1 /* Generic routines for manipulating SSA_NAME expressions
2 Copyright (C) 2003-2015 Free Software Foundation, Inc.
4 This file is part of GCC.
6 GCC is free software; you can redistribute it and/or modify
7 it under the terms of the GNU General Public License as published by
8 the Free Software Foundation; either version 3, or (at your option)
11 GCC is distributed in the hope that it will be useful,
12 but WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 GNU General Public License for more details.
16 You should have received a copy of the GNU General Public License
17 along with GCC; see the file COPYING3. If not see
18 <http://www.gnu.org/licenses/>. */
22 #include "coretypes.h"
26 #include "tree-pass.h"
28 #include "gimple-iterator.h"
29 #include "stor-layout.h"
30 #include "tree-into-ssa.h"
33 /* Rewriting a function into SSA form can create a huge number of SSA_NAMEs,
34 many of which may be thrown away shortly after their creation if jumps
35 were threaded through PHI nodes.
37 While our garbage collection mechanisms will handle this situation, it
38 is extremely wasteful to create nodes and throw them away, especially
39 when the nodes can be reused.
41 For PR 8361, we can significantly reduce the number of nodes allocated
42 and thus the total amount of memory allocated by managing SSA_NAMEs a
43 little. This additionally helps reduce the amount of work done by the
44 garbage collector. Similar results have been seen on a wider variety
45 of tests (such as the compiler itself).
47 Right now we maintain our free list on a per-function basis. It may
48 or may not make sense to maintain the free list for the duration of
51 External code should rely solely upon HIGHEST_SSA_VERSION and the
52 externally defined functions. External code should not know about
53 the details of the free list management.
55 External code should also not assume the version number on nodes is
56 monotonically increasing. We reuse the version number when we
57 reuse an SSA_NAME expression. This helps keep arrays and bitmaps
61 /* Version numbers with special meanings. We start allocating new version
62 numbers after the special ones. */
63 #define UNUSED_NAME_VERSION 0
65 unsigned int ssa_name_nodes_reused
;
66 unsigned int ssa_name_nodes_created
;
68 #define FREE_SSANAMES(fun) (fun)->gimple_df->free_ssanames
69 #define FREE_SSANAMES_QUEUE(fun) (fun)->gimple_df->free_ssanames_queue
72 /* Initialize management of SSA_NAMEs to default SIZE. If SIZE is
76 init_ssanames (struct function
*fn
, int size
)
81 vec_alloc (SSANAMES (fn
), size
);
83 /* Version 0 is special, so reserve the first slot in the table. Though
84 currently unused, we may use version 0 in alias analysis as part of
85 the heuristics used to group aliases when the alias sets are too
88 We use vec::quick_push here because we know that SSA_NAMES has at
89 least 50 elements reserved in it. */
90 SSANAMES (fn
)->quick_push (NULL_TREE
);
91 FREE_SSANAMES (fn
) = NULL
;
92 FREE_SSANAMES_QUEUE (fn
) = NULL
;
94 fn
->gimple_df
->ssa_renaming_needed
= 0;
95 fn
->gimple_df
->rename_vops
= 0;
98 /* Finalize management of SSA_NAMEs. */
101 fini_ssanames (struct function
*fn
)
103 vec_free (SSANAMES (fn
));
104 vec_free (FREE_SSANAMES (fn
));
105 vec_free (FREE_SSANAMES_QUEUE (fn
));
108 /* Dump some simple statistics regarding the re-use of SSA_NAME nodes. */
111 ssanames_print_statistics (void)
113 fprintf (stderr
, "SSA_NAME nodes allocated: %u\n", ssa_name_nodes_created
);
114 fprintf (stderr
, "SSA_NAME nodes reused: %u\n", ssa_name_nodes_reused
);
117 /* Verify the state of the SSA_NAME lists.
119 There must be no duplicates on the free list.
120 Every name on the free list must be marked as on the free list.
121 Any name on the free list must not appear in the IL.
122 No names can be leaked. */
125 verify_ssaname_freelists (struct function
*fun
)
127 if (!gimple_in_ssa_p (fun
))
130 bitmap names_in_il
= BITMAP_ALLOC (NULL
);
132 /* Walk the entire IL noting every SSA_NAME we see. */
134 FOR_EACH_BB_FN (bb
, fun
)
137 /* First note the result and arguments of PHI nodes. */
138 for (gphi_iterator gsi
= gsi_start_phis (bb
);
142 gphi
*phi
= gsi
.phi ();
143 t
= gimple_phi_result (phi
);
144 bitmap_set_bit (names_in_il
, SSA_NAME_VERSION (t
));
146 for (unsigned int i
= 0; i
< gimple_phi_num_args (phi
); i
++)
148 t
= gimple_phi_arg_def (phi
, i
);
149 if (TREE_CODE (t
) == SSA_NAME
)
150 bitmap_set_bit (names_in_il
, SSA_NAME_VERSION (t
));
154 /* Then note the operands of each statement. */
155 for (gimple_stmt_iterator gsi
= gsi_start_bb (bb
);
160 gimple
*stmt
= gsi_stmt (gsi
);
161 FOR_EACH_SSA_TREE_OPERAND (t
, stmt
, iter
, SSA_OP_ALL_OPERANDS
)
162 bitmap_set_bit (names_in_il
, SSA_NAME_VERSION (t
));
166 /* Now walk the free list noting what we find there and verifying
167 there are no duplicates. */
168 bitmap names_in_freelists
= BITMAP_ALLOC (NULL
);
169 if (FREE_SSANAMES (fun
))
171 for (unsigned int i
= 0; i
< FREE_SSANAMES (fun
)->length (); i
++)
173 tree t
= (*FREE_SSANAMES (fun
))[i
];
175 /* Verify that the name is marked as being in the free list. */
176 gcc_assert (SSA_NAME_IN_FREE_LIST (t
));
178 /* Verify the name has not already appeared in the free list and
179 note it in the list of names found in the free list. */
180 gcc_assert (!bitmap_bit_p (names_in_freelists
, SSA_NAME_VERSION (t
)));
181 bitmap_set_bit (names_in_freelists
, SSA_NAME_VERSION (t
));
185 /* Similarly for the names in the pending free list. */
186 if (FREE_SSANAMES_QUEUE (fun
))
188 for (unsigned int i
= 0; i
< FREE_SSANAMES_QUEUE (fun
)->length (); i
++)
190 tree t
= (*FREE_SSANAMES_QUEUE (fun
))[i
];
192 /* Verify that the name is marked as being in the free list. */
193 gcc_assert (SSA_NAME_IN_FREE_LIST (t
));
195 /* Verify the name has not already appeared in the free list and
196 note it in the list of names found in the free list. */
197 gcc_assert (!bitmap_bit_p (names_in_freelists
, SSA_NAME_VERSION (t
)));
198 bitmap_set_bit (names_in_freelists
, SSA_NAME_VERSION (t
));
202 /* If any name appears in both the IL and the freelists, then
203 something horrible has happened. */
204 bool intersect_p
= bitmap_intersect_p (names_in_il
, names_in_freelists
);
205 gcc_assert (!intersect_p
);
207 /* Names can be queued up for release if there is an ssa update
208 pending. Pretend we saw them in the IL. */
209 if (names_to_release
)
210 bitmap_ior_into (names_in_il
, names_to_release
);
212 /* Function splitting can "lose" SSA_NAMEs in an effort to ensure that
213 debug/non-debug compilations have the same SSA_NAMEs. So for each
214 lost SSA_NAME, see if it's likely one from that wart. These will always
215 be marked as default definitions. So we loosely assume that anything
216 marked as a default definition isn't leaked by pretending they are
218 for (unsigned int i
= UNUSED_NAME_VERSION
+ 1; i
< num_ssa_names
; i
++)
219 if (ssa_name (i
) && SSA_NAME_IS_DEFAULT_DEF (ssa_name (i
)))
220 bitmap_set_bit (names_in_il
, i
);
224 bitmap all_names
= BITMAP_ALLOC (NULL
);
225 bitmap_set_range (all_names
, UNUSED_NAME_VERSION
+ 1, num_ssa_names
- 1);
226 bitmap_ior_into (names_in_il
, names_in_freelists
);
228 /* Any name not mentioned in the IL and not in the feelists
230 EXECUTE_IF_AND_COMPL_IN_BITMAP(all_names
, names_in_il
,
231 UNUSED_NAME_VERSION
+ 1, i
, bi
)
232 gcc_assert (!ssa_name (i
));
234 BITMAP_FREE (all_names
);
235 BITMAP_FREE (names_in_freelists
);
236 BITMAP_FREE (names_in_il
);
239 /* Move all SSA_NAMEs from FREE_SSA_NAMES_QUEUE to FREE_SSA_NAMES.
241 We do not, but should have a mode to verify the state of the SSA_NAMEs
242 lists. In particular at this point every name must be in the IL,
243 on the free list or in the queue. Anything else is an error. */
246 flush_ssaname_freelist (void)
248 vec_safe_splice (FREE_SSANAMES (cfun
), FREE_SSANAMES_QUEUE (cfun
));
249 vec_safe_truncate (FREE_SSANAMES_QUEUE (cfun
), 0);
252 /* Return an SSA_NAME node for variable VAR defined in statement STMT
253 in function FN. STMT may be an empty statement for artificial
254 references (e.g., default definitions created when a variable is
255 used without a preceding definition). */
258 make_ssa_name_fn (struct function
*fn
, tree var
, gimple
*stmt
)
263 gcc_assert (TREE_CODE (var
) == VAR_DECL
264 || TREE_CODE (var
) == PARM_DECL
265 || TREE_CODE (var
) == RESULT_DECL
266 || (TYPE_P (var
) && is_gimple_reg_type (var
)));
268 /* If our free list has an element, then use it. */
269 if (!vec_safe_is_empty (FREE_SSANAMES (fn
)))
271 t
= FREE_SSANAMES (fn
)->pop ();
272 ssa_name_nodes_reused
++;
274 /* The node was cleared out when we put it on the free list, so
275 there is no need to do so again here. */
276 gcc_assert ((*SSANAMES (fn
))[SSA_NAME_VERSION (t
)] == NULL
);
277 (*SSANAMES (fn
))[SSA_NAME_VERSION (t
)] = t
;
281 t
= make_node (SSA_NAME
);
282 SSA_NAME_VERSION (t
) = SSANAMES (fn
)->length ();
283 vec_safe_push (SSANAMES (fn
), t
);
284 ssa_name_nodes_created
++;
290 SET_SSA_NAME_VAR_OR_IDENTIFIER (t
, NULL_TREE
);
294 TREE_TYPE (t
) = TREE_TYPE (var
);
295 SET_SSA_NAME_VAR_OR_IDENTIFIER (t
, var
);
297 SSA_NAME_DEF_STMT (t
) = stmt
;
298 if (POINTER_TYPE_P (TREE_TYPE (t
)))
299 SSA_NAME_PTR_INFO (t
) = NULL
;
301 SSA_NAME_RANGE_INFO (t
) = NULL
;
303 SSA_NAME_IN_FREE_LIST (t
) = 0;
304 SSA_NAME_IS_DEFAULT_DEF (t
) = 0;
305 imm
= &(SSA_NAME_IMM_USE_NODE (t
));
309 imm
->loc
.ssa_name
= t
;
314 /* Store range information RANGE_TYPE, MIN, and MAX to tree ssa_name NAME. */
317 set_range_info (tree name
, enum value_range_type range_type
,
318 const wide_int_ref
&min
, const wide_int_ref
&max
)
320 gcc_assert (!POINTER_TYPE_P (TREE_TYPE (name
)));
321 gcc_assert (range_type
== VR_RANGE
|| range_type
== VR_ANTI_RANGE
);
322 range_info_def
*ri
= SSA_NAME_RANGE_INFO (name
);
323 unsigned int precision
= TYPE_PRECISION (TREE_TYPE (name
));
325 /* Allocate if not available. */
328 size_t size
= (sizeof (range_info_def
)
329 + trailing_wide_ints
<3>::extra_size (precision
));
330 ri
= static_cast<range_info_def
*> (ggc_internal_alloc (size
));
331 ri
->ints
.set_precision (precision
);
332 SSA_NAME_RANGE_INFO (name
) = ri
;
333 ri
->set_nonzero_bits (wi::shwi (-1, precision
));
336 /* Record the range type. */
337 if (SSA_NAME_RANGE_TYPE (name
) != range_type
)
338 SSA_NAME_ANTI_RANGE_P (name
) = (range_type
== VR_ANTI_RANGE
);
340 /* Set the values. */
344 /* If it is a range, try to improve nonzero_bits from the min/max. */
345 if (range_type
== VR_RANGE
)
347 wide_int xorv
= ri
->get_min () ^ ri
->get_max ();
349 xorv
= wi::mask (precision
- wi::clz (xorv
), false, precision
);
350 ri
->set_nonzero_bits (ri
->get_nonzero_bits () & (ri
->get_min () | xorv
));
355 /* Gets range information MIN, MAX and returns enum value_range_type
356 corresponding to tree ssa_name NAME. enum value_range_type returned
357 is used to determine if MIN and MAX are valid values. */
359 enum value_range_type
360 get_range_info (const_tree name
, wide_int
*min
, wide_int
*max
)
362 gcc_assert (!POINTER_TYPE_P (TREE_TYPE (name
)));
363 gcc_assert (min
&& max
);
364 range_info_def
*ri
= SSA_NAME_RANGE_INFO (name
);
366 /* Return VR_VARYING for SSA_NAMEs with NULL RANGE_INFO or SSA_NAMEs
367 with integral types width > 2 * HOST_BITS_PER_WIDE_INT precision. */
368 if (!ri
|| (GET_MODE_PRECISION (TYPE_MODE (TREE_TYPE (name
)))
369 > 2 * HOST_BITS_PER_WIDE_INT
))
372 *min
= ri
->get_min ();
373 *max
= ri
->get_max ();
374 return SSA_NAME_RANGE_TYPE (name
);
377 /* Change non-zero bits bitmask of NAME. */
380 set_nonzero_bits (tree name
, const wide_int_ref
&mask
)
382 gcc_assert (!POINTER_TYPE_P (TREE_TYPE (name
)));
383 if (SSA_NAME_RANGE_INFO (name
) == NULL
)
384 set_range_info (name
, VR_RANGE
,
385 TYPE_MIN_VALUE (TREE_TYPE (name
)),
386 TYPE_MAX_VALUE (TREE_TYPE (name
)));
387 range_info_def
*ri
= SSA_NAME_RANGE_INFO (name
);
388 ri
->set_nonzero_bits (mask
);
391 /* Return a widest_int with potentially non-zero bits in SSA_NAME
392 NAME, or -1 if unknown. */
395 get_nonzero_bits (const_tree name
)
397 unsigned int precision
= TYPE_PRECISION (TREE_TYPE (name
));
398 if (POINTER_TYPE_P (TREE_TYPE (name
)))
400 struct ptr_info_def
*pi
= SSA_NAME_PTR_INFO (name
);
402 return wi::shwi (-(HOST_WIDE_INT
) pi
->align
403 | (HOST_WIDE_INT
) pi
->misalign
, precision
);
404 return wi::shwi (-1, precision
);
407 range_info_def
*ri
= SSA_NAME_RANGE_INFO (name
);
409 return wi::shwi (-1, precision
);
411 return ri
->get_nonzero_bits ();
414 /* We no longer need the SSA_NAME expression VAR, release it so that
417 Note it is assumed that no calls to make_ssa_name will be made
418 until all uses of the ssa name are released and that the only
419 use of the SSA_NAME expression is to check its SSA_NAME_VAR. All
420 other fields must be assumed clobbered. */
423 release_ssa_name_fn (struct function
*fn
, tree var
)
428 /* Never release the default definition for a symbol. It's a
429 special SSA name that should always exist once it's created. */
430 if (SSA_NAME_IS_DEFAULT_DEF (var
))
433 /* If VAR has been registered for SSA updating, don't remove it.
434 After update_ssa has run, the name will be released. */
435 if (name_registered_for_update_p (var
))
437 release_ssa_name_after_update_ssa (var
);
441 /* release_ssa_name can be called multiple times on a single SSA_NAME.
442 However, it should only end up on our free list one time. We
443 keep a status bit in the SSA_NAME node itself to indicate it has
444 been put on the free list.
446 Note that once on the freelist you can not reference the SSA_NAME's
447 defining statement. */
448 if (! SSA_NAME_IN_FREE_LIST (var
))
450 tree saved_ssa_name_var
= SSA_NAME_VAR (var
);
451 int saved_ssa_name_version
= SSA_NAME_VERSION (var
);
452 use_operand_p imm
= &(SSA_NAME_IMM_USE_NODE (var
));
454 if (MAY_HAVE_DEBUG_STMTS
)
455 insert_debug_temp_for_var_def (NULL
, var
);
458 verify_imm_links (stderr
, var
);
459 while (imm
->next
!= imm
)
460 delink_imm_use (imm
->next
);
462 (*SSANAMES (fn
))[SSA_NAME_VERSION (var
)] = NULL_TREE
;
463 memset (var
, 0, tree_size (var
));
467 imm
->loc
.ssa_name
= var
;
469 /* First put back the right tree node so that the tree checking
470 macros do not complain. */
471 TREE_SET_CODE (var
, SSA_NAME
);
473 /* Restore the version number. */
474 SSA_NAME_VERSION (var
) = saved_ssa_name_version
;
476 /* Hopefully this can go away once we have the new incremental
477 SSA updating code installed. */
478 SET_SSA_NAME_VAR_OR_IDENTIFIER (var
, saved_ssa_name_var
);
480 /* Note this SSA_NAME is now in the first list. */
481 SSA_NAME_IN_FREE_LIST (var
) = 1;
483 /* And finally queue it so that it will be put on the free list. */
484 vec_safe_push (FREE_SSANAMES_QUEUE (fn
), var
);
488 /* If the alignment of the pointer described by PI is known, return true and
489 store the alignment and the deviation from it into *ALIGNP and *MISALIGNP
490 respectively. Otherwise return false. */
493 get_ptr_info_alignment (struct ptr_info_def
*pi
, unsigned int *alignp
,
494 unsigned int *misalignp
)
499 *misalignp
= pi
->misalign
;
506 /* State that the pointer described by PI has unknown alignment. */
509 mark_ptr_info_alignment_unknown (struct ptr_info_def
*pi
)
515 /* Store the power-of-two byte alignment and the deviation from that
516 alignment of pointer described by PI to ALIOGN and MISALIGN
520 set_ptr_info_alignment (struct ptr_info_def
*pi
, unsigned int align
,
521 unsigned int misalign
)
523 gcc_checking_assert (align
!= 0);
524 gcc_assert ((align
& (align
- 1)) == 0);
525 gcc_assert ((misalign
& ~(align
- 1)) == 0);
528 pi
->misalign
= misalign
;
531 /* If pointer described by PI has known alignment, increase its known
532 misalignment by INCREMENT modulo its current alignment. */
535 adjust_ptr_info_misalignment (struct ptr_info_def
*pi
,
536 unsigned int increment
)
540 pi
->misalign
+= increment
;
541 pi
->misalign
&= (pi
->align
- 1);
545 /* Return the alias information associated with pointer T. It creates a
546 new instance if none existed. */
548 struct ptr_info_def
*
549 get_ptr_info (tree t
)
551 struct ptr_info_def
*pi
;
553 gcc_assert (POINTER_TYPE_P (TREE_TYPE (t
)));
555 pi
= SSA_NAME_PTR_INFO (t
);
558 pi
= ggc_cleared_alloc
<ptr_info_def
> ();
559 pt_solution_reset (&pi
->pt
);
560 mark_ptr_info_alignment_unknown (pi
);
561 SSA_NAME_PTR_INFO (t
) = pi
;
568 /* Creates a new SSA name using the template NAME tobe defined by
569 statement STMT in function FN. */
572 copy_ssa_name_fn (struct function
*fn
, tree name
, gimple
*stmt
)
576 if (SSA_NAME_VAR (name
))
577 new_name
= make_ssa_name_fn (fn
, SSA_NAME_VAR (name
), stmt
);
580 new_name
= make_ssa_name_fn (fn
, TREE_TYPE (name
), stmt
);
581 SET_SSA_NAME_VAR_OR_IDENTIFIER (new_name
, SSA_NAME_IDENTIFIER (name
));
588 /* Creates a duplicate of the ptr_info_def at PTR_INFO for use by
589 the SSA name NAME. */
592 duplicate_ssa_name_ptr_info (tree name
, struct ptr_info_def
*ptr_info
)
594 struct ptr_info_def
*new_ptr_info
;
596 gcc_assert (POINTER_TYPE_P (TREE_TYPE (name
)));
597 gcc_assert (!SSA_NAME_PTR_INFO (name
));
602 new_ptr_info
= ggc_alloc
<ptr_info_def
> ();
603 *new_ptr_info
= *ptr_info
;
605 SSA_NAME_PTR_INFO (name
) = new_ptr_info
;
608 /* Creates a duplicate of the range_info_def at RANGE_INFO of type
609 RANGE_TYPE for use by the SSA name NAME. */
611 duplicate_ssa_name_range_info (tree name
, enum value_range_type range_type
,
612 struct range_info_def
*range_info
)
614 struct range_info_def
*new_range_info
;
616 gcc_assert (!POINTER_TYPE_P (TREE_TYPE (name
)));
617 gcc_assert (!SSA_NAME_RANGE_INFO (name
));
622 unsigned int precision
= TYPE_PRECISION (TREE_TYPE (name
));
623 size_t size
= (sizeof (range_info_def
)
624 + trailing_wide_ints
<3>::extra_size (precision
));
625 new_range_info
= static_cast<range_info_def
*> (ggc_internal_alloc (size
));
626 memcpy (new_range_info
, range_info
, size
);
628 gcc_assert (range_type
== VR_RANGE
|| range_type
== VR_ANTI_RANGE
);
629 SSA_NAME_ANTI_RANGE_P (name
) = (range_type
== VR_ANTI_RANGE
);
630 SSA_NAME_RANGE_INFO (name
) = new_range_info
;
635 /* Creates a duplicate of a ssa name NAME tobe defined by statement STMT
639 duplicate_ssa_name_fn (struct function
*fn
, tree name
, gimple
*stmt
)
641 tree new_name
= copy_ssa_name_fn (fn
, name
, stmt
);
642 if (POINTER_TYPE_P (TREE_TYPE (name
)))
644 struct ptr_info_def
*old_ptr_info
= SSA_NAME_PTR_INFO (name
);
647 duplicate_ssa_name_ptr_info (new_name
, old_ptr_info
);
651 struct range_info_def
*old_range_info
= SSA_NAME_RANGE_INFO (name
);
654 duplicate_ssa_name_range_info (new_name
, SSA_NAME_RANGE_TYPE (name
),
662 /* Reset all flow sensitive data on NAME such as range-info, nonzero
663 bits and alignment. */
666 reset_flow_sensitive_info (tree name
)
668 if (POINTER_TYPE_P (TREE_TYPE (name
)))
670 /* points-to info is not flow-sensitive. */
671 if (SSA_NAME_PTR_INFO (name
))
672 mark_ptr_info_alignment_unknown (SSA_NAME_PTR_INFO (name
));
675 SSA_NAME_RANGE_INFO (name
) = NULL
;
678 /* Clear all flow sensitive data from all statements and PHI definitions
682 reset_flow_sensitive_info_in_bb (basic_block bb
)
684 for (gimple_stmt_iterator gsi
= gsi_start_bb (bb
); !gsi_end_p (gsi
);
687 gimple
*stmt
= gsi_stmt (gsi
);
690 FOR_EACH_SSA_TREE_OPERAND (op
, stmt
, i
, SSA_OP_DEF
)
691 reset_flow_sensitive_info (op
);
694 for (gphi_iterator gsi
= gsi_start_phis (bb
); !gsi_end_p (gsi
);
697 tree phi_def
= gimple_phi_result (gsi
.phi ());
698 reset_flow_sensitive_info (phi_def
);
702 /* Release all the SSA_NAMEs created by STMT. */
705 release_defs (gimple
*stmt
)
710 /* Make sure that we are in SSA. Otherwise, operand cache may point
712 gcc_assert (gimple_in_ssa_p (cfun
));
714 FOR_EACH_SSA_TREE_OPERAND (def
, stmt
, iter
, SSA_OP_ALL_DEFS
)
715 if (TREE_CODE (def
) == SSA_NAME
)
716 release_ssa_name (def
);
720 /* Replace the symbol associated with SSA_NAME with SYM. */
723 replace_ssa_name_symbol (tree ssa_name
, tree sym
)
725 SET_SSA_NAME_VAR_OR_IDENTIFIER (ssa_name
, sym
);
726 TREE_TYPE (ssa_name
) = TREE_TYPE (sym
);
729 /* Release the vector of free SSA_NAMEs and compact the the
730 vector of SSA_NAMEs that are live. */
733 release_free_names_and_compact_live_names (function
*fun
)
736 int n
= vec_safe_length (FREE_SSANAMES (fun
));
738 /* Now release the freelist. */
739 vec_free (FREE_SSANAMES (fun
));
741 /* And compact the SSA number space. We make sure to not change the
742 relative order of SSA versions. */
743 for (i
= 1, j
= 1; i
< fun
->gimple_df
->ssa_names
->length (); ++i
)
745 tree name
= ssa_name (i
);
750 SSA_NAME_VERSION (name
) = j
;
751 (*fun
->gimple_df
->ssa_names
)[j
] = name
;
756 fun
->gimple_df
->ssa_names
->truncate (j
);
758 statistics_counter_event (fun
, "SSA names released", n
);
759 statistics_counter_event (fun
, "SSA name holes removed", i
- j
);
761 fprintf (dump_file
, "Released %i names, %.2f%%, removed %i holes\n",
762 n
, n
* 100.0 / num_ssa_names
, i
- j
);
765 /* Return SSA names that are unused to GGC memory and compact the SSA
766 version namespace. This is used to keep footprint of compiler during
767 interprocedural optimization. */
771 const pass_data pass_data_release_ssa_names
=
773 GIMPLE_PASS
, /* type */
774 "release_ssa", /* name */
775 OPTGROUP_NONE
, /* optinfo_flags */
776 TV_TREE_SSA_OTHER
, /* tv_id */
777 PROP_ssa
, /* properties_required */
778 0, /* properties_provided */
779 0, /* properties_destroyed */
780 TODO_remove_unused_locals
, /* todo_flags_start */
781 0, /* todo_flags_finish */
784 class pass_release_ssa_names
: public gimple_opt_pass
787 pass_release_ssa_names (gcc::context
*ctxt
)
788 : gimple_opt_pass (pass_data_release_ssa_names
, ctxt
)
791 /* opt_pass methods: */
792 virtual unsigned int execute (function
*);
794 }; // class pass_release_ssa_names
797 pass_release_ssa_names::execute (function
*fun
)
799 release_free_names_and_compact_live_names (fun
);
806 make_pass_release_ssa_names (gcc::context
*ctxt
)
808 return new pass_release_ssa_names (ctxt
);