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[official-gcc.git] / gcc / tree-into-ssa.c
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1 /* Rewrite a program in Normal form into SSA.
2 Copyright (C) 2001-2014 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 3, 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 COPYING3. If not see
19 <http://www.gnu.org/licenses/>. */
21 #include "config.h"
22 #include "system.h"
23 #include "coretypes.h"
24 #include "tm.h"
25 #include "tree.h"
26 #include "flags.h"
27 #include "tm_p.h"
28 #include "langhooks.h"
29 #include "predict.h"
30 #include "vec.h"
31 #include "hashtab.h"
32 #include "hash-set.h"
33 #include "machmode.h"
34 #include "hard-reg-set.h"
35 #include "input.h"
36 #include "function.h"
37 #include "dominance.h"
38 #include "cfg.h"
39 #include "cfganal.h"
40 #include "basic-block.h"
41 #include "gimple-pretty-print.h"
42 #include "hash-table.h"
43 #include "tree-ssa-alias.h"
44 #include "internal-fn.h"
45 #include "gimple-expr.h"
46 #include "is-a.h"
47 #include "gimple.h"
48 #include "gimple-iterator.h"
49 #include "gimple-ssa.h"
50 #include "tree-cfg.h"
51 #include "tree-phinodes.h"
52 #include "ssa-iterators.h"
53 #include "stringpool.h"
54 #include "tree-ssanames.h"
55 #include "tree-into-ssa.h"
56 #include "expr.h"
57 #include "tree-dfa.h"
58 #include "tree-ssa.h"
59 #include "tree-inline.h"
60 #include "tree-pass.h"
61 #include "cfgloop.h"
62 #include "domwalk.h"
63 #include "params.h"
64 #include "diagnostic-core.h"
65 #include "tree-into-ssa.h"
67 #define PERCENT(x,y) ((float)(x) * 100.0 / (float)(y))
69 /* This file builds the SSA form for a function as described in:
70 R. Cytron, J. Ferrante, B. Rosen, M. Wegman, and K. Zadeck. Efficiently
71 Computing Static Single Assignment Form and the Control Dependence
72 Graph. ACM Transactions on Programming Languages and Systems,
73 13(4):451-490, October 1991. */
75 /* Structure to map a variable VAR to the set of blocks that contain
76 definitions for VAR. */
77 struct def_blocks_d
79 /* Blocks that contain definitions of VAR. Bit I will be set if the
80 Ith block contains a definition of VAR. */
81 bitmap def_blocks;
83 /* Blocks that contain a PHI node for VAR. */
84 bitmap phi_blocks;
86 /* Blocks where VAR is live-on-entry. Similar semantics as
87 DEF_BLOCKS. */
88 bitmap livein_blocks;
91 typedef struct def_blocks_d *def_blocks_p;
94 /* Stack of trees used to restore the global currdefs to its original
95 state after completing rewriting of a block and its dominator
96 children. Its elements have the following properties:
98 - An SSA_NAME (N) indicates that the current definition of the
99 underlying variable should be set to the given SSA_NAME. If the
100 symbol associated with the SSA_NAME is not a GIMPLE register, the
101 next slot in the stack must be a _DECL node (SYM). In this case,
102 the name N in the previous slot is the current reaching
103 definition for SYM.
105 - A _DECL node indicates that the underlying variable has no
106 current definition.
108 - A NULL node at the top entry is used to mark the last slot
109 associated with the current block. */
110 static vec<tree> block_defs_stack;
113 /* Set of existing SSA names being replaced by update_ssa. */
114 static sbitmap old_ssa_names;
116 /* Set of new SSA names being added by update_ssa. Note that both
117 NEW_SSA_NAMES and OLD_SSA_NAMES are dense bitmaps because most of
118 the operations done on them are presence tests. */
119 static sbitmap new_ssa_names;
121 static sbitmap interesting_blocks;
123 /* Set of SSA names that have been marked to be released after they
124 were registered in the replacement table. They will be finally
125 released after we finish updating the SSA web. */
126 static bitmap names_to_release;
128 /* vec of vec of PHIs to rewrite in a basic block. Element I corresponds
129 the to basic block with index I. Allocated once per compilation, *not*
130 released between different functions. */
131 static vec< vec<gphi *> > phis_to_rewrite;
133 /* The bitmap of non-NULL elements of PHIS_TO_REWRITE. */
134 static bitmap blocks_with_phis_to_rewrite;
136 /* Growth factor for NEW_SSA_NAMES and OLD_SSA_NAMES. These sets need
137 to grow as the callers to create_new_def_for will create new names on
138 the fly.
139 FIXME. Currently set to 1/3 to avoid frequent reallocations but still
140 need to find a reasonable growth strategy. */
141 #define NAME_SETS_GROWTH_FACTOR (MAX (3, num_ssa_names / 3))
144 /* The function the SSA updating data structures have been initialized for.
145 NULL if they need to be initialized by create_new_def_for. */
146 static struct function *update_ssa_initialized_fn = NULL;
148 /* Global data to attach to the main dominator walk structure. */
149 struct mark_def_sites_global_data
151 /* This bitmap contains the variables which are set before they
152 are used in a basic block. */
153 bitmap kills;
156 /* It is advantageous to avoid things like life analysis for variables which
157 do not need PHI nodes. This enum describes whether or not a particular
158 variable may need a PHI node. */
160 enum need_phi_state {
161 /* This is the default. If we are still in this state after finding
162 all the definition and use sites, then we will assume the variable
163 needs PHI nodes. This is probably an overly conservative assumption. */
164 NEED_PHI_STATE_UNKNOWN,
166 /* This state indicates that we have seen one or more sets of the
167 variable in a single basic block and that the sets dominate all
168 uses seen so far. If after finding all definition and use sites
169 we are still in this state, then the variable does not need any
170 PHI nodes. */
171 NEED_PHI_STATE_NO,
173 /* This state indicates that we have either seen multiple definitions of
174 the variable in multiple blocks, or that we encountered a use in a
175 block that was not dominated by the block containing the set(s) of
176 this variable. This variable is assumed to need PHI nodes. */
177 NEED_PHI_STATE_MAYBE
180 /* Information stored for both SSA names and decls. */
181 struct common_info_d
183 /* This field indicates whether or not the variable may need PHI nodes.
184 See the enum's definition for more detailed information about the
185 states. */
186 ENUM_BITFIELD (need_phi_state) need_phi_state : 2;
188 /* The current reaching definition replacing this var. */
189 tree current_def;
191 /* Definitions for this var. */
192 struct def_blocks_d def_blocks;
195 /* The information associated with decls and SSA names. */
196 typedef struct common_info_d *common_info_p;
198 /* Information stored for decls. */
199 struct var_info_d
201 /* The variable. */
202 tree var;
204 /* Information stored for both SSA names and decls. */
205 struct common_info_d info;
208 /* The information associated with decls. */
209 typedef struct var_info_d *var_info_p;
212 /* VAR_INFOS hashtable helpers. */
214 struct var_info_hasher : typed_free_remove <var_info_d>
216 typedef var_info_d *value_type;
217 typedef var_info_d *compare_type;
218 typedef int store_values_directly;
219 static inline hashval_t hash (const value_type &);
220 static inline bool equal (const value_type &, const compare_type &);
223 inline hashval_t
224 var_info_hasher::hash (const value_type &p)
226 return DECL_UID (p->var);
229 inline bool
230 var_info_hasher::equal (const value_type &p1, const compare_type &p2)
232 return p1->var == p2->var;
236 /* Each entry in VAR_INFOS contains an element of type STRUCT
237 VAR_INFO_D. */
238 static hash_table<var_info_hasher> *var_infos;
241 /* Information stored for SSA names. */
242 struct ssa_name_info
244 /* Age of this record (so that info_for_ssa_name table can be cleared
245 quickly); if AGE < CURRENT_INFO_FOR_SSA_NAME_AGE, then the fields
246 are assumed to be null. */
247 unsigned age;
249 /* Replacement mappings, allocated from update_ssa_obstack. */
250 bitmap repl_set;
252 /* Information stored for both SSA names and decls. */
253 struct common_info_d info;
256 /* The information associated with names. */
257 typedef struct ssa_name_info *ssa_name_info_p;
259 static vec<ssa_name_info_p> info_for_ssa_name;
260 static unsigned current_info_for_ssa_name_age;
262 static bitmap_obstack update_ssa_obstack;
264 /* The set of blocks affected by update_ssa. */
265 static bitmap blocks_to_update;
267 /* The main entry point to the SSA renamer (rewrite_blocks) may be
268 called several times to do different, but related, tasks.
269 Initially, we need it to rename the whole program into SSA form.
270 At other times, we may need it to only rename into SSA newly
271 exposed symbols. Finally, we can also call it to incrementally fix
272 an already built SSA web. */
273 enum rewrite_mode {
274 /* Convert the whole function into SSA form. */
275 REWRITE_ALL,
277 /* Incrementally update the SSA web by replacing existing SSA
278 names with new ones. See update_ssa for details. */
279 REWRITE_UPDATE
282 /* The set of symbols we ought to re-write into SSA form in update_ssa. */
283 static bitmap symbols_to_rename_set;
284 static vec<tree> symbols_to_rename;
286 /* Mark SYM for renaming. */
288 static void
289 mark_for_renaming (tree sym)
291 if (!symbols_to_rename_set)
292 symbols_to_rename_set = BITMAP_ALLOC (NULL);
293 if (bitmap_set_bit (symbols_to_rename_set, DECL_UID (sym)))
294 symbols_to_rename.safe_push (sym);
297 /* Return true if SYM is marked for renaming. */
299 static bool
300 marked_for_renaming (tree sym)
302 if (!symbols_to_rename_set || sym == NULL_TREE)
303 return false;
304 return bitmap_bit_p (symbols_to_rename_set, DECL_UID (sym));
308 /* Return true if STMT needs to be rewritten. When renaming a subset
309 of the variables, not all statements will be processed. This is
310 decided in mark_def_sites. */
312 static inline bool
313 rewrite_uses_p (gimple stmt)
315 return gimple_visited_p (stmt);
319 /* Set the rewrite marker on STMT to the value given by REWRITE_P. */
321 static inline void
322 set_rewrite_uses (gimple stmt, bool rewrite_p)
324 gimple_set_visited (stmt, rewrite_p);
328 /* Return true if the DEFs created by statement STMT should be
329 registered when marking new definition sites. This is slightly
330 different than rewrite_uses_p: it's used by update_ssa to
331 distinguish statements that need to have both uses and defs
332 processed from those that only need to have their defs processed.
333 Statements that define new SSA names only need to have their defs
334 registered, but they don't need to have their uses renamed. */
336 static inline bool
337 register_defs_p (gimple stmt)
339 return gimple_plf (stmt, GF_PLF_1) != 0;
343 /* If REGISTER_DEFS_P is true, mark STMT to have its DEFs registered. */
345 static inline void
346 set_register_defs (gimple stmt, bool register_defs_p)
348 gimple_set_plf (stmt, GF_PLF_1, register_defs_p);
352 /* Get the information associated with NAME. */
354 static inline ssa_name_info_p
355 get_ssa_name_ann (tree name)
357 unsigned ver = SSA_NAME_VERSION (name);
358 unsigned len = info_for_ssa_name.length ();
359 struct ssa_name_info *info;
361 /* Re-allocate the vector at most once per update/into-SSA. */
362 if (ver >= len)
363 info_for_ssa_name.safe_grow_cleared (num_ssa_names);
365 /* But allocate infos lazily. */
366 info = info_for_ssa_name[ver];
367 if (!info)
369 info = XCNEW (struct ssa_name_info);
370 info->age = current_info_for_ssa_name_age;
371 info->info.need_phi_state = NEED_PHI_STATE_UNKNOWN;
372 info_for_ssa_name[ver] = info;
375 if (info->age < current_info_for_ssa_name_age)
377 info->age = current_info_for_ssa_name_age;
378 info->repl_set = NULL;
379 info->info.need_phi_state = NEED_PHI_STATE_UNKNOWN;
380 info->info.current_def = NULL_TREE;
381 info->info.def_blocks.def_blocks = NULL;
382 info->info.def_blocks.phi_blocks = NULL;
383 info->info.def_blocks.livein_blocks = NULL;
386 return info;
389 /* Return and allocate the auxiliar information for DECL. */
391 static inline var_info_p
392 get_var_info (tree decl)
394 struct var_info_d vi;
395 var_info_d **slot;
396 vi.var = decl;
397 slot = var_infos->find_slot_with_hash (&vi, DECL_UID (decl), INSERT);
398 if (*slot == NULL)
400 var_info_p v = XCNEW (struct var_info_d);
401 v->var = decl;
402 *slot = v;
403 return v;
405 return *slot;
409 /* Clears info for SSA names. */
411 static void
412 clear_ssa_name_info (void)
414 current_info_for_ssa_name_age++;
416 /* If current_info_for_ssa_name_age wraps we use stale information.
417 Asser that this does not happen. */
418 gcc_assert (current_info_for_ssa_name_age != 0);
422 /* Get access to the auxiliar information stored per SSA name or decl. */
424 static inline common_info_p
425 get_common_info (tree var)
427 if (TREE_CODE (var) == SSA_NAME)
428 return &get_ssa_name_ann (var)->info;
429 else
430 return &get_var_info (var)->info;
434 /* Return the current definition for VAR. */
436 tree
437 get_current_def (tree var)
439 return get_common_info (var)->current_def;
443 /* Sets current definition of VAR to DEF. */
445 void
446 set_current_def (tree var, tree def)
448 get_common_info (var)->current_def = def;
451 /* Cleans up the REWRITE_THIS_STMT and REGISTER_DEFS_IN_THIS_STMT flags for
452 all statements in basic block BB. */
454 static void
455 initialize_flags_in_bb (basic_block bb)
457 gimple stmt;
458 gimple_stmt_iterator gsi;
460 for (gsi = gsi_start_phis (bb); !gsi_end_p (gsi); gsi_next (&gsi))
462 gimple phi = gsi_stmt (gsi);
463 set_rewrite_uses (phi, false);
464 set_register_defs (phi, false);
467 for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi))
469 stmt = gsi_stmt (gsi);
471 /* We are going to use the operand cache API, such as
472 SET_USE, SET_DEF, and FOR_EACH_IMM_USE_FAST. The operand
473 cache for each statement should be up-to-date. */
474 gcc_checking_assert (!gimple_modified_p (stmt));
475 set_rewrite_uses (stmt, false);
476 set_register_defs (stmt, false);
480 /* Mark block BB as interesting for update_ssa. */
482 static void
483 mark_block_for_update (basic_block bb)
485 gcc_checking_assert (blocks_to_update != NULL);
486 if (!bitmap_set_bit (blocks_to_update, bb->index))
487 return;
488 initialize_flags_in_bb (bb);
491 /* Return the set of blocks where variable VAR is defined and the blocks
492 where VAR is live on entry (livein). If no entry is found in
493 DEF_BLOCKS, a new one is created and returned. */
495 static inline struct def_blocks_d *
496 get_def_blocks_for (common_info_p info)
498 struct def_blocks_d *db_p = &info->def_blocks;
499 if (!db_p->def_blocks)
501 db_p->def_blocks = BITMAP_ALLOC (&update_ssa_obstack);
502 db_p->phi_blocks = BITMAP_ALLOC (&update_ssa_obstack);
503 db_p->livein_blocks = BITMAP_ALLOC (&update_ssa_obstack);
506 return db_p;
510 /* Mark block BB as the definition site for variable VAR. PHI_P is true if
511 VAR is defined by a PHI node. */
513 static void
514 set_def_block (tree var, basic_block bb, bool phi_p)
516 struct def_blocks_d *db_p;
517 common_info_p info;
519 info = get_common_info (var);
520 db_p = get_def_blocks_for (info);
522 /* Set the bit corresponding to the block where VAR is defined. */
523 bitmap_set_bit (db_p->def_blocks, bb->index);
524 if (phi_p)
525 bitmap_set_bit (db_p->phi_blocks, bb->index);
527 /* Keep track of whether or not we may need to insert PHI nodes.
529 If we are in the UNKNOWN state, then this is the first definition
530 of VAR. Additionally, we have not seen any uses of VAR yet, so
531 we do not need a PHI node for this variable at this time (i.e.,
532 transition to NEED_PHI_STATE_NO).
534 If we are in any other state, then we either have multiple definitions
535 of this variable occurring in different blocks or we saw a use of the
536 variable which was not dominated by the block containing the
537 definition(s). In this case we may need a PHI node, so enter
538 state NEED_PHI_STATE_MAYBE. */
539 if (info->need_phi_state == NEED_PHI_STATE_UNKNOWN)
540 info->need_phi_state = NEED_PHI_STATE_NO;
541 else
542 info->need_phi_state = NEED_PHI_STATE_MAYBE;
546 /* Mark block BB as having VAR live at the entry to BB. */
548 static void
549 set_livein_block (tree var, basic_block bb)
551 common_info_p info;
552 struct def_blocks_d *db_p;
554 info = get_common_info (var);
555 db_p = get_def_blocks_for (info);
557 /* Set the bit corresponding to the block where VAR is live in. */
558 bitmap_set_bit (db_p->livein_blocks, bb->index);
560 /* Keep track of whether or not we may need to insert PHI nodes.
562 If we reach here in NEED_PHI_STATE_NO, see if this use is dominated
563 by the single block containing the definition(s) of this variable. If
564 it is, then we remain in NEED_PHI_STATE_NO, otherwise we transition to
565 NEED_PHI_STATE_MAYBE. */
566 if (info->need_phi_state == NEED_PHI_STATE_NO)
568 int def_block_index = bitmap_first_set_bit (db_p->def_blocks);
570 if (def_block_index == -1
571 || ! dominated_by_p (CDI_DOMINATORS, bb,
572 BASIC_BLOCK_FOR_FN (cfun, def_block_index)))
573 info->need_phi_state = NEED_PHI_STATE_MAYBE;
575 else
576 info->need_phi_state = NEED_PHI_STATE_MAYBE;
580 /* Return true if NAME is in OLD_SSA_NAMES. */
582 static inline bool
583 is_old_name (tree name)
585 unsigned ver = SSA_NAME_VERSION (name);
586 if (!old_ssa_names)
587 return false;
588 return (ver < SBITMAP_SIZE (old_ssa_names)
589 && bitmap_bit_p (old_ssa_names, ver));
593 /* Return true if NAME is in NEW_SSA_NAMES. */
595 static inline bool
596 is_new_name (tree name)
598 unsigned ver = SSA_NAME_VERSION (name);
599 if (!new_ssa_names)
600 return false;
601 return (ver < SBITMAP_SIZE (new_ssa_names)
602 && bitmap_bit_p (new_ssa_names, ver));
606 /* Return the names replaced by NEW_TREE (i.e., REPL_TBL[NEW_TREE].SET). */
608 static inline bitmap
609 names_replaced_by (tree new_tree)
611 return get_ssa_name_ann (new_tree)->repl_set;
615 /* Add OLD to REPL_TBL[NEW_TREE].SET. */
617 static inline void
618 add_to_repl_tbl (tree new_tree, tree old)
620 bitmap *set = &get_ssa_name_ann (new_tree)->repl_set;
621 if (!*set)
622 *set = BITMAP_ALLOC (&update_ssa_obstack);
623 bitmap_set_bit (*set, SSA_NAME_VERSION (old));
627 /* Add a new mapping NEW_TREE -> OLD REPL_TBL. Every entry N_i in REPL_TBL
628 represents the set of names O_1 ... O_j replaced by N_i. This is
629 used by update_ssa and its helpers to introduce new SSA names in an
630 already formed SSA web. */
632 static void
633 add_new_name_mapping (tree new_tree, tree old)
635 /* OLD and NEW_TREE must be different SSA names for the same symbol. */
636 gcc_checking_assert (new_tree != old
637 && SSA_NAME_VAR (new_tree) == SSA_NAME_VAR (old));
639 /* We may need to grow NEW_SSA_NAMES and OLD_SSA_NAMES because our
640 caller may have created new names since the set was created. */
641 if (SBITMAP_SIZE (new_ssa_names) <= num_ssa_names - 1)
643 unsigned int new_sz = num_ssa_names + NAME_SETS_GROWTH_FACTOR;
644 new_ssa_names = sbitmap_resize (new_ssa_names, new_sz, 0);
645 old_ssa_names = sbitmap_resize (old_ssa_names, new_sz, 0);
648 /* Update the REPL_TBL table. */
649 add_to_repl_tbl (new_tree, old);
651 /* If OLD had already been registered as a new name, then all the
652 names that OLD replaces should also be replaced by NEW_TREE. */
653 if (is_new_name (old))
654 bitmap_ior_into (names_replaced_by (new_tree), names_replaced_by (old));
656 /* Register NEW_TREE and OLD in NEW_SSA_NAMES and OLD_SSA_NAMES,
657 respectively. */
658 bitmap_set_bit (new_ssa_names, SSA_NAME_VERSION (new_tree));
659 bitmap_set_bit (old_ssa_names, SSA_NAME_VERSION (old));
663 /* Call back for walk_dominator_tree used to collect definition sites
664 for every variable in the function. For every statement S in block
667 1- Variables defined by S in the DEFS of S are marked in the bitmap
668 KILLS.
670 2- If S uses a variable VAR and there is no preceding kill of VAR,
671 then it is marked in the LIVEIN_BLOCKS bitmap associated with VAR.
673 This information is used to determine which variables are live
674 across block boundaries to reduce the number of PHI nodes
675 we create. */
677 static void
678 mark_def_sites (basic_block bb, gimple stmt, bitmap kills)
680 tree def;
681 use_operand_p use_p;
682 ssa_op_iter iter;
684 /* Since this is the first time that we rewrite the program into SSA
685 form, force an operand scan on every statement. */
686 update_stmt (stmt);
688 gcc_checking_assert (blocks_to_update == NULL);
689 set_register_defs (stmt, false);
690 set_rewrite_uses (stmt, false);
692 if (is_gimple_debug (stmt))
694 FOR_EACH_SSA_USE_OPERAND (use_p, stmt, iter, SSA_OP_USE)
696 tree sym = USE_FROM_PTR (use_p);
697 gcc_checking_assert (DECL_P (sym));
698 set_rewrite_uses (stmt, true);
700 if (rewrite_uses_p (stmt))
701 bitmap_set_bit (interesting_blocks, bb->index);
702 return;
705 /* If a variable is used before being set, then the variable is live
706 across a block boundary, so mark it live-on-entry to BB. */
707 FOR_EACH_SSA_USE_OPERAND (use_p, stmt, iter, SSA_OP_ALL_USES)
709 tree sym = USE_FROM_PTR (use_p);
710 gcc_checking_assert (DECL_P (sym));
711 if (!bitmap_bit_p (kills, DECL_UID (sym)))
712 set_livein_block (sym, bb);
713 set_rewrite_uses (stmt, true);
716 /* Now process the defs. Mark BB as the definition block and add
717 each def to the set of killed symbols. */
718 FOR_EACH_SSA_TREE_OPERAND (def, stmt, iter, SSA_OP_ALL_DEFS)
720 gcc_checking_assert (DECL_P (def));
721 set_def_block (def, bb, false);
722 bitmap_set_bit (kills, DECL_UID (def));
723 set_register_defs (stmt, true);
726 /* If we found the statement interesting then also mark the block BB
727 as interesting. */
728 if (rewrite_uses_p (stmt) || register_defs_p (stmt))
729 bitmap_set_bit (interesting_blocks, bb->index);
732 /* Structure used by prune_unused_phi_nodes to record bounds of the intervals
733 in the dfs numbering of the dominance tree. */
735 struct dom_dfsnum
737 /* Basic block whose index this entry corresponds to. */
738 unsigned bb_index;
740 /* The dfs number of this node. */
741 unsigned dfs_num;
744 /* Compares two entries of type struct dom_dfsnum by dfs_num field. Callback
745 for qsort. */
747 static int
748 cmp_dfsnum (const void *a, const void *b)
750 const struct dom_dfsnum *const da = (const struct dom_dfsnum *) a;
751 const struct dom_dfsnum *const db = (const struct dom_dfsnum *) b;
753 return (int) da->dfs_num - (int) db->dfs_num;
756 /* Among the intervals starting at the N points specified in DEFS, find
757 the one that contains S, and return its bb_index. */
759 static unsigned
760 find_dfsnum_interval (struct dom_dfsnum *defs, unsigned n, unsigned s)
762 unsigned f = 0, t = n, m;
764 while (t > f + 1)
766 m = (f + t) / 2;
767 if (defs[m].dfs_num <= s)
768 f = m;
769 else
770 t = m;
773 return defs[f].bb_index;
776 /* Clean bits from PHIS for phi nodes whose value cannot be used in USES.
777 KILLS is a bitmap of blocks where the value is defined before any use. */
779 static void
780 prune_unused_phi_nodes (bitmap phis, bitmap kills, bitmap uses)
782 bitmap_iterator bi;
783 unsigned i, b, p, u, top;
784 bitmap live_phis;
785 basic_block def_bb, use_bb;
786 edge e;
787 edge_iterator ei;
788 bitmap to_remove;
789 struct dom_dfsnum *defs;
790 unsigned n_defs, adef;
792 if (bitmap_empty_p (uses))
794 bitmap_clear (phis);
795 return;
798 /* The phi must dominate a use, or an argument of a live phi. Also, we
799 do not create any phi nodes in def blocks, unless they are also livein. */
800 to_remove = BITMAP_ALLOC (NULL);
801 bitmap_and_compl (to_remove, kills, uses);
802 bitmap_and_compl_into (phis, to_remove);
803 if (bitmap_empty_p (phis))
805 BITMAP_FREE (to_remove);
806 return;
809 /* We want to remove the unnecessary phi nodes, but we do not want to compute
810 liveness information, as that may be linear in the size of CFG, and if
811 there are lot of different variables to rewrite, this may lead to quadratic
812 behavior.
814 Instead, we basically emulate standard dce. We put all uses to worklist,
815 then for each of them find the nearest def that dominates them. If this
816 def is a phi node, we mark it live, and if it was not live before, we
817 add the predecessors of its basic block to the worklist.
819 To quickly locate the nearest def that dominates use, we use dfs numbering
820 of the dominance tree (that is already available in order to speed up
821 queries). For each def, we have the interval given by the dfs number on
822 entry to and on exit from the corresponding subtree in the dominance tree.
823 The nearest dominator for a given use is the smallest of these intervals
824 that contains entry and exit dfs numbers for the basic block with the use.
825 If we store the bounds for all the uses to an array and sort it, we can
826 locate the nearest dominating def in logarithmic time by binary search.*/
827 bitmap_ior (to_remove, kills, phis);
828 n_defs = bitmap_count_bits (to_remove);
829 defs = XNEWVEC (struct dom_dfsnum, 2 * n_defs + 1);
830 defs[0].bb_index = 1;
831 defs[0].dfs_num = 0;
832 adef = 1;
833 EXECUTE_IF_SET_IN_BITMAP (to_remove, 0, i, bi)
835 def_bb = BASIC_BLOCK_FOR_FN (cfun, i);
836 defs[adef].bb_index = i;
837 defs[adef].dfs_num = bb_dom_dfs_in (CDI_DOMINATORS, def_bb);
838 defs[adef + 1].bb_index = i;
839 defs[adef + 1].dfs_num = bb_dom_dfs_out (CDI_DOMINATORS, def_bb);
840 adef += 2;
842 BITMAP_FREE (to_remove);
843 gcc_assert (adef == 2 * n_defs + 1);
844 qsort (defs, adef, sizeof (struct dom_dfsnum), cmp_dfsnum);
845 gcc_assert (defs[0].bb_index == 1);
847 /* Now each DEFS entry contains the number of the basic block to that the
848 dfs number corresponds. Change them to the number of basic block that
849 corresponds to the interval following the dfs number. Also, for the
850 dfs_out numbers, increase the dfs number by one (so that it corresponds
851 to the start of the following interval, not to the end of the current
852 one). We use WORKLIST as a stack. */
853 auto_vec<int> worklist (n_defs + 1);
854 worklist.quick_push (1);
855 top = 1;
856 n_defs = 1;
857 for (i = 1; i < adef; i++)
859 b = defs[i].bb_index;
860 if (b == top)
862 /* This is a closing element. Interval corresponding to the top
863 of the stack after removing it follows. */
864 worklist.pop ();
865 top = worklist[worklist.length () - 1];
866 defs[n_defs].bb_index = top;
867 defs[n_defs].dfs_num = defs[i].dfs_num + 1;
869 else
871 /* Opening element. Nothing to do, just push it to the stack and move
872 it to the correct position. */
873 defs[n_defs].bb_index = defs[i].bb_index;
874 defs[n_defs].dfs_num = defs[i].dfs_num;
875 worklist.quick_push (b);
876 top = b;
879 /* If this interval starts at the same point as the previous one, cancel
880 the previous one. */
881 if (defs[n_defs].dfs_num == defs[n_defs - 1].dfs_num)
882 defs[n_defs - 1].bb_index = defs[n_defs].bb_index;
883 else
884 n_defs++;
886 worklist.pop ();
887 gcc_assert (worklist.is_empty ());
889 /* Now process the uses. */
890 live_phis = BITMAP_ALLOC (NULL);
891 EXECUTE_IF_SET_IN_BITMAP (uses, 0, i, bi)
893 worklist.safe_push (i);
896 while (!worklist.is_empty ())
898 b = worklist.pop ();
899 if (b == ENTRY_BLOCK)
900 continue;
902 /* If there is a phi node in USE_BB, it is made live. Otherwise,
903 find the def that dominates the immediate dominator of USE_BB
904 (the kill in USE_BB does not dominate the use). */
905 if (bitmap_bit_p (phis, b))
906 p = b;
907 else
909 use_bb = get_immediate_dominator (CDI_DOMINATORS,
910 BASIC_BLOCK_FOR_FN (cfun, b));
911 p = find_dfsnum_interval (defs, n_defs,
912 bb_dom_dfs_in (CDI_DOMINATORS, use_bb));
913 if (!bitmap_bit_p (phis, p))
914 continue;
917 /* If the phi node is already live, there is nothing to do. */
918 if (!bitmap_set_bit (live_phis, p))
919 continue;
921 /* Add the new uses to the worklist. */
922 def_bb = BASIC_BLOCK_FOR_FN (cfun, p);
923 FOR_EACH_EDGE (e, ei, def_bb->preds)
925 u = e->src->index;
926 if (bitmap_bit_p (uses, u))
927 continue;
929 /* In case there is a kill directly in the use block, do not record
930 the use (this is also necessary for correctness, as we assume that
931 uses dominated by a def directly in their block have been filtered
932 out before). */
933 if (bitmap_bit_p (kills, u))
934 continue;
936 bitmap_set_bit (uses, u);
937 worklist.safe_push (u);
941 bitmap_copy (phis, live_phis);
942 BITMAP_FREE (live_phis);
943 free (defs);
946 /* Return the set of blocks where variable VAR is defined and the blocks
947 where VAR is live on entry (livein). Return NULL, if no entry is
948 found in DEF_BLOCKS. */
950 static inline struct def_blocks_d *
951 find_def_blocks_for (tree var)
953 def_blocks_p p = &get_common_info (var)->def_blocks;
954 if (!p->def_blocks)
955 return NULL;
956 return p;
960 /* Marks phi node PHI in basic block BB for rewrite. */
962 static void
963 mark_phi_for_rewrite (basic_block bb, gphi *phi)
965 vec<gphi *> phis;
966 unsigned n, idx = bb->index;
968 if (rewrite_uses_p (phi))
969 return;
971 set_rewrite_uses (phi, true);
973 if (!blocks_with_phis_to_rewrite)
974 return;
976 bitmap_set_bit (blocks_with_phis_to_rewrite, idx);
978 n = (unsigned) last_basic_block_for_fn (cfun) + 1;
979 if (phis_to_rewrite.length () < n)
980 phis_to_rewrite.safe_grow_cleared (n);
982 phis = phis_to_rewrite[idx];
983 phis.reserve (10);
985 phis.safe_push (phi);
986 phis_to_rewrite[idx] = phis;
989 /* Insert PHI nodes for variable VAR using the iterated dominance
990 frontier given in PHI_INSERTION_POINTS. If UPDATE_P is true, this
991 function assumes that the caller is incrementally updating the
992 existing SSA form, in which case VAR may be an SSA name instead of
993 a symbol.
995 PHI_INSERTION_POINTS is updated to reflect nodes that already had a
996 PHI node for VAR. On exit, only the nodes that received a PHI node
997 for VAR will be present in PHI_INSERTION_POINTS. */
999 static void
1000 insert_phi_nodes_for (tree var, bitmap phi_insertion_points, bool update_p)
1002 unsigned bb_index;
1003 edge e;
1004 gphi *phi;
1005 basic_block bb;
1006 bitmap_iterator bi;
1007 struct def_blocks_d *def_map = find_def_blocks_for (var);
1009 /* Remove the blocks where we already have PHI nodes for VAR. */
1010 bitmap_and_compl_into (phi_insertion_points, def_map->phi_blocks);
1012 /* Remove obviously useless phi nodes. */
1013 prune_unused_phi_nodes (phi_insertion_points, def_map->def_blocks,
1014 def_map->livein_blocks);
1016 /* And insert the PHI nodes. */
1017 EXECUTE_IF_SET_IN_BITMAP (phi_insertion_points, 0, bb_index, bi)
1019 bb = BASIC_BLOCK_FOR_FN (cfun, bb_index);
1020 if (update_p)
1021 mark_block_for_update (bb);
1023 if (dump_file && (dump_flags & TDF_DETAILS))
1025 fprintf (dump_file, "creating PHI node in block #%d for ", bb_index);
1026 print_generic_expr (dump_file, var, TDF_SLIM);
1027 fprintf (dump_file, "\n");
1029 phi = NULL;
1031 if (TREE_CODE (var) == SSA_NAME)
1033 /* If we are rewriting SSA names, create the LHS of the PHI
1034 node by duplicating VAR. This is useful in the case of
1035 pointers, to also duplicate pointer attributes (alias
1036 information, in particular). */
1037 edge_iterator ei;
1038 tree new_lhs;
1040 gcc_checking_assert (update_p);
1041 new_lhs = duplicate_ssa_name (var, NULL);
1042 phi = create_phi_node (new_lhs, bb);
1043 add_new_name_mapping (new_lhs, var);
1045 /* Add VAR to every argument slot of PHI. We need VAR in
1046 every argument so that rewrite_update_phi_arguments knows
1047 which name is this PHI node replacing. If VAR is a
1048 symbol marked for renaming, this is not necessary, the
1049 renamer will use the symbol on the LHS to get its
1050 reaching definition. */
1051 FOR_EACH_EDGE (e, ei, bb->preds)
1052 add_phi_arg (phi, var, e, UNKNOWN_LOCATION);
1054 else
1056 tree tracked_var;
1058 gcc_checking_assert (DECL_P (var));
1059 phi = create_phi_node (var, bb);
1061 tracked_var = target_for_debug_bind (var);
1062 if (tracked_var)
1064 gimple note = gimple_build_debug_bind (tracked_var,
1065 PHI_RESULT (phi),
1066 phi);
1067 gimple_stmt_iterator si = gsi_after_labels (bb);
1068 gsi_insert_before (&si, note, GSI_SAME_STMT);
1072 /* Mark this PHI node as interesting for update_ssa. */
1073 set_register_defs (phi, true);
1074 mark_phi_for_rewrite (bb, phi);
1078 /* Sort var_infos after DECL_UID of their var. */
1080 static int
1081 insert_phi_nodes_compare_var_infos (const void *a, const void *b)
1083 const struct var_info_d *defa = *(struct var_info_d * const *)a;
1084 const struct var_info_d *defb = *(struct var_info_d * const *)b;
1085 if (DECL_UID (defa->var) < DECL_UID (defb->var))
1086 return -1;
1087 else
1088 return 1;
1091 /* Insert PHI nodes at the dominance frontier of blocks with variable
1092 definitions. DFS contains the dominance frontier information for
1093 the flowgraph. */
1095 static void
1096 insert_phi_nodes (bitmap_head *dfs)
1098 hash_table<var_info_hasher>::iterator hi;
1099 unsigned i;
1100 var_info_p info;
1102 timevar_push (TV_TREE_INSERT_PHI_NODES);
1104 auto_vec<var_info_p> vars (var_infos->elements ());
1105 FOR_EACH_HASH_TABLE_ELEMENT (*var_infos, info, var_info_p, hi)
1106 if (info->info.need_phi_state != NEED_PHI_STATE_NO)
1107 vars.quick_push (info);
1109 /* Do two stages to avoid code generation differences for UID
1110 differences but no UID ordering differences. */
1111 vars.qsort (insert_phi_nodes_compare_var_infos);
1113 FOR_EACH_VEC_ELT (vars, i, info)
1115 bitmap idf = compute_idf (info->info.def_blocks.def_blocks, dfs);
1116 insert_phi_nodes_for (info->var, idf, false);
1117 BITMAP_FREE (idf);
1120 timevar_pop (TV_TREE_INSERT_PHI_NODES);
1124 /* Push SYM's current reaching definition into BLOCK_DEFS_STACK and
1125 register DEF (an SSA_NAME) to be a new definition for SYM. */
1127 static void
1128 register_new_def (tree def, tree sym)
1130 common_info_p info = get_common_info (sym);
1131 tree currdef;
1133 /* If this variable is set in a single basic block and all uses are
1134 dominated by the set(s) in that single basic block, then there is
1135 no reason to record anything for this variable in the block local
1136 definition stacks. Doing so just wastes time and memory.
1138 This is the same test to prune the set of variables which may
1139 need PHI nodes. So we just use that information since it's already
1140 computed and available for us to use. */
1141 if (info->need_phi_state == NEED_PHI_STATE_NO)
1143 info->current_def = def;
1144 return;
1147 currdef = info->current_def;
1149 /* If SYM is not a GIMPLE register, then CURRDEF may be a name whose
1150 SSA_NAME_VAR is not necessarily SYM. In this case, also push SYM
1151 in the stack so that we know which symbol is being defined by
1152 this SSA name when we unwind the stack. */
1153 if (currdef && !is_gimple_reg (sym))
1154 block_defs_stack.safe_push (sym);
1156 /* Push the current reaching definition into BLOCK_DEFS_STACK. This
1157 stack is later used by the dominator tree callbacks to restore
1158 the reaching definitions for all the variables defined in the
1159 block after a recursive visit to all its immediately dominated
1160 blocks. If there is no current reaching definition, then just
1161 record the underlying _DECL node. */
1162 block_defs_stack.safe_push (currdef ? currdef : sym);
1164 /* Set the current reaching definition for SYM to be DEF. */
1165 info->current_def = def;
1169 /* Perform a depth-first traversal of the dominator tree looking for
1170 variables to rename. BB is the block where to start searching.
1171 Renaming is a five step process:
1173 1- Every definition made by PHI nodes at the start of the blocks is
1174 registered as the current definition for the corresponding variable.
1176 2- Every statement in BB is rewritten. USE and VUSE operands are
1177 rewritten with their corresponding reaching definition. DEF and
1178 VDEF targets are registered as new definitions.
1180 3- All the PHI nodes in successor blocks of BB are visited. The
1181 argument corresponding to BB is replaced with its current reaching
1182 definition.
1184 4- Recursively rewrite every dominator child block of BB.
1186 5- Restore (in reverse order) the current reaching definition for every
1187 new definition introduced in this block. This is done so that when
1188 we return from the recursive call, all the current reaching
1189 definitions are restored to the names that were valid in the
1190 dominator parent of BB. */
1192 /* Return the current definition for variable VAR. If none is found,
1193 create a new SSA name to act as the zeroth definition for VAR. */
1195 static tree
1196 get_reaching_def (tree var)
1198 common_info_p info = get_common_info (var);
1199 tree currdef;
1201 /* Lookup the current reaching definition for VAR. */
1202 currdef = info->current_def;
1204 /* If there is no reaching definition for VAR, create and register a
1205 default definition for it (if needed). */
1206 if (currdef == NULL_TREE)
1208 tree sym = DECL_P (var) ? var : SSA_NAME_VAR (var);
1209 currdef = get_or_create_ssa_default_def (cfun, sym);
1212 /* Return the current reaching definition for VAR, or the default
1213 definition, if we had to create one. */
1214 return currdef;
1218 /* Helper function for rewrite_stmt. Rewrite uses in a debug stmt. */
1220 static void
1221 rewrite_debug_stmt_uses (gimple stmt)
1223 use_operand_p use_p;
1224 ssa_op_iter iter;
1225 bool update = false;
1227 FOR_EACH_SSA_USE_OPERAND (use_p, stmt, iter, SSA_OP_USE)
1229 tree var = USE_FROM_PTR (use_p), def;
1230 common_info_p info = get_common_info (var);
1231 gcc_checking_assert (DECL_P (var));
1232 def = info->current_def;
1233 if (!def)
1235 if (TREE_CODE (var) == PARM_DECL
1236 && single_succ_p (ENTRY_BLOCK_PTR_FOR_FN (cfun)))
1238 gimple_stmt_iterator gsi
1240 gsi_after_labels (single_succ (ENTRY_BLOCK_PTR_FOR_FN (cfun)));
1241 int lim;
1242 /* Search a few source bind stmts at the start of first bb to
1243 see if a DEBUG_EXPR_DECL can't be reused. */
1244 for (lim = 32;
1245 !gsi_end_p (gsi) && lim > 0;
1246 gsi_next (&gsi), lim--)
1248 gimple gstmt = gsi_stmt (gsi);
1249 if (!gimple_debug_source_bind_p (gstmt))
1250 break;
1251 if (gimple_debug_source_bind_get_value (gstmt) == var)
1253 def = gimple_debug_source_bind_get_var (gstmt);
1254 if (TREE_CODE (def) == DEBUG_EXPR_DECL)
1255 break;
1256 else
1257 def = NULL_TREE;
1260 /* If not, add a new source bind stmt. */
1261 if (def == NULL_TREE)
1263 gimple def_temp;
1264 def = make_node (DEBUG_EXPR_DECL);
1265 def_temp = gimple_build_debug_source_bind (def, var, NULL);
1266 DECL_ARTIFICIAL (def) = 1;
1267 TREE_TYPE (def) = TREE_TYPE (var);
1268 DECL_MODE (def) = DECL_MODE (var);
1269 gsi =
1270 gsi_after_labels (single_succ (ENTRY_BLOCK_PTR_FOR_FN (cfun)));
1271 gsi_insert_before (&gsi, def_temp, GSI_SAME_STMT);
1273 update = true;
1276 else
1278 /* Check if info->current_def can be trusted. */
1279 basic_block bb = gimple_bb (stmt);
1280 basic_block def_bb
1281 = SSA_NAME_IS_DEFAULT_DEF (def)
1282 ? NULL : gimple_bb (SSA_NAME_DEF_STMT (def));
1284 /* If definition is in current bb, it is fine. */
1285 if (bb == def_bb)
1287 /* If definition bb doesn't dominate the current bb,
1288 it can't be used. */
1289 else if (def_bb && !dominated_by_p (CDI_DOMINATORS, bb, def_bb))
1290 def = NULL;
1291 /* If there is just one definition and dominates the current
1292 bb, it is fine. */
1293 else if (info->need_phi_state == NEED_PHI_STATE_NO)
1295 else
1297 struct def_blocks_d *db_p = get_def_blocks_for (info);
1299 /* If there are some non-debug uses in the current bb,
1300 it is fine. */
1301 if (bitmap_bit_p (db_p->livein_blocks, bb->index))
1303 /* Otherwise give up for now. */
1304 else
1305 def = NULL;
1308 if (def == NULL)
1310 gimple_debug_bind_reset_value (stmt);
1311 update_stmt (stmt);
1312 return;
1314 SET_USE (use_p, def);
1316 if (update)
1317 update_stmt (stmt);
1320 /* SSA Rewriting Step 2. Rewrite every variable used in each statement in
1321 the block with its immediate reaching definitions. Update the current
1322 definition of a variable when a new real or virtual definition is found. */
1324 static void
1325 rewrite_stmt (gimple_stmt_iterator *si)
1327 use_operand_p use_p;
1328 def_operand_p def_p;
1329 ssa_op_iter iter;
1330 gimple stmt = gsi_stmt (*si);
1332 /* If mark_def_sites decided that we don't need to rewrite this
1333 statement, ignore it. */
1334 gcc_assert (blocks_to_update == NULL);
1335 if (!rewrite_uses_p (stmt) && !register_defs_p (stmt))
1336 return;
1338 if (dump_file && (dump_flags & TDF_DETAILS))
1340 fprintf (dump_file, "Renaming statement ");
1341 print_gimple_stmt (dump_file, stmt, 0, TDF_SLIM);
1342 fprintf (dump_file, "\n");
1345 /* Step 1. Rewrite USES in the statement. */
1346 if (rewrite_uses_p (stmt))
1348 if (is_gimple_debug (stmt))
1349 rewrite_debug_stmt_uses (stmt);
1350 else
1351 FOR_EACH_SSA_USE_OPERAND (use_p, stmt, iter, SSA_OP_ALL_USES)
1353 tree var = USE_FROM_PTR (use_p);
1354 gcc_checking_assert (DECL_P (var));
1355 SET_USE (use_p, get_reaching_def (var));
1359 /* Step 2. Register the statement's DEF operands. */
1360 if (register_defs_p (stmt))
1361 FOR_EACH_SSA_DEF_OPERAND (def_p, stmt, iter, SSA_OP_ALL_DEFS)
1363 tree var = DEF_FROM_PTR (def_p);
1364 tree name;
1365 tree tracked_var;
1367 gcc_checking_assert (DECL_P (var));
1369 if (gimple_clobber_p (stmt)
1370 && is_gimple_reg (var))
1372 /* If we rewrite a DECL into SSA form then drop its
1373 clobber stmts and replace uses with a new default def. */
1374 gcc_checking_assert (TREE_CODE (var) == VAR_DECL
1375 && !gimple_vdef (stmt));
1376 gsi_replace (si, gimple_build_nop (), true);
1377 register_new_def (get_or_create_ssa_default_def (cfun, var), var);
1378 break;
1381 name = make_ssa_name (var, stmt);
1382 SET_DEF (def_p, name);
1383 register_new_def (DEF_FROM_PTR (def_p), var);
1385 tracked_var = target_for_debug_bind (var);
1386 if (tracked_var)
1388 gimple note = gimple_build_debug_bind (tracked_var, name, stmt);
1389 gsi_insert_after (si, note, GSI_SAME_STMT);
1395 /* SSA Rewriting Step 3. Visit all the successor blocks of BB looking for
1396 PHI nodes. For every PHI node found, add a new argument containing the
1397 current reaching definition for the variable and the edge through which
1398 that definition is reaching the PHI node. */
1400 static void
1401 rewrite_add_phi_arguments (basic_block bb)
1403 edge e;
1404 edge_iterator ei;
1406 FOR_EACH_EDGE (e, ei, bb->succs)
1408 gphi *phi;
1409 gphi_iterator gsi;
1411 for (gsi = gsi_start_phis (e->dest); !gsi_end_p (gsi);
1412 gsi_next (&gsi))
1414 tree currdef, res;
1415 location_t loc;
1417 phi = gsi.phi ();
1418 res = gimple_phi_result (phi);
1419 currdef = get_reaching_def (SSA_NAME_VAR (res));
1420 /* Virtual operand PHI args do not need a location. */
1421 if (virtual_operand_p (res))
1422 loc = UNKNOWN_LOCATION;
1423 else
1424 loc = gimple_location (SSA_NAME_DEF_STMT (currdef));
1425 add_phi_arg (phi, currdef, e, loc);
1430 class rewrite_dom_walker : public dom_walker
1432 public:
1433 rewrite_dom_walker (cdi_direction direction) : dom_walker (direction) {}
1435 virtual void before_dom_children (basic_block);
1436 virtual void after_dom_children (basic_block);
1439 /* SSA Rewriting Step 1. Initialization, create a block local stack
1440 of reaching definitions for new SSA names produced in this block
1441 (BLOCK_DEFS). Register new definitions for every PHI node in the
1442 block. */
1444 void
1445 rewrite_dom_walker::before_dom_children (basic_block bb)
1447 if (dump_file && (dump_flags & TDF_DETAILS))
1448 fprintf (dump_file, "\n\nRenaming block #%d\n\n", bb->index);
1450 /* Mark the unwind point for this block. */
1451 block_defs_stack.safe_push (NULL_TREE);
1453 /* Step 1. Register new definitions for every PHI node in the block.
1454 Conceptually, all the PHI nodes are executed in parallel and each PHI
1455 node introduces a new version for the associated variable. */
1456 for (gphi_iterator gsi = gsi_start_phis (bb); !gsi_end_p (gsi);
1457 gsi_next (&gsi))
1459 tree result = gimple_phi_result (gsi_stmt (gsi));
1460 register_new_def (result, SSA_NAME_VAR (result));
1463 /* Step 2. Rewrite every variable used in each statement in the block
1464 with its immediate reaching definitions. Update the current definition
1465 of a variable when a new real or virtual definition is found. */
1466 if (bitmap_bit_p (interesting_blocks, bb->index))
1467 for (gimple_stmt_iterator gsi = gsi_start_bb (bb); !gsi_end_p (gsi);
1468 gsi_next (&gsi))
1469 rewrite_stmt (&gsi);
1471 /* Step 3. Visit all the successor blocks of BB looking for PHI nodes.
1472 For every PHI node found, add a new argument containing the current
1473 reaching definition for the variable and the edge through which that
1474 definition is reaching the PHI node. */
1475 rewrite_add_phi_arguments (bb);
1480 /* Called after visiting all the statements in basic block BB and all
1481 of its dominator children. Restore CURRDEFS to its original value. */
1483 void
1484 rewrite_dom_walker::after_dom_children (basic_block bb ATTRIBUTE_UNUSED)
1486 /* Restore CURRDEFS to its original state. */
1487 while (block_defs_stack.length () > 0)
1489 tree tmp = block_defs_stack.pop ();
1490 tree saved_def, var;
1492 if (tmp == NULL_TREE)
1493 break;
1495 if (TREE_CODE (tmp) == SSA_NAME)
1497 /* If we recorded an SSA_NAME, then make the SSA_NAME the
1498 current definition of its underlying variable. Note that
1499 if the SSA_NAME is not for a GIMPLE register, the symbol
1500 being defined is stored in the next slot in the stack.
1501 This mechanism is needed because an SSA name for a
1502 non-register symbol may be the definition for more than
1503 one symbol (e.g., SFTs, aliased variables, etc). */
1504 saved_def = tmp;
1505 var = SSA_NAME_VAR (saved_def);
1506 if (!is_gimple_reg (var))
1507 var = block_defs_stack.pop ();
1509 else
1511 /* If we recorded anything else, it must have been a _DECL
1512 node and its current reaching definition must have been
1513 NULL. */
1514 saved_def = NULL;
1515 var = tmp;
1518 get_common_info (var)->current_def = saved_def;
1523 /* Dump bitmap SET (assumed to contain VAR_DECLs) to FILE. */
1525 DEBUG_FUNCTION void
1526 debug_decl_set (bitmap set)
1528 dump_decl_set (stderr, set);
1529 fprintf (stderr, "\n");
1533 /* Dump the renaming stack (block_defs_stack) to FILE. Traverse the
1534 stack up to a maximum of N levels. If N is -1, the whole stack is
1535 dumped. New levels are created when the dominator tree traversal
1536 used for renaming enters a new sub-tree. */
1538 void
1539 dump_defs_stack (FILE *file, int n)
1541 int i, j;
1543 fprintf (file, "\n\nRenaming stack");
1544 if (n > 0)
1545 fprintf (file, " (up to %d levels)", n);
1546 fprintf (file, "\n\n");
1548 i = 1;
1549 fprintf (file, "Level %d (current level)\n", i);
1550 for (j = (int) block_defs_stack.length () - 1; j >= 0; j--)
1552 tree name, var;
1554 name = block_defs_stack[j];
1555 if (name == NULL_TREE)
1557 i++;
1558 if (n > 0 && i > n)
1559 break;
1560 fprintf (file, "\nLevel %d\n", i);
1561 continue;
1564 if (DECL_P (name))
1566 var = name;
1567 name = NULL_TREE;
1569 else
1571 var = SSA_NAME_VAR (name);
1572 if (!is_gimple_reg (var))
1574 j--;
1575 var = block_defs_stack[j];
1579 fprintf (file, " Previous CURRDEF (");
1580 print_generic_expr (file, var, 0);
1581 fprintf (file, ") = ");
1582 if (name)
1583 print_generic_expr (file, name, 0);
1584 else
1585 fprintf (file, "<NIL>");
1586 fprintf (file, "\n");
1591 /* Dump the renaming stack (block_defs_stack) to stderr. Traverse the
1592 stack up to a maximum of N levels. If N is -1, the whole stack is
1593 dumped. New levels are created when the dominator tree traversal
1594 used for renaming enters a new sub-tree. */
1596 DEBUG_FUNCTION void
1597 debug_defs_stack (int n)
1599 dump_defs_stack (stderr, n);
1603 /* Dump the current reaching definition of every symbol to FILE. */
1605 void
1606 dump_currdefs (FILE *file)
1608 unsigned i;
1609 tree var;
1611 if (symbols_to_rename.is_empty ())
1612 return;
1614 fprintf (file, "\n\nCurrent reaching definitions\n\n");
1615 FOR_EACH_VEC_ELT (symbols_to_rename, i, var)
1617 common_info_p info = get_common_info (var);
1618 fprintf (file, "CURRDEF (");
1619 print_generic_expr (file, var, 0);
1620 fprintf (file, ") = ");
1621 if (info->current_def)
1622 print_generic_expr (file, info->current_def, 0);
1623 else
1624 fprintf (file, "<NIL>");
1625 fprintf (file, "\n");
1630 /* Dump the current reaching definition of every symbol to stderr. */
1632 DEBUG_FUNCTION void
1633 debug_currdefs (void)
1635 dump_currdefs (stderr);
1639 /* Dump SSA information to FILE. */
1641 void
1642 dump_tree_ssa (FILE *file)
1644 const char *funcname
1645 = lang_hooks.decl_printable_name (current_function_decl, 2);
1647 fprintf (file, "SSA renaming information for %s\n\n", funcname);
1649 dump_var_infos (file);
1650 dump_defs_stack (file, -1);
1651 dump_currdefs (file);
1652 dump_tree_ssa_stats (file);
1656 /* Dump SSA information to stderr. */
1658 DEBUG_FUNCTION void
1659 debug_tree_ssa (void)
1661 dump_tree_ssa (stderr);
1665 /* Dump statistics for the hash table HTAB. */
1667 static void
1668 htab_statistics (FILE *file, const hash_table<var_info_hasher> &htab)
1670 fprintf (file, "size %ld, %ld elements, %f collision/search ratio\n",
1671 (long) htab.size (),
1672 (long) htab.elements (),
1673 htab.collisions ());
1677 /* Dump SSA statistics on FILE. */
1679 void
1680 dump_tree_ssa_stats (FILE *file)
1682 if (var_infos)
1684 fprintf (file, "\nHash table statistics:\n");
1685 fprintf (file, " var_infos: ");
1686 htab_statistics (file, *var_infos);
1687 fprintf (file, "\n");
1692 /* Dump SSA statistics on stderr. */
1694 DEBUG_FUNCTION void
1695 debug_tree_ssa_stats (void)
1697 dump_tree_ssa_stats (stderr);
1701 /* Callback for htab_traverse to dump the VAR_INFOS hash table. */
1704 debug_var_infos_r (var_info_d **slot, FILE *file)
1706 struct var_info_d *info = *slot;
1708 fprintf (file, "VAR: ");
1709 print_generic_expr (file, info->var, dump_flags);
1710 bitmap_print (file, info->info.def_blocks.def_blocks,
1711 ", DEF_BLOCKS: { ", "}");
1712 bitmap_print (file, info->info.def_blocks.livein_blocks,
1713 ", LIVEIN_BLOCKS: { ", "}");
1714 bitmap_print (file, info->info.def_blocks.phi_blocks,
1715 ", PHI_BLOCKS: { ", "}\n");
1717 return 1;
1721 /* Dump the VAR_INFOS hash table on FILE. */
1723 void
1724 dump_var_infos (FILE *file)
1726 fprintf (file, "\n\nDefinition and live-in blocks:\n\n");
1727 if (var_infos)
1728 var_infos->traverse <FILE *, debug_var_infos_r> (file);
1732 /* Dump the VAR_INFOS hash table on stderr. */
1734 DEBUG_FUNCTION void
1735 debug_var_infos (void)
1737 dump_var_infos (stderr);
1741 /* Register NEW_NAME to be the new reaching definition for OLD_NAME. */
1743 static inline void
1744 register_new_update_single (tree new_name, tree old_name)
1746 common_info_p info = get_common_info (old_name);
1747 tree currdef = info->current_def;
1749 /* Push the current reaching definition into BLOCK_DEFS_STACK.
1750 This stack is later used by the dominator tree callbacks to
1751 restore the reaching definitions for all the variables
1752 defined in the block after a recursive visit to all its
1753 immediately dominated blocks. */
1754 block_defs_stack.reserve (2);
1755 block_defs_stack.quick_push (currdef);
1756 block_defs_stack.quick_push (old_name);
1758 /* Set the current reaching definition for OLD_NAME to be
1759 NEW_NAME. */
1760 info->current_def = new_name;
1764 /* Register NEW_NAME to be the new reaching definition for all the
1765 names in OLD_NAMES. Used by the incremental SSA update routines to
1766 replace old SSA names with new ones. */
1768 static inline void
1769 register_new_update_set (tree new_name, bitmap old_names)
1771 bitmap_iterator bi;
1772 unsigned i;
1774 EXECUTE_IF_SET_IN_BITMAP (old_names, 0, i, bi)
1775 register_new_update_single (new_name, ssa_name (i));
1780 /* If the operand pointed to by USE_P is a name in OLD_SSA_NAMES or
1781 it is a symbol marked for renaming, replace it with USE_P's current
1782 reaching definition. */
1784 static inline void
1785 maybe_replace_use (use_operand_p use_p)
1787 tree rdef = NULL_TREE;
1788 tree use = USE_FROM_PTR (use_p);
1789 tree sym = DECL_P (use) ? use : SSA_NAME_VAR (use);
1791 if (marked_for_renaming (sym))
1792 rdef = get_reaching_def (sym);
1793 else if (is_old_name (use))
1794 rdef = get_reaching_def (use);
1796 if (rdef && rdef != use)
1797 SET_USE (use_p, rdef);
1801 /* Same as maybe_replace_use, but without introducing default stmts,
1802 returning false to indicate a need to do so. */
1804 static inline bool
1805 maybe_replace_use_in_debug_stmt (use_operand_p use_p)
1807 tree rdef = NULL_TREE;
1808 tree use = USE_FROM_PTR (use_p);
1809 tree sym = DECL_P (use) ? use : SSA_NAME_VAR (use);
1811 if (marked_for_renaming (sym))
1812 rdef = get_var_info (sym)->info.current_def;
1813 else if (is_old_name (use))
1815 rdef = get_ssa_name_ann (use)->info.current_def;
1816 /* We can't assume that, if there's no current definition, the
1817 default one should be used. It could be the case that we've
1818 rearranged blocks so that the earlier definition no longer
1819 dominates the use. */
1820 if (!rdef && SSA_NAME_IS_DEFAULT_DEF (use))
1821 rdef = use;
1823 else
1824 rdef = use;
1826 if (rdef && rdef != use)
1827 SET_USE (use_p, rdef);
1829 return rdef != NULL_TREE;
1833 /* If the operand pointed to by DEF_P is an SSA name in NEW_SSA_NAMES
1834 or OLD_SSA_NAMES, or if it is a symbol marked for renaming,
1835 register it as the current definition for the names replaced by
1836 DEF_P. Returns whether the statement should be removed. */
1838 static inline bool
1839 maybe_register_def (def_operand_p def_p, gimple stmt,
1840 gimple_stmt_iterator gsi)
1842 tree def = DEF_FROM_PTR (def_p);
1843 tree sym = DECL_P (def) ? def : SSA_NAME_VAR (def);
1844 bool to_delete = false;
1846 /* If DEF is a naked symbol that needs renaming, create a new
1847 name for it. */
1848 if (marked_for_renaming (sym))
1850 if (DECL_P (def))
1852 if (gimple_clobber_p (stmt) && is_gimple_reg (sym))
1854 gcc_checking_assert (TREE_CODE (sym) == VAR_DECL);
1855 /* Replace clobber stmts with a default def. This new use of a
1856 default definition may make it look like SSA_NAMEs have
1857 conflicting lifetimes, so we need special code to let them
1858 coalesce properly. */
1859 to_delete = true;
1860 def = get_or_create_ssa_default_def (cfun, sym);
1862 else
1863 def = make_ssa_name (def, stmt);
1864 SET_DEF (def_p, def);
1866 tree tracked_var = target_for_debug_bind (sym);
1867 if (tracked_var)
1869 gimple note = gimple_build_debug_bind (tracked_var, def, stmt);
1870 /* If stmt ends the bb, insert the debug stmt on the single
1871 non-EH edge from the stmt. */
1872 if (gsi_one_before_end_p (gsi) && stmt_ends_bb_p (stmt))
1874 basic_block bb = gsi_bb (gsi);
1875 edge_iterator ei;
1876 edge e, ef = NULL;
1877 FOR_EACH_EDGE (e, ei, bb->succs)
1878 if (!(e->flags & EDGE_EH))
1880 gcc_checking_assert (!ef);
1881 ef = e;
1883 /* If there are other predecessors to ef->dest, then
1884 there must be PHI nodes for the modified
1885 variable, and therefore there will be debug bind
1886 stmts after the PHI nodes. The debug bind notes
1887 we'd insert would force the creation of a new
1888 block (diverging codegen) and be redundant with
1889 the post-PHI bind stmts, so don't add them.
1891 As for the exit edge, there wouldn't be redundant
1892 bind stmts, but there wouldn't be a PC to bind
1893 them to either, so avoid diverging the CFG. */
1894 if (ef && single_pred_p (ef->dest)
1895 && ef->dest != EXIT_BLOCK_PTR_FOR_FN (cfun))
1897 /* If there were PHI nodes in the node, we'd
1898 have to make sure the value we're binding
1899 doesn't need rewriting. But there shouldn't
1900 be PHI nodes in a single-predecessor block,
1901 so we just add the note. */
1902 gsi_insert_on_edge_immediate (ef, note);
1905 else
1906 gsi_insert_after (&gsi, note, GSI_SAME_STMT);
1910 register_new_update_single (def, sym);
1912 else
1914 /* If DEF is a new name, register it as a new definition
1915 for all the names replaced by DEF. */
1916 if (is_new_name (def))
1917 register_new_update_set (def, names_replaced_by (def));
1919 /* If DEF is an old name, register DEF as a new
1920 definition for itself. */
1921 if (is_old_name (def))
1922 register_new_update_single (def, def);
1925 return to_delete;
1929 /* Update every variable used in the statement pointed-to by SI. The
1930 statement is assumed to be in SSA form already. Names in
1931 OLD_SSA_NAMES used by SI will be updated to their current reaching
1932 definition. Names in OLD_SSA_NAMES or NEW_SSA_NAMES defined by SI
1933 will be registered as a new definition for their corresponding name
1934 in OLD_SSA_NAMES. Returns whether STMT should be removed. */
1936 static bool
1937 rewrite_update_stmt (gimple stmt, gimple_stmt_iterator gsi)
1939 use_operand_p use_p;
1940 def_operand_p def_p;
1941 ssa_op_iter iter;
1943 /* Only update marked statements. */
1944 if (!rewrite_uses_p (stmt) && !register_defs_p (stmt))
1945 return false;
1947 if (dump_file && (dump_flags & TDF_DETAILS))
1949 fprintf (dump_file, "Updating SSA information for statement ");
1950 print_gimple_stmt (dump_file, stmt, 0, TDF_SLIM);
1953 /* Rewrite USES included in OLD_SSA_NAMES and USES whose underlying
1954 symbol is marked for renaming. */
1955 if (rewrite_uses_p (stmt))
1957 if (is_gimple_debug (stmt))
1959 bool failed = false;
1961 FOR_EACH_SSA_USE_OPERAND (use_p, stmt, iter, SSA_OP_USE)
1962 if (!maybe_replace_use_in_debug_stmt (use_p))
1964 failed = true;
1965 break;
1968 if (failed)
1970 /* DOM sometimes threads jumps in such a way that a
1971 debug stmt ends up referencing a SSA variable that no
1972 longer dominates the debug stmt, but such that all
1973 incoming definitions refer to the same definition in
1974 an earlier dominator. We could try to recover that
1975 definition somehow, but this will have to do for now.
1977 Introducing a default definition, which is what
1978 maybe_replace_use() would do in such cases, may
1979 modify code generation, for the otherwise-unused
1980 default definition would never go away, modifying SSA
1981 version numbers all over. */
1982 gimple_debug_bind_reset_value (stmt);
1983 update_stmt (stmt);
1986 else
1988 FOR_EACH_SSA_USE_OPERAND (use_p, stmt, iter, SSA_OP_ALL_USES)
1989 maybe_replace_use (use_p);
1993 /* Register definitions of names in NEW_SSA_NAMES and OLD_SSA_NAMES.
1994 Also register definitions for names whose underlying symbol is
1995 marked for renaming. */
1996 bool to_delete = false;
1997 if (register_defs_p (stmt))
1998 FOR_EACH_SSA_DEF_OPERAND (def_p, stmt, iter, SSA_OP_ALL_DEFS)
1999 to_delete |= maybe_register_def (def_p, stmt, gsi);
2001 return to_delete;
2005 /* Visit all the successor blocks of BB looking for PHI nodes. For
2006 every PHI node found, check if any of its arguments is in
2007 OLD_SSA_NAMES. If so, and if the argument has a current reaching
2008 definition, replace it. */
2010 static void
2011 rewrite_update_phi_arguments (basic_block bb)
2013 edge e;
2014 edge_iterator ei;
2015 unsigned i;
2017 FOR_EACH_EDGE (e, ei, bb->succs)
2019 gphi *phi;
2020 vec<gphi *> phis;
2022 if (!bitmap_bit_p (blocks_with_phis_to_rewrite, e->dest->index))
2023 continue;
2025 phis = phis_to_rewrite[e->dest->index];
2026 FOR_EACH_VEC_ELT (phis, i, phi)
2028 tree arg, lhs_sym, reaching_def = NULL;
2029 use_operand_p arg_p;
2031 gcc_checking_assert (rewrite_uses_p (phi));
2033 arg_p = PHI_ARG_DEF_PTR_FROM_EDGE (phi, e);
2034 arg = USE_FROM_PTR (arg_p);
2036 if (arg && !DECL_P (arg) && TREE_CODE (arg) != SSA_NAME)
2037 continue;
2039 lhs_sym = SSA_NAME_VAR (gimple_phi_result (phi));
2041 if (arg == NULL_TREE)
2043 /* When updating a PHI node for a recently introduced
2044 symbol we may find NULL arguments. That's why we
2045 take the symbol from the LHS of the PHI node. */
2046 reaching_def = get_reaching_def (lhs_sym);
2049 else
2051 tree sym = DECL_P (arg) ? arg : SSA_NAME_VAR (arg);
2053 if (marked_for_renaming (sym))
2054 reaching_def = get_reaching_def (sym);
2055 else if (is_old_name (arg))
2056 reaching_def = get_reaching_def (arg);
2059 /* Update the argument if there is a reaching def. */
2060 if (reaching_def)
2062 source_location locus;
2063 int arg_i = PHI_ARG_INDEX_FROM_USE (arg_p);
2065 SET_USE (arg_p, reaching_def);
2067 /* Virtual operands do not need a location. */
2068 if (virtual_operand_p (reaching_def))
2069 locus = UNKNOWN_LOCATION;
2070 else
2072 gimple stmt = SSA_NAME_DEF_STMT (reaching_def);
2073 gphi *other_phi = dyn_cast <gphi *> (stmt);
2075 /* Single element PHI nodes behave like copies, so get the
2076 location from the phi argument. */
2077 if (other_phi
2078 && gimple_phi_num_args (other_phi) == 1)
2079 locus = gimple_phi_arg_location (other_phi, 0);
2080 else
2081 locus = gimple_location (stmt);
2084 gimple_phi_arg_set_location (phi, arg_i, locus);
2088 if (e->flags & EDGE_ABNORMAL)
2089 SSA_NAME_OCCURS_IN_ABNORMAL_PHI (USE_FROM_PTR (arg_p)) = 1;
2094 class rewrite_update_dom_walker : public dom_walker
2096 public:
2097 rewrite_update_dom_walker (cdi_direction direction) : dom_walker (direction) {}
2099 virtual void before_dom_children (basic_block);
2100 virtual void after_dom_children (basic_block);
2103 /* Initialization of block data structures for the incremental SSA
2104 update pass. Create a block local stack of reaching definitions
2105 for new SSA names produced in this block (BLOCK_DEFS). Register
2106 new definitions for every PHI node in the block. */
2108 void
2109 rewrite_update_dom_walker::before_dom_children (basic_block bb)
2111 bool is_abnormal_phi;
2113 if (dump_file && (dump_flags & TDF_DETAILS))
2114 fprintf (dump_file, "Registering new PHI nodes in block #%d\n",
2115 bb->index);
2117 /* Mark the unwind point for this block. */
2118 block_defs_stack.safe_push (NULL_TREE);
2120 if (!bitmap_bit_p (blocks_to_update, bb->index))
2121 return;
2123 /* Mark the LHS if any of the arguments flows through an abnormal
2124 edge. */
2125 is_abnormal_phi = bb_has_abnormal_pred (bb);
2127 /* If any of the PHI nodes is a replacement for a name in
2128 OLD_SSA_NAMES or it's one of the names in NEW_SSA_NAMES, then
2129 register it as a new definition for its corresponding name. Also
2130 register definitions for names whose underlying symbols are
2131 marked for renaming. */
2132 for (gphi_iterator gsi = gsi_start_phis (bb); !gsi_end_p (gsi);
2133 gsi_next (&gsi))
2135 tree lhs, lhs_sym;
2136 gphi *phi = gsi.phi ();
2138 if (!register_defs_p (phi))
2139 continue;
2141 lhs = gimple_phi_result (phi);
2142 lhs_sym = SSA_NAME_VAR (lhs);
2144 if (marked_for_renaming (lhs_sym))
2145 register_new_update_single (lhs, lhs_sym);
2146 else
2149 /* If LHS is a new name, register a new definition for all
2150 the names replaced by LHS. */
2151 if (is_new_name (lhs))
2152 register_new_update_set (lhs, names_replaced_by (lhs));
2154 /* If LHS is an OLD name, register it as a new definition
2155 for itself. */
2156 if (is_old_name (lhs))
2157 register_new_update_single (lhs, lhs);
2160 if (is_abnormal_phi)
2161 SSA_NAME_OCCURS_IN_ABNORMAL_PHI (lhs) = 1;
2164 /* Step 2. Rewrite every variable used in each statement in the block. */
2165 if (bitmap_bit_p (interesting_blocks, bb->index))
2167 gcc_checking_assert (bitmap_bit_p (blocks_to_update, bb->index));
2168 for (gimple_stmt_iterator gsi = gsi_start_bb (bb); !gsi_end_p (gsi); )
2169 if (rewrite_update_stmt (gsi_stmt (gsi), gsi))
2170 gsi_remove (&gsi, true);
2171 else
2172 gsi_next (&gsi);
2175 /* Step 3. Update PHI nodes. */
2176 rewrite_update_phi_arguments (bb);
2179 /* Called after visiting block BB. Unwind BLOCK_DEFS_STACK to restore
2180 the current reaching definition of every name re-written in BB to
2181 the original reaching definition before visiting BB. This
2182 unwinding must be done in the opposite order to what is done in
2183 register_new_update_set. */
2185 void
2186 rewrite_update_dom_walker::after_dom_children (basic_block bb ATTRIBUTE_UNUSED)
2188 while (block_defs_stack.length () > 0)
2190 tree var = block_defs_stack.pop ();
2191 tree saved_def;
2193 /* NULL indicates the unwind stop point for this block (see
2194 rewrite_update_enter_block). */
2195 if (var == NULL)
2196 return;
2198 saved_def = block_defs_stack.pop ();
2199 get_common_info (var)->current_def = saved_def;
2204 /* Rewrite the actual blocks, statements, and PHI arguments, to be in SSA
2205 form.
2207 ENTRY indicates the block where to start. Every block dominated by
2208 ENTRY will be rewritten.
2210 WHAT indicates what actions will be taken by the renamer (see enum
2211 rewrite_mode).
2213 BLOCKS are the set of interesting blocks for the dominator walker
2214 to process. If this set is NULL, then all the nodes dominated
2215 by ENTRY are walked. Otherwise, blocks dominated by ENTRY that
2216 are not present in BLOCKS are ignored. */
2218 static void
2219 rewrite_blocks (basic_block entry, enum rewrite_mode what)
2221 /* Rewrite all the basic blocks in the program. */
2222 timevar_push (TV_TREE_SSA_REWRITE_BLOCKS);
2224 block_defs_stack.create (10);
2226 /* Recursively walk the dominator tree rewriting each statement in
2227 each basic block. */
2228 if (what == REWRITE_ALL)
2229 rewrite_dom_walker (CDI_DOMINATORS).walk (entry);
2230 else if (what == REWRITE_UPDATE)
2231 rewrite_update_dom_walker (CDI_DOMINATORS).walk (entry);
2232 else
2233 gcc_unreachable ();
2235 /* Debugging dumps. */
2236 if (dump_file && (dump_flags & TDF_STATS))
2238 dump_dfa_stats (dump_file);
2239 if (var_infos)
2240 dump_tree_ssa_stats (dump_file);
2243 block_defs_stack.release ();
2245 timevar_pop (TV_TREE_SSA_REWRITE_BLOCKS);
2248 class mark_def_dom_walker : public dom_walker
2250 public:
2251 mark_def_dom_walker (cdi_direction direction);
2252 ~mark_def_dom_walker ();
2254 virtual void before_dom_children (basic_block);
2256 private:
2257 /* Notice that this bitmap is indexed using variable UIDs, so it must be
2258 large enough to accommodate all the variables referenced in the
2259 function, not just the ones we are renaming. */
2260 bitmap m_kills;
2263 mark_def_dom_walker::mark_def_dom_walker (cdi_direction direction)
2264 : dom_walker (direction), m_kills (BITMAP_ALLOC (NULL))
2268 mark_def_dom_walker::~mark_def_dom_walker ()
2270 BITMAP_FREE (m_kills);
2273 /* Block processing routine for mark_def_sites. Clear the KILLS bitmap
2274 at the start of each block, and call mark_def_sites for each statement. */
2276 void
2277 mark_def_dom_walker::before_dom_children (basic_block bb)
2279 gimple_stmt_iterator gsi;
2281 bitmap_clear (m_kills);
2282 for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi))
2283 mark_def_sites (bb, gsi_stmt (gsi), m_kills);
2286 /* Initialize internal data needed during renaming. */
2288 static void
2289 init_ssa_renamer (void)
2291 cfun->gimple_df->in_ssa_p = false;
2293 /* Allocate memory for the DEF_BLOCKS hash table. */
2294 gcc_assert (!var_infos);
2295 var_infos = new hash_table<var_info_hasher>
2296 (vec_safe_length (cfun->local_decls));
2298 bitmap_obstack_initialize (&update_ssa_obstack);
2302 /* Deallocate internal data structures used by the renamer. */
2304 static void
2305 fini_ssa_renamer (void)
2307 delete var_infos;
2308 var_infos = NULL;
2310 bitmap_obstack_release (&update_ssa_obstack);
2312 cfun->gimple_df->ssa_renaming_needed = 0;
2313 cfun->gimple_df->rename_vops = 0;
2314 cfun->gimple_df->in_ssa_p = true;
2317 /* Main entry point into the SSA builder. The renaming process
2318 proceeds in four main phases:
2320 1- Compute dominance frontier and immediate dominators, needed to
2321 insert PHI nodes and rename the function in dominator tree
2322 order.
2324 2- Find and mark all the blocks that define variables.
2326 3- Insert PHI nodes at dominance frontiers (insert_phi_nodes).
2328 4- Rename all the blocks (rewrite_blocks) and statements in the program.
2330 Steps 3 and 4 are done using the dominator tree walker
2331 (walk_dominator_tree). */
2333 namespace {
2335 const pass_data pass_data_build_ssa =
2337 GIMPLE_PASS, /* type */
2338 "ssa", /* name */
2339 OPTGROUP_NONE, /* optinfo_flags */
2340 TV_TREE_SSA_OTHER, /* tv_id */
2341 PROP_cfg, /* properties_required */
2342 PROP_ssa, /* properties_provided */
2343 0, /* properties_destroyed */
2344 0, /* todo_flags_start */
2345 TODO_remove_unused_locals, /* todo_flags_finish */
2348 class pass_build_ssa : public gimple_opt_pass
2350 public:
2351 pass_build_ssa (gcc::context *ctxt)
2352 : gimple_opt_pass (pass_data_build_ssa, ctxt)
2355 /* opt_pass methods: */
2356 virtual bool gate (function *fun)
2358 /* Do nothing for funcions that was produced already in SSA form. */
2359 return !(fun->curr_properties & PROP_ssa);
2362 virtual unsigned int execute (function *);
2364 }; // class pass_build_ssa
2366 unsigned int
2367 pass_build_ssa::execute (function *fun)
2369 bitmap_head *dfs;
2370 basic_block bb;
2371 unsigned i;
2373 /* Initialize operand data structures. */
2374 init_ssa_operands (fun);
2376 /* Initialize internal data needed by the renamer. */
2377 init_ssa_renamer ();
2379 /* Initialize the set of interesting blocks. The callback
2380 mark_def_sites will add to this set those blocks that the renamer
2381 should process. */
2382 interesting_blocks = sbitmap_alloc (last_basic_block_for_fn (fun));
2383 bitmap_clear (interesting_blocks);
2385 /* Initialize dominance frontier. */
2386 dfs = XNEWVEC (bitmap_head, last_basic_block_for_fn (fun));
2387 FOR_EACH_BB_FN (bb, fun)
2388 bitmap_initialize (&dfs[bb->index], &bitmap_default_obstack);
2390 /* 1- Compute dominance frontiers. */
2391 calculate_dominance_info (CDI_DOMINATORS);
2392 compute_dominance_frontiers (dfs);
2394 /* 2- Find and mark definition sites. */
2395 mark_def_dom_walker (CDI_DOMINATORS).walk (fun->cfg->x_entry_block_ptr);
2397 /* 3- Insert PHI nodes at dominance frontiers of definition blocks. */
2398 insert_phi_nodes (dfs);
2400 /* 4- Rename all the blocks. */
2401 rewrite_blocks (ENTRY_BLOCK_PTR_FOR_FN (fun), REWRITE_ALL);
2403 /* Free allocated memory. */
2404 FOR_EACH_BB_FN (bb, fun)
2405 bitmap_clear (&dfs[bb->index]);
2406 free (dfs);
2408 sbitmap_free (interesting_blocks);
2410 fini_ssa_renamer ();
2412 /* Try to get rid of all gimplifier generated temporaries by making
2413 its SSA names anonymous. This way we can garbage collect them
2414 all after removing unused locals which we do in our TODO. */
2415 for (i = 1; i < num_ssa_names; ++i)
2417 tree decl, name = ssa_name (i);
2418 if (!name
2419 || SSA_NAME_IS_DEFAULT_DEF (name))
2420 continue;
2421 decl = SSA_NAME_VAR (name);
2422 if (decl
2423 && TREE_CODE (decl) == VAR_DECL
2424 && !VAR_DECL_IS_VIRTUAL_OPERAND (decl)
2425 && DECL_IGNORED_P (decl))
2426 SET_SSA_NAME_VAR_OR_IDENTIFIER (name, DECL_NAME (decl));
2429 return 0;
2432 } // anon namespace
2434 gimple_opt_pass *
2435 make_pass_build_ssa (gcc::context *ctxt)
2437 return new pass_build_ssa (ctxt);
2441 /* Mark the definition of VAR at STMT and BB as interesting for the
2442 renamer. BLOCKS is the set of blocks that need updating. */
2444 static void
2445 mark_def_interesting (tree var, gimple stmt, basic_block bb, bool insert_phi_p)
2447 gcc_checking_assert (bitmap_bit_p (blocks_to_update, bb->index));
2448 set_register_defs (stmt, true);
2450 if (insert_phi_p)
2452 bool is_phi_p = gimple_code (stmt) == GIMPLE_PHI;
2454 set_def_block (var, bb, is_phi_p);
2456 /* If VAR is an SSA name in NEW_SSA_NAMES, this is a definition
2457 site for both itself and all the old names replaced by it. */
2458 if (TREE_CODE (var) == SSA_NAME && is_new_name (var))
2460 bitmap_iterator bi;
2461 unsigned i;
2462 bitmap set = names_replaced_by (var);
2463 if (set)
2464 EXECUTE_IF_SET_IN_BITMAP (set, 0, i, bi)
2465 set_def_block (ssa_name (i), bb, is_phi_p);
2471 /* Mark the use of VAR at STMT and BB as interesting for the
2472 renamer. INSERT_PHI_P is true if we are going to insert new PHI
2473 nodes. */
2475 static inline void
2476 mark_use_interesting (tree var, gimple stmt, basic_block bb, bool insert_phi_p)
2478 basic_block def_bb = gimple_bb (stmt);
2480 mark_block_for_update (def_bb);
2481 mark_block_for_update (bb);
2483 if (gimple_code (stmt) == GIMPLE_PHI)
2484 mark_phi_for_rewrite (def_bb, as_a <gphi *> (stmt));
2485 else
2487 set_rewrite_uses (stmt, true);
2489 if (is_gimple_debug (stmt))
2490 return;
2493 /* If VAR has not been defined in BB, then it is live-on-entry
2494 to BB. Note that we cannot just use the block holding VAR's
2495 definition because if VAR is one of the names in OLD_SSA_NAMES,
2496 it will have several definitions (itself and all the names that
2497 replace it). */
2498 if (insert_phi_p)
2500 struct def_blocks_d *db_p = get_def_blocks_for (get_common_info (var));
2501 if (!bitmap_bit_p (db_p->def_blocks, bb->index))
2502 set_livein_block (var, bb);
2507 /* Do a dominator walk starting at BB processing statements that
2508 reference symbols in SSA operands. This is very similar to
2509 mark_def_sites, but the scan handles statements whose operands may
2510 already be SSA names.
2512 If INSERT_PHI_P is true, mark those uses as live in the
2513 corresponding block. This is later used by the PHI placement
2514 algorithm to make PHI pruning decisions.
2516 FIXME. Most of this would be unnecessary if we could associate a
2517 symbol to all the SSA names that reference it. But that
2518 sounds like it would be expensive to maintain. Still, it
2519 would be interesting to see if it makes better sense to do
2520 that. */
2522 static void
2523 prepare_block_for_update (basic_block bb, bool insert_phi_p)
2525 basic_block son;
2526 edge e;
2527 edge_iterator ei;
2529 mark_block_for_update (bb);
2531 /* Process PHI nodes marking interesting those that define or use
2532 the symbols that we are interested in. */
2533 for (gphi_iterator si = gsi_start_phis (bb); !gsi_end_p (si);
2534 gsi_next (&si))
2536 gphi *phi = si.phi ();
2537 tree lhs_sym, lhs = gimple_phi_result (phi);
2539 if (TREE_CODE (lhs) == SSA_NAME
2540 && (! virtual_operand_p (lhs)
2541 || ! cfun->gimple_df->rename_vops))
2542 continue;
2544 lhs_sym = DECL_P (lhs) ? lhs : SSA_NAME_VAR (lhs);
2545 mark_for_renaming (lhs_sym);
2546 mark_def_interesting (lhs_sym, phi, bb, insert_phi_p);
2548 /* Mark the uses in phi nodes as interesting. It would be more correct
2549 to process the arguments of the phi nodes of the successor edges of
2550 BB at the end of prepare_block_for_update, however, that turns out
2551 to be significantly more expensive. Doing it here is conservatively
2552 correct -- it may only cause us to believe a value to be live in a
2553 block that also contains its definition, and thus insert a few more
2554 phi nodes for it. */
2555 FOR_EACH_EDGE (e, ei, bb->preds)
2556 mark_use_interesting (lhs_sym, phi, e->src, insert_phi_p);
2559 /* Process the statements. */
2560 for (gimple_stmt_iterator si = gsi_start_bb (bb); !gsi_end_p (si);
2561 gsi_next (&si))
2563 gimple stmt;
2564 ssa_op_iter i;
2565 use_operand_p use_p;
2566 def_operand_p def_p;
2568 stmt = gsi_stmt (si);
2570 if (cfun->gimple_df->rename_vops
2571 && gimple_vuse (stmt))
2573 tree use = gimple_vuse (stmt);
2574 tree sym = DECL_P (use) ? use : SSA_NAME_VAR (use);
2575 mark_for_renaming (sym);
2576 mark_use_interesting (sym, stmt, bb, insert_phi_p);
2579 FOR_EACH_SSA_USE_OPERAND (use_p, stmt, i, SSA_OP_USE)
2581 tree use = USE_FROM_PTR (use_p);
2582 if (!DECL_P (use))
2583 continue;
2584 mark_for_renaming (use);
2585 mark_use_interesting (use, stmt, bb, insert_phi_p);
2588 if (cfun->gimple_df->rename_vops
2589 && gimple_vdef (stmt))
2591 tree def = gimple_vdef (stmt);
2592 tree sym = DECL_P (def) ? def : SSA_NAME_VAR (def);
2593 mark_for_renaming (sym);
2594 mark_def_interesting (sym, stmt, bb, insert_phi_p);
2597 FOR_EACH_SSA_DEF_OPERAND (def_p, stmt, i, SSA_OP_DEF)
2599 tree def = DEF_FROM_PTR (def_p);
2600 if (!DECL_P (def))
2601 continue;
2602 mark_for_renaming (def);
2603 mark_def_interesting (def, stmt, bb, insert_phi_p);
2607 /* Now visit all the blocks dominated by BB. */
2608 for (son = first_dom_son (CDI_DOMINATORS, bb);
2609 son;
2610 son = next_dom_son (CDI_DOMINATORS, son))
2611 prepare_block_for_update (son, insert_phi_p);
2615 /* Helper for prepare_names_to_update. Mark all the use sites for
2616 NAME as interesting. BLOCKS and INSERT_PHI_P are as in
2617 prepare_names_to_update. */
2619 static void
2620 prepare_use_sites_for (tree name, bool insert_phi_p)
2622 use_operand_p use_p;
2623 imm_use_iterator iter;
2625 FOR_EACH_IMM_USE_FAST (use_p, iter, name)
2627 gimple stmt = USE_STMT (use_p);
2628 basic_block bb = gimple_bb (stmt);
2630 if (gimple_code (stmt) == GIMPLE_PHI)
2632 int ix = PHI_ARG_INDEX_FROM_USE (use_p);
2633 edge e = gimple_phi_arg_edge (as_a <gphi *> (stmt), ix);
2634 mark_use_interesting (name, stmt, e->src, insert_phi_p);
2636 else
2638 /* For regular statements, mark this as an interesting use
2639 for NAME. */
2640 mark_use_interesting (name, stmt, bb, insert_phi_p);
2646 /* Helper for prepare_names_to_update. Mark the definition site for
2647 NAME as interesting. BLOCKS and INSERT_PHI_P are as in
2648 prepare_names_to_update. */
2650 static void
2651 prepare_def_site_for (tree name, bool insert_phi_p)
2653 gimple stmt;
2654 basic_block bb;
2656 gcc_checking_assert (names_to_release == NULL
2657 || !bitmap_bit_p (names_to_release,
2658 SSA_NAME_VERSION (name)));
2660 stmt = SSA_NAME_DEF_STMT (name);
2661 bb = gimple_bb (stmt);
2662 if (bb)
2664 gcc_checking_assert (bb->index < last_basic_block_for_fn (cfun));
2665 mark_block_for_update (bb);
2666 mark_def_interesting (name, stmt, bb, insert_phi_p);
2671 /* Mark definition and use sites of names in NEW_SSA_NAMES and
2672 OLD_SSA_NAMES. INSERT_PHI_P is true if the caller wants to insert
2673 PHI nodes for newly created names. */
2675 static void
2676 prepare_names_to_update (bool insert_phi_p)
2678 unsigned i = 0;
2679 bitmap_iterator bi;
2680 sbitmap_iterator sbi;
2682 /* If a name N from NEW_SSA_NAMES is also marked to be released,
2683 remove it from NEW_SSA_NAMES so that we don't try to visit its
2684 defining basic block (which most likely doesn't exist). Notice
2685 that we cannot do the same with names in OLD_SSA_NAMES because we
2686 want to replace existing instances. */
2687 if (names_to_release)
2688 EXECUTE_IF_SET_IN_BITMAP (names_to_release, 0, i, bi)
2689 bitmap_clear_bit (new_ssa_names, i);
2691 /* First process names in NEW_SSA_NAMES. Otherwise, uses of old
2692 names may be considered to be live-in on blocks that contain
2693 definitions for their replacements. */
2694 EXECUTE_IF_SET_IN_BITMAP (new_ssa_names, 0, i, sbi)
2695 prepare_def_site_for (ssa_name (i), insert_phi_p);
2697 /* If an old name is in NAMES_TO_RELEASE, we cannot remove it from
2698 OLD_SSA_NAMES, but we have to ignore its definition site. */
2699 EXECUTE_IF_SET_IN_BITMAP (old_ssa_names, 0, i, sbi)
2701 if (names_to_release == NULL || !bitmap_bit_p (names_to_release, i))
2702 prepare_def_site_for (ssa_name (i), insert_phi_p);
2703 prepare_use_sites_for (ssa_name (i), insert_phi_p);
2708 /* Dump all the names replaced by NAME to FILE. */
2710 void
2711 dump_names_replaced_by (FILE *file, tree name)
2713 unsigned i;
2714 bitmap old_set;
2715 bitmap_iterator bi;
2717 print_generic_expr (file, name, 0);
2718 fprintf (file, " -> { ");
2720 old_set = names_replaced_by (name);
2721 EXECUTE_IF_SET_IN_BITMAP (old_set, 0, i, bi)
2723 print_generic_expr (file, ssa_name (i), 0);
2724 fprintf (file, " ");
2727 fprintf (file, "}\n");
2731 /* Dump all the names replaced by NAME to stderr. */
2733 DEBUG_FUNCTION void
2734 debug_names_replaced_by (tree name)
2736 dump_names_replaced_by (stderr, name);
2740 /* Dump SSA update information to FILE. */
2742 void
2743 dump_update_ssa (FILE *file)
2745 unsigned i = 0;
2746 bitmap_iterator bi;
2748 if (!need_ssa_update_p (cfun))
2749 return;
2751 if (new_ssa_names && bitmap_first_set_bit (new_ssa_names) >= 0)
2753 sbitmap_iterator sbi;
2755 fprintf (file, "\nSSA replacement table\n");
2756 fprintf (file, "N_i -> { O_1 ... O_j } means that N_i replaces "
2757 "O_1, ..., O_j\n\n");
2759 EXECUTE_IF_SET_IN_BITMAP (new_ssa_names, 0, i, sbi)
2760 dump_names_replaced_by (file, ssa_name (i));
2763 if (symbols_to_rename_set && !bitmap_empty_p (symbols_to_rename_set))
2765 fprintf (file, "\nSymbols to be put in SSA form\n");
2766 dump_decl_set (file, symbols_to_rename_set);
2767 fprintf (file, "\n");
2770 if (names_to_release && !bitmap_empty_p (names_to_release))
2772 fprintf (file, "\nSSA names to release after updating the SSA web\n\n");
2773 EXECUTE_IF_SET_IN_BITMAP (names_to_release, 0, i, bi)
2775 print_generic_expr (file, ssa_name (i), 0);
2776 fprintf (file, " ");
2778 fprintf (file, "\n");
2783 /* Dump SSA update information to stderr. */
2785 DEBUG_FUNCTION void
2786 debug_update_ssa (void)
2788 dump_update_ssa (stderr);
2792 /* Initialize data structures used for incremental SSA updates. */
2794 static void
2795 init_update_ssa (struct function *fn)
2797 /* Reserve more space than the current number of names. The calls to
2798 add_new_name_mapping are typically done after creating new SSA
2799 names, so we'll need to reallocate these arrays. */
2800 old_ssa_names = sbitmap_alloc (num_ssa_names + NAME_SETS_GROWTH_FACTOR);
2801 bitmap_clear (old_ssa_names);
2803 new_ssa_names = sbitmap_alloc (num_ssa_names + NAME_SETS_GROWTH_FACTOR);
2804 bitmap_clear (new_ssa_names);
2806 bitmap_obstack_initialize (&update_ssa_obstack);
2808 names_to_release = NULL;
2809 update_ssa_initialized_fn = fn;
2813 /* Deallocate data structures used for incremental SSA updates. */
2815 void
2816 delete_update_ssa (void)
2818 unsigned i;
2819 bitmap_iterator bi;
2821 sbitmap_free (old_ssa_names);
2822 old_ssa_names = NULL;
2824 sbitmap_free (new_ssa_names);
2825 new_ssa_names = NULL;
2827 BITMAP_FREE (symbols_to_rename_set);
2828 symbols_to_rename_set = NULL;
2829 symbols_to_rename.release ();
2831 if (names_to_release)
2833 EXECUTE_IF_SET_IN_BITMAP (names_to_release, 0, i, bi)
2834 release_ssa_name (ssa_name (i));
2835 BITMAP_FREE (names_to_release);
2838 clear_ssa_name_info ();
2840 fini_ssa_renamer ();
2842 if (blocks_with_phis_to_rewrite)
2843 EXECUTE_IF_SET_IN_BITMAP (blocks_with_phis_to_rewrite, 0, i, bi)
2845 vec<gphi *> phis = phis_to_rewrite[i];
2846 phis.release ();
2847 phis_to_rewrite[i].create (0);
2850 BITMAP_FREE (blocks_with_phis_to_rewrite);
2851 BITMAP_FREE (blocks_to_update);
2853 update_ssa_initialized_fn = NULL;
2857 /* Create a new name for OLD_NAME in statement STMT and replace the
2858 operand pointed to by DEF_P with the newly created name. If DEF_P
2859 is NULL then STMT should be a GIMPLE assignment.
2860 Return the new name and register the replacement mapping <NEW, OLD> in
2861 update_ssa's tables. */
2863 tree
2864 create_new_def_for (tree old_name, gimple stmt, def_operand_p def)
2866 tree new_name;
2868 timevar_push (TV_TREE_SSA_INCREMENTAL);
2870 if (!update_ssa_initialized_fn)
2871 init_update_ssa (cfun);
2873 gcc_assert (update_ssa_initialized_fn == cfun);
2875 new_name = duplicate_ssa_name (old_name, stmt);
2876 if (def)
2877 SET_DEF (def, new_name);
2878 else
2879 gimple_assign_set_lhs (stmt, new_name);
2881 if (gimple_code (stmt) == GIMPLE_PHI)
2883 basic_block bb = gimple_bb (stmt);
2885 /* If needed, mark NEW_NAME as occurring in an abnormal PHI node. */
2886 SSA_NAME_OCCURS_IN_ABNORMAL_PHI (new_name) = bb_has_abnormal_pred (bb);
2889 add_new_name_mapping (new_name, old_name);
2891 /* For the benefit of passes that will be updating the SSA form on
2892 their own, set the current reaching definition of OLD_NAME to be
2893 NEW_NAME. */
2894 get_ssa_name_ann (old_name)->info.current_def = new_name;
2896 timevar_pop (TV_TREE_SSA_INCREMENTAL);
2898 return new_name;
2902 /* Mark virtual operands of FN for renaming by update_ssa. */
2904 void
2905 mark_virtual_operands_for_renaming (struct function *fn)
2907 fn->gimple_df->ssa_renaming_needed = 1;
2908 fn->gimple_df->rename_vops = 1;
2911 /* Replace all uses of NAME by underlying variable and mark it
2912 for renaming. This assumes the defining statement of NAME is
2913 going to be removed. */
2915 void
2916 mark_virtual_operand_for_renaming (tree name)
2918 tree name_var = SSA_NAME_VAR (name);
2919 bool used = false;
2920 imm_use_iterator iter;
2921 use_operand_p use_p;
2922 gimple stmt;
2924 gcc_assert (VAR_DECL_IS_VIRTUAL_OPERAND (name_var));
2925 FOR_EACH_IMM_USE_STMT (stmt, iter, name)
2927 FOR_EACH_IMM_USE_ON_STMT (use_p, iter)
2928 SET_USE (use_p, name_var);
2929 used = true;
2931 if (used)
2932 mark_virtual_operands_for_renaming (cfun);
2935 /* Replace all uses of the virtual PHI result by its underlying variable
2936 and mark it for renaming. This assumes the PHI node is going to be
2937 removed. */
2939 void
2940 mark_virtual_phi_result_for_renaming (gphi *phi)
2942 if (dump_file && (dump_flags & TDF_DETAILS))
2944 fprintf (dump_file, "Marking result for renaming : ");
2945 print_gimple_stmt (dump_file, phi, 0, TDF_SLIM);
2946 fprintf (dump_file, "\n");
2949 mark_virtual_operand_for_renaming (gimple_phi_result (phi));
2952 /* Return true if there is any work to be done by update_ssa
2953 for function FN. */
2955 bool
2956 need_ssa_update_p (struct function *fn)
2958 gcc_assert (fn != NULL);
2959 return (update_ssa_initialized_fn == fn
2960 || (fn->gimple_df && fn->gimple_df->ssa_renaming_needed));
2963 /* Return true if name N has been registered in the replacement table. */
2965 bool
2966 name_registered_for_update_p (tree n ATTRIBUTE_UNUSED)
2968 if (!update_ssa_initialized_fn)
2969 return false;
2971 gcc_assert (update_ssa_initialized_fn == cfun);
2973 return is_new_name (n) || is_old_name (n);
2977 /* Mark NAME to be released after update_ssa has finished. */
2979 void
2980 release_ssa_name_after_update_ssa (tree name)
2982 gcc_assert (cfun && update_ssa_initialized_fn == cfun);
2984 if (names_to_release == NULL)
2985 names_to_release = BITMAP_ALLOC (NULL);
2987 bitmap_set_bit (names_to_release, SSA_NAME_VERSION (name));
2991 /* Insert new PHI nodes to replace VAR. DFS contains dominance
2992 frontier information. BLOCKS is the set of blocks to be updated.
2994 This is slightly different than the regular PHI insertion
2995 algorithm. The value of UPDATE_FLAGS controls how PHI nodes for
2996 real names (i.e., GIMPLE registers) are inserted:
2998 - If UPDATE_FLAGS == TODO_update_ssa, we are only interested in PHI
2999 nodes inside the region affected by the block that defines VAR
3000 and the blocks that define all its replacements. All these
3001 definition blocks are stored in DEF_BLOCKS[VAR]->DEF_BLOCKS.
3003 First, we compute the entry point to the region (ENTRY). This is
3004 given by the nearest common dominator to all the definition
3005 blocks. When computing the iterated dominance frontier (IDF), any
3006 block not strictly dominated by ENTRY is ignored.
3008 We then call the standard PHI insertion algorithm with the pruned
3009 IDF.
3011 - If UPDATE_FLAGS == TODO_update_ssa_full_phi, the IDF for real
3012 names is not pruned. PHI nodes are inserted at every IDF block. */
3014 static void
3015 insert_updated_phi_nodes_for (tree var, bitmap_head *dfs, bitmap blocks,
3016 unsigned update_flags)
3018 basic_block entry;
3019 struct def_blocks_d *db;
3020 bitmap idf, pruned_idf;
3021 bitmap_iterator bi;
3022 unsigned i;
3024 if (TREE_CODE (var) == SSA_NAME)
3025 gcc_checking_assert (is_old_name (var));
3026 else
3027 gcc_checking_assert (marked_for_renaming (var));
3029 /* Get all the definition sites for VAR. */
3030 db = find_def_blocks_for (var);
3032 /* No need to do anything if there were no definitions to VAR. */
3033 if (db == NULL || bitmap_empty_p (db->def_blocks))
3034 return;
3036 /* Compute the initial iterated dominance frontier. */
3037 idf = compute_idf (db->def_blocks, dfs);
3038 pruned_idf = BITMAP_ALLOC (NULL);
3040 if (TREE_CODE (var) == SSA_NAME)
3042 if (update_flags == TODO_update_ssa)
3044 /* If doing regular SSA updates for GIMPLE registers, we are
3045 only interested in IDF blocks dominated by the nearest
3046 common dominator of all the definition blocks. */
3047 entry = nearest_common_dominator_for_set (CDI_DOMINATORS,
3048 db->def_blocks);
3049 if (entry != ENTRY_BLOCK_PTR_FOR_FN (cfun))
3050 EXECUTE_IF_SET_IN_BITMAP (idf, 0, i, bi)
3051 if (BASIC_BLOCK_FOR_FN (cfun, i) != entry
3052 && dominated_by_p (CDI_DOMINATORS,
3053 BASIC_BLOCK_FOR_FN (cfun, i), entry))
3054 bitmap_set_bit (pruned_idf, i);
3056 else
3058 /* Otherwise, do not prune the IDF for VAR. */
3059 gcc_checking_assert (update_flags == TODO_update_ssa_full_phi);
3060 bitmap_copy (pruned_idf, idf);
3063 else
3065 /* Otherwise, VAR is a symbol that needs to be put into SSA form
3066 for the first time, so we need to compute the full IDF for
3067 it. */
3068 bitmap_copy (pruned_idf, idf);
3071 if (!bitmap_empty_p (pruned_idf))
3073 /* Make sure that PRUNED_IDF blocks and all their feeding blocks
3074 are included in the region to be updated. The feeding blocks
3075 are important to guarantee that the PHI arguments are renamed
3076 properly. */
3078 /* FIXME, this is not needed if we are updating symbols. We are
3079 already starting at the ENTRY block anyway. */
3080 bitmap_ior_into (blocks, pruned_idf);
3081 EXECUTE_IF_SET_IN_BITMAP (pruned_idf, 0, i, bi)
3083 edge e;
3084 edge_iterator ei;
3085 basic_block bb = BASIC_BLOCK_FOR_FN (cfun, i);
3087 FOR_EACH_EDGE (e, ei, bb->preds)
3088 if (e->src->index >= 0)
3089 bitmap_set_bit (blocks, e->src->index);
3092 insert_phi_nodes_for (var, pruned_idf, true);
3095 BITMAP_FREE (pruned_idf);
3096 BITMAP_FREE (idf);
3099 /* Sort symbols_to_rename after their DECL_UID. */
3101 static int
3102 insert_updated_phi_nodes_compare_uids (const void *a, const void *b)
3104 const_tree syma = *(const const_tree *)a;
3105 const_tree symb = *(const const_tree *)b;
3106 if (DECL_UID (syma) == DECL_UID (symb))
3107 return 0;
3108 return DECL_UID (syma) < DECL_UID (symb) ? -1 : 1;
3111 /* Given a set of newly created SSA names (NEW_SSA_NAMES) and a set of
3112 existing SSA names (OLD_SSA_NAMES), update the SSA form so that:
3114 1- The names in OLD_SSA_NAMES dominated by the definitions of
3115 NEW_SSA_NAMES are all re-written to be reached by the
3116 appropriate definition from NEW_SSA_NAMES.
3118 2- If needed, new PHI nodes are added to the iterated dominance
3119 frontier of the blocks where each of NEW_SSA_NAMES are defined.
3121 The mapping between OLD_SSA_NAMES and NEW_SSA_NAMES is setup by
3122 calling create_new_def_for to create new defs for names that the
3123 caller wants to replace.
3125 The caller cretaes the new names to be inserted and the names that need
3126 to be replaced by calling create_new_def_for for each old definition
3127 to be replaced. Note that the function assumes that the
3128 new defining statement has already been inserted in the IL.
3130 For instance, given the following code:
3132 1 L0:
3133 2 x_1 = PHI (0, x_5)
3134 3 if (x_1 < 10)
3135 4 if (x_1 > 7)
3136 5 y_2 = 0
3137 6 else
3138 7 y_3 = x_1 + x_7
3139 8 endif
3140 9 x_5 = x_1 + 1
3141 10 goto L0;
3142 11 endif
3144 Suppose that we insert new names x_10 and x_11 (lines 4 and 8).
3146 1 L0:
3147 2 x_1 = PHI (0, x_5)
3148 3 if (x_1 < 10)
3149 4 x_10 = ...
3150 5 if (x_1 > 7)
3151 6 y_2 = 0
3152 7 else
3153 8 x_11 = ...
3154 9 y_3 = x_1 + x_7
3155 10 endif
3156 11 x_5 = x_1 + 1
3157 12 goto L0;
3158 13 endif
3160 We want to replace all the uses of x_1 with the new definitions of
3161 x_10 and x_11. Note that the only uses that should be replaced are
3162 those at lines 5, 9 and 11. Also, the use of x_7 at line 9 should
3163 *not* be replaced (this is why we cannot just mark symbol 'x' for
3164 renaming).
3166 Additionally, we may need to insert a PHI node at line 11 because
3167 that is a merge point for x_10 and x_11. So the use of x_1 at line
3168 11 will be replaced with the new PHI node. The insertion of PHI
3169 nodes is optional. They are not strictly necessary to preserve the
3170 SSA form, and depending on what the caller inserted, they may not
3171 even be useful for the optimizers. UPDATE_FLAGS controls various
3172 aspects of how update_ssa operates, see the documentation for
3173 TODO_update_ssa*. */
3175 void
3176 update_ssa (unsigned update_flags)
3178 basic_block bb, start_bb;
3179 bitmap_iterator bi;
3180 unsigned i = 0;
3181 bool insert_phi_p;
3182 sbitmap_iterator sbi;
3183 tree sym;
3185 /* Only one update flag should be set. */
3186 gcc_assert (update_flags == TODO_update_ssa
3187 || update_flags == TODO_update_ssa_no_phi
3188 || update_flags == TODO_update_ssa_full_phi
3189 || update_flags == TODO_update_ssa_only_virtuals);
3191 if (!need_ssa_update_p (cfun))
3192 return;
3194 #ifdef ENABLE_CHECKING
3195 timevar_push (TV_TREE_STMT_VERIFY);
3197 bool err = false;
3199 FOR_EACH_BB_FN (bb, cfun)
3201 gimple_stmt_iterator gsi;
3202 for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi))
3204 gimple stmt = gsi_stmt (gsi);
3206 ssa_op_iter i;
3207 use_operand_p use_p;
3208 FOR_EACH_SSA_USE_OPERAND (use_p, stmt, i, SSA_OP_ALL_USES)
3210 tree use = USE_FROM_PTR (use_p);
3211 if (TREE_CODE (use) != SSA_NAME)
3212 continue;
3214 if (SSA_NAME_IN_FREE_LIST (use))
3216 error ("statement uses released SSA name:");
3217 debug_gimple_stmt (stmt);
3218 fprintf (stderr, "The use of ");
3219 print_generic_expr (stderr, use, 0);
3220 fprintf (stderr," should have been replaced\n");
3221 err = true;
3227 if (err)
3228 internal_error ("cannot update SSA form");
3230 timevar_pop (TV_TREE_STMT_VERIFY);
3231 #endif
3233 timevar_push (TV_TREE_SSA_INCREMENTAL);
3235 if (dump_file && (dump_flags & TDF_DETAILS))
3236 fprintf (dump_file, "\nUpdating SSA:\n");
3238 if (!update_ssa_initialized_fn)
3239 init_update_ssa (cfun);
3240 else if (update_flags == TODO_update_ssa_only_virtuals)
3242 /* If we only need to update virtuals, remove all the mappings for
3243 real names before proceeding. The caller is responsible for
3244 having dealt with the name mappings before calling update_ssa. */
3245 bitmap_clear (old_ssa_names);
3246 bitmap_clear (new_ssa_names);
3249 gcc_assert (update_ssa_initialized_fn == cfun);
3251 blocks_with_phis_to_rewrite = BITMAP_ALLOC (NULL);
3252 if (!phis_to_rewrite.exists ())
3253 phis_to_rewrite.create (last_basic_block_for_fn (cfun) + 1);
3254 blocks_to_update = BITMAP_ALLOC (NULL);
3256 /* Ensure that the dominance information is up-to-date. */
3257 calculate_dominance_info (CDI_DOMINATORS);
3259 insert_phi_p = (update_flags != TODO_update_ssa_no_phi);
3261 /* If there are names defined in the replacement table, prepare
3262 definition and use sites for all the names in NEW_SSA_NAMES and
3263 OLD_SSA_NAMES. */
3264 if (bitmap_first_set_bit (new_ssa_names) >= 0)
3266 prepare_names_to_update (insert_phi_p);
3268 /* If all the names in NEW_SSA_NAMES had been marked for
3269 removal, and there are no symbols to rename, then there's
3270 nothing else to do. */
3271 if (bitmap_first_set_bit (new_ssa_names) < 0
3272 && !cfun->gimple_df->ssa_renaming_needed)
3273 goto done;
3276 /* Next, determine the block at which to start the renaming process. */
3277 if (cfun->gimple_df->ssa_renaming_needed)
3279 /* If we rename bare symbols initialize the mapping to
3280 auxiliar info we need to keep track of. */
3281 var_infos = new hash_table<var_info_hasher> (47);
3283 /* If we have to rename some symbols from scratch, we need to
3284 start the process at the root of the CFG. FIXME, it should
3285 be possible to determine the nearest block that had a
3286 definition for each of the symbols that are marked for
3287 updating. For now this seems more work than it's worth. */
3288 start_bb = ENTRY_BLOCK_PTR_FOR_FN (cfun);
3290 /* Traverse the CFG looking for existing definitions and uses of
3291 symbols in SSA operands. Mark interesting blocks and
3292 statements and set local live-in information for the PHI
3293 placement heuristics. */
3294 prepare_block_for_update (start_bb, insert_phi_p);
3296 #ifdef ENABLE_CHECKING
3297 for (i = 1; i < num_ssa_names; ++i)
3299 tree name = ssa_name (i);
3300 if (!name
3301 || virtual_operand_p (name))
3302 continue;
3304 /* For all but virtual operands, which do not have SSA names
3305 with overlapping life ranges, ensure that symbols marked
3306 for renaming do not have existing SSA names associated with
3307 them as we do not re-write them out-of-SSA before going
3308 into SSA for the remaining symbol uses. */
3309 if (marked_for_renaming (SSA_NAME_VAR (name)))
3311 fprintf (stderr, "Existing SSA name for symbol marked for "
3312 "renaming: ");
3313 print_generic_expr (stderr, name, TDF_SLIM);
3314 fprintf (stderr, "\n");
3315 internal_error ("SSA corruption");
3318 #endif
3320 else
3322 /* Otherwise, the entry block to the region is the nearest
3323 common dominator for the blocks in BLOCKS. */
3324 start_bb = nearest_common_dominator_for_set (CDI_DOMINATORS,
3325 blocks_to_update);
3328 /* If requested, insert PHI nodes at the iterated dominance frontier
3329 of every block, creating new definitions for names in OLD_SSA_NAMES
3330 and for symbols found. */
3331 if (insert_phi_p)
3333 bitmap_head *dfs;
3335 /* If the caller requested PHI nodes to be added, compute
3336 dominance frontiers. */
3337 dfs = XNEWVEC (bitmap_head, last_basic_block_for_fn (cfun));
3338 FOR_EACH_BB_FN (bb, cfun)
3339 bitmap_initialize (&dfs[bb->index], &bitmap_default_obstack);
3340 compute_dominance_frontiers (dfs);
3342 if (bitmap_first_set_bit (old_ssa_names) >= 0)
3344 sbitmap_iterator sbi;
3346 /* insert_update_phi_nodes_for will call add_new_name_mapping
3347 when inserting new PHI nodes, so the set OLD_SSA_NAMES
3348 will grow while we are traversing it (but it will not
3349 gain any new members). Copy OLD_SSA_NAMES to a temporary
3350 for traversal. */
3351 sbitmap tmp = sbitmap_alloc (SBITMAP_SIZE (old_ssa_names));
3352 bitmap_copy (tmp, old_ssa_names);
3353 EXECUTE_IF_SET_IN_BITMAP (tmp, 0, i, sbi)
3354 insert_updated_phi_nodes_for (ssa_name (i), dfs, blocks_to_update,
3355 update_flags);
3356 sbitmap_free (tmp);
3359 symbols_to_rename.qsort (insert_updated_phi_nodes_compare_uids);
3360 FOR_EACH_VEC_ELT (symbols_to_rename, i, sym)
3361 insert_updated_phi_nodes_for (sym, dfs, blocks_to_update,
3362 update_flags);
3364 FOR_EACH_BB_FN (bb, cfun)
3365 bitmap_clear (&dfs[bb->index]);
3366 free (dfs);
3368 /* Insertion of PHI nodes may have added blocks to the region.
3369 We need to re-compute START_BB to include the newly added
3370 blocks. */
3371 if (start_bb != ENTRY_BLOCK_PTR_FOR_FN (cfun))
3372 start_bb = nearest_common_dominator_for_set (CDI_DOMINATORS,
3373 blocks_to_update);
3376 /* Reset the current definition for name and symbol before renaming
3377 the sub-graph. */
3378 EXECUTE_IF_SET_IN_BITMAP (old_ssa_names, 0, i, sbi)
3379 get_ssa_name_ann (ssa_name (i))->info.current_def = NULL_TREE;
3381 FOR_EACH_VEC_ELT (symbols_to_rename, i, sym)
3382 get_var_info (sym)->info.current_def = NULL_TREE;
3384 /* Now start the renaming process at START_BB. */
3385 interesting_blocks = sbitmap_alloc (last_basic_block_for_fn (cfun));
3386 bitmap_clear (interesting_blocks);
3387 EXECUTE_IF_SET_IN_BITMAP (blocks_to_update, 0, i, bi)
3388 bitmap_set_bit (interesting_blocks, i);
3390 rewrite_blocks (start_bb, REWRITE_UPDATE);
3392 sbitmap_free (interesting_blocks);
3394 /* Debugging dumps. */
3395 if (dump_file)
3397 int c;
3398 unsigned i;
3400 dump_update_ssa (dump_file);
3402 fprintf (dump_file, "Incremental SSA update started at block: %d\n",
3403 start_bb->index);
3405 c = 0;
3406 EXECUTE_IF_SET_IN_BITMAP (blocks_to_update, 0, i, bi)
3407 c++;
3408 fprintf (dump_file, "Number of blocks in CFG: %d\n",
3409 last_basic_block_for_fn (cfun));
3410 fprintf (dump_file, "Number of blocks to update: %d (%3.0f%%)\n",
3411 c, PERCENT (c, last_basic_block_for_fn (cfun)));
3413 if (dump_flags & TDF_DETAILS)
3415 fprintf (dump_file, "Affected blocks:");
3416 EXECUTE_IF_SET_IN_BITMAP (blocks_to_update, 0, i, bi)
3417 fprintf (dump_file, " %u", i);
3418 fprintf (dump_file, "\n");
3421 fprintf (dump_file, "\n\n");
3424 /* Free allocated memory. */
3425 done:
3426 delete_update_ssa ();
3428 timevar_pop (TV_TREE_SSA_INCREMENTAL);