer may grow too
282 large. This may cause an explosion in the number of virtual operands
283 inserted in the code. Resulting in increased memory consumption and
284 compilation time.
286 When the number of virtual operands needed to represent aliased
287 loads and stores grows too large (configurable with @option{--param
288 max-aliased-vops}), alias sets are grouped to avoid severe
289 compile-time slow downs and memory consumption. See group_aliases. */
291 static void
292 compute_may_aliases (void)
294 struct alias_info *ai;
296 memset (&alias_stats, 0, sizeof (alias_stats));
298 /* Initialize aliasing information. */
299 ai = init_alias_info ();
301 /* For each pointer P_i, determine the sets of variables that P_i may
302 point-to. For every addressable variable V, determine whether the
303 address of V escapes the current function, making V call-clobbered
304 (i.e., whether &V is stored in a global variable or if its passed as a
305 function call argument). */
306 compute_points_to_and_addr_escape (ai);
308 /* Collect all pointers and addressable variables, compute alias sets,
309 create memory tags for pointers and promote variables whose address is
310 not needed anymore. */
311 setup_pointers_and_addressables (ai);
313 /* Compute flow-sensitive, points-to based aliasing for all the name
314 memory tags. Note that this pass needs to be done before flow
315 insensitive analysis because it uses the points-to information
316 gathered before to mark call-clobbered type tags. */
317 compute_flow_sensitive_aliasing (ai);
319 /* Compute type-based flow-insensitive aliasing for all the type
320 memory tags. */
321 compute_flow_insensitive_aliasing (ai);
323 /* If the program has too many call-clobbered variables and/or function
324 calls, create .GLOBAL_VAR and use it to model call-clobbering
325 semantics at call sites. This reduces the number of virtual operands
326 considerably, improving compile times at the expense of lost
327 aliasing precision. */
328 maybe_create_global_var (ai);
330 /* Debugging dumps. */
331 if (dump_file)
333 dump_referenced_vars (dump_file);
334 if (dump_flags & TDF_STATS)
335 dump_alias_stats (dump_file);
336 dump_points_to_info (dump_file);
337 dump_alias_info (dump_file);
340 /* Deallocate memory used by aliasing data structures. */
341 delete_alias_info (ai);
344 struct tree_opt_pass pass_may_alias =
346 "alias", /* name */
347 NULL, /* gate */
348 compute_may_aliases, /* execute */
349 NULL, /* sub */
350 NULL, /* next */
351 0, /* static_pass_number */
352 TV_TREE_MAY_ALIAS, /* tv_id */
353 PROP_cfg | PROP_ssa, /* properties_required */
354 PROP_alias, /* properties_provided */
355 0, /* properties_destroyed */
356 0, /* todo_flags_start */
357 TODO_dump_func | TODO_rename_vars
358 | TODO_ggc_collect | TODO_verify_ssa, /* todo_flags_finish */
359 0 /* letter */
363 /* Initialize the data structures used for alias analysis. */
365 static struct alias_info *
366 init_alias_info (void)
368 struct alias_info *ai;
369 static bool aliases_computed_p = false;
371 ai = xcalloc (1, sizeof (struct alias_info));
372 ai->ssa_names_visited = BITMAP_XMALLOC ();
373 VARRAY_TREE_INIT (ai->processed_ptrs, 50, "processed_ptrs");
374 ai->addresses_needed = BITMAP_XMALLOC ();
375 VARRAY_UINT_INIT (ai->num_references, num_referenced_vars, "num_references");
376 ai->written_vars = BITMAP_XMALLOC ();
377 ai->dereferenced_ptrs_store = BITMAP_XMALLOC ();
378 ai->dereferenced_ptrs_load = BITMAP_XMALLOC ();
380 /* If aliases have been computed before, clear existing information. */
381 if (aliases_computed_p)
383 size_t i;
384 bitmap_iterator bi;
386 /* Clear the call-clobbered set. We are going to re-discover
387 call-clobbered variables. */
388 EXECUTE_IF_SET_IN_BITMAP (call_clobbered_vars, 0, i, bi)
390 tree var = referenced_var (i);
392 /* Variables that are intrinsically call-clobbered (globals,
393 local statics, etc) will not be marked by the aliasing
394 code, so we can't remove them from CALL_CLOBBERED_VARS. */
395 if (!is_call_clobbered (var))
396 bitmap_clear_bit (call_clobbered_vars, var_ann (var)->uid);
399 /* Similarly, clear the set of addressable variables. In this
400 case, we can just clear the set because addressability is
401 only computed here. */
402 bitmap_clear (addressable_vars);
404 /* Clear flow-insensitive alias information from each symbol. */
405 for (i = 0; i < num_referenced_vars; i++)
407 var_ann_t ann = var_ann (referenced_var (i));
408 ann->is_alias_tag = 0;
409 ann->may_aliases = NULL;
412 /* Clear flow-sensitive points-to information from each SSA name. */
413 for (i = 1; i < num_ssa_names; i++)
415 tree name = ssa_name (i);
417 if (!name || !POINTER_TYPE_P (TREE_TYPE (name)))
418 continue;
420 if (SSA_NAME_PTR_INFO (name))
422 struct ptr_info_def *pi = SSA_NAME_PTR_INFO (name);
424 /* Clear all the flags but keep the name tag to
425 avoid creating new temporaries unnecessarily. If
426 this pointer is found to point to a subset or
427 superset of its former points-to set, then a new
428 tag will need to be created in create_name_tags. */
429 pi->pt_anything = 0;
430 pi->pt_malloc = 0;
431 pi->value_escapes_p = 0;
432 pi->is_dereferenced = 0;
433 if (pi->pt_vars)
434 bitmap_clear (pi->pt_vars);
439 /* Next time, we will need to reset alias information. */
440 aliases_computed_p = true;
442 return ai;
446 /* Deallocate memory used by alias analysis. */
448 static void
449 delete_alias_info (struct alias_info *ai)
451 size_t i;
453 BITMAP_XFREE (ai->ssa_names_visited);
454 ai->processed_ptrs = NULL;
455 BITMAP_XFREE (ai->addresses_needed);
457 for (i = 0; i < ai->num_addressable_vars; i++)
459 sbitmap_free (ai->addressable_vars[i]->may_aliases);
460 free (ai->addressable_vars[i]);
462 free (ai->addressable_vars);
464 for (i = 0; i < ai->num_pointers; i++)
466 sbitmap_free (ai->pointers[i]->may_aliases);
467 free (ai->pointers[i]);
469 free (ai->pointers);
471 ai->num_references = NULL;
472 BITMAP_XFREE (ai->written_vars);
473 BITMAP_XFREE (ai->dereferenced_ptrs_store);
474 BITMAP_XFREE (ai->dereferenced_ptrs_load);
476 free (ai);
480 /* Walk use-def chains for pointer PTR to determine what variables is PTR
481 pointing to. */
483 static void
484 collect_points_to_info_for (struct alias_info *ai, tree ptr)
486 gcc_assert (POINTER_TYPE_P (TREE_TYPE (ptr)));
488 if (!bitmap_bit_p (ai->ssa_names_visited, SSA_NAME_VERSION (ptr)))
490 bitmap_set_bit (ai->ssa_names_visited, SSA_NAME_VERSION (ptr));
491 walk_use_def_chains (ptr, collect_points_to_info_r, ai, true);
492 VARRAY_PUSH_TREE (ai->processed_ptrs, ptr);
497 /* Helper for ptr_is_dereferenced_by. Called by walk_tree to look for
498 (ALIGN/MISALIGNED_)INDIRECT_REF nodes for the pointer passed in DATA. */
500 static tree
501 find_ptr_dereference (tree *tp, int *walk_subtrees ATTRIBUTE_UNUSED, void *data)
503 tree ptr = (tree) data;
505 if (INDIRECT_REF_P (*tp)
506 && TREE_OPERAND (*tp, 0) == ptr)
507 return *tp;
509 return NULL_TREE;
513 /* Return true if STMT contains (ALIGN/MISALIGNED_)INDIRECT_REF <PTR>.
514 *IS_STORE is set to 'true' if the dereference is on the LHS of an
515 assignment. */
517 static bool
518 ptr_is_dereferenced_by (tree ptr, tree stmt, bool *is_store)
520 *is_store = false;
522 if (TREE_CODE (stmt) == MODIFY_EXPR
523 || (TREE_CODE (stmt) == RETURN_EXPR
524 && TREE_CODE (TREE_OPERAND (stmt, 0)) == MODIFY_EXPR))
526 tree e, lhs, rhs;
528 e = (TREE_CODE (stmt) == RETURN_EXPR) ? TREE_OPERAND (stmt, 0) : stmt;
529 lhs = TREE_OPERAND (e, 0);
530 rhs = TREE_OPERAND (e, 1);
532 if (EXPR_P (lhs)
533 && walk_tree (&lhs, find_ptr_dereference, ptr, NULL))
535 *is_store = true;
536 return true;
538 else if (EXPR_P (rhs)
539 && walk_tree (&rhs, find_ptr_dereference, ptr, NULL))
541 return true;
544 else if (TREE_CODE (stmt) == ASM_EXPR)
546 if (walk_tree (&ASM_OUTPUTS (stmt), find_ptr_dereference, ptr, NULL)
547 || walk_tree (&ASM_CLOBBERS (stmt), find_ptr_dereference, ptr, NULL))
549 *is_store = true;
550 return true;
552 else if (walk_tree (&ASM_INPUTS (stmt), find_ptr_dereference, ptr, NULL))
554 return true;
558 return false;
562 /* Traverse use-def links for all the pointers in the program to collect
563 address escape and points-to information.
565 This is loosely based on the same idea described in R. Hasti and S.
566 Horwitz, ``Using static single assignment form to improve
567 flow-insensitive pointer analysis,'' in SIGPLAN Conference on
568 Programming Language Design and Implementation, pp. 97-105, 1998. */
570 static void
571 compute_points_to_and_addr_escape (struct alias_info *ai)
573 basic_block bb;
574 size_t i;
575 tree op;
576 ssa_op_iter iter;
578 timevar_push (TV_TREE_PTA);
580 FOR_EACH_BB (bb)
582 bb_ann_t block_ann = bb_ann (bb);
583 block_stmt_iterator si;
585 for (si = bsi_start (bb); !bsi_end_p (si); bsi_next (&si))
587 bitmap addr_taken;
588 tree stmt = bsi_stmt (si);
589 bool stmt_escapes_p = is_escape_site (stmt, &ai->num_calls_found);
590 bitmap_iterator bi;
592 /* Mark all the variables whose address are taken by the
593 statement. Note that this will miss all the addresses taken
594 in PHI nodes (those are discovered while following the use-def
595 chains). */
596 get_stmt_operands (stmt);
597 addr_taken = addresses_taken (stmt);
598 if (addr_taken)
599 EXECUTE_IF_SET_IN_BITMAP (addr_taken, 0, i, bi)
601 tree var = referenced_var (i);
602 bitmap_set_bit (ai->addresses_needed, var_ann (var)->uid);
603 if (stmt_escapes_p)
604 mark_call_clobbered (var);
607 if (stmt_escapes_p)
608 block_ann->has_escape_site = 1;
610 /* Special case for silly ADDR_EXPR tricks
611 (gcc.c-torture/unsorted/pass.c). If this statement is an
612 assignment to a non-pointer variable and the RHS takes the
613 address of a variable, assume that the variable on the RHS is
614 call-clobbered. We could add the LHS to the list of
615 "pointers" and follow it to see if it really escapes, but it's
616 not worth the pain. */
617 if (addr_taken
618 && TREE_CODE (stmt) == MODIFY_EXPR
619 && !POINTER_TYPE_P (TREE_TYPE (TREE_OPERAND (stmt, 0))))
620 EXECUTE_IF_SET_IN_BITMAP (addr_taken, 0, i, bi)
622 tree var = referenced_var (i);
623 mark_call_clobbered (var);
626 FOR_EACH_SSA_TREE_OPERAND (op, stmt, iter, SSA_OP_USE)
628 var_ann_t v_ann = var_ann (SSA_NAME_VAR (op));
629 struct ptr_info_def *pi;
630 bool is_store;
632 /* If the operand's variable may be aliased, keep track
633 of how many times we've referenced it. This is used
634 for alias grouping in compute_flow_sensitive_aliasing.
635 Note that we don't need to grow AI->NUM_REFERENCES
636 because we are processing regular variables, not
637 memory tags (the array's initial size is set to
638 NUM_REFERENCED_VARS). */
639 if (may_be_aliased (SSA_NAME_VAR (op)))
640 (VARRAY_UINT (ai->num_references, v_ann->uid))++;
642 if (!POINTER_TYPE_P (TREE_TYPE (op)))
643 continue;
645 collect_points_to_info_for (ai, op);
647 pi = SSA_NAME_PTR_INFO (op);
648 if (ptr_is_dereferenced_by (op, stmt, &is_store))
650 /* Mark OP as dereferenced. In a subsequent pass,
651 dereferenced pointers that point to a set of
652 variables will be assigned a name tag to alias
653 all the variables OP points to. */
654 pi->is_dereferenced = 1;
656 /* Keep track of how many time we've dereferenced each
657 pointer. Again, we don't need to grow
658 AI->NUM_REFERENCES because we're processing
659 existing program variables. */
660 (VARRAY_UINT (ai->num_references, v_ann->uid))++;
662 /* If this is a store operation, mark OP as being
663 dereferenced to store, otherwise mark it as being
664 dereferenced to load. */
665 if (is_store)
666 bitmap_set_bit (ai->dereferenced_ptrs_store, v_ann->uid);
667 else
668 bitmap_set_bit (ai->dereferenced_ptrs_load, v_ann->uid);
670 else if (stmt_escapes_p)
672 /* Note that even if STMT is an escape point, pointer OP
673 will not escape if it is being dereferenced. That's
674 why we only check for escape points if OP is not
675 dereferenced by STMT. */
676 pi->value_escapes_p = 1;
678 /* If the statement makes a function call, assume
679 that pointer OP will be dereferenced in a store
680 operation inside the called function. */
681 if (get_call_expr_in (stmt))
683 bitmap_set_bit (ai->dereferenced_ptrs_store, v_ann->uid);
684 pi->is_dereferenced = 1;
689 /* Update reference counter for definitions to any
690 potentially aliased variable. This is used in the alias
691 grouping heuristics. */
692 FOR_EACH_SSA_TREE_OPERAND (op, stmt, iter, SSA_OP_DEF)
694 tree var = SSA_NAME_VAR (op);
695 var_ann_t ann = var_ann (var);
696 bitmap_set_bit (ai->written_vars, ann->uid);
697 if (may_be_aliased (var))
698 (VARRAY_UINT (ai->num_references, ann->uid))++;
700 if (POINTER_TYPE_P (TREE_TYPE (op)))
701 collect_points_to_info_for (ai, op);
704 /* Mark variables in V_MAY_DEF operands as being written to. */
705 FOR_EACH_SSA_TREE_OPERAND (op, stmt, iter, SSA_OP_VIRTUAL_DEFS)
707 tree var = SSA_NAME_VAR (op);
708 var_ann_t ann = var_ann (var);
709 bitmap_set_bit (ai->written_vars, ann->uid);
712 /* After promoting variables and computing aliasing we will
713 need to re-scan most statements. FIXME: Try to minimize the
714 number of statements re-scanned. It's not really necessary to
715 re-scan *all* statements. */
716 modify_stmt (stmt);
720 timevar_pop (TV_TREE_PTA);
724 /* Create name tags for all the pointers that have been dereferenced.
725 We only create a name tag for a pointer P if P is found to point to
726 a set of variables (so that we can alias them to *P) or if it is
727 the result of a call to malloc (which means that P cannot point to
728 anything else nor alias any other variable).
730 If two pointers P and Q point to the same set of variables, they
731 are assigned the same name tag. */
733 static void
734 create_name_tags (struct alias_info *ai)
736 size_t i;
738 for (i = 0; i < VARRAY_ACTIVE_SIZE (ai->processed_ptrs); i++)
740 tree ptr = VARRAY_TREE (ai->processed_ptrs, i);
741 struct ptr_info_def *pi = SSA_NAME_PTR_INFO (ptr);
743 if (pi->pt_anything || !pi->is_dereferenced)
745 /* No name tags for pointers that have not been
746 dereferenced or point to an arbitrary location. */
747 pi->name_mem_tag = NULL_TREE;
748 continue;
751 if (pi->pt_vars
752 && bitmap_first_set_bit (pi->pt_vars) >= 0)
754 size_t j;
755 tree old_name_tag = pi->name_mem_tag;
757 /* If PTR points to a set of variables, check if we don't
758 have another pointer Q with the same points-to set before
759 creating a tag. If so, use Q's tag instead of creating a
760 new one.
762 This is important for not creating unnecessary symbols
763 and also for copy propagation. If we ever need to
764 propagate PTR into Q or vice-versa, we would run into
765 problems if they both had different name tags because
766 they would have different SSA version numbers (which
767 would force us to take the name tags in and out of SSA). */
768 for (j = 0; j < i; j++)
770 tree q = VARRAY_TREE (ai->processed_ptrs, j);
771 struct ptr_info_def *qi = SSA_NAME_PTR_INFO (q);
773 if (qi
774 && qi->pt_vars
775 && qi->name_mem_tag
776 && bitmap_equal_p (pi->pt_vars, qi->pt_vars))
778 pi->name_mem_tag = qi->name_mem_tag;
779 break;
783 /* If we didn't find a pointer with the same points-to set
784 as PTR, create a new name tag if needed. */
785 if (pi->name_mem_tag == NULL_TREE)
786 pi->name_mem_tag = get_nmt_for (ptr);
788 /* If the new name tag computed for PTR is different than
789 the old name tag that it used to have, then the old tag
790 needs to be removed from the IL, so we mark it for
791 renaming. */
792 if (old_name_tag && old_name_tag != pi->name_mem_tag)
793 bitmap_set_bit (vars_to_rename, var_ann (old_name_tag)->uid);
795 else if (pi->pt_malloc)
797 /* Otherwise, create a unique name tag for this pointer. */
798 pi->name_mem_tag = get_nmt_for (ptr);
800 else
802 /* Only pointers that may point to malloc or other variables
803 may receive a name tag. If the pointer does not point to
804 a known spot, we should use type tags. */
805 set_pt_anything (ptr);
806 continue;
809 TREE_THIS_VOLATILE (pi->name_mem_tag)
810 |= TREE_THIS_VOLATILE (TREE_TYPE (TREE_TYPE (ptr)));
812 /* Mark the new name tag for renaming. */
813 bitmap_set_bit (vars_to_rename, var_ann (pi->name_mem_tag)->uid);
819 /* For every pointer P_i in AI->PROCESSED_PTRS, create may-alias sets for
820 the name memory tag (NMT) associated with P_i. If P_i escapes, then its
821 name tag and the variables it points-to are call-clobbered. Finally, if
822 P_i escapes and we could not determine where it points to, then all the
823 variables in the same alias set as *P_i are marked call-clobbered. This
824 is necessary because we must assume that P_i may take the address of any
825 variable in the same alias set. */
827 static void
828 compute_flow_sensitive_aliasing (struct alias_info *ai)
830 size_t i;
832 create_name_tags (ai);
834 for (i = 0; i < VARRAY_ACTIVE_SIZE (ai->processed_ptrs); i++)
836 size_t j;
837 tree ptr = VARRAY_TREE (ai->processed_ptrs, i);
838 struct ptr_info_def *pi = SSA_NAME_PTR_INFO (ptr);
839 var_ann_t v_ann = var_ann (SSA_NAME_VAR (ptr));
840 bitmap_iterator bi;
842 if (pi->value_escapes_p || pi->pt_anything)
844 /* If PTR escapes or may point to anything, then its associated
845 memory tags and pointed-to variables are call-clobbered. */
846 if (pi->name_mem_tag)
847 mark_call_clobbered (pi->name_mem_tag);
849 if (v_ann->type_mem_tag)
850 mark_call_clobbered (v_ann->type_mem_tag);
852 if (pi->pt_vars)
853 EXECUTE_IF_SET_IN_BITMAP (pi->pt_vars, 0, j, bi)
855 mark_call_clobbered (referenced_var (j));
859 /* Set up aliasing information for PTR's name memory tag (if it has
860 one). Note that only pointers that have been dereferenced will
861 have a name memory tag. */
862 if (pi->name_mem_tag && pi->pt_vars)
863 EXECUTE_IF_SET_IN_BITMAP (pi->pt_vars, 0, j, bi)
865 add_may_alias (pi->name_mem_tag, referenced_var (j));
868 /* If the name tag is call clobbered, so is the type tag
869 associated with the base VAR_DECL. */
870 if (pi->name_mem_tag
871 && v_ann->type_mem_tag
872 && is_call_clobbered (pi->name_mem_tag))
873 mark_call_clobbered (v_ann->type_mem_tag);
878 /* Compute type-based alias sets. Traverse all the pointers and
879 addressable variables found in setup_pointers_and_addressables.
881 For every pointer P in AI->POINTERS and addressable variable V in
882 AI->ADDRESSABLE_VARS, add V to the may-alias sets of P's type
883 memory tag (TMT) if their alias sets conflict. V is then marked as
884 an alias tag so that the operand scanner knows that statements
885 containing V have aliased operands. */
887 static void
888 compute_flow_insensitive_aliasing (struct alias_info *ai)
890 size_t i;
891 sbitmap res;
893 /* Initialize counter for the total number of virtual operands that
894 aliasing will introduce. When AI->TOTAL_ALIAS_VOPS goes beyond the
895 threshold set by --params max-alias-vops, we enable alias
896 grouping. */
897 ai->total_alias_vops = 0;
899 /* For every pointer P, determine which addressable variables may alias
900 with P's type memory tag. */
901 for (i = 0; i < ai->num_pointers; i++)
903 size_t j;
904 struct alias_map_d *p_map = ai->pointers[i];
905 tree tag = var_ann (p_map->var)->type_mem_tag;
906 var_ann_t tag_ann = var_ann (tag);
908 p_map->total_alias_vops = 0;
909 p_map->may_aliases = sbitmap_alloc (num_referenced_vars);
910 sbitmap_zero (p_map->may_aliases);
912 for (j = 0; j < ai->num_addressable_vars; j++)
914 struct alias_map_d *v_map;
915 var_ann_t v_ann;
916 tree var;
917 bool tag_stored_p, var_stored_p;
919 v_map = ai->addressable_vars[j];
920 var = v_map->var;
921 v_ann = var_ann (var);
923 /* Skip memory tags and variables that have never been
924 written to. We also need to check if the variables are
925 call-clobbered because they may be overwritten by
926 function calls. */
927 tag_stored_p = bitmap_bit_p (ai->written_vars, tag_ann->uid)
928 || is_call_clobbered (tag);
929 var_stored_p = bitmap_bit_p (ai->written_vars, v_ann->uid)
930 || is_call_clobbered (var);
931 if (!tag_stored_p && !var_stored_p)
932 continue;
934 if (may_alias_p (p_map->var, p_map->set, var, v_map->set))
936 size_t num_tag_refs, num_var_refs;
938 num_tag_refs = VARRAY_UINT (ai->num_references, tag_ann->uid);
939 num_var_refs = VARRAY_UINT (ai->num_references, v_ann->uid);
941 /* Add VAR to TAG's may-aliases set. */
942 add_may_alias (tag, var);
944 /* Update the total number of virtual operands due to
945 aliasing. Since we are adding one more alias to TAG's
946 may-aliases set, the total number of virtual operands due
947 to aliasing will be increased by the number of references
948 made to VAR and TAG (every reference to TAG will also
949 count as a reference to VAR). */
950 ai->total_alias_vops += (num_var_refs + num_tag_refs);
951 p_map->total_alias_vops += (num_var_refs + num_tag_refs);
953 /* Update the bitmap used to represent TAG's alias set
954 in case we need to group aliases. */
955 SET_BIT (p_map->may_aliases, var_ann (var)->uid);
960 /* Since this analysis is based exclusively on symbols, it fails to
961 handle cases where two pointers P and Q have different memory
962 tags with conflicting alias set numbers but no aliased symbols in
963 common.
965 For example, suppose that we have two memory tags TMT.1 and TMT.2
966 such that
968 may-aliases (TMT.1) = { a }
969 may-aliases (TMT.2) = { b }
971 and the alias set number of TMT.1 conflicts with that of TMT.2.
972 Since they don't have symbols in common, loads and stores from
973 TMT.1 and TMT.2 will seem independent of each other, which will
974 lead to the optimizers making invalid transformations (see
975 testsuite/gcc.c-torture/execute/pr15262-[12].c).
977 To avoid this problem, we do a final traversal of AI->POINTERS
978 looking for pairs of pointers that have no aliased symbols in
979 common and yet have conflicting alias set numbers. */
980 res = sbitmap_alloc (num_referenced_vars);
982 for (i = 0; i < ai->num_pointers; i++)
984 size_t j;
985 struct alias_map_d *p_map1 = ai->pointers[i];
986 tree tag1 = var_ann (p_map1->var)->type_mem_tag;
987 sbitmap may_aliases1 = p_map1->may_aliases;
989 for (j = i + 1; j < ai->num_pointers; j++)
991 struct alias_map_d *p_map2 = ai->pointers[j];
992 tree tag2 = var_ann (p_map2->var)->type_mem_tag;
993 sbitmap may_aliases2 = p_map2->may_aliases;
995 /* If the pointers may not point to each other, do nothing. */
996 if (!may_alias_p (p_map1->var, p_map1->set, p_map2->var, p_map2->set))
997 continue;
999 /* The two pointers may alias each other. If they already have
1000 symbols in common, do nothing. */
1001 sbitmap_a_and_b (res, may_aliases1, may_aliases2);
1002 if (sbitmap_first_set_bit (res) >= 0)
1003 continue;
1005 if (sbitmap_first_set_bit (may_aliases2) >= 0)
1007 size_t k;
1009 /* Add all the aliases for TAG2 into TAG1's alias set.
1010 FIXME, update grouping heuristic counters. */
1011 EXECUTE_IF_SET_IN_SBITMAP (may_aliases2, 0, k,
1012 add_may_alias (tag1, referenced_var (k)));
1013 sbitmap_a_or_b (may_aliases1, may_aliases1, may_aliases2);
1015 else
1017 /* Since TAG2 does not have any aliases of its own, add
1018 TAG2 itself to the alias set of TAG1. */
1019 add_may_alias (tag1, tag2);
1024 sbitmap_free (res);
1026 if (dump_file)
1027 fprintf (dump_file, "%s: Total number of aliased vops: %ld\n",
1028 get_name (current_function_decl),
1029 ai->total_alias_vops);
1031 /* Determine if we need to enable alias grouping. */
1032 if (ai->total_alias_vops >= MAX_ALIASED_VOPS)
1033 group_aliases (ai);
1037 /* Comparison function for qsort used in group_aliases. */
1039 static int
1040 total_alias_vops_cmp (const void *p, const void *q)
1042 const struct alias_map_d **p1 = (const struct alias_map_d **)p;
1043 const struct alias_map_d **p2 = (const struct alias_map_d **)q;
1044 long n1 = (*p1)->total_alias_vops;
1045 long n2 = (*p2)->total_alias_vops;
1047 /* We want to sort in descending order. */
1048 return (n1 > n2 ? -1 : (n1 == n2) ? 0 : 1);
1051 /* Group all the aliases for TAG to make TAG represent all the
1052 variables in its alias set. Update the total number
1053 of virtual operands due to aliasing (AI->TOTAL_ALIAS_VOPS). This
1054 function will make TAG be the unique alias tag for all the
1055 variables in its may-aliases. So, given:
1057 may-aliases(TAG) = { V1, V2, V3 }
1059 This function will group the variables into:
1061 may-aliases(V1) = { TAG }
1062 may-aliases(V2) = { TAG }
1063 may-aliases(V2) = { TAG } */
1065 static void
1066 group_aliases_into (tree tag, sbitmap tag_aliases, struct alias_info *ai)
1068 size_t i;
1069 var_ann_t tag_ann = var_ann (tag);
1070 size_t num_tag_refs = VARRAY_UINT (ai->num_references, tag_ann->uid);
1072 EXECUTE_IF_SET_IN_SBITMAP (tag_aliases, 0, i,
1074 tree var = referenced_var (i);
1075 var_ann_t ann = var_ann (var);
1077 /* Make TAG the unique alias of VAR. */
1078 ann->is_alias_tag = 0;
1079 ann->may_aliases = NULL;
1081 /* Note that VAR and TAG may be the same if the function has no
1082 addressable variables (see the discussion at the end of
1083 setup_pointers_and_addressables). */
1084 if (var != tag)
1085 add_may_alias (var, tag);
1087 /* Reduce total number of virtual operands contributed
1088 by TAG on behalf of VAR. Notice that the references to VAR
1089 itself won't be removed. We will merely replace them with
1090 references to TAG. */
1091 ai->total_alias_vops -= num_tag_refs;
1094 /* We have reduced the number of virtual operands that TAG makes on
1095 behalf of all the variables formerly aliased with it. However,
1096 we have also "removed" all the virtual operands for TAG itself,
1097 so we add them back. */
1098 ai->total_alias_vops += num_tag_refs;
1100 /* TAG no longer has any aliases. */
1101 tag_ann->may_aliases = NULL;
1105 /* Group may-aliases sets to reduce the number of virtual operands due
1106 to aliasing.
1108 1- Sort the list of pointers in decreasing number of contributed
1109 virtual operands.
1111 2- Take the first entry in AI->POINTERS and revert the role of
1112 the memory tag and its aliases. Usually, whenever an aliased
1113 variable Vi is found to alias with a memory tag T, we add Vi
1114 to the may-aliases set for T. Meaning that after alias
1115 analysis, we will have:
1117 may-aliases(T) = { V1, V2, V3, ..., Vn }
1119 This means that every statement that references T, will get 'n'
1120 virtual operands for each of the Vi tags. But, when alias
1121 grouping is enabled, we make T an alias tag and add it to the
1122 alias set of all the Vi variables:
1124 may-aliases(V1) = { T }
1125 may-aliases(V2) = { T }
1127 may-aliases(Vn) = { T }
1129 This has two effects: (a) statements referencing T will only get
1130 a single virtual operand, and, (b) all the variables Vi will now
1131 appear to alias each other. So, we lose alias precision to
1132 improve compile time. But, in theory, a program with such a high
1133 level of aliasing should not be very optimizable in the first
1134 place.
1136 3- Since variables may be in the alias set of more than one
1137 memory tag, the grouping done in step (2) needs to be extended
1138 to all the memory tags that have a non-empty intersection with
1139 the may-aliases set of tag T. For instance, if we originally
1140 had these may-aliases sets:
1142 may-aliases(T) = { V1, V2, V3 }
1143 may-aliases(R) = { V2, V4 }
1145 In step (2) we would have reverted the aliases for T as:
1147 may-aliases(V1) = { T }
1148 may-aliases(V2) = { T }
1149 may-aliases(V3) = { T }
1151 But note that now V2 is no longer aliased with R. We could
1152 add R to may-aliases(V2), but we are in the process of
1153 grouping aliases to reduce virtual operands so what we do is
1154 add V4 to the grouping to obtain:
1156 may-aliases(V1) = { T }
1157 may-aliases(V2) = { T }
1158 may-aliases(V3) = { T }
1159 may-aliases(V4) = { T }
1161 4- If the total number of virtual operands due to aliasing is
1162 still above the threshold set by max-alias-vops, go back to (2). */
1164 static void
1165 group_aliases (struct alias_info *ai)
1167 size_t i;
1168 sbitmap res;
1170 /* Sort the POINTERS array in descending order of contributed
1171 virtual operands. */
1172 qsort (ai->pointers, ai->num_pointers, sizeof (struct alias_map_d *),
1173 total_alias_vops_cmp);
1175 res = sbitmap_alloc (num_referenced_vars);
1177 /* For every pointer in AI->POINTERS, reverse the roles of its tag
1178 and the tag's may-aliases set. */
1179 for (i = 0; i < ai->num_pointers; i++)
1181 size_t j;
1182 tree tag1 = var_ann (ai->pointers[i]->var)->type_mem_tag;
1183 sbitmap tag1_aliases = ai->pointers[i]->may_aliases;
1185 /* Skip tags that have been grouped already. */
1186 if (ai->pointers[i]->grouped_p)
1187 continue;
1189 /* See if TAG1 had any aliases in common with other type tags.
1190 If we find a TAG2 with common aliases with TAG1, add TAG2's
1191 aliases into TAG1. */
1192 for (j = i + 1; j < ai->num_pointers; j++)
1194 sbitmap tag2_aliases = ai->pointers[j]->may_aliases;
1196 sbitmap_a_and_b (res, tag1_aliases, tag2_aliases);
1197 if (sbitmap_first_set_bit (res) >= 0)
1199 tree tag2 = var_ann (ai->pointers[j]->var)->type_mem_tag;
1201 sbitmap_a_or_b (tag1_aliases, tag1_aliases, tag2_aliases);
1203 /* TAG2 does not need its aliases anymore. */
1204 sbitmap_zero (tag2_aliases);
1205 var_ann (tag2)->may_aliases = NULL;
1207 /* TAG1 is the unique alias of TAG2. */
1208 add_may_alias (tag2, tag1);
1210 ai->pointers[j]->grouped_p = true;
1214 /* Now group all the aliases we collected into TAG1. */
1215 group_aliases_into (tag1, tag1_aliases, ai);
1217 /* If we've reduced total number of virtual operands below the
1218 threshold, stop. */
1219 if (ai->total_alias_vops < MAX_ALIASED_VOPS)
1220 break;
1223 /* Finally, all the variables that have been grouped cannot be in
1224 the may-alias set of name memory tags. Suppose that we have
1225 grouped the aliases in this code so that may-aliases(a) = TMT.20
1227 p_5 = &a;
1229 # a_9 = V_MAY_DEF <a_8>
1230 p_5->field = 0
1231 ... Several modifications to TMT.20 ...
1232 # VUSE <a_9>
1233 x_30 = p_5->field
1235 Since p_5 points to 'a', the optimizers will try to propagate 0
1236 into p_5->field, but that is wrong because there have been
1237 modifications to 'TMT.20' in between. To prevent this we have to
1238 replace 'a' with 'TMT.20' in the name tag of p_5. */
1239 for (i = 0; i < VARRAY_ACTIVE_SIZE (ai->processed_ptrs); i++)
1241 size_t j;
1242 tree ptr = VARRAY_TREE (ai->processed_ptrs, i);
1243 tree name_tag = SSA_NAME_PTR_INFO (ptr)->name_mem_tag;
1244 varray_type aliases;
1246 if (name_tag == NULL_TREE)
1247 continue;
1249 aliases = var_ann (name_tag)->may_aliases;
1250 for (j = 0; aliases && j < VARRAY_ACTIVE_SIZE (aliases); j++)
1252 tree alias = VARRAY_TREE (aliases, j);
1253 var_ann_t ann = var_ann (alias);
1255 if (ann->mem_tag_kind == NOT_A_TAG && ann->may_aliases)
1257 tree new_alias;
1259 gcc_assert (VARRAY_ACTIVE_SIZE (ann->may_aliases) == 1);
1261 new_alias = VARRAY_TREE (ann->may_aliases, 0);
1262 replace_may_alias (name_tag, j, new_alias);
1267 sbitmap_free (res);
1269 if (dump_file)
1270 fprintf (dump_file,
1271 "%s: Total number of aliased vops after grouping: %ld%s\n",
1272 get_name (current_function_decl),
1273 ai->total_alias_vops,
1274 (ai->total_alias_vops < 0) ? " (negative values are OK)" : "");
1278 /* Create a new alias set entry for VAR in AI->ADDRESSABLE_VARS. */
1280 static void
1281 create_alias_map_for (tree var, struct alias_info *ai)
1283 struct alias_map_d *alias_map;
1284 alias_map = xcalloc (1, sizeof (*alias_map));
1285 alias_map->var = var;
1286 alias_map->set = get_alias_set (var);
1287 ai->addressable_vars[ai->num_addressable_vars++] = alias_map;
1291 /* Create memory tags for all the dereferenced pointers and build the
1292 ADDRESSABLE_VARS and POINTERS arrays used for building the may-alias
1293 sets. Based on the address escape and points-to information collected
1294 earlier, this pass will also clear the TREE_ADDRESSABLE flag from those
1295 variables whose address is not needed anymore. */
1297 static void
1298 setup_pointers_and_addressables (struct alias_info *ai)
1300 size_t i, n_vars, num_addressable_vars, num_pointers;
1302 /* Size up the arrays ADDRESSABLE_VARS and POINTERS. */
1303 num_addressable_vars = num_pointers = 0;
1304 for (i = 0; i < num_referenced_vars; i++)
1306 tree var = referenced_var (i);
1308 if (may_be_aliased (var))
1309 num_addressable_vars++;
1311 if (POINTER_TYPE_P (TREE_TYPE (var)))
1313 /* Since we don't keep track of volatile variables, assume that
1314 these pointers are used in indirect store operations. */
1315 if (TREE_THIS_VOLATILE (var))
1316 bitmap_set_bit (ai->dereferenced_ptrs_store, var_ann (var)->uid);
1318 num_pointers++;
1322 /* Create ADDRESSABLE_VARS and POINTERS. Note that these arrays are
1323 always going to be slightly bigger than we actually need them
1324 because some TREE_ADDRESSABLE variables will be marked
1325 non-addressable below and only pointers with unique type tags are
1326 going to be added to POINTERS. */
1327 ai->addressable_vars = xcalloc (num_addressable_vars,
1328 sizeof (struct alias_map_d *));
1329 ai->pointers = xcalloc (num_pointers, sizeof (struct alias_map_d *));
1330 ai->num_addressable_vars = 0;
1331 ai->num_pointers = 0;
1333 /* Since we will be creating type memory tags within this loop, cache the
1334 value of NUM_REFERENCED_VARS to avoid processing the additional tags
1335 unnecessarily. */
1336 n_vars = num_referenced_vars;
1338 for (i = 0; i < n_vars; i++)
1340 tree var = referenced_var (i);
1341 var_ann_t v_ann = var_ann (var);
1343 /* Name memory tags already have flow-sensitive aliasing
1344 information, so they need not be processed by
1345 compute_flow_insensitive_aliasing. Similarly, type memory
1346 tags are already accounted for when we process their
1347 associated pointer. */
1348 if (v_ann->mem_tag_kind != NOT_A_TAG)
1349 continue;
1351 /* Remove the ADDRESSABLE flag from every addressable variable whose
1352 address is not needed anymore. This is caused by the propagation
1353 of ADDR_EXPR constants into INDIRECT_REF expressions and the
1354 removal of dead pointer assignments done by the early scalar
1355 cleanup passes. */
1356 if (TREE_ADDRESSABLE (var))
1358 if (!bitmap_bit_p (ai->addresses_needed, v_ann->uid)
1359 && v_ann->mem_tag_kind == NOT_A_TAG
1360 && TREE_CODE (var) != RESULT_DECL
1361 && !is_global_var (var))
1363 /* The address of VAR is not needed, remove the
1364 addressable bit, so that it can be optimized as a
1365 regular variable. */
1366 mark_non_addressable (var);
1368 /* Since VAR is now a regular GIMPLE register, we will need
1369 to rename VAR into SSA afterwards. */
1370 bitmap_set_bit (vars_to_rename, v_ann->uid);
1372 else
1374 /* Add the variable to the set of addressables. Mostly
1375 used when scanning operands for ASM_EXPRs that
1376 clobber memory. In those cases, we need to clobber
1377 all call-clobbered variables and all addressables. */
1378 bitmap_set_bit (addressable_vars, v_ann->uid);
1382 /* Global variables and addressable locals may be aliased. Create an
1383 entry in ADDRESSABLE_VARS for VAR. */
1384 if (may_be_aliased (var))
1386 create_alias_map_for (var, ai);
1387 bitmap_set_bit (vars_to_rename, var_ann (var)->uid);
1390 /* Add pointer variables that have been dereferenced to the POINTERS
1391 array and create a type memory tag for them. */
1392 if (POINTER_TYPE_P (TREE_TYPE (var)))
1394 if ((bitmap_bit_p (ai->dereferenced_ptrs_store, v_ann->uid)
1395 || bitmap_bit_p (ai->dereferenced_ptrs_load, v_ann->uid)))
1397 tree tag;
1398 var_ann_t t_ann;
1400 /* If pointer VAR still doesn't have a memory tag
1401 associated with it, create it now or re-use an
1402 existing one. */
1403 tag = get_tmt_for (var, ai);
1404 t_ann = var_ann (tag);
1406 /* The type tag will need to be renamed into SSA
1407 afterwards. Note that we cannot do this inside
1408 get_tmt_for because aliasing may run multiple times
1409 and we only create type tags the first time. */
1410 bitmap_set_bit (vars_to_rename, t_ann->uid);
1412 /* Associate the tag with pointer VAR. */
1413 v_ann->type_mem_tag = tag;
1415 /* If pointer VAR has been used in a store operation,
1416 then its memory tag must be marked as written-to. */
1417 if (bitmap_bit_p (ai->dereferenced_ptrs_store, v_ann->uid))
1418 bitmap_set_bit (ai->written_vars, t_ann->uid);
1420 /* If pointer VAR is a global variable or a PARM_DECL,
1421 then its memory tag should be considered a global
1422 variable. */
1423 if (TREE_CODE (var) == PARM_DECL || is_global_var (var))
1424 mark_call_clobbered (tag);
1426 /* All the dereferences of pointer VAR count as
1427 references of TAG. Since TAG can be associated with
1428 several pointers, add the dereferences of VAR to the
1429 TAG. We may need to grow AI->NUM_REFERENCES because
1430 we have been adding name and type tags. */
1431 if (t_ann->uid >= VARRAY_SIZE (ai->num_references))
1432 VARRAY_GROW (ai->num_references, t_ann->uid + 10);
1434 VARRAY_UINT (ai->num_references, t_ann->uid)
1435 += VARRAY_UINT (ai->num_references, v_ann->uid);
1437 else
1439 /* The pointer has not been dereferenced. If it had a
1440 type memory tag, remove it and mark the old tag for
1441 renaming to remove it out of the IL. */
1442 var_ann_t ann = var_ann (var);
1443 tree tag = ann->type_mem_tag;
1444 if (tag)
1446 bitmap_set_bit (vars_to_rename, var_ann (tag)->uid);
1447 ann->type_mem_tag = NULL_TREE;
1455 /* Determine whether to use .GLOBAL_VAR to model call clobbering semantics. At
1456 every call site, we need to emit V_MAY_DEF expressions to represent the
1457 clobbering effects of the call for variables whose address escapes the
1458 current function.
1460 One approach is to group all call-clobbered variables into a single
1461 representative that is used as an alias of every call-clobbered variable
1462 (.GLOBAL_VAR). This works well, but it ties the optimizer hands because
1463 references to any call clobbered variable is a reference to .GLOBAL_VAR.
1465 The second approach is to emit a clobbering V_MAY_DEF for every
1466 call-clobbered variable at call sites. This is the preferred way in terms
1467 of optimization opportunities but it may create too many V_MAY_DEF operands
1468 if there are many call clobbered variables and function calls in the
1469 function.
1471 To decide whether or not to use .GLOBAL_VAR we multiply the number of
1472 function calls found by the number of call-clobbered variables. If that
1473 product is beyond a certain threshold, as determined by the parameterized
1474 values shown below, we use .GLOBAL_VAR.
1476 FIXME. This heuristic should be improved. One idea is to use several
1477 .GLOBAL_VARs of different types instead of a single one. The thresholds
1478 have been derived from a typical bootstrap cycle, including all target
1479 libraries. Compile times were found increase by ~1% compared to using
1480 .GLOBAL_VAR. */
1482 static void
1483 maybe_create_global_var (struct alias_info *ai)
1485 size_t i, n_clobbered;
1486 bitmap_iterator bi;
1488 /* No need to create it, if we have one already. */
1489 if (global_var == NULL_TREE)
1491 /* Count all the call-clobbered variables. */
1492 n_clobbered = 0;
1493 EXECUTE_IF_SET_IN_BITMAP (call_clobbered_vars, 0, i, bi)
1495 n_clobbered++;
1498 /* Create .GLOBAL_VAR if we have too many call-clobbered
1499 variables. We also create .GLOBAL_VAR when there no
1500 call-clobbered variables to prevent code motion
1501 transformations from re-arranging function calls that may
1502 have side effects. For instance,
1504 foo ()
1506 int a = f ();
1507 g ();
1508 h (a);
1511 There are no call-clobbered variables in foo(), so it would
1512 be entirely possible for a pass to want to move the call to
1513 f() after the call to g(). If f() has side effects, that
1514 would be wrong. Creating .GLOBAL_VAR in this case will
1515 insert VDEFs for it and prevent such transformations. */
1516 if (n_clobbered == 0
1517 || ai->num_calls_found * n_clobbered >= (size_t) GLOBAL_VAR_THRESHOLD)
1518 create_global_var ();
1521 /* If the function has calls to clobbering functions and .GLOBAL_VAR has
1522 been created, make it an alias for all call-clobbered variables. */
1523 if (global_var)
1524 EXECUTE_IF_SET_IN_BITMAP (call_clobbered_vars, 0, i, bi)
1526 tree var = referenced_var (i);
1527 if (var != global_var)
1529 add_may_alias (var, global_var);
1530 bitmap_set_bit (vars_to_rename, var_ann (var)->uid);
1536 /* Return TRUE if pointer PTR may point to variable VAR.
1538 MEM_ALIAS_SET is the alias set for the memory location pointed-to by PTR
1539 This is needed because when checking for type conflicts we are
1540 interested in the alias set of the memory location pointed-to by
1541 PTR. The alias set of PTR itself is irrelevant.
1543 VAR_ALIAS_SET is the alias set for VAR. */
1545 static bool
1546 may_alias_p (tree ptr, HOST_WIDE_INT mem_alias_set,
1547 tree var, HOST_WIDE_INT var_alias_set)
1549 tree mem;
1550 var_ann_t v_ann, m_ann;
1552 alias_stats.alias_queries++;
1553 alias_stats.simple_queries++;
1555 /* By convention, a variable cannot alias itself. */
1556 mem = var_ann (ptr)->type_mem_tag;
1557 if (mem == var)
1559 alias_stats.alias_noalias++;
1560 alias_stats.simple_resolved++;
1561 return false;
1564 v_ann = var_ann (var);
1565 m_ann = var_ann (mem);
1567 gcc_assert (m_ann->mem_tag_kind == TYPE_TAG);
1569 alias_stats.tbaa_queries++;
1571 /* If VAR is a pointer with the same alias set as PTR, then dereferencing
1572 PTR can't possibly affect VAR. Note, that we are specifically testing
1573 for PTR's alias set here, not its pointed-to type. We also can't
1574 do this check with relaxed aliasing enabled. */
1575 if (POINTER_TYPE_P (TREE_TYPE (var))
1576 && var_alias_set != 0
1577 && mem_alias_set != 0)
1579 HOST_WIDE_INT ptr_alias_set = get_alias_set (ptr);
1580 if (ptr_alias_set == var_alias_set)
1582 alias_stats.alias_noalias++;
1583 alias_stats.tbaa_resolved++;
1584 return false;
1588 /* If the alias sets don't conflict then MEM cannot alias VAR. */
1589 if (!alias_sets_conflict_p (mem_alias_set, var_alias_set))
1591 alias_stats.alias_noalias++;
1592 alias_stats.tbaa_resolved++;
1593 return false;
1596 alias_stats.alias_mayalias++;
1597 return true;
1601 /* Add ALIAS to the set of variables that may alias VAR. */
1603 static void
1604 add_may_alias (tree var, tree alias)
1606 size_t i;
1607 var_ann_t v_ann = get_var_ann (var);
1608 var_ann_t a_ann = get_var_ann (alias);
1610 gcc_assert (var != alias);
1612 if (v_ann->may_aliases == NULL)
1613 VARRAY_TREE_INIT (v_ann->may_aliases, 2, "aliases");
1615 /* Avoid adding duplicates. */
1616 for (i = 0; i < VARRAY_ACTIVE_SIZE (v_ann->may_aliases); i++)
1617 if (alias == VARRAY_TREE (v_ann->may_aliases, i))
1618 return;
1620 /* If VAR is a call-clobbered variable, so is its new ALIAS.
1621 FIXME, call-clobbering should only depend on whether an address
1622 escapes. It should be independent of aliasing. */
1623 if (is_call_clobbered (var))
1624 mark_call_clobbered (alias);
1626 /* Likewise. If ALIAS is call-clobbered, so is VAR. */
1627 else if (is_call_clobbered (alias))
1628 mark_call_clobbered (var);
1630 VARRAY_PUSH_TREE (v_ann->may_aliases, alias);
1631 a_ann->is_alias_tag = 1;
1635 /* Replace alias I in the alias sets of VAR with NEW_ALIAS. */
1637 static void
1638 replace_may_alias (tree var, size_t i, tree new_alias)
1640 var_ann_t v_ann = var_ann (var);
1641 VARRAY_TREE (v_ann->may_aliases, i) = new_alias;
1643 /* If VAR is a call-clobbered variable, so is NEW_ALIAS.
1644 FIXME, call-clobbering should only depend on whether an address
1645 escapes. It should be independent of aliasing. */
1646 if (is_call_clobbered (var))
1647 mark_call_clobbered (new_alias);
1649 /* Likewise. If NEW_ALIAS is call-clobbered, so is VAR. */
1650 else if (is_call_clobbered (new_alias))
1651 mark_call_clobbered (var);
1655 /* Mark pointer PTR as pointing to an arbitrary memory location. */
1657 static void
1658 set_pt_anything (tree ptr)
1660 struct ptr_info_def *pi = get_ptr_info (ptr);
1662 pi->pt_anything = 1;
1663 pi->pt_malloc = 0;
1665 /* The pointer used to have a name tag, but we now found it pointing
1666 to an arbitrary location. The name tag needs to be renamed and
1667 disassociated from PTR. */
1668 if (pi->name_mem_tag)
1670 bitmap_set_bit (vars_to_rename, var_ann (pi->name_mem_tag)->uid);
1671 pi->name_mem_tag = NULL_TREE;
1676 /* Mark pointer PTR as pointing to a malloc'd memory area. */
1678 static void
1679 set_pt_malloc (tree ptr)
1681 struct ptr_info_def *pi = SSA_NAME_PTR_INFO (ptr);
1683 /* If the pointer has already been found to point to arbitrary
1684 memory locations, it is unsafe to mark it as pointing to malloc. */
1685 if (pi->pt_anything)
1686 return;
1688 pi->pt_malloc = 1;
1692 /* Given two pointers DEST and ORIG. Merge the points-to information in
1693 ORIG into DEST. AI is as in collect_points_to_info. */
1695 static void
1696 merge_pointed_to_info (struct alias_info *ai, tree dest, tree orig)
1698 struct ptr_info_def *dest_pi, *orig_pi;
1700 /* Make sure we have points-to information for ORIG. */
1701 collect_points_to_info_for (ai, orig);
1703 dest_pi = get_ptr_info (dest);
1704 orig_pi = SSA_NAME_PTR_INFO (orig);
1706 if (orig_pi)
1708 /* Notice that we never merge PT_MALLOC. This attribute is only
1709 true if the pointer is the result of a malloc() call.
1710 Otherwise, we can end up in this situation:
1712 P_i = malloc ();
1714 P_j = P_i + X;
1716 P_j would be marked as PT_MALLOC, which is wrong because
1717 PT_MALLOC implies that the pointer may not point to another
1718 variable.
1720 FIXME 1: Subsequent analysis may determine that P_j
1721 cannot alias anything else, but we are being conservative
1722 here.
1724 FIXME 2: If the merging comes from a copy assignment, we
1725 ought to merge PT_MALLOC, but then both pointers would end up
1726 getting different name tags because create_name_tags is not
1727 smart enough to determine that the two come from the same
1728 malloc call. Copy propagation before aliasing should cure
1729 this. */
1730 dest_pi->pt_malloc = 0;
1732 if (orig_pi->pt_malloc || orig_pi->pt_anything)
1733 set_pt_anything (dest);
1735 if (!dest_pi->pt_anything
1736 && orig_pi->pt_vars
1737 && bitmap_first_set_bit (orig_pi->pt_vars) >= 0)
1739 if (dest_pi->pt_vars == NULL)
1741 dest_pi->pt_vars = BITMAP_GGC_ALLOC ();
1742 bitmap_copy (dest_pi->pt_vars, orig_pi->pt_vars);
1744 else
1745 bitmap_a_or_b (dest_pi->pt_vars,
1746 dest_pi->pt_vars,
1747 orig_pi->pt_vars);
1750 else
1751 set_pt_anything (dest);
1755 /* Add EXPR to the list of expressions pointed-to by PTR. */
1757 static void
1758 add_pointed_to_expr (struct alias_info *ai, tree ptr, tree expr)
1760 if (TREE_CODE (expr) == WITH_SIZE_EXPR)
1761 expr = TREE_OPERAND (expr, 0);
1763 get_ptr_info (ptr);
1765 if (TREE_CODE (expr) == CALL_EXPR
1766 && (call_expr_flags (expr) & (ECF_MALLOC | ECF_MAY_BE_ALLOCA)))
1768 /* If EXPR is a malloc-like call, then the area pointed to PTR
1769 is guaranteed to not alias with anything else. */
1770 set_pt_malloc (ptr);
1772 else if (TREE_CODE (expr) == ADDR_EXPR)
1774 /* Found P_i = ADDR_EXPR */
1775 add_pointed_to_var (ai, ptr, expr);
1777 else if (TREE_CODE (expr) == SSA_NAME && POINTER_TYPE_P (TREE_TYPE (expr)))
1779 /* Found P_i = Q_j. */
1780 merge_pointed_to_info (ai, ptr, expr);
1782 else if (TREE_CODE (expr) == PLUS_EXPR || TREE_CODE (expr) == MINUS_EXPR)
1784 /* Found P_i = PLUS_EXPR or P_i = MINUS_EXPR */
1785 tree op0 = TREE_OPERAND (expr, 0);
1786 tree op1 = TREE_OPERAND (expr, 1);
1788 /* Both operands may be of pointer type. FIXME: Shouldn't
1789 we just expect PTR + OFFSET always? */
1790 if (POINTER_TYPE_P (TREE_TYPE (op0))
1791 && TREE_CODE (op0) != INTEGER_CST)
1793 if (TREE_CODE (op0) == SSA_NAME)
1794 merge_pointed_to_info (ai, ptr, op0);
1795 else if (TREE_CODE (op0) == ADDR_EXPR)
1796 add_pointed_to_var (ai, ptr, op0);
1797 else
1798 set_pt_anything (ptr);
1801 if (POINTER_TYPE_P (TREE_TYPE (op1))
1802 && TREE_CODE (op1) != INTEGER_CST)
1804 if (TREE_CODE (op1) == SSA_NAME)
1805 merge_pointed_to_info (ai, ptr, op1);
1806 else if (TREE_CODE (op1) == ADDR_EXPR)
1807 add_pointed_to_var (ai, ptr, op1);
1808 else
1809 set_pt_anything (ptr);
1812 /* Neither operand is a pointer? VAR can be pointing anywhere.
1813 FIXME: Shouldn't we abort here? If we get here, we found
1814 PTR = INT_CST + INT_CST, which should not be a valid pointer
1815 expression. */
1816 if (!(POINTER_TYPE_P (TREE_TYPE (op0))
1817 && TREE_CODE (op0) != INTEGER_CST)
1818 && !(POINTER_TYPE_P (TREE_TYPE (op1))
1819 && TREE_CODE (op1) != INTEGER_CST))
1820 set_pt_anything (ptr);
1822 else
1824 /* If we can't recognize the expression, assume that PTR may
1825 point anywhere. */
1826 set_pt_anything (ptr);
1831 /* If VALUE is of the form &DECL, add DECL to the set of variables
1832 pointed-to by PTR. Otherwise, add VALUE as a pointed-to expression by
1833 PTR. AI is as in collect_points_to_info. */
1835 static void
1836 add_pointed_to_var (struct alias_info *ai, tree ptr, tree value)
1838 struct ptr_info_def *pi = get_ptr_info (ptr);
1839 tree pt_var;
1840 size_t uid;
1842 gcc_assert (TREE_CODE (value) == ADDR_EXPR);
1844 pt_var = TREE_OPERAND (value, 0);
1845 if (REFERENCE_CLASS_P (pt_var))
1846 pt_var = get_base_address (pt_var);
1848 if (pt_var && SSA_VAR_P (pt_var))
1850 uid = var_ann (pt_var)->uid;
1851 bitmap_set_bit (ai->addresses_needed, uid);
1853 if (pi->pt_vars == NULL)
1854 pi->pt_vars = BITMAP_GGC_ALLOC ();
1855 bitmap_set_bit (pi->pt_vars, uid);
1857 /* If the variable is a global, mark the pointer as pointing to
1858 global memory (which will make its tag a global variable). */
1859 if (is_global_var (pt_var))
1860 pi->pt_global_mem = 1;
1865 /* Callback for walk_use_def_chains to gather points-to information from the
1866 SSA web.
1868 VAR is an SSA variable or a GIMPLE expression.
1870 STMT is the statement that generates the SSA variable or, if STMT is a
1871 PHI_NODE, VAR is one of the PHI arguments.
1873 DATA is a pointer to a structure of type ALIAS_INFO. */
1875 static bool
1876 collect_points_to_info_r (tree var, tree stmt, void *data)
1878 struct alias_info *ai = (struct alias_info *) data;
1880 if (dump_file && (dump_flags & TDF_DETAILS))
1882 fprintf (dump_file, "Visiting use-def links for ");
1883 print_generic_expr (dump_file, var, dump_flags);
1884 fprintf (dump_file, "\n");
1887 switch (TREE_CODE (stmt))
1889 case RETURN_EXPR:
1890 if (TREE_CODE (TREE_OPERAND (stmt, 0)) != MODIFY_EXPR)
1891 abort ();
1892 stmt = TREE_OPERAND (stmt, 0);
1893 /* FALLTHRU */
1895 case MODIFY_EXPR:
1897 tree rhs = TREE_OPERAND (stmt, 1);
1898 STRIP_NOPS (rhs);
1899 add_pointed_to_expr (ai, var, rhs);
1900 break;
1903 case ASM_EXPR:
1904 /* Pointers defined by __asm__ statements can point anywhere. */
1905 set_pt_anything (var);
1906 break;
1908 case NOP_EXPR:
1909 if (IS_EMPTY_STMT (stmt))
1911 tree decl = SSA_NAME_VAR (var);
1913 if (TREE_CODE (decl) == PARM_DECL)
1914 add_pointed_to_expr (ai, var, decl);
1915 else if (DECL_INITIAL (decl))
1916 add_pointed_to_expr (ai, var, DECL_INITIAL (decl));
1917 else
1918 add_pointed_to_expr (ai, var, decl);
1920 break;
1922 case PHI_NODE:
1924 /* It STMT is a PHI node, then VAR is one of its arguments. The
1925 variable that we are analyzing is the LHS of the PHI node. */
1926 tree lhs = PHI_RESULT (stmt);
1928 switch (TREE_CODE (var))
1930 case ADDR_EXPR:
1931 add_pointed_to_var (ai, lhs, var);
1932 break;
1934 case SSA_NAME:
1935 merge_pointed_to_info (ai, lhs, var);
1936 break;
1938 default:
1939 gcc_assert (is_gimple_min_invariant (var));
1940 add_pointed_to_expr (ai, lhs, var);
1941 break;
1943 break;
1946 default:
1947 gcc_unreachable ();
1950 return false;
1954 /* Return true if STMT is an "escape" site from the current function. Escape
1955 sites those statements which might expose the address of a variable
1956 outside the current function. STMT is an escape site iff:
1958 1- STMT is a function call, or
1959 2- STMT is an __asm__ expression, or
1960 3- STMT is an assignment to a non-local variable, or
1961 4- STMT is a return statement.
1963 If NUM_CALLS_P is not NULL, the counter is incremented if STMT contains
1964 a function call. */
1966 static bool
1967 is_escape_site (tree stmt, size_t *num_calls_p)
1969 if (get_call_expr_in (stmt) != NULL_TREE)
1971 if (num_calls_p)
1972 (*num_calls_p)++;
1974 return true;
1976 else if (TREE_CODE (stmt) == ASM_EXPR)
1977 return true;
1978 else if (TREE_CODE (stmt) == MODIFY_EXPR)
1980 tree lhs = TREE_OPERAND (stmt, 0);
1982 /* Get to the base of _REF nodes. */
1983 if (TREE_CODE (lhs) != SSA_NAME)
1984 lhs = get_base_address (lhs);
1986 /* If we couldn't recognize the LHS of the assignment, assume that it
1987 is a non-local store. */
1988 if (lhs == NULL_TREE)
1989 return true;
1991 /* If the LHS is an SSA name, it can't possibly represent a non-local
1992 memory store. */
1993 if (TREE_CODE (lhs) == SSA_NAME)
1994 return false;
1996 /* FIXME: LHS is not an SSA_NAME. Even if it's an assignment to a
1997 local variables we cannot be sure if it will escape, because we
1998 don't have information about objects not in SSA form. Need to
1999 implement something along the lines of
2001 J.-D. Choi, M. Gupta, M. J. Serrano, V. C. Sreedhar, and S. P.
2002 Midkiff, ``Escape analysis for java,'' in Proceedings of the
2003 Conference on Object-Oriented Programming Systems, Languages, and
2004 Applications (OOPSLA), pp. 1-19, 1999. */
2005 return true;
2007 else if (TREE_CODE (stmt) == RETURN_EXPR)
2008 return true;
2010 return false;
2014 /* Create a new memory tag of type TYPE. If IS_TYPE_TAG is true, the tag
2015 is considered to represent all the pointers whose pointed-to types are
2016 in the same alias set class. Otherwise, the tag represents a single
2017 SSA_NAME pointer variable. */
2019 static tree
2020 create_memory_tag (tree type, bool is_type_tag)
2022 var_ann_t ann;
2023 tree tag = create_tmp_var_raw (type, (is_type_tag) ? "TMT" : "NMT");
2025 /* By default, memory tags are local variables. Alias analysis will
2026 determine whether they should be considered globals. */
2027 DECL_CONTEXT (tag) = current_function_decl;
2029 /* Memory tags are by definition addressable. This also prevents
2030 is_gimple_ref frome confusing memory tags with optimizable
2031 variables. */
2032 TREE_ADDRESSABLE (tag) = 1;
2034 ann = get_var_ann (tag);
2035 ann->mem_tag_kind = (is_type_tag) ? TYPE_TAG : NAME_TAG;
2036 ann->type_mem_tag = NULL_TREE;
2038 /* Add the tag to the symbol table. */
2039 add_referenced_tmp_var (tag);
2041 return tag;
2045 /* Create a name memory tag to represent a specific SSA_NAME pointer P_i.
2046 This is used if P_i has been found to point to a specific set of
2047 variables or to a non-aliased memory location like the address returned
2048 by malloc functions. */
2050 static tree
2051 get_nmt_for (tree ptr)
2053 struct ptr_info_def *pi = get_ptr_info (ptr);
2054 tree tag = pi->name_mem_tag;
2056 if (tag == NULL_TREE)
2057 tag = create_memory_tag (TREE_TYPE (TREE_TYPE (ptr)), false);
2059 /* If PTR is a PARM_DECL, it points to a global variable or malloc,
2060 then its name tag should be considered a global variable. */
2061 if (TREE_CODE (SSA_NAME_VAR (ptr)) == PARM_DECL
2062 || pi->pt_malloc
2063 || pi->pt_global_mem)
2064 mark_call_clobbered (tag);
2066 return tag;
2070 /* Return the type memory tag associated to pointer PTR. A memory tag is an
2071 artificial variable that represents the memory location pointed-to by
2072 PTR. It is used to model the effects of pointer de-references on
2073 addressable variables.
2075 AI points to the data gathered during alias analysis. This function
2076 populates the array AI->POINTERS. */
2078 static tree
2079 get_tmt_for (tree ptr, struct alias_info *ai)
2081 size_t i;
2082 tree tag;
2083 tree tag_type = TREE_TYPE (TREE_TYPE (ptr));
2084 HOST_WIDE_INT tag_set = get_alias_set (tag_type);
2086 /* To avoid creating unnecessary memory tags, only create one memory tag
2087 per alias set class. Note that it may be tempting to group
2088 memory tags based on conflicting alias sets instead of
2089 equivalence. That would be wrong because alias sets are not
2090 necessarily transitive (as demonstrated by the libstdc++ test
2091 23_containers/vector/cons/4.cc). Given three alias sets A, B, C
2092 such that conflicts (A, B) == true and conflicts (A, C) == true,
2093 it does not necessarily follow that conflicts (B, C) == true. */
2094 for (i = 0, tag = NULL_TREE; i < ai->num_pointers; i++)
2096 struct alias_map_d *curr = ai->pointers[i];
2097 if (tag_set == curr->set)
2099 tag = var_ann (curr->var)->type_mem_tag;
2100 break;
2104 /* If VAR cannot alias with any of the existing memory tags, create a new
2105 tag for PTR and add it to the POINTERS array. */
2106 if (tag == NULL_TREE)
2108 struct alias_map_d *alias_map;
2110 /* If PTR did not have a type tag already, create a new TMT.*
2111 artificial variable representing the memory location
2112 pointed-to by PTR. */
2113 if (var_ann (ptr)->type_mem_tag == NULL_TREE)
2114 tag = create_memory_tag (tag_type, true);
2115 else
2116 tag = var_ann (ptr)->type_mem_tag;
2118 /* Add PTR to the POINTERS array. Note that we are not interested in
2119 PTR's alias set. Instead, we cache the alias set for the memory that
2120 PTR points to. */
2121 alias_map = xcalloc (1, sizeof (*alias_map));
2122 alias_map->var = ptr;
2123 alias_map->set = tag_set;
2124 ai->pointers[ai->num_pointers++] = alias_map;
2127 /* If the pointed-to type is volatile, so is the tag. */
2128 TREE_THIS_VOLATILE (tag) |= TREE_THIS_VOLATILE (tag_type);
2130 /* Make sure that the type tag has the same alias set as the
2131 pointed-to type. */
2132 gcc_assert (tag_set == get_alias_set (tag));
2134 return tag;
2138 /* Create GLOBAL_VAR, an artificial global variable to act as a
2139 representative of all the variables that may be clobbered by function
2140 calls. */
2142 static void
2143 create_global_var (void)
2145 global_var = build_decl (VAR_DECL, get_identifier (".GLOBAL_VAR"),
2146 size_type_node);
2147 DECL_ARTIFICIAL (global_var) = 1;
2148 TREE_READONLY (global_var) = 0;
2149 DECL_EXTERNAL (global_var) = 1;
2150 TREE_STATIC (global_var) = 1;
2151 TREE_USED (global_var) = 1;
2152 DECL_CONTEXT (global_var) = NULL_TREE;
2153 TREE_THIS_VOLATILE (global_var) = 0;
2154 TREE_ADDRESSABLE (global_var) = 0;
2156 add_referenced_tmp_var (global_var);
2157 bitmap_set_bit (vars_to_rename, var_ann (global_var)->uid);
2161 /* Dump alias statistics on FILE. */
2163 static void
2164 dump_alias_stats (FILE *file)
2166 const char *funcname
2167 = lang_hooks.decl_printable_name (current_function_decl, 2);
2168 fprintf (file, "\nAlias statistics for %s\n\n", funcname);
2169 fprintf (file, "Total alias queries:\t%u\n", alias_stats.alias_queries);
2170 fprintf (file, "Total alias mayalias results:\t%u\n",
2171 alias_stats.alias_mayalias);
2172 fprintf (file, "Total alias noalias results:\t%u\n",
2173 alias_stats.alias_noalias);
2174 fprintf (file, "Total simple queries:\t%u\n",
2175 alias_stats.simple_queries);
2176 fprintf (file, "Total simple resolved:\t%u\n",
2177 alias_stats.simple_resolved);
2178 fprintf (file, "Total TBAA queries:\t%u\n",
2179 alias_stats.tbaa_queries);
2180 fprintf (file, "Total TBAA resolved:\t%u\n",
2181 alias_stats.tbaa_resolved);
2185 /* Dump alias information on FILE. */
2187 void
2188 dump_alias_info (FILE *file)
2190 size_t i;
2191 const char *funcname
2192 = lang_hooks.decl_printable_name (current_function_decl, 2);
2194 fprintf (file, "\nFlow-insensitive alias information for %s\n\n", funcname);
2196 fprintf (file, "Aliased symbols\n\n");
2197 for (i = 0; i < num_referenced_vars; i++)
2199 tree var = referenced_var (i);
2200 if (may_be_aliased (var))
2201 dump_variable (file, var);
2204 fprintf (file, "\nDereferenced pointers\n\n");
2205 for (i = 0; i < num_referenced_vars; i++)
2207 tree var = referenced_var (i);
2208 var_ann_t ann = var_ann (var);
2209 if (ann->type_mem_tag)
2210 dump_variable (file, var);
2213 fprintf (file, "\nType memory tags\n\n");
2214 for (i = 0; i < num_referenced_vars; i++)
2216 tree var = referenced_var (i);
2217 var_ann_t ann = var_ann (var);
2218 if (ann->mem_tag_kind == TYPE_TAG)
2219 dump_variable (file, var);
2222 fprintf (file, "\n\nFlow-sensitive alias information for %s\n\n", funcname);
2224 fprintf (file, "SSA_NAME pointers\n\n");
2225 for (i = 1; i < num_ssa_names; i++)
2227 tree ptr = ssa_name (i);
2228 struct ptr_info_def *pi;
2230 if (ptr == NULL_TREE)
2231 continue;
2233 pi = SSA_NAME_PTR_INFO (ptr);
2234 if (!SSA_NAME_IN_FREE_LIST (ptr)
2235 && pi
2236 && pi->name_mem_tag)
2237 dump_points_to_info_for (file, ptr);
2240 fprintf (file, "\nName memory tags\n\n");
2241 for (i = 0; i < num_referenced_vars; i++)
2243 tree var = referenced_var (i);
2244 var_ann_t ann = var_ann (var);
2245 if (ann->mem_tag_kind == NAME_TAG)
2246 dump_variable (file, var);
2249 fprintf (file, "\n");
2253 /* Dump alias information on stderr. */
2255 void
2256 debug_alias_info (void)
2258 dump_alias_info (stderr);
2262 /* Return the alias information associated with pointer T. It creates a
2263 new instance if none existed. */
2265 static struct ptr_info_def *
2266 get_ptr_info (tree t)
2268 struct ptr_info_def *pi;
2270 gcc_assert (POINTER_TYPE_P (TREE_TYPE (t)));
2272 pi = SSA_NAME_PTR_INFO (t);
2273 if (pi == NULL)
2275 pi = ggc_alloc (sizeof (*pi));
2276 memset ((void *)pi, 0, sizeof (*pi));
2277 SSA_NAME_PTR_INFO (t) = pi;
2280 return pi;
2284 /* Dump points-to information for SSA_NAME PTR into FILE. */
2286 void
2287 dump_points_to_info_for (FILE *file, tree ptr)
2289 struct ptr_info_def *pi = SSA_NAME_PTR_INFO (ptr);
2291 print_generic_expr (file, ptr, dump_flags);
2293 if (pi)
2295 if (pi->name_mem_tag)
2297 fprintf (file, ", name memory tag: ");
2298 print_generic_expr (file, pi->name_mem_tag, dump_flags);
2301 if (pi->is_dereferenced)
2302 fprintf (file, ", is dereferenced");
2304 if (pi->value_escapes_p)
2305 fprintf (file, ", its value escapes");
2307 if (pi->pt_anything)
2308 fprintf (file, ", points-to anything");
2310 if (pi->pt_malloc)
2311 fprintf (file, ", points-to malloc");
2313 if (pi->pt_vars)
2315 unsigned ix;
2316 bitmap_iterator bi;
2318 fprintf (file, ", points-to vars: { ");
2319 EXECUTE_IF_SET_IN_BITMAP (pi->pt_vars, 0, ix, bi)
2321 print_generic_expr (file, referenced_var (ix), dump_flags);
2322 fprintf (file, " ");
2324 fprintf (file, "}");
2328 fprintf (file, "\n");
2332 /* Dump points-to information for VAR into stderr. */
2334 void
2335 debug_points_to_info_for (tree var)
2337 dump_points_to_info_for (stderr, var);
2341 /* Dump points-to information into FILE. NOTE: This function is slow, as
2342 it needs to traverse the whole CFG looking for pointer SSA_NAMEs. */
2344 void
2345 dump_points_to_info (FILE *file)
2347 basic_block bb;
2348 block_stmt_iterator si;
2349 size_t i;
2350 ssa_op_iter iter;
2351 const char *fname =
2352 lang_hooks.decl_printable_name (current_function_decl, 2);
2354 fprintf (file, "\n\nPointed-to sets for pointers in %s\n\n", fname);
2356 /* First dump points-to information for the default definitions of
2357 pointer variables. This is necessary because default definitions are
2358 not part of the code. */
2359 for (i = 0; i < num_referenced_vars; i++)
2361 tree var = referenced_var (i);
2362 if (POINTER_TYPE_P (TREE_TYPE (var)))
2364 var_ann_t ann = var_ann (var);
2365 if (ann->default_def)
2366 dump_points_to_info_for (file, ann->default_def);
2370 /* Dump points-to information for every pointer defined in the program. */
2371 FOR_EACH_BB (bb)
2373 tree phi;
2375 for (phi = phi_nodes (bb); phi; phi = PHI_CHAIN (phi))
2377 tree ptr = PHI_RESULT (phi);
2378 if (POINTER_TYPE_P (TREE_TYPE (ptr)))
2379 dump_points_to_info_for (file, ptr);
2382 for (si = bsi_start (bb); !bsi_end_p (si); bsi_next (&si))
2384 tree stmt = bsi_stmt (si);
2385 tree def;
2386 FOR_EACH_SSA_TREE_OPERAND (def, stmt, iter, SSA_OP_DEF)
2387 if (POINTER_TYPE_P (TREE_TYPE (def)))
2388 dump_points_to_info_for (file, def);
2392 fprintf (file, "\n");
2396 /* Dump points-to info pointed by PTO into STDERR. */
2398 void
2399 debug_points_to_info (void)
2401 dump_points_to_info (stderr);
2404 /* Dump to FILE the list of variables that may be aliasing VAR. */
2406 void
2407 dump_may_aliases_for (FILE *file, tree var)
2409 varray_type aliases;
2411 if (TREE_CODE (var) == SSA_NAME)
2412 var = SSA_NAME_VAR (var);
2414 aliases = var_ann (var)->may_aliases;
2415 if (aliases)
2417 size_t i;
2418 fprintf (file, "{ ");
2419 for (i = 0; i < VARRAY_ACTIVE_SIZE (aliases); i++)
2421 print_generic_expr (file, VARRAY_TREE (aliases, i), dump_flags);
2422 fprintf (file, " ");
2424 fprintf (file, "}");
2429 /* Dump to stderr the list of variables that may be aliasing VAR. */
2431 void
2432 debug_may_aliases_for (tree var)
2434 dump_may_aliases_for (stderr, var);
2437 /* Return true if VAR may be aliased. */
2439 bool
2440 may_be_aliased (tree var)
2442 /* Obviously. */
2443 if (TREE_ADDRESSABLE (var))
2444 return true;
2446 /* Globally visible variables can have their addresses taken by other
2447 translation units. */
2448 if (DECL_EXTERNAL (var) || TREE_PUBLIC (var))
2449 return true;
2451 /* Automatic variables can't have their addresses escape any other way.
2452 This must be after the check for global variables, as extern declarations
2453 do not have TREE_STATIC set. */
2454 if (!TREE_STATIC (var))
2455 return false;
2457 /* If we're in unit-at-a-time mode, then we must have seen all occurrences
2458 of address-of operators, and so we can trust TREE_ADDRESSABLE. Otherwise
2459 we can only be sure the variable isn't addressable if it's local to the
2460 current function. */
2461 if (flag_unit_at_a_time)
2462 return false;
2463 if (decl_function_context (var) == current_function_decl)
2464 return false;
2466 return true;