re PR target/70640 (IEEE 128-bit floating point negative/abs has two thinkos)
[official-gcc.git] / gcc / trans-mem.c
blob500071f94f1407c5f9a67d150355589931e096df
1 /* Passes for transactional memory support.
2 Copyright (C) 2008-2016 Free Software Foundation, Inc.
3 Contributed by Richard Henderson <rth@redhat.com>
4 and Aldy Hernandez <aldyh@redhat.com>.
6 This file is part of GCC.
8 GCC is free software; you can redistribute it and/or modify it under
9 the terms of the GNU General Public License as published by the Free
10 Software Foundation; either version 3, or (at your option) any later
11 version.
13 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
14 WARRANTY; without even the implied warranty of MERCHANTABILITY or
15 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
16 for more details.
18 You should have received a copy of the GNU General Public License
19 along with GCC; see the file COPYING3. If not see
20 <http://www.gnu.org/licenses/>. */
22 #include "config.h"
23 #include "system.h"
24 #include "coretypes.h"
25 #include "backend.h"
26 #include "target.h"
27 #include "rtl.h"
28 #include "tree.h"
29 #include "gimple.h"
30 #include "cfghooks.h"
31 #include "tree-pass.h"
32 #include "ssa.h"
33 #include "cgraph.h"
34 #include "gimple-pretty-print.h"
35 #include "diagnostic-core.h"
36 #include "fold-const.h"
37 #include "tree-eh.h"
38 #include "calls.h"
39 #include "gimplify.h"
40 #include "gimple-iterator.h"
41 #include "gimplify-me.h"
42 #include "gimple-walk.h"
43 #include "tree-cfg.h"
44 #include "tree-into-ssa.h"
45 #include "tree-inline.h"
46 #include "demangle.h"
47 #include "output.h"
48 #include "trans-mem.h"
49 #include "params.h"
50 #include "langhooks.h"
51 #include "cfgloop.h"
52 #include "tree-ssa-address.h"
55 #define A_RUNINSTRUMENTEDCODE 0x0001
56 #define A_RUNUNINSTRUMENTEDCODE 0x0002
57 #define A_SAVELIVEVARIABLES 0x0004
58 #define A_RESTORELIVEVARIABLES 0x0008
59 #define A_ABORTTRANSACTION 0x0010
61 #define AR_USERABORT 0x0001
62 #define AR_USERRETRY 0x0002
63 #define AR_TMCONFLICT 0x0004
64 #define AR_EXCEPTIONBLOCKABORT 0x0008
65 #define AR_OUTERABORT 0x0010
67 #define MODE_SERIALIRREVOCABLE 0x0000
70 /* The representation of a transaction changes several times during the
71 lowering process. In the beginning, in the front-end we have the
72 GENERIC tree TRANSACTION_EXPR. For example,
74 __transaction {
75 local++;
76 if (++global == 10)
77 __tm_abort;
80 During initial gimplification (gimplify.c) the TRANSACTION_EXPR node is
81 trivially replaced with a GIMPLE_TRANSACTION node.
83 During pass_lower_tm, we examine the body of transactions looking
84 for aborts. Transactions that do not contain an abort may be
85 merged into an outer transaction. We also add a TRY-FINALLY node
86 to arrange for the transaction to be committed on any exit.
88 [??? Think about how this arrangement affects throw-with-commit
89 and throw-with-abort operations. In this case we want the TRY to
90 handle gotos, but not to catch any exceptions because the transaction
91 will already be closed.]
93 GIMPLE_TRANSACTION [label=NULL] {
94 try {
95 local = local + 1;
96 t0 = global;
97 t1 = t0 + 1;
98 global = t1;
99 if (t1 == 10)
100 __builtin___tm_abort ();
101 } finally {
102 __builtin___tm_commit ();
106 During pass_lower_eh, we create EH regions for the transactions,
107 intermixed with the regular EH stuff. This gives us a nice persistent
108 mapping (all the way through rtl) from transactional memory operation
109 back to the transaction, which allows us to get the abnormal edges
110 correct to model transaction aborts and restarts:
112 GIMPLE_TRANSACTION [label=over]
113 local = local + 1;
114 t0 = global;
115 t1 = t0 + 1;
116 global = t1;
117 if (t1 == 10)
118 __builtin___tm_abort ();
119 __builtin___tm_commit ();
120 over:
122 This is the end of all_lowering_passes, and so is what is present
123 during the IPA passes, and through all of the optimization passes.
125 During pass_ipa_tm, we examine all GIMPLE_TRANSACTION blocks in all
126 functions and mark functions for cloning.
128 At the end of gimple optimization, before exiting SSA form,
129 pass_tm_edges replaces statements that perform transactional
130 memory operations with the appropriate TM builtins, and swap
131 out function calls with their transactional clones. At this
132 point we introduce the abnormal transaction restart edges and
133 complete lowering of the GIMPLE_TRANSACTION node.
135 x = __builtin___tm_start (MAY_ABORT);
136 eh_label:
137 if (x & abort_transaction)
138 goto over;
139 local = local + 1;
140 t0 = __builtin___tm_load (global);
141 t1 = t0 + 1;
142 __builtin___tm_store (&global, t1);
143 if (t1 == 10)
144 __builtin___tm_abort ();
145 __builtin___tm_commit ();
146 over:
149 static void *expand_regions (struct tm_region *,
150 void *(*callback)(struct tm_region *, void *),
151 void *, bool);
154 /* Return the attributes we want to examine for X, or NULL if it's not
155 something we examine. We look at function types, but allow pointers
156 to function types and function decls and peek through. */
158 static tree
159 get_attrs_for (const_tree x)
161 if (x == NULL_TREE)
162 return NULL_TREE;
164 switch (TREE_CODE (x))
166 case FUNCTION_DECL:
167 return TYPE_ATTRIBUTES (TREE_TYPE (x));
168 break;
170 default:
171 if (TYPE_P (x))
172 return NULL_TREE;
173 x = TREE_TYPE (x);
174 if (TREE_CODE (x) != POINTER_TYPE)
175 return NULL_TREE;
176 /* FALLTHRU */
178 case POINTER_TYPE:
179 x = TREE_TYPE (x);
180 if (TREE_CODE (x) != FUNCTION_TYPE && TREE_CODE (x) != METHOD_TYPE)
181 return NULL_TREE;
182 /* FALLTHRU */
184 case FUNCTION_TYPE:
185 case METHOD_TYPE:
186 return TYPE_ATTRIBUTES (x);
190 /* Return true if X has been marked TM_PURE. */
192 bool
193 is_tm_pure (const_tree x)
195 unsigned flags;
197 switch (TREE_CODE (x))
199 case FUNCTION_DECL:
200 case FUNCTION_TYPE:
201 case METHOD_TYPE:
202 break;
204 default:
205 if (TYPE_P (x))
206 return false;
207 x = TREE_TYPE (x);
208 if (TREE_CODE (x) != POINTER_TYPE)
209 return false;
210 /* FALLTHRU */
212 case POINTER_TYPE:
213 x = TREE_TYPE (x);
214 if (TREE_CODE (x) != FUNCTION_TYPE && TREE_CODE (x) != METHOD_TYPE)
215 return false;
216 break;
219 flags = flags_from_decl_or_type (x);
220 return (flags & ECF_TM_PURE) != 0;
223 /* Return true if X has been marked TM_IRREVOCABLE. */
225 static bool
226 is_tm_irrevocable (tree x)
228 tree attrs = get_attrs_for (x);
230 if (attrs && lookup_attribute ("transaction_unsafe", attrs))
231 return true;
233 /* A call to the irrevocable builtin is by definition,
234 irrevocable. */
235 if (TREE_CODE (x) == ADDR_EXPR)
236 x = TREE_OPERAND (x, 0);
237 if (TREE_CODE (x) == FUNCTION_DECL
238 && DECL_BUILT_IN_CLASS (x) == BUILT_IN_NORMAL
239 && DECL_FUNCTION_CODE (x) == BUILT_IN_TM_IRREVOCABLE)
240 return true;
242 return false;
245 /* Return true if X has been marked TM_SAFE. */
247 bool
248 is_tm_safe (const_tree x)
250 if (flag_tm)
252 tree attrs = get_attrs_for (x);
253 if (attrs)
255 if (lookup_attribute ("transaction_safe", attrs))
256 return true;
257 if (lookup_attribute ("transaction_may_cancel_outer", attrs))
258 return true;
261 return false;
264 /* Return true if CALL is const, or tm_pure. */
266 static bool
267 is_tm_pure_call (gimple *call)
269 if (gimple_call_internal_p (call))
270 return (gimple_call_flags (call) & (ECF_CONST | ECF_TM_PURE)) != 0;
272 tree fn = gimple_call_fn (call);
274 if (TREE_CODE (fn) == ADDR_EXPR)
276 fn = TREE_OPERAND (fn, 0);
277 gcc_assert (TREE_CODE (fn) == FUNCTION_DECL);
279 else
280 fn = TREE_TYPE (fn);
282 return is_tm_pure (fn);
285 /* Return true if X has been marked TM_CALLABLE. */
287 static bool
288 is_tm_callable (tree x)
290 tree attrs = get_attrs_for (x);
291 if (attrs)
293 if (lookup_attribute ("transaction_callable", attrs))
294 return true;
295 if (lookup_attribute ("transaction_safe", attrs))
296 return true;
297 if (lookup_attribute ("transaction_may_cancel_outer", attrs))
298 return true;
300 return false;
303 /* Return true if X has been marked TRANSACTION_MAY_CANCEL_OUTER. */
305 bool
306 is_tm_may_cancel_outer (tree x)
308 tree attrs = get_attrs_for (x);
309 if (attrs)
310 return lookup_attribute ("transaction_may_cancel_outer", attrs) != NULL;
311 return false;
314 /* Return true for built in functions that "end" a transaction. */
316 bool
317 is_tm_ending_fndecl (tree fndecl)
319 if (DECL_BUILT_IN_CLASS (fndecl) == BUILT_IN_NORMAL)
320 switch (DECL_FUNCTION_CODE (fndecl))
322 case BUILT_IN_TM_COMMIT:
323 case BUILT_IN_TM_COMMIT_EH:
324 case BUILT_IN_TM_ABORT:
325 case BUILT_IN_TM_IRREVOCABLE:
326 return true;
327 default:
328 break;
331 return false;
334 /* Return true if STMT is a built in function call that "ends" a
335 transaction. */
337 bool
338 is_tm_ending (gimple *stmt)
340 tree fndecl;
342 if (gimple_code (stmt) != GIMPLE_CALL)
343 return false;
345 fndecl = gimple_call_fndecl (stmt);
346 return (fndecl != NULL_TREE
347 && is_tm_ending_fndecl (fndecl));
350 /* Return true if STMT is a TM load. */
352 static bool
353 is_tm_load (gimple *stmt)
355 tree fndecl;
357 if (gimple_code (stmt) != GIMPLE_CALL)
358 return false;
360 fndecl = gimple_call_fndecl (stmt);
361 return (fndecl && DECL_BUILT_IN_CLASS (fndecl) == BUILT_IN_NORMAL
362 && BUILTIN_TM_LOAD_P (DECL_FUNCTION_CODE (fndecl)));
365 /* Same as above, but for simple TM loads, that is, not the
366 after-write, after-read, etc optimized variants. */
368 static bool
369 is_tm_simple_load (gimple *stmt)
371 tree fndecl;
373 if (gimple_code (stmt) != GIMPLE_CALL)
374 return false;
376 fndecl = gimple_call_fndecl (stmt);
377 if (fndecl && DECL_BUILT_IN_CLASS (fndecl) == BUILT_IN_NORMAL)
379 enum built_in_function fcode = DECL_FUNCTION_CODE (fndecl);
380 return (fcode == BUILT_IN_TM_LOAD_1
381 || fcode == BUILT_IN_TM_LOAD_2
382 || fcode == BUILT_IN_TM_LOAD_4
383 || fcode == BUILT_IN_TM_LOAD_8
384 || fcode == BUILT_IN_TM_LOAD_FLOAT
385 || fcode == BUILT_IN_TM_LOAD_DOUBLE
386 || fcode == BUILT_IN_TM_LOAD_LDOUBLE
387 || fcode == BUILT_IN_TM_LOAD_M64
388 || fcode == BUILT_IN_TM_LOAD_M128
389 || fcode == BUILT_IN_TM_LOAD_M256);
391 return false;
394 /* Return true if STMT is a TM store. */
396 static bool
397 is_tm_store (gimple *stmt)
399 tree fndecl;
401 if (gimple_code (stmt) != GIMPLE_CALL)
402 return false;
404 fndecl = gimple_call_fndecl (stmt);
405 return (fndecl && DECL_BUILT_IN_CLASS (fndecl) == BUILT_IN_NORMAL
406 && BUILTIN_TM_STORE_P (DECL_FUNCTION_CODE (fndecl)));
409 /* Same as above, but for simple TM stores, that is, not the
410 after-write, after-read, etc optimized variants. */
412 static bool
413 is_tm_simple_store (gimple *stmt)
415 tree fndecl;
417 if (gimple_code (stmt) != GIMPLE_CALL)
418 return false;
420 fndecl = gimple_call_fndecl (stmt);
421 if (fndecl && DECL_BUILT_IN_CLASS (fndecl) == BUILT_IN_NORMAL)
423 enum built_in_function fcode = DECL_FUNCTION_CODE (fndecl);
424 return (fcode == BUILT_IN_TM_STORE_1
425 || fcode == BUILT_IN_TM_STORE_2
426 || fcode == BUILT_IN_TM_STORE_4
427 || fcode == BUILT_IN_TM_STORE_8
428 || fcode == BUILT_IN_TM_STORE_FLOAT
429 || fcode == BUILT_IN_TM_STORE_DOUBLE
430 || fcode == BUILT_IN_TM_STORE_LDOUBLE
431 || fcode == BUILT_IN_TM_STORE_M64
432 || fcode == BUILT_IN_TM_STORE_M128
433 || fcode == BUILT_IN_TM_STORE_M256);
435 return false;
438 /* Return true if FNDECL is BUILT_IN_TM_ABORT. */
440 static bool
441 is_tm_abort (tree fndecl)
443 return (fndecl
444 && DECL_BUILT_IN_CLASS (fndecl) == BUILT_IN_NORMAL
445 && DECL_FUNCTION_CODE (fndecl) == BUILT_IN_TM_ABORT);
448 /* Build a GENERIC tree for a user abort. This is called by front ends
449 while transforming the __tm_abort statement. */
451 tree
452 build_tm_abort_call (location_t loc, bool is_outer)
454 return build_call_expr_loc (loc, builtin_decl_explicit (BUILT_IN_TM_ABORT), 1,
455 build_int_cst (integer_type_node,
456 AR_USERABORT
457 | (is_outer ? AR_OUTERABORT : 0)));
460 /* Map for aribtrary function replacement under TM, as created
461 by the tm_wrap attribute. */
463 struct tm_wrapper_hasher : ggc_cache_ptr_hash<tree_map>
465 static inline hashval_t hash (tree_map *m) { return m->hash; }
466 static inline bool
467 equal (tree_map *a, tree_map *b)
469 return a->base.from == b->base.from;
472 static int
473 keep_cache_entry (tree_map *&m)
475 return ggc_marked_p (m->base.from);
479 static GTY((cache)) hash_table<tm_wrapper_hasher> *tm_wrap_map;
481 void
482 record_tm_replacement (tree from, tree to)
484 struct tree_map **slot, *h;
486 /* Do not inline wrapper functions that will get replaced in the TM
487 pass.
489 Suppose you have foo() that will get replaced into tmfoo(). Make
490 sure the inliner doesn't try to outsmart us and inline foo()
491 before we get a chance to do the TM replacement. */
492 DECL_UNINLINABLE (from) = 1;
494 if (tm_wrap_map == NULL)
495 tm_wrap_map = hash_table<tm_wrapper_hasher>::create_ggc (32);
497 h = ggc_alloc<tree_map> ();
498 h->hash = htab_hash_pointer (from);
499 h->base.from = from;
500 h->to = to;
502 slot = tm_wrap_map->find_slot_with_hash (h, h->hash, INSERT);
503 *slot = h;
506 /* Return a TM-aware replacement function for DECL. */
508 static tree
509 find_tm_replacement_function (tree fndecl)
511 if (tm_wrap_map)
513 struct tree_map *h, in;
515 in.base.from = fndecl;
516 in.hash = htab_hash_pointer (fndecl);
517 h = tm_wrap_map->find_with_hash (&in, in.hash);
518 if (h)
519 return h->to;
522 /* ??? We may well want TM versions of most of the common <string.h>
523 functions. For now, we've already these two defined. */
524 /* Adjust expand_call_tm() attributes as necessary for the cases
525 handled here: */
526 if (DECL_BUILT_IN_CLASS (fndecl) == BUILT_IN_NORMAL)
527 switch (DECL_FUNCTION_CODE (fndecl))
529 case BUILT_IN_MEMCPY:
530 return builtin_decl_explicit (BUILT_IN_TM_MEMCPY);
531 case BUILT_IN_MEMMOVE:
532 return builtin_decl_explicit (BUILT_IN_TM_MEMMOVE);
533 case BUILT_IN_MEMSET:
534 return builtin_decl_explicit (BUILT_IN_TM_MEMSET);
535 default:
536 return NULL;
539 return NULL;
542 /* When appropriate, record TM replacement for memory allocation functions.
544 FROM is the FNDECL to wrap. */
545 void
546 tm_malloc_replacement (tree from)
548 const char *str;
549 tree to;
551 if (TREE_CODE (from) != FUNCTION_DECL)
552 return;
554 /* If we have a previous replacement, the user must be explicitly
555 wrapping malloc/calloc/free. They better know what they're
556 doing... */
557 if (find_tm_replacement_function (from))
558 return;
560 str = IDENTIFIER_POINTER (DECL_NAME (from));
562 if (!strcmp (str, "malloc"))
563 to = builtin_decl_explicit (BUILT_IN_TM_MALLOC);
564 else if (!strcmp (str, "calloc"))
565 to = builtin_decl_explicit (BUILT_IN_TM_CALLOC);
566 else if (!strcmp (str, "free"))
567 to = builtin_decl_explicit (BUILT_IN_TM_FREE);
568 else
569 return;
571 TREE_NOTHROW (to) = 0;
573 record_tm_replacement (from, to);
576 /* Diagnostics for tm_safe functions/regions. Called by the front end
577 once we've lowered the function to high-gimple. */
579 /* Subroutine of diagnose_tm_safe_errors, called through walk_gimple_seq.
580 Process exactly one statement. WI->INFO is set to non-null when in
581 the context of a tm_safe function, and null for a __transaction block. */
583 #define DIAG_TM_OUTER 1
584 #define DIAG_TM_SAFE 2
585 #define DIAG_TM_RELAXED 4
587 struct diagnose_tm
589 unsigned int summary_flags : 8;
590 unsigned int block_flags : 8;
591 unsigned int func_flags : 8;
592 unsigned int saw_volatile : 1;
593 gimple *stmt;
596 /* Return true if T is a volatile lvalue of some kind. */
598 static bool
599 volatile_lvalue_p (tree t)
601 return ((SSA_VAR_P (t) || REFERENCE_CLASS_P (t))
602 && TREE_THIS_VOLATILE (TREE_TYPE (t)));
605 /* Tree callback function for diagnose_tm pass. */
607 static tree
608 diagnose_tm_1_op (tree *tp, int *walk_subtrees, void *data)
610 struct walk_stmt_info *wi = (struct walk_stmt_info *) data;
611 struct diagnose_tm *d = (struct diagnose_tm *) wi->info;
613 if (TYPE_P (*tp))
614 *walk_subtrees = false;
615 else if (volatile_lvalue_p (*tp)
616 && !d->saw_volatile)
618 d->saw_volatile = 1;
619 if (d->block_flags & DIAG_TM_SAFE)
620 error_at (gimple_location (d->stmt),
621 "invalid use of volatile lvalue inside transaction");
622 else if (d->func_flags & DIAG_TM_SAFE)
623 error_at (gimple_location (d->stmt),
624 "invalid use of volatile lvalue inside %<transaction_safe%>"
625 "function");
628 return NULL_TREE;
631 static inline bool
632 is_tm_safe_or_pure (const_tree x)
634 return is_tm_safe (x) || is_tm_pure (x);
637 static tree
638 diagnose_tm_1 (gimple_stmt_iterator *gsi, bool *handled_ops_p,
639 struct walk_stmt_info *wi)
641 gimple *stmt = gsi_stmt (*gsi);
642 struct diagnose_tm *d = (struct diagnose_tm *) wi->info;
644 /* Save stmt for use in leaf analysis. */
645 d->stmt = stmt;
647 switch (gimple_code (stmt))
649 case GIMPLE_CALL:
651 tree fn = gimple_call_fn (stmt);
653 if ((d->summary_flags & DIAG_TM_OUTER) == 0
654 && is_tm_may_cancel_outer (fn))
655 error_at (gimple_location (stmt),
656 "%<transaction_may_cancel_outer%> function call not within"
657 " outer transaction or %<transaction_may_cancel_outer%>");
659 if (d->summary_flags & DIAG_TM_SAFE)
661 bool is_safe, direct_call_p;
662 tree replacement;
664 if (TREE_CODE (fn) == ADDR_EXPR
665 && TREE_CODE (TREE_OPERAND (fn, 0)) == FUNCTION_DECL)
667 direct_call_p = true;
668 replacement = TREE_OPERAND (fn, 0);
669 replacement = find_tm_replacement_function (replacement);
670 if (replacement)
671 fn = replacement;
673 else
675 direct_call_p = false;
676 replacement = NULL_TREE;
679 if (is_tm_safe_or_pure (fn))
680 is_safe = true;
681 else if (is_tm_callable (fn) || is_tm_irrevocable (fn))
683 /* A function explicitly marked transaction_callable as
684 opposed to transaction_safe is being defined to be
685 unsafe as part of its ABI, regardless of its contents. */
686 is_safe = false;
688 else if (direct_call_p)
690 if (IS_TYPE_OR_DECL_P (fn)
691 && flags_from_decl_or_type (fn) & ECF_TM_BUILTIN)
692 is_safe = true;
693 else if (replacement)
695 /* ??? At present we've been considering replacements
696 merely transaction_callable, and therefore might
697 enter irrevocable. The tm_wrap attribute has not
698 yet made it into the new language spec. */
699 is_safe = false;
701 else
703 /* ??? Diagnostics for unmarked direct calls moved into
704 the IPA pass. Section 3.2 of the spec details how
705 functions not marked should be considered "implicitly
706 safe" based on having examined the function body. */
707 is_safe = true;
710 else
712 /* An unmarked indirect call. Consider it unsafe even
713 though optimization may yet figure out how to inline. */
714 is_safe = false;
717 if (!is_safe)
719 if (TREE_CODE (fn) == ADDR_EXPR)
720 fn = TREE_OPERAND (fn, 0);
721 if (d->block_flags & DIAG_TM_SAFE)
723 if (direct_call_p)
724 error_at (gimple_location (stmt),
725 "unsafe function call %qD within "
726 "atomic transaction", fn);
727 else
729 if (!DECL_P (fn) || DECL_NAME (fn))
730 error_at (gimple_location (stmt),
731 "unsafe function call %qE within "
732 "atomic transaction", fn);
733 else
734 error_at (gimple_location (stmt),
735 "unsafe indirect function call within "
736 "atomic transaction");
739 else
741 if (direct_call_p)
742 error_at (gimple_location (stmt),
743 "unsafe function call %qD within "
744 "%<transaction_safe%> function", fn);
745 else
747 if (!DECL_P (fn) || DECL_NAME (fn))
748 error_at (gimple_location (stmt),
749 "unsafe function call %qE within "
750 "%<transaction_safe%> function", fn);
751 else
752 error_at (gimple_location (stmt),
753 "unsafe indirect function call within "
754 "%<transaction_safe%> function");
760 break;
762 case GIMPLE_ASM:
763 /* ??? We ought to come up with a way to add attributes to
764 asm statements, and then add "transaction_safe" to it.
765 Either that or get the language spec to resurrect __tm_waiver. */
766 if (d->block_flags & DIAG_TM_SAFE)
767 error_at (gimple_location (stmt),
768 "asm not allowed in atomic transaction");
769 else if (d->func_flags & DIAG_TM_SAFE)
770 error_at (gimple_location (stmt),
771 "asm not allowed in %<transaction_safe%> function");
772 break;
774 case GIMPLE_TRANSACTION:
776 gtransaction *trans_stmt = as_a <gtransaction *> (stmt);
777 unsigned char inner_flags = DIAG_TM_SAFE;
779 if (gimple_transaction_subcode (trans_stmt) & GTMA_IS_RELAXED)
781 if (d->block_flags & DIAG_TM_SAFE)
782 error_at (gimple_location (stmt),
783 "relaxed transaction in atomic transaction");
784 else if (d->func_flags & DIAG_TM_SAFE)
785 error_at (gimple_location (stmt),
786 "relaxed transaction in %<transaction_safe%> function");
787 inner_flags = DIAG_TM_RELAXED;
789 else if (gimple_transaction_subcode (trans_stmt) & GTMA_IS_OUTER)
791 if (d->block_flags)
792 error_at (gimple_location (stmt),
793 "outer transaction in transaction");
794 else if (d->func_flags & DIAG_TM_OUTER)
795 error_at (gimple_location (stmt),
796 "outer transaction in "
797 "%<transaction_may_cancel_outer%> function");
798 else if (d->func_flags & DIAG_TM_SAFE)
799 error_at (gimple_location (stmt),
800 "outer transaction in %<transaction_safe%> function");
801 inner_flags |= DIAG_TM_OUTER;
804 *handled_ops_p = true;
805 if (gimple_transaction_body (trans_stmt))
807 struct walk_stmt_info wi_inner;
808 struct diagnose_tm d_inner;
810 memset (&d_inner, 0, sizeof (d_inner));
811 d_inner.func_flags = d->func_flags;
812 d_inner.block_flags = d->block_flags | inner_flags;
813 d_inner.summary_flags = d_inner.func_flags | d_inner.block_flags;
815 memset (&wi_inner, 0, sizeof (wi_inner));
816 wi_inner.info = &d_inner;
818 walk_gimple_seq (gimple_transaction_body (trans_stmt),
819 diagnose_tm_1, diagnose_tm_1_op, &wi_inner);
822 break;
824 default:
825 break;
828 return NULL_TREE;
831 static unsigned int
832 diagnose_tm_blocks (void)
834 struct walk_stmt_info wi;
835 struct diagnose_tm d;
837 memset (&d, 0, sizeof (d));
838 if (is_tm_may_cancel_outer (current_function_decl))
839 d.func_flags = DIAG_TM_OUTER | DIAG_TM_SAFE;
840 else if (is_tm_safe (current_function_decl))
841 d.func_flags = DIAG_TM_SAFE;
842 d.summary_flags = d.func_flags;
844 memset (&wi, 0, sizeof (wi));
845 wi.info = &d;
847 walk_gimple_seq (gimple_body (current_function_decl),
848 diagnose_tm_1, diagnose_tm_1_op, &wi);
850 return 0;
853 namespace {
855 const pass_data pass_data_diagnose_tm_blocks =
857 GIMPLE_PASS, /* type */
858 "*diagnose_tm_blocks", /* name */
859 OPTGROUP_NONE, /* optinfo_flags */
860 TV_TRANS_MEM, /* tv_id */
861 PROP_gimple_any, /* properties_required */
862 0, /* properties_provided */
863 0, /* properties_destroyed */
864 0, /* todo_flags_start */
865 0, /* todo_flags_finish */
868 class pass_diagnose_tm_blocks : public gimple_opt_pass
870 public:
871 pass_diagnose_tm_blocks (gcc::context *ctxt)
872 : gimple_opt_pass (pass_data_diagnose_tm_blocks, ctxt)
875 /* opt_pass methods: */
876 virtual bool gate (function *) { return flag_tm; }
877 virtual unsigned int execute (function *) { return diagnose_tm_blocks (); }
879 }; // class pass_diagnose_tm_blocks
881 } // anon namespace
883 gimple_opt_pass *
884 make_pass_diagnose_tm_blocks (gcc::context *ctxt)
886 return new pass_diagnose_tm_blocks (ctxt);
889 /* Instead of instrumenting thread private memory, we save the
890 addresses in a log which we later use to save/restore the addresses
891 upon transaction start/restart.
893 The log is keyed by address, where each element contains individual
894 statements among different code paths that perform the store.
896 This log is later used to generate either plain save/restore of the
897 addresses upon transaction start/restart, or calls to the ITM_L*
898 logging functions.
900 So for something like:
902 struct large { int x[1000]; };
903 struct large lala = { 0 };
904 __transaction {
905 lala.x[i] = 123;
909 We can either save/restore:
911 lala = { 0 };
912 trxn = _ITM_startTransaction ();
913 if (trxn & a_saveLiveVariables)
914 tmp_lala1 = lala.x[i];
915 else if (a & a_restoreLiveVariables)
916 lala.x[i] = tmp_lala1;
918 or use the logging functions:
920 lala = { 0 };
921 trxn = _ITM_startTransaction ();
922 _ITM_LU4 (&lala.x[i]);
924 Obviously, if we use _ITM_L* to log, we prefer to call _ITM_L* as
925 far up the dominator tree to shadow all of the writes to a given
926 location (thus reducing the total number of logging calls), but not
927 so high as to be called on a path that does not perform a
928 write. */
930 /* One individual log entry. We may have multiple statements for the
931 same location if neither dominate each other (on different
932 execution paths). */
933 struct tm_log_entry
935 /* Address to save. */
936 tree addr;
937 /* Entry block for the transaction this address occurs in. */
938 basic_block entry_block;
939 /* Dominating statements the store occurs in. */
940 vec<gimple *> stmts;
941 /* Initially, while we are building the log, we place a nonzero
942 value here to mean that this address *will* be saved with a
943 save/restore sequence. Later, when generating the save sequence
944 we place the SSA temp generated here. */
945 tree save_var;
949 /* Log entry hashtable helpers. */
951 struct log_entry_hasher : pointer_hash <tm_log_entry>
953 static inline hashval_t hash (const tm_log_entry *);
954 static inline bool equal (const tm_log_entry *, const tm_log_entry *);
955 static inline void remove (tm_log_entry *);
958 /* Htab support. Return hash value for a `tm_log_entry'. */
959 inline hashval_t
960 log_entry_hasher::hash (const tm_log_entry *log)
962 return iterative_hash_expr (log->addr, 0);
965 /* Htab support. Return true if two log entries are the same. */
966 inline bool
967 log_entry_hasher::equal (const tm_log_entry *log1, const tm_log_entry *log2)
969 /* FIXME:
971 rth: I suggest that we get rid of the component refs etc.
972 I.e. resolve the reference to base + offset.
974 We may need to actually finish a merge with mainline for this,
975 since we'd like to be presented with Richi's MEM_REF_EXPRs more
976 often than not. But in the meantime your tm_log_entry could save
977 the results of get_inner_reference.
979 See: g++.dg/tm/pr46653.C
982 /* Special case plain equality because operand_equal_p() below will
983 return FALSE if the addresses are equal but they have
984 side-effects (e.g. a volatile address). */
985 if (log1->addr == log2->addr)
986 return true;
988 return operand_equal_p (log1->addr, log2->addr, 0);
991 /* Htab support. Free one tm_log_entry. */
992 inline void
993 log_entry_hasher::remove (tm_log_entry *lp)
995 lp->stmts.release ();
996 free (lp);
1000 /* The actual log. */
1001 static hash_table<log_entry_hasher> *tm_log;
1003 /* Addresses to log with a save/restore sequence. These should be in
1004 dominator order. */
1005 static vec<tree> tm_log_save_addresses;
1007 enum thread_memory_type
1009 mem_non_local = 0,
1010 mem_thread_local,
1011 mem_transaction_local,
1012 mem_max
1015 struct tm_new_mem_map
1017 /* SSA_NAME being dereferenced. */
1018 tree val;
1019 enum thread_memory_type local_new_memory;
1022 /* Hashtable helpers. */
1024 struct tm_mem_map_hasher : free_ptr_hash <tm_new_mem_map>
1026 static inline hashval_t hash (const tm_new_mem_map *);
1027 static inline bool equal (const tm_new_mem_map *, const tm_new_mem_map *);
1030 inline hashval_t
1031 tm_mem_map_hasher::hash (const tm_new_mem_map *v)
1033 return (intptr_t)v->val >> 4;
1036 inline bool
1037 tm_mem_map_hasher::equal (const tm_new_mem_map *v, const tm_new_mem_map *c)
1039 return v->val == c->val;
1042 /* Map for an SSA_NAME originally pointing to a non aliased new piece
1043 of memory (malloc, alloc, etc). */
1044 static hash_table<tm_mem_map_hasher> *tm_new_mem_hash;
1046 /* Initialize logging data structures. */
1047 static void
1048 tm_log_init (void)
1050 tm_log = new hash_table<log_entry_hasher> (10);
1051 tm_new_mem_hash = new hash_table<tm_mem_map_hasher> (5);
1052 tm_log_save_addresses.create (5);
1055 /* Free logging data structures. */
1056 static void
1057 tm_log_delete (void)
1059 delete tm_log;
1060 tm_log = NULL;
1061 delete tm_new_mem_hash;
1062 tm_new_mem_hash = NULL;
1063 tm_log_save_addresses.release ();
1066 /* Return true if MEM is a transaction invariant memory for the TM
1067 region starting at REGION_ENTRY_BLOCK. */
1068 static bool
1069 transaction_invariant_address_p (const_tree mem, basic_block region_entry_block)
1071 if ((TREE_CODE (mem) == INDIRECT_REF || TREE_CODE (mem) == MEM_REF)
1072 && TREE_CODE (TREE_OPERAND (mem, 0)) == SSA_NAME)
1074 basic_block def_bb;
1076 def_bb = gimple_bb (SSA_NAME_DEF_STMT (TREE_OPERAND (mem, 0)));
1077 return def_bb != region_entry_block
1078 && dominated_by_p (CDI_DOMINATORS, region_entry_block, def_bb);
1081 mem = strip_invariant_refs (mem);
1082 return mem && (CONSTANT_CLASS_P (mem) || decl_address_invariant_p (mem));
1085 /* Given an address ADDR in STMT, find it in the memory log or add it,
1086 making sure to keep only the addresses highest in the dominator
1087 tree.
1089 ENTRY_BLOCK is the entry_block for the transaction.
1091 If we find the address in the log, make sure it's either the same
1092 address, or an equivalent one that dominates ADDR.
1094 If we find the address, but neither ADDR dominates the found
1095 address, nor the found one dominates ADDR, we're on different
1096 execution paths. Add it.
1098 If known, ENTRY_BLOCK is the entry block for the region, otherwise
1099 NULL. */
1100 static void
1101 tm_log_add (basic_block entry_block, tree addr, gimple *stmt)
1103 tm_log_entry **slot;
1104 struct tm_log_entry l, *lp;
1106 l.addr = addr;
1107 slot = tm_log->find_slot (&l, INSERT);
1108 if (!*slot)
1110 tree type = TREE_TYPE (addr);
1112 lp = XNEW (struct tm_log_entry);
1113 lp->addr = addr;
1114 *slot = lp;
1116 /* Small invariant addresses can be handled as save/restores. */
1117 if (entry_block
1118 && transaction_invariant_address_p (lp->addr, entry_block)
1119 && TYPE_SIZE_UNIT (type) != NULL
1120 && tree_fits_uhwi_p (TYPE_SIZE_UNIT (type))
1121 && ((HOST_WIDE_INT) tree_to_uhwi (TYPE_SIZE_UNIT (type))
1122 < PARAM_VALUE (PARAM_TM_MAX_AGGREGATE_SIZE))
1123 /* We must be able to copy this type normally. I.e., no
1124 special constructors and the like. */
1125 && !TREE_ADDRESSABLE (type))
1127 lp->save_var = create_tmp_reg (TREE_TYPE (lp->addr), "tm_save");
1128 lp->stmts.create (0);
1129 lp->entry_block = entry_block;
1130 /* Save addresses separately in dominator order so we don't
1131 get confused by overlapping addresses in the save/restore
1132 sequence. */
1133 tm_log_save_addresses.safe_push (lp->addr);
1135 else
1137 /* Use the logging functions. */
1138 lp->stmts.create (5);
1139 lp->stmts.quick_push (stmt);
1140 lp->save_var = NULL;
1143 else
1145 size_t i;
1146 gimple *oldstmt;
1148 lp = *slot;
1150 /* If we're generating a save/restore sequence, we don't care
1151 about statements. */
1152 if (lp->save_var)
1153 return;
1155 for (i = 0; lp->stmts.iterate (i, &oldstmt); ++i)
1157 if (stmt == oldstmt)
1158 return;
1159 /* We already have a store to the same address, higher up the
1160 dominator tree. Nothing to do. */
1161 if (dominated_by_p (CDI_DOMINATORS,
1162 gimple_bb (stmt), gimple_bb (oldstmt)))
1163 return;
1164 /* We should be processing blocks in dominator tree order. */
1165 gcc_assert (!dominated_by_p (CDI_DOMINATORS,
1166 gimple_bb (oldstmt), gimple_bb (stmt)));
1168 /* Store is on a different code path. */
1169 lp->stmts.safe_push (stmt);
1173 /* Gimplify the address of a TARGET_MEM_REF. Return the SSA_NAME
1174 result, insert the new statements before GSI. */
1176 static tree
1177 gimplify_addr (gimple_stmt_iterator *gsi, tree x)
1179 if (TREE_CODE (x) == TARGET_MEM_REF)
1180 x = tree_mem_ref_addr (build_pointer_type (TREE_TYPE (x)), x);
1181 else
1182 x = build_fold_addr_expr (x);
1183 return force_gimple_operand_gsi (gsi, x, true, NULL, true, GSI_SAME_STMT);
1186 /* Instrument one address with the logging functions.
1187 ADDR is the address to save.
1188 STMT is the statement before which to place it. */
1189 static void
1190 tm_log_emit_stmt (tree addr, gimple *stmt)
1192 tree type = TREE_TYPE (addr);
1193 gimple_stmt_iterator gsi = gsi_for_stmt (stmt);
1194 gimple *log;
1195 enum built_in_function code = BUILT_IN_TM_LOG;
1197 if (type == float_type_node)
1198 code = BUILT_IN_TM_LOG_FLOAT;
1199 else if (type == double_type_node)
1200 code = BUILT_IN_TM_LOG_DOUBLE;
1201 else if (type == long_double_type_node)
1202 code = BUILT_IN_TM_LOG_LDOUBLE;
1203 else if (TYPE_SIZE (type) != NULL
1204 && tree_fits_uhwi_p (TYPE_SIZE (type)))
1206 unsigned HOST_WIDE_INT type_size = tree_to_uhwi (TYPE_SIZE (type));
1208 if (TREE_CODE (type) == VECTOR_TYPE)
1210 switch (type_size)
1212 case 64:
1213 code = BUILT_IN_TM_LOG_M64;
1214 break;
1215 case 128:
1216 code = BUILT_IN_TM_LOG_M128;
1217 break;
1218 case 256:
1219 code = BUILT_IN_TM_LOG_M256;
1220 break;
1221 default:
1222 goto unhandled_vec;
1224 if (!builtin_decl_explicit_p (code))
1225 goto unhandled_vec;
1227 else
1229 unhandled_vec:
1230 switch (type_size)
1232 case 8:
1233 code = BUILT_IN_TM_LOG_1;
1234 break;
1235 case 16:
1236 code = BUILT_IN_TM_LOG_2;
1237 break;
1238 case 32:
1239 code = BUILT_IN_TM_LOG_4;
1240 break;
1241 case 64:
1242 code = BUILT_IN_TM_LOG_8;
1243 break;
1248 if (code != BUILT_IN_TM_LOG && !builtin_decl_explicit_p (code))
1249 code = BUILT_IN_TM_LOG;
1250 tree decl = builtin_decl_explicit (code);
1252 addr = gimplify_addr (&gsi, addr);
1253 if (code == BUILT_IN_TM_LOG)
1254 log = gimple_build_call (decl, 2, addr, TYPE_SIZE_UNIT (type));
1255 else
1256 log = gimple_build_call (decl, 1, addr);
1257 gsi_insert_before (&gsi, log, GSI_SAME_STMT);
1260 /* Go through the log and instrument address that must be instrumented
1261 with the logging functions. Leave the save/restore addresses for
1262 later. */
1263 static void
1264 tm_log_emit (void)
1266 hash_table<log_entry_hasher>::iterator hi;
1267 struct tm_log_entry *lp;
1269 FOR_EACH_HASH_TABLE_ELEMENT (*tm_log, lp, tm_log_entry_t, hi)
1271 size_t i;
1272 gimple *stmt;
1274 if (dump_file)
1276 fprintf (dump_file, "TM thread private mem logging: ");
1277 print_generic_expr (dump_file, lp->addr, 0);
1278 fprintf (dump_file, "\n");
1281 if (lp->save_var)
1283 if (dump_file)
1284 fprintf (dump_file, "DUMPING to variable\n");
1285 continue;
1287 else
1289 if (dump_file)
1290 fprintf (dump_file, "DUMPING with logging functions\n");
1291 for (i = 0; lp->stmts.iterate (i, &stmt); ++i)
1292 tm_log_emit_stmt (lp->addr, stmt);
1297 /* Emit the save sequence for the corresponding addresses in the log.
1298 ENTRY_BLOCK is the entry block for the transaction.
1299 BB is the basic block to insert the code in. */
1300 static void
1301 tm_log_emit_saves (basic_block entry_block, basic_block bb)
1303 size_t i;
1304 gimple_stmt_iterator gsi = gsi_last_bb (bb);
1305 gimple *stmt;
1306 struct tm_log_entry l, *lp;
1308 for (i = 0; i < tm_log_save_addresses.length (); ++i)
1310 l.addr = tm_log_save_addresses[i];
1311 lp = *(tm_log->find_slot (&l, NO_INSERT));
1312 gcc_assert (lp->save_var != NULL);
1314 /* We only care about variables in the current transaction. */
1315 if (lp->entry_block != entry_block)
1316 continue;
1318 stmt = gimple_build_assign (lp->save_var, unshare_expr (lp->addr));
1320 /* Make sure we can create an SSA_NAME for this type. For
1321 instance, aggregates aren't allowed, in which case the system
1322 will create a VOP for us and everything will just work. */
1323 if (is_gimple_reg_type (TREE_TYPE (lp->save_var)))
1325 lp->save_var = make_ssa_name (lp->save_var, stmt);
1326 gimple_assign_set_lhs (stmt, lp->save_var);
1329 gsi_insert_before (&gsi, stmt, GSI_SAME_STMT);
1333 /* Emit the restore sequence for the corresponding addresses in the log.
1334 ENTRY_BLOCK is the entry block for the transaction.
1335 BB is the basic block to insert the code in. */
1336 static void
1337 tm_log_emit_restores (basic_block entry_block, basic_block bb)
1339 int i;
1340 struct tm_log_entry l, *lp;
1341 gimple_stmt_iterator gsi;
1342 gimple *stmt;
1344 for (i = tm_log_save_addresses.length () - 1; i >= 0; i--)
1346 l.addr = tm_log_save_addresses[i];
1347 lp = *(tm_log->find_slot (&l, NO_INSERT));
1348 gcc_assert (lp->save_var != NULL);
1350 /* We only care about variables in the current transaction. */
1351 if (lp->entry_block != entry_block)
1352 continue;
1354 /* Restores are in LIFO order from the saves in case we have
1355 overlaps. */
1356 gsi = gsi_start_bb (bb);
1358 stmt = gimple_build_assign (unshare_expr (lp->addr), lp->save_var);
1359 gsi_insert_after (&gsi, stmt, GSI_CONTINUE_LINKING);
1364 static tree lower_sequence_tm (gimple_stmt_iterator *, bool *,
1365 struct walk_stmt_info *);
1366 static tree lower_sequence_no_tm (gimple_stmt_iterator *, bool *,
1367 struct walk_stmt_info *);
1369 /* Evaluate an address X being dereferenced and determine if it
1370 originally points to a non aliased new chunk of memory (malloc,
1371 alloca, etc).
1373 Return MEM_THREAD_LOCAL if it points to a thread-local address.
1374 Return MEM_TRANSACTION_LOCAL if it points to a transaction-local address.
1375 Return MEM_NON_LOCAL otherwise.
1377 ENTRY_BLOCK is the entry block to the transaction containing the
1378 dereference of X. */
1379 static enum thread_memory_type
1380 thread_private_new_memory (basic_block entry_block, tree x)
1382 gimple *stmt = NULL;
1383 enum tree_code code;
1384 tm_new_mem_map **slot;
1385 tm_new_mem_map elt, *elt_p;
1386 tree val = x;
1387 enum thread_memory_type retval = mem_transaction_local;
1389 if (!entry_block
1390 || TREE_CODE (x) != SSA_NAME
1391 /* Possible uninitialized use, or a function argument. In
1392 either case, we don't care. */
1393 || SSA_NAME_IS_DEFAULT_DEF (x))
1394 return mem_non_local;
1396 /* Look in cache first. */
1397 elt.val = x;
1398 slot = tm_new_mem_hash->find_slot (&elt, INSERT);
1399 elt_p = *slot;
1400 if (elt_p)
1401 return elt_p->local_new_memory;
1403 /* Optimistically assume the memory is transaction local during
1404 processing. This catches recursion into this variable. */
1405 *slot = elt_p = XNEW (tm_new_mem_map);
1406 elt_p->val = val;
1407 elt_p->local_new_memory = mem_transaction_local;
1409 /* Search DEF chain to find the original definition of this address. */
1412 if (ptr_deref_may_alias_global_p (x))
1414 /* Address escapes. This is not thread-private. */
1415 retval = mem_non_local;
1416 goto new_memory_ret;
1419 stmt = SSA_NAME_DEF_STMT (x);
1421 /* If the malloc call is outside the transaction, this is
1422 thread-local. */
1423 if (retval != mem_thread_local
1424 && !dominated_by_p (CDI_DOMINATORS, gimple_bb (stmt), entry_block))
1425 retval = mem_thread_local;
1427 if (is_gimple_assign (stmt))
1429 code = gimple_assign_rhs_code (stmt);
1430 /* x = foo ==> foo */
1431 if (code == SSA_NAME)
1432 x = gimple_assign_rhs1 (stmt);
1433 /* x = foo + n ==> foo */
1434 else if (code == POINTER_PLUS_EXPR)
1435 x = gimple_assign_rhs1 (stmt);
1436 /* x = (cast*) foo ==> foo */
1437 else if (code == VIEW_CONVERT_EXPR || CONVERT_EXPR_CODE_P (code))
1438 x = gimple_assign_rhs1 (stmt);
1439 /* x = c ? op1 : op2 == > op1 or op2 just like a PHI */
1440 else if (code == COND_EXPR)
1442 tree op1 = gimple_assign_rhs2 (stmt);
1443 tree op2 = gimple_assign_rhs3 (stmt);
1444 enum thread_memory_type mem;
1445 retval = thread_private_new_memory (entry_block, op1);
1446 if (retval == mem_non_local)
1447 goto new_memory_ret;
1448 mem = thread_private_new_memory (entry_block, op2);
1449 retval = MIN (retval, mem);
1450 goto new_memory_ret;
1452 else
1454 retval = mem_non_local;
1455 goto new_memory_ret;
1458 else
1460 if (gimple_code (stmt) == GIMPLE_PHI)
1462 unsigned int i;
1463 enum thread_memory_type mem;
1464 tree phi_result = gimple_phi_result (stmt);
1466 /* If any of the ancestors are non-local, we are sure to
1467 be non-local. Otherwise we can avoid doing anything
1468 and inherit what has already been generated. */
1469 retval = mem_max;
1470 for (i = 0; i < gimple_phi_num_args (stmt); ++i)
1472 tree op = PHI_ARG_DEF (stmt, i);
1474 /* Exclude self-assignment. */
1475 if (phi_result == op)
1476 continue;
1478 mem = thread_private_new_memory (entry_block, op);
1479 if (mem == mem_non_local)
1481 retval = mem;
1482 goto new_memory_ret;
1484 retval = MIN (retval, mem);
1486 goto new_memory_ret;
1488 break;
1491 while (TREE_CODE (x) == SSA_NAME);
1493 if (stmt && is_gimple_call (stmt) && gimple_call_flags (stmt) & ECF_MALLOC)
1494 /* Thread-local or transaction-local. */
1496 else
1497 retval = mem_non_local;
1499 new_memory_ret:
1500 elt_p->local_new_memory = retval;
1501 return retval;
1504 /* Determine whether X has to be instrumented using a read
1505 or write barrier.
1507 ENTRY_BLOCK is the entry block for the region where stmt resides
1508 in. NULL if unknown.
1510 STMT is the statement in which X occurs in. It is used for thread
1511 private memory instrumentation. If no TPM instrumentation is
1512 desired, STMT should be null. */
1513 static bool
1514 requires_barrier (basic_block entry_block, tree x, gimple *stmt)
1516 tree orig = x;
1517 while (handled_component_p (x))
1518 x = TREE_OPERAND (x, 0);
1520 switch (TREE_CODE (x))
1522 case INDIRECT_REF:
1523 case MEM_REF:
1525 enum thread_memory_type ret;
1527 ret = thread_private_new_memory (entry_block, TREE_OPERAND (x, 0));
1528 if (ret == mem_non_local)
1529 return true;
1530 if (stmt && ret == mem_thread_local)
1531 /* ?? Should we pass `orig', or the INDIRECT_REF X. ?? */
1532 tm_log_add (entry_block, orig, stmt);
1534 /* Transaction-locals require nothing at all. For malloc, a
1535 transaction restart frees the memory and we reallocate.
1536 For alloca, the stack pointer gets reset by the retry and
1537 we reallocate. */
1538 return false;
1541 case TARGET_MEM_REF:
1542 if (TREE_CODE (TMR_BASE (x)) != ADDR_EXPR)
1543 return true;
1544 x = TREE_OPERAND (TMR_BASE (x), 0);
1545 if (TREE_CODE (x) == PARM_DECL)
1546 return false;
1547 gcc_assert (TREE_CODE (x) == VAR_DECL);
1548 /* FALLTHRU */
1550 case PARM_DECL:
1551 case RESULT_DECL:
1552 case VAR_DECL:
1553 if (DECL_BY_REFERENCE (x))
1555 /* ??? This value is a pointer, but aggregate_value_p has been
1556 jigged to return true which confuses needs_to_live_in_memory.
1557 This ought to be cleaned up generically.
1559 FIXME: Verify this still happens after the next mainline
1560 merge. Testcase ie g++.dg/tm/pr47554.C.
1562 return false;
1565 if (is_global_var (x))
1566 return !TREE_READONLY (x);
1567 if (/* FIXME: This condition should actually go below in the
1568 tm_log_add() call, however is_call_clobbered() depends on
1569 aliasing info which is not available during
1570 gimplification. Since requires_barrier() gets called
1571 during lower_sequence_tm/gimplification, leave the call
1572 to needs_to_live_in_memory until we eliminate
1573 lower_sequence_tm altogether. */
1574 needs_to_live_in_memory (x))
1575 return true;
1576 else
1578 /* For local memory that doesn't escape (aka thread private
1579 memory), we can either save the value at the beginning of
1580 the transaction and restore on restart, or call a tm
1581 function to dynamically save and restore on restart
1582 (ITM_L*). */
1583 if (stmt)
1584 tm_log_add (entry_block, orig, stmt);
1585 return false;
1588 default:
1589 return false;
1593 /* Mark the GIMPLE_ASSIGN statement as appropriate for being inside
1594 a transaction region. */
1596 static void
1597 examine_assign_tm (unsigned *state, gimple_stmt_iterator *gsi)
1599 gimple *stmt = gsi_stmt (*gsi);
1601 if (requires_barrier (/*entry_block=*/NULL, gimple_assign_rhs1 (stmt), NULL))
1602 *state |= GTMA_HAVE_LOAD;
1603 if (requires_barrier (/*entry_block=*/NULL, gimple_assign_lhs (stmt), NULL))
1604 *state |= GTMA_HAVE_STORE;
1607 /* Mark a GIMPLE_CALL as appropriate for being inside a transaction. */
1609 static void
1610 examine_call_tm (unsigned *state, gimple_stmt_iterator *gsi)
1612 gimple *stmt = gsi_stmt (*gsi);
1613 tree fn;
1615 if (is_tm_pure_call (stmt))
1616 return;
1618 /* Check if this call is a transaction abort. */
1619 fn = gimple_call_fndecl (stmt);
1620 if (is_tm_abort (fn))
1621 *state |= GTMA_HAVE_ABORT;
1623 /* Note that something may happen. */
1624 *state |= GTMA_HAVE_LOAD | GTMA_HAVE_STORE;
1627 /* Iterate through the statements in the sequence, moving labels
1628 (and thus edges) of transactions from "label_norm" to "label_uninst". */
1630 static tree
1631 make_tm_uninst (gimple_stmt_iterator *gsi, bool *handled_ops_p,
1632 struct walk_stmt_info *)
1634 gimple *stmt = gsi_stmt (*gsi);
1636 if (gtransaction *txn = dyn_cast <gtransaction *> (stmt))
1638 *handled_ops_p = true;
1639 txn->label_uninst = txn->label_norm;
1640 txn->label_norm = NULL;
1642 else
1643 *handled_ops_p = !gimple_has_substatements (stmt);
1645 return NULL_TREE;
1648 /* Lower a GIMPLE_TRANSACTION statement. */
1650 static void
1651 lower_transaction (gimple_stmt_iterator *gsi, struct walk_stmt_info *wi)
1653 gimple *g;
1654 gtransaction *stmt = as_a <gtransaction *> (gsi_stmt (*gsi));
1655 unsigned int *outer_state = (unsigned int *) wi->info;
1656 unsigned int this_state = 0;
1657 struct walk_stmt_info this_wi;
1659 /* First, lower the body. The scanning that we do inside gives
1660 us some idea of what we're dealing with. */
1661 memset (&this_wi, 0, sizeof (this_wi));
1662 this_wi.info = (void *) &this_state;
1663 walk_gimple_seq_mod (gimple_transaction_body_ptr (stmt),
1664 lower_sequence_tm, NULL, &this_wi);
1666 /* If there was absolutely nothing transaction related inside the
1667 transaction, we may elide it. Likewise if this is a nested
1668 transaction and does not contain an abort. */
1669 if (this_state == 0
1670 || (!(this_state & GTMA_HAVE_ABORT) && outer_state != NULL))
1672 if (outer_state)
1673 *outer_state |= this_state;
1675 gsi_insert_seq_before (gsi, gimple_transaction_body (stmt),
1676 GSI_SAME_STMT);
1677 gimple_transaction_set_body (stmt, NULL);
1679 gsi_remove (gsi, true);
1680 wi->removed_stmt = true;
1681 return;
1684 /* Wrap the body of the transaction in a try-finally node so that
1685 the commit call is always properly called. */
1686 g = gimple_build_call (builtin_decl_explicit (BUILT_IN_TM_COMMIT), 0);
1687 if (flag_exceptions)
1689 tree ptr;
1690 gimple_seq n_seq, e_seq;
1692 n_seq = gimple_seq_alloc_with_stmt (g);
1693 e_seq = NULL;
1695 g = gimple_build_call (builtin_decl_explicit (BUILT_IN_EH_POINTER),
1696 1, integer_zero_node);
1697 ptr = create_tmp_var (ptr_type_node);
1698 gimple_call_set_lhs (g, ptr);
1699 gimple_seq_add_stmt (&e_seq, g);
1701 g = gimple_build_call (builtin_decl_explicit (BUILT_IN_TM_COMMIT_EH),
1702 1, ptr);
1703 gimple_seq_add_stmt (&e_seq, g);
1705 g = gimple_build_eh_else (n_seq, e_seq);
1708 g = gimple_build_try (gimple_transaction_body (stmt),
1709 gimple_seq_alloc_with_stmt (g), GIMPLE_TRY_FINALLY);
1711 /* For a (potentially) outer transaction, create two paths. */
1712 gimple_seq uninst = NULL;
1713 if (outer_state == NULL)
1715 uninst = copy_gimple_seq_and_replace_locals (g);
1716 /* In the uninstrumented copy, reset inner transactions to have only
1717 an uninstrumented code path. */
1718 memset (&this_wi, 0, sizeof (this_wi));
1719 walk_gimple_seq (uninst, make_tm_uninst, NULL, &this_wi);
1722 tree label1 = create_artificial_label (UNKNOWN_LOCATION);
1723 gsi_insert_after (gsi, gimple_build_label (label1), GSI_CONTINUE_LINKING);
1724 gsi_insert_after (gsi, g, GSI_CONTINUE_LINKING);
1725 gimple_transaction_set_label_norm (stmt, label1);
1727 /* If the transaction calls abort or if this is an outer transaction,
1728 add an "over" label afterwards. */
1729 tree label3 = NULL;
1730 if ((this_state & GTMA_HAVE_ABORT)
1731 || outer_state == NULL
1732 || (gimple_transaction_subcode (stmt) & GTMA_IS_OUTER))
1734 label3 = create_artificial_label (UNKNOWN_LOCATION);
1735 gimple_transaction_set_label_over (stmt, label3);
1738 if (uninst != NULL)
1740 gsi_insert_after (gsi, gimple_build_goto (label3), GSI_CONTINUE_LINKING);
1742 tree label2 = create_artificial_label (UNKNOWN_LOCATION);
1743 gsi_insert_after (gsi, gimple_build_label (label2), GSI_CONTINUE_LINKING);
1744 gsi_insert_seq_after (gsi, uninst, GSI_CONTINUE_LINKING);
1745 gimple_transaction_set_label_uninst (stmt, label2);
1748 if (label3 != NULL)
1749 gsi_insert_after (gsi, gimple_build_label (label3), GSI_CONTINUE_LINKING);
1751 gimple_transaction_set_body (stmt, NULL);
1753 /* Record the set of operations found for use later. */
1754 this_state |= gimple_transaction_subcode (stmt) & GTMA_DECLARATION_MASK;
1755 gimple_transaction_set_subcode (stmt, this_state);
1758 /* Iterate through the statements in the sequence, lowering them all
1759 as appropriate for being in a transaction. */
1761 static tree
1762 lower_sequence_tm (gimple_stmt_iterator *gsi, bool *handled_ops_p,
1763 struct walk_stmt_info *wi)
1765 unsigned int *state = (unsigned int *) wi->info;
1766 gimple *stmt = gsi_stmt (*gsi);
1768 *handled_ops_p = true;
1769 switch (gimple_code (stmt))
1771 case GIMPLE_ASSIGN:
1772 /* Only memory reads/writes need to be instrumented. */
1773 if (gimple_assign_single_p (stmt))
1774 examine_assign_tm (state, gsi);
1775 break;
1777 case GIMPLE_CALL:
1778 examine_call_tm (state, gsi);
1779 break;
1781 case GIMPLE_ASM:
1782 *state |= GTMA_MAY_ENTER_IRREVOCABLE;
1783 break;
1785 case GIMPLE_TRANSACTION:
1786 lower_transaction (gsi, wi);
1787 break;
1789 default:
1790 *handled_ops_p = !gimple_has_substatements (stmt);
1791 break;
1794 return NULL_TREE;
1797 /* Iterate through the statements in the sequence, lowering them all
1798 as appropriate for being outside of a transaction. */
1800 static tree
1801 lower_sequence_no_tm (gimple_stmt_iterator *gsi, bool *handled_ops_p,
1802 struct walk_stmt_info * wi)
1804 gimple *stmt = gsi_stmt (*gsi);
1806 if (gimple_code (stmt) == GIMPLE_TRANSACTION)
1808 *handled_ops_p = true;
1809 lower_transaction (gsi, wi);
1811 else
1812 *handled_ops_p = !gimple_has_substatements (stmt);
1814 return NULL_TREE;
1817 /* Main entry point for flattening GIMPLE_TRANSACTION constructs. After
1818 this, GIMPLE_TRANSACTION nodes still exist, but the nested body has
1819 been moved out, and all the data required for constructing a proper
1820 CFG has been recorded. */
1822 static unsigned int
1823 execute_lower_tm (void)
1825 struct walk_stmt_info wi;
1826 gimple_seq body;
1828 /* Transactional clones aren't created until a later pass. */
1829 gcc_assert (!decl_is_tm_clone (current_function_decl));
1831 body = gimple_body (current_function_decl);
1832 memset (&wi, 0, sizeof (wi));
1833 walk_gimple_seq_mod (&body, lower_sequence_no_tm, NULL, &wi);
1834 gimple_set_body (current_function_decl, body);
1836 return 0;
1839 namespace {
1841 const pass_data pass_data_lower_tm =
1843 GIMPLE_PASS, /* type */
1844 "tmlower", /* name */
1845 OPTGROUP_NONE, /* optinfo_flags */
1846 TV_TRANS_MEM, /* tv_id */
1847 PROP_gimple_lcf, /* properties_required */
1848 0, /* properties_provided */
1849 0, /* properties_destroyed */
1850 0, /* todo_flags_start */
1851 0, /* todo_flags_finish */
1854 class pass_lower_tm : public gimple_opt_pass
1856 public:
1857 pass_lower_tm (gcc::context *ctxt)
1858 : gimple_opt_pass (pass_data_lower_tm, ctxt)
1861 /* opt_pass methods: */
1862 virtual bool gate (function *) { return flag_tm; }
1863 virtual unsigned int execute (function *) { return execute_lower_tm (); }
1865 }; // class pass_lower_tm
1867 } // anon namespace
1869 gimple_opt_pass *
1870 make_pass_lower_tm (gcc::context *ctxt)
1872 return new pass_lower_tm (ctxt);
1875 /* Collect region information for each transaction. */
1877 struct tm_region
1879 public:
1881 /* The field "transaction_stmt" is initially a gtransaction *,
1882 but eventually gets lowered to a gcall *(to BUILT_IN_TM_START).
1884 Helper method to get it as a gtransaction *, with code-checking
1885 in a checked-build. */
1887 gtransaction *
1888 get_transaction_stmt () const
1890 return as_a <gtransaction *> (transaction_stmt);
1893 public:
1895 /* Link to the next unnested transaction. */
1896 struct tm_region *next;
1898 /* Link to the next inner transaction. */
1899 struct tm_region *inner;
1901 /* Link to the next outer transaction. */
1902 struct tm_region *outer;
1904 /* The GIMPLE_TRANSACTION statement beginning this transaction.
1905 After TM_MARK, this gets replaced by a call to
1906 BUILT_IN_TM_START.
1907 Hence this will be either a gtransaction *or a gcall *. */
1908 gimple *transaction_stmt;
1910 /* After TM_MARK expands the GIMPLE_TRANSACTION into a call to
1911 BUILT_IN_TM_START, this field is true if the transaction is an
1912 outer transaction. */
1913 bool original_transaction_was_outer;
1915 /* Return value from BUILT_IN_TM_START. */
1916 tree tm_state;
1918 /* The entry block to this region. This will always be the first
1919 block of the body of the transaction. */
1920 basic_block entry_block;
1922 /* The first block after an expanded call to _ITM_beginTransaction. */
1923 basic_block restart_block;
1925 /* The set of all blocks that end the region; NULL if only EXIT_BLOCK.
1926 These blocks are still a part of the region (i.e., the border is
1927 inclusive). Note that this set is only complete for paths in the CFG
1928 starting at ENTRY_BLOCK, and that there is no exit block recorded for
1929 the edge to the "over" label. */
1930 bitmap exit_blocks;
1932 /* The set of all blocks that have an TM_IRREVOCABLE call. */
1933 bitmap irr_blocks;
1936 /* True if there are pending edge statements to be committed for the
1937 current function being scanned in the tmmark pass. */
1938 bool pending_edge_inserts_p;
1940 static struct tm_region *all_tm_regions;
1941 static bitmap_obstack tm_obstack;
1944 /* A subroutine of tm_region_init. Record the existence of the
1945 GIMPLE_TRANSACTION statement in a tree of tm_region elements. */
1947 static struct tm_region *
1948 tm_region_init_0 (struct tm_region *outer, basic_block bb,
1949 gtransaction *stmt)
1951 struct tm_region *region;
1953 region = (struct tm_region *)
1954 obstack_alloc (&tm_obstack.obstack, sizeof (struct tm_region));
1956 if (outer)
1958 region->next = outer->inner;
1959 outer->inner = region;
1961 else
1963 region->next = all_tm_regions;
1964 all_tm_regions = region;
1966 region->inner = NULL;
1967 region->outer = outer;
1969 region->transaction_stmt = stmt;
1970 region->original_transaction_was_outer = false;
1971 region->tm_state = NULL;
1973 /* There are either one or two edges out of the block containing
1974 the GIMPLE_TRANSACTION, one to the actual region and one to the
1975 "over" label if the region contains an abort. The former will
1976 always be the one marked FALLTHRU. */
1977 region->entry_block = FALLTHRU_EDGE (bb)->dest;
1979 region->exit_blocks = BITMAP_ALLOC (&tm_obstack);
1980 region->irr_blocks = BITMAP_ALLOC (&tm_obstack);
1982 return region;
1985 /* A subroutine of tm_region_init. Record all the exit and
1986 irrevocable blocks in BB into the region's exit_blocks and
1987 irr_blocks bitmaps. Returns the new region being scanned. */
1989 static struct tm_region *
1990 tm_region_init_1 (struct tm_region *region, basic_block bb)
1992 gimple_stmt_iterator gsi;
1993 gimple *g;
1995 if (!region
1996 || (!region->irr_blocks && !region->exit_blocks))
1997 return region;
1999 /* Check to see if this is the end of a region by seeing if it
2000 contains a call to __builtin_tm_commit{,_eh}. Note that the
2001 outermost region for DECL_IS_TM_CLONE need not collect this. */
2002 for (gsi = gsi_last_bb (bb); !gsi_end_p (gsi); gsi_prev (&gsi))
2004 g = gsi_stmt (gsi);
2005 if (gimple_code (g) == GIMPLE_CALL)
2007 tree fn = gimple_call_fndecl (g);
2008 if (fn && DECL_BUILT_IN_CLASS (fn) == BUILT_IN_NORMAL)
2010 if ((DECL_FUNCTION_CODE (fn) == BUILT_IN_TM_COMMIT
2011 || DECL_FUNCTION_CODE (fn) == BUILT_IN_TM_COMMIT_EH)
2012 && region->exit_blocks)
2014 bitmap_set_bit (region->exit_blocks, bb->index);
2015 region = region->outer;
2016 break;
2018 if (DECL_FUNCTION_CODE (fn) == BUILT_IN_TM_IRREVOCABLE)
2019 bitmap_set_bit (region->irr_blocks, bb->index);
2023 return region;
2026 /* Collect all of the transaction regions within the current function
2027 and record them in ALL_TM_REGIONS. The REGION parameter may specify
2028 an "outermost" region for use by tm clones. */
2030 static void
2031 tm_region_init (struct tm_region *region)
2033 gimple *g;
2034 edge_iterator ei;
2035 edge e;
2036 basic_block bb;
2037 auto_vec<basic_block> queue;
2038 bitmap visited_blocks = BITMAP_ALLOC (NULL);
2039 struct tm_region *old_region;
2040 auto_vec<tm_region *> bb_regions;
2042 /* We could store this information in bb->aux, but we may get called
2043 through get_all_tm_blocks() from another pass that may be already
2044 using bb->aux. */
2045 bb_regions.safe_grow_cleared (last_basic_block_for_fn (cfun));
2047 all_tm_regions = region;
2048 bb = single_succ (ENTRY_BLOCK_PTR_FOR_FN (cfun));
2049 queue.safe_push (bb);
2050 bitmap_set_bit (visited_blocks, bb->index);
2051 bb_regions[bb->index] = region;
2055 bb = queue.pop ();
2056 region = bb_regions[bb->index];
2057 bb_regions[bb->index] = NULL;
2059 /* Record exit and irrevocable blocks. */
2060 region = tm_region_init_1 (region, bb);
2062 /* Check for the last statement in the block beginning a new region. */
2063 g = last_stmt (bb);
2064 old_region = region;
2065 if (g)
2066 if (gtransaction *trans_stmt = dyn_cast <gtransaction *> (g))
2067 region = tm_region_init_0 (region, bb, trans_stmt);
2069 /* Process subsequent blocks. */
2070 FOR_EACH_EDGE (e, ei, bb->succs)
2071 if (!bitmap_bit_p (visited_blocks, e->dest->index))
2073 bitmap_set_bit (visited_blocks, e->dest->index);
2074 queue.safe_push (e->dest);
2076 /* If the current block started a new region, make sure that only
2077 the entry block of the new region is associated with this region.
2078 Other successors are still part of the old region. */
2079 if (old_region != region && e->dest != region->entry_block)
2080 bb_regions[e->dest->index] = old_region;
2081 else
2082 bb_regions[e->dest->index] = region;
2085 while (!queue.is_empty ());
2086 BITMAP_FREE (visited_blocks);
2089 /* The "gate" function for all transactional memory expansion and optimization
2090 passes. We collect region information for each top-level transaction, and
2091 if we don't find any, we skip all of the TM passes. Each region will have
2092 all of the exit blocks recorded, and the originating statement. */
2094 static bool
2095 gate_tm_init (void)
2097 if (!flag_tm)
2098 return false;
2100 calculate_dominance_info (CDI_DOMINATORS);
2101 bitmap_obstack_initialize (&tm_obstack);
2103 /* If the function is a TM_CLONE, then the entire function is the region. */
2104 if (decl_is_tm_clone (current_function_decl))
2106 struct tm_region *region = (struct tm_region *)
2107 obstack_alloc (&tm_obstack.obstack, sizeof (struct tm_region));
2108 memset (region, 0, sizeof (*region));
2109 region->entry_block = single_succ (ENTRY_BLOCK_PTR_FOR_FN (cfun));
2110 /* For a clone, the entire function is the region. But even if
2111 we don't need to record any exit blocks, we may need to
2112 record irrevocable blocks. */
2113 region->irr_blocks = BITMAP_ALLOC (&tm_obstack);
2115 tm_region_init (region);
2117 else
2119 tm_region_init (NULL);
2121 /* If we didn't find any regions, cleanup and skip the whole tree
2122 of tm-related optimizations. */
2123 if (all_tm_regions == NULL)
2125 bitmap_obstack_release (&tm_obstack);
2126 return false;
2130 return true;
2133 namespace {
2135 const pass_data pass_data_tm_init =
2137 GIMPLE_PASS, /* type */
2138 "*tminit", /* name */
2139 OPTGROUP_NONE, /* optinfo_flags */
2140 TV_TRANS_MEM, /* tv_id */
2141 ( PROP_ssa | PROP_cfg ), /* properties_required */
2142 0, /* properties_provided */
2143 0, /* properties_destroyed */
2144 0, /* todo_flags_start */
2145 0, /* todo_flags_finish */
2148 class pass_tm_init : public gimple_opt_pass
2150 public:
2151 pass_tm_init (gcc::context *ctxt)
2152 : gimple_opt_pass (pass_data_tm_init, ctxt)
2155 /* opt_pass methods: */
2156 virtual bool gate (function *) { return gate_tm_init (); }
2158 }; // class pass_tm_init
2160 } // anon namespace
2162 gimple_opt_pass *
2163 make_pass_tm_init (gcc::context *ctxt)
2165 return new pass_tm_init (ctxt);
2168 /* Add FLAGS to the GIMPLE_TRANSACTION subcode for the transaction region
2169 represented by STATE. */
2171 static inline void
2172 transaction_subcode_ior (struct tm_region *region, unsigned flags)
2174 if (region && region->transaction_stmt)
2176 gtransaction *transaction_stmt = region->get_transaction_stmt ();
2177 flags |= gimple_transaction_subcode (transaction_stmt);
2178 gimple_transaction_set_subcode (transaction_stmt, flags);
2182 /* Construct a memory load in a transactional context. Return the
2183 gimple statement performing the load, or NULL if there is no
2184 TM_LOAD builtin of the appropriate size to do the load.
2186 LOC is the location to use for the new statement(s). */
2188 static gcall *
2189 build_tm_load (location_t loc, tree lhs, tree rhs, gimple_stmt_iterator *gsi)
2191 tree t, type = TREE_TYPE (rhs);
2192 gcall *gcall;
2194 built_in_function code;
2195 if (type == float_type_node)
2196 code = BUILT_IN_TM_LOAD_FLOAT;
2197 else if (type == double_type_node)
2198 code = BUILT_IN_TM_LOAD_DOUBLE;
2199 else if (type == long_double_type_node)
2200 code = BUILT_IN_TM_LOAD_LDOUBLE;
2201 else
2203 if (TYPE_SIZE (type) == NULL || !tree_fits_uhwi_p (TYPE_SIZE (type)))
2204 return NULL;
2205 unsigned HOST_WIDE_INT type_size = tree_to_uhwi (TYPE_SIZE (type));
2207 if (TREE_CODE (type) == VECTOR_TYPE)
2209 switch (type_size)
2211 case 64:
2212 code = BUILT_IN_TM_LOAD_M64;
2213 break;
2214 case 128:
2215 code = BUILT_IN_TM_LOAD_M128;
2216 break;
2217 case 256:
2218 code = BUILT_IN_TM_LOAD_M256;
2219 break;
2220 default:
2221 goto unhandled_vec;
2223 if (!builtin_decl_explicit_p (code))
2224 goto unhandled_vec;
2226 else
2228 unhandled_vec:
2229 switch (type_size)
2231 case 8:
2232 code = BUILT_IN_TM_LOAD_1;
2233 break;
2234 case 16:
2235 code = BUILT_IN_TM_LOAD_2;
2236 break;
2237 case 32:
2238 code = BUILT_IN_TM_LOAD_4;
2239 break;
2240 case 64:
2241 code = BUILT_IN_TM_LOAD_8;
2242 break;
2243 default:
2244 return NULL;
2249 tree decl = builtin_decl_explicit (code);
2250 gcc_assert (decl);
2252 t = gimplify_addr (gsi, rhs);
2253 gcall = gimple_build_call (decl, 1, t);
2254 gimple_set_location (gcall, loc);
2256 t = TREE_TYPE (TREE_TYPE (decl));
2257 if (useless_type_conversion_p (type, t))
2259 gimple_call_set_lhs (gcall, lhs);
2260 gsi_insert_before (gsi, gcall, GSI_SAME_STMT);
2262 else
2264 gimple *g;
2265 tree temp;
2267 temp = create_tmp_reg (t);
2268 gimple_call_set_lhs (gcall, temp);
2269 gsi_insert_before (gsi, gcall, GSI_SAME_STMT);
2271 t = fold_build1 (VIEW_CONVERT_EXPR, type, temp);
2272 g = gimple_build_assign (lhs, t);
2273 gsi_insert_before (gsi, g, GSI_SAME_STMT);
2276 return gcall;
2280 /* Similarly for storing TYPE in a transactional context. */
2282 static gcall *
2283 build_tm_store (location_t loc, tree lhs, tree rhs, gimple_stmt_iterator *gsi)
2285 tree t, fn, type = TREE_TYPE (rhs), simple_type;
2286 gcall *gcall;
2288 built_in_function code;
2289 if (type == float_type_node)
2290 code = BUILT_IN_TM_STORE_FLOAT;
2291 else if (type == double_type_node)
2292 code = BUILT_IN_TM_STORE_DOUBLE;
2293 else if (type == long_double_type_node)
2294 code = BUILT_IN_TM_STORE_LDOUBLE;
2295 else
2297 if (TYPE_SIZE (type) == NULL || !tree_fits_uhwi_p (TYPE_SIZE (type)))
2298 return NULL;
2299 unsigned HOST_WIDE_INT type_size = tree_to_uhwi (TYPE_SIZE (type));
2301 if (TREE_CODE (type) == VECTOR_TYPE)
2303 switch (type_size)
2305 case 64:
2306 code = BUILT_IN_TM_STORE_M64;
2307 break;
2308 case 128:
2309 code = BUILT_IN_TM_STORE_M128;
2310 break;
2311 case 256:
2312 code = BUILT_IN_TM_STORE_M256;
2313 break;
2314 default:
2315 goto unhandled_vec;
2317 if (!builtin_decl_explicit_p (code))
2318 goto unhandled_vec;
2320 else
2322 unhandled_vec:
2323 switch (type_size)
2325 case 8:
2326 code = BUILT_IN_TM_STORE_1;
2327 break;
2328 case 16:
2329 code = BUILT_IN_TM_STORE_2;
2330 break;
2331 case 32:
2332 code = BUILT_IN_TM_STORE_4;
2333 break;
2334 case 64:
2335 code = BUILT_IN_TM_STORE_8;
2336 break;
2337 default:
2338 return NULL;
2343 fn = builtin_decl_explicit (code);
2344 gcc_assert (fn);
2346 simple_type = TREE_VALUE (TREE_CHAIN (TYPE_ARG_TYPES (TREE_TYPE (fn))));
2348 if (TREE_CODE (rhs) == CONSTRUCTOR)
2350 /* Handle the easy initialization to zero. */
2351 if (!CONSTRUCTOR_ELTS (rhs))
2352 rhs = build_int_cst (simple_type, 0);
2353 else
2355 /* ...otherwise punt to the caller and probably use
2356 BUILT_IN_TM_MEMMOVE, because we can't wrap a
2357 VIEW_CONVERT_EXPR around a CONSTRUCTOR (below) and produce
2358 valid gimple. */
2359 return NULL;
2362 else if (!useless_type_conversion_p (simple_type, type))
2364 gimple *g;
2365 tree temp;
2367 temp = create_tmp_reg (simple_type);
2368 t = fold_build1 (VIEW_CONVERT_EXPR, simple_type, rhs);
2369 g = gimple_build_assign (temp, t);
2370 gimple_set_location (g, loc);
2371 gsi_insert_before (gsi, g, GSI_SAME_STMT);
2373 rhs = temp;
2376 t = gimplify_addr (gsi, lhs);
2377 gcall = gimple_build_call (fn, 2, t, rhs);
2378 gimple_set_location (gcall, loc);
2379 gsi_insert_before (gsi, gcall, GSI_SAME_STMT);
2381 return gcall;
2385 /* Expand an assignment statement into transactional builtins. */
2387 static void
2388 expand_assign_tm (struct tm_region *region, gimple_stmt_iterator *gsi)
2390 gimple *stmt = gsi_stmt (*gsi);
2391 location_t loc = gimple_location (stmt);
2392 tree lhs = gimple_assign_lhs (stmt);
2393 tree rhs = gimple_assign_rhs1 (stmt);
2394 bool store_p = requires_barrier (region->entry_block, lhs, NULL);
2395 bool load_p = requires_barrier (region->entry_block, rhs, NULL);
2396 gimple *gcall = NULL;
2398 if (!load_p && !store_p)
2400 /* Add thread private addresses to log if applicable. */
2401 requires_barrier (region->entry_block, lhs, stmt);
2402 gsi_next (gsi);
2403 return;
2406 if (load_p)
2407 transaction_subcode_ior (region, GTMA_HAVE_LOAD);
2408 if (store_p)
2409 transaction_subcode_ior (region, GTMA_HAVE_STORE);
2411 // Remove original load/store statement.
2412 gsi_remove (gsi, true);
2414 // Attempt to use a simple load/store helper function.
2415 if (load_p && !store_p)
2416 gcall = build_tm_load (loc, lhs, rhs, gsi);
2417 else if (store_p && !load_p)
2418 gcall = build_tm_store (loc, lhs, rhs, gsi);
2420 // If gcall has not been set, then we do not have a simple helper
2421 // function available for the type. This may be true of larger
2422 // structures, vectors, and non-standard float types.
2423 if (!gcall)
2425 tree lhs_addr, rhs_addr, ltmp = NULL, copy_fn;
2427 // If this is a type that we couldn't handle above, but it's
2428 // in a register, we must spill it to memory for the copy.
2429 if (is_gimple_reg (lhs))
2431 ltmp = create_tmp_var (TREE_TYPE (lhs));
2432 lhs_addr = build_fold_addr_expr (ltmp);
2434 else
2435 lhs_addr = gimplify_addr (gsi, lhs);
2436 if (is_gimple_reg (rhs))
2438 tree rtmp = create_tmp_var (TREE_TYPE (rhs));
2439 rhs_addr = build_fold_addr_expr (rtmp);
2440 gcall = gimple_build_assign (rtmp, rhs);
2441 gsi_insert_before (gsi, gcall, GSI_SAME_STMT);
2443 else
2444 rhs_addr = gimplify_addr (gsi, rhs);
2446 // Choose the appropriate memory transfer function.
2447 if (load_p && store_p)
2449 // ??? Figure out if there's any possible overlap between
2450 // the LHS and the RHS and if not, use MEMCPY.
2451 copy_fn = builtin_decl_explicit (BUILT_IN_TM_MEMMOVE);
2453 else if (load_p)
2455 // Note that the store is non-transactional and cannot overlap.
2456 copy_fn = builtin_decl_explicit (BUILT_IN_TM_MEMCPY_RTWN);
2458 else
2460 // Note that the load is non-transactional and cannot overlap.
2461 copy_fn = builtin_decl_explicit (BUILT_IN_TM_MEMCPY_RNWT);
2464 gcall = gimple_build_call (copy_fn, 3, lhs_addr, rhs_addr,
2465 TYPE_SIZE_UNIT (TREE_TYPE (lhs)));
2466 gimple_set_location (gcall, loc);
2467 gsi_insert_before (gsi, gcall, GSI_SAME_STMT);
2469 if (ltmp)
2471 gcall = gimple_build_assign (lhs, ltmp);
2472 gsi_insert_before (gsi, gcall, GSI_SAME_STMT);
2476 // Now that we have the load/store in its instrumented form, add
2477 // thread private addresses to the log if applicable.
2478 if (!store_p)
2479 requires_barrier (region->entry_block, lhs, gcall);
2483 /* Expand a call statement as appropriate for a transaction. That is,
2484 either verify that the call does not affect the transaction, or
2485 redirect the call to a clone that handles transactions, or change
2486 the transaction state to IRREVOCABLE. Return true if the call is
2487 one of the builtins that end a transaction. */
2489 static bool
2490 expand_call_tm (struct tm_region *region,
2491 gimple_stmt_iterator *gsi)
2493 gcall *stmt = as_a <gcall *> (gsi_stmt (*gsi));
2494 tree lhs = gimple_call_lhs (stmt);
2495 tree fn_decl;
2496 struct cgraph_node *node;
2497 bool retval = false;
2499 fn_decl = gimple_call_fndecl (stmt);
2501 if (fn_decl == builtin_decl_explicit (BUILT_IN_TM_MEMCPY)
2502 || fn_decl == builtin_decl_explicit (BUILT_IN_TM_MEMMOVE))
2503 transaction_subcode_ior (region, GTMA_HAVE_STORE | GTMA_HAVE_LOAD);
2504 if (fn_decl == builtin_decl_explicit (BUILT_IN_TM_MEMSET))
2505 transaction_subcode_ior (region, GTMA_HAVE_STORE);
2507 if (is_tm_pure_call (stmt))
2508 return false;
2510 if (fn_decl)
2511 retval = is_tm_ending_fndecl (fn_decl);
2512 if (!retval)
2514 /* Assume all non-const/pure calls write to memory, except
2515 transaction ending builtins. */
2516 transaction_subcode_ior (region, GTMA_HAVE_STORE);
2519 /* For indirect calls, we already generated a call into the runtime. */
2520 if (!fn_decl)
2522 tree fn = gimple_call_fn (stmt);
2524 /* We are guaranteed never to go irrevocable on a safe or pure
2525 call, and the pure call was handled above. */
2526 if (is_tm_safe (fn))
2527 return false;
2528 else
2529 transaction_subcode_ior (region, GTMA_MAY_ENTER_IRREVOCABLE);
2531 return false;
2534 node = cgraph_node::get (fn_decl);
2535 /* All calls should have cgraph here. */
2536 if (!node)
2538 /* We can have a nodeless call here if some pass after IPA-tm
2539 added uninstrumented calls. For example, loop distribution
2540 can transform certain loop constructs into __builtin_mem*
2541 calls. In this case, see if we have a suitable TM
2542 replacement and fill in the gaps. */
2543 gcc_assert (DECL_BUILT_IN_CLASS (fn_decl) == BUILT_IN_NORMAL);
2544 enum built_in_function code = DECL_FUNCTION_CODE (fn_decl);
2545 gcc_assert (code == BUILT_IN_MEMCPY
2546 || code == BUILT_IN_MEMMOVE
2547 || code == BUILT_IN_MEMSET);
2549 tree repl = find_tm_replacement_function (fn_decl);
2550 if (repl)
2552 gimple_call_set_fndecl (stmt, repl);
2553 update_stmt (stmt);
2554 node = cgraph_node::create (repl);
2555 node->local.tm_may_enter_irr = false;
2556 return expand_call_tm (region, gsi);
2558 gcc_unreachable ();
2560 if (node->local.tm_may_enter_irr)
2561 transaction_subcode_ior (region, GTMA_MAY_ENTER_IRREVOCABLE);
2563 if (is_tm_abort (fn_decl))
2565 transaction_subcode_ior (region, GTMA_HAVE_ABORT);
2566 return true;
2569 /* Instrument the store if needed.
2571 If the assignment happens inside the function call (return slot
2572 optimization), there is no instrumentation to be done, since
2573 the callee should have done the right thing. */
2574 if (lhs && requires_barrier (region->entry_block, lhs, stmt)
2575 && !gimple_call_return_slot_opt_p (stmt))
2577 tree tmp = create_tmp_reg (TREE_TYPE (lhs));
2578 location_t loc = gimple_location (stmt);
2579 edge fallthru_edge = NULL;
2580 gassign *assign_stmt;
2582 /* Remember if the call was going to throw. */
2583 if (stmt_can_throw_internal (stmt))
2585 edge_iterator ei;
2586 edge e;
2587 basic_block bb = gimple_bb (stmt);
2589 FOR_EACH_EDGE (e, ei, bb->succs)
2590 if (e->flags & EDGE_FALLTHRU)
2592 fallthru_edge = e;
2593 break;
2597 gimple_call_set_lhs (stmt, tmp);
2598 update_stmt (stmt);
2599 assign_stmt = gimple_build_assign (lhs, tmp);
2600 gimple_set_location (assign_stmt, loc);
2602 /* We cannot throw in the middle of a BB. If the call was going
2603 to throw, place the instrumentation on the fallthru edge, so
2604 the call remains the last statement in the block. */
2605 if (fallthru_edge)
2607 gimple_seq fallthru_seq = gimple_seq_alloc_with_stmt (assign_stmt);
2608 gimple_stmt_iterator fallthru_gsi = gsi_start (fallthru_seq);
2609 expand_assign_tm (region, &fallthru_gsi);
2610 gsi_insert_seq_on_edge (fallthru_edge, fallthru_seq);
2611 pending_edge_inserts_p = true;
2613 else
2615 gsi_insert_after (gsi, assign_stmt, GSI_CONTINUE_LINKING);
2616 expand_assign_tm (region, gsi);
2619 transaction_subcode_ior (region, GTMA_HAVE_STORE);
2622 return retval;
2626 /* Expand all statements in BB as appropriate for being inside
2627 a transaction. */
2629 static void
2630 expand_block_tm (struct tm_region *region, basic_block bb)
2632 gimple_stmt_iterator gsi;
2634 for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); )
2636 gimple *stmt = gsi_stmt (gsi);
2637 switch (gimple_code (stmt))
2639 case GIMPLE_ASSIGN:
2640 /* Only memory reads/writes need to be instrumented. */
2641 if (gimple_assign_single_p (stmt)
2642 && !gimple_clobber_p (stmt))
2644 expand_assign_tm (region, &gsi);
2645 continue;
2647 break;
2649 case GIMPLE_CALL:
2650 if (expand_call_tm (region, &gsi))
2651 return;
2652 break;
2654 case GIMPLE_ASM:
2655 gcc_unreachable ();
2657 default:
2658 break;
2660 if (!gsi_end_p (gsi))
2661 gsi_next (&gsi);
2665 /* Return the list of basic-blocks in REGION.
2667 STOP_AT_IRREVOCABLE_P is true if caller is uninterested in blocks
2668 following a TM_IRREVOCABLE call.
2670 INCLUDE_UNINSTRUMENTED_P is TRUE if we should include the
2671 uninstrumented code path blocks in the list of basic blocks
2672 returned, false otherwise. */
2674 static vec<basic_block>
2675 get_tm_region_blocks (basic_block entry_block,
2676 bitmap exit_blocks,
2677 bitmap irr_blocks,
2678 bitmap all_region_blocks,
2679 bool stop_at_irrevocable_p,
2680 bool include_uninstrumented_p = true)
2682 vec<basic_block> bbs = vNULL;
2683 unsigned i;
2684 edge e;
2685 edge_iterator ei;
2686 bitmap visited_blocks = BITMAP_ALLOC (NULL);
2688 i = 0;
2689 bbs.safe_push (entry_block);
2690 bitmap_set_bit (visited_blocks, entry_block->index);
2694 basic_block bb = bbs[i++];
2696 if (exit_blocks &&
2697 bitmap_bit_p (exit_blocks, bb->index))
2698 continue;
2700 if (stop_at_irrevocable_p
2701 && irr_blocks
2702 && bitmap_bit_p (irr_blocks, bb->index))
2703 continue;
2705 FOR_EACH_EDGE (e, ei, bb->succs)
2706 if ((include_uninstrumented_p
2707 || !(e->flags & EDGE_TM_UNINSTRUMENTED))
2708 && !bitmap_bit_p (visited_blocks, e->dest->index))
2710 bitmap_set_bit (visited_blocks, e->dest->index);
2711 bbs.safe_push (e->dest);
2714 while (i < bbs.length ());
2716 if (all_region_blocks)
2717 bitmap_ior_into (all_region_blocks, visited_blocks);
2719 BITMAP_FREE (visited_blocks);
2720 return bbs;
2723 // Callback data for collect_bb2reg.
2724 struct bb2reg_stuff
2726 vec<tm_region *> *bb2reg;
2727 bool include_uninstrumented_p;
2730 // Callback for expand_regions, collect innermost region data for each bb.
2731 static void *
2732 collect_bb2reg (struct tm_region *region, void *data)
2734 struct bb2reg_stuff *stuff = (struct bb2reg_stuff *)data;
2735 vec<tm_region *> *bb2reg = stuff->bb2reg;
2736 vec<basic_block> queue;
2737 unsigned int i;
2738 basic_block bb;
2740 queue = get_tm_region_blocks (region->entry_block,
2741 region->exit_blocks,
2742 region->irr_blocks,
2743 NULL,
2744 /*stop_at_irr_p=*/true,
2745 stuff->include_uninstrumented_p);
2747 // We expect expand_region to perform a post-order traversal of the region
2748 // tree. Therefore the last region seen for any bb is the innermost.
2749 FOR_EACH_VEC_ELT (queue, i, bb)
2750 (*bb2reg)[bb->index] = region;
2752 queue.release ();
2753 return NULL;
2756 // Returns a vector, indexed by BB->INDEX, of the innermost tm_region to
2757 // which a basic block belongs. Note that we only consider the instrumented
2758 // code paths for the region; the uninstrumented code paths are ignored if
2759 // INCLUDE_UNINSTRUMENTED_P is false.
2761 // ??? This data is very similar to the bb_regions array that is collected
2762 // during tm_region_init. Or, rather, this data is similar to what could
2763 // be used within tm_region_init. The actual computation in tm_region_init
2764 // begins and ends with bb_regions entirely full of NULL pointers, due to
2765 // the way in which pointers are swapped in and out of the array.
2767 // ??? Our callers expect that blocks are not shared between transactions.
2768 // When the optimizers get too smart, and blocks are shared, then during
2769 // the tm_mark phase we'll add log entries to only one of the two transactions,
2770 // and in the tm_edge phase we'll add edges to the CFG that create invalid
2771 // cycles. The symptom being SSA defs that do not dominate their uses.
2772 // Note that the optimizers were locally correct with their transformation,
2773 // as we have no info within the program that suggests that the blocks cannot
2774 // be shared.
2776 // ??? There is currently a hack inside tree-ssa-pre.c to work around the
2777 // only known instance of this block sharing.
2779 static vec<tm_region *>
2780 get_bb_regions_instrumented (bool traverse_clones,
2781 bool include_uninstrumented_p)
2783 unsigned n = last_basic_block_for_fn (cfun);
2784 struct bb2reg_stuff stuff;
2785 vec<tm_region *> ret;
2787 ret.create (n);
2788 ret.safe_grow_cleared (n);
2789 stuff.bb2reg = &ret;
2790 stuff.include_uninstrumented_p = include_uninstrumented_p;
2791 expand_regions (all_tm_regions, collect_bb2reg, &stuff, traverse_clones);
2793 return ret;
2796 /* Set the IN_TRANSACTION for all gimple statements that appear in a
2797 transaction. */
2799 void
2800 compute_transaction_bits (void)
2802 struct tm_region *region;
2803 vec<basic_block> queue;
2804 unsigned int i;
2805 basic_block bb;
2807 /* ?? Perhaps we need to abstract gate_tm_init further, because we
2808 certainly don't need it to calculate CDI_DOMINATOR info. */
2809 gate_tm_init ();
2811 FOR_EACH_BB_FN (bb, cfun)
2812 bb->flags &= ~BB_IN_TRANSACTION;
2814 for (region = all_tm_regions; region; region = region->next)
2816 queue = get_tm_region_blocks (region->entry_block,
2817 region->exit_blocks,
2818 region->irr_blocks,
2819 NULL,
2820 /*stop_at_irr_p=*/true);
2821 for (i = 0; queue.iterate (i, &bb); ++i)
2822 bb->flags |= BB_IN_TRANSACTION;
2823 queue.release ();
2826 if (all_tm_regions)
2827 bitmap_obstack_release (&tm_obstack);
2830 /* Replace the GIMPLE_TRANSACTION in this region with the corresponding
2831 call to BUILT_IN_TM_START. */
2833 static void *
2834 expand_transaction (struct tm_region *region, void *data ATTRIBUTE_UNUSED)
2836 tree tm_start = builtin_decl_explicit (BUILT_IN_TM_START);
2837 basic_block transaction_bb = gimple_bb (region->transaction_stmt);
2838 tree tm_state = region->tm_state;
2839 tree tm_state_type = TREE_TYPE (tm_state);
2840 edge abort_edge = NULL;
2841 edge inst_edge = NULL;
2842 edge uninst_edge = NULL;
2843 edge fallthru_edge = NULL;
2845 // Identify the various successors of the transaction start.
2847 edge_iterator i;
2848 edge e;
2849 FOR_EACH_EDGE (e, i, transaction_bb->succs)
2851 if (e->flags & EDGE_TM_ABORT)
2852 abort_edge = e;
2853 else if (e->flags & EDGE_TM_UNINSTRUMENTED)
2854 uninst_edge = e;
2855 else
2856 inst_edge = e;
2857 if (e->flags & EDGE_FALLTHRU)
2858 fallthru_edge = e;
2862 /* ??? There are plenty of bits here we're not computing. */
2864 int subcode = gimple_transaction_subcode (region->get_transaction_stmt ());
2865 int flags = 0;
2866 if (subcode & GTMA_DOES_GO_IRREVOCABLE)
2867 flags |= PR_DOESGOIRREVOCABLE;
2868 if ((subcode & GTMA_MAY_ENTER_IRREVOCABLE) == 0)
2869 flags |= PR_HASNOIRREVOCABLE;
2870 /* If the transaction does not have an abort in lexical scope and is not
2871 marked as an outer transaction, then it will never abort. */
2872 if ((subcode & GTMA_HAVE_ABORT) == 0 && (subcode & GTMA_IS_OUTER) == 0)
2873 flags |= PR_HASNOABORT;
2874 if ((subcode & GTMA_HAVE_STORE) == 0)
2875 flags |= PR_READONLY;
2876 if (inst_edge && !(subcode & GTMA_HAS_NO_INSTRUMENTATION))
2877 flags |= PR_INSTRUMENTEDCODE;
2878 if (uninst_edge)
2879 flags |= PR_UNINSTRUMENTEDCODE;
2880 if (subcode & GTMA_IS_OUTER)
2881 region->original_transaction_was_outer = true;
2882 tree t = build_int_cst (tm_state_type, flags);
2883 gcall *call = gimple_build_call (tm_start, 1, t);
2884 gimple_call_set_lhs (call, tm_state);
2885 gimple_set_location (call, gimple_location (region->transaction_stmt));
2887 // Replace the GIMPLE_TRANSACTION with the call to BUILT_IN_TM_START.
2888 gimple_stmt_iterator gsi = gsi_last_bb (transaction_bb);
2889 gcc_assert (gsi_stmt (gsi) == region->transaction_stmt);
2890 gsi_insert_before (&gsi, call, GSI_SAME_STMT);
2891 gsi_remove (&gsi, true);
2892 region->transaction_stmt = call;
2895 // Generate log saves.
2896 if (!tm_log_save_addresses.is_empty ())
2897 tm_log_emit_saves (region->entry_block, transaction_bb);
2899 // In the beginning, we've no tests to perform on transaction restart.
2900 // Note that after this point, transaction_bb becomes the "most recent
2901 // block containing tests for the transaction".
2902 region->restart_block = region->entry_block;
2904 // Generate log restores.
2905 if (!tm_log_save_addresses.is_empty ())
2907 basic_block test_bb = create_empty_bb (transaction_bb);
2908 basic_block code_bb = create_empty_bb (test_bb);
2909 basic_block join_bb = create_empty_bb (code_bb);
2910 add_bb_to_loop (test_bb, transaction_bb->loop_father);
2911 add_bb_to_loop (code_bb, transaction_bb->loop_father);
2912 add_bb_to_loop (join_bb, transaction_bb->loop_father);
2913 if (region->restart_block == region->entry_block)
2914 region->restart_block = test_bb;
2916 tree t1 = create_tmp_reg (tm_state_type);
2917 tree t2 = build_int_cst (tm_state_type, A_RESTORELIVEVARIABLES);
2918 gimple *stmt = gimple_build_assign (t1, BIT_AND_EXPR, tm_state, t2);
2919 gimple_stmt_iterator gsi = gsi_last_bb (test_bb);
2920 gsi_insert_after (&gsi, stmt, GSI_CONTINUE_LINKING);
2922 t2 = build_int_cst (tm_state_type, 0);
2923 stmt = gimple_build_cond (NE_EXPR, t1, t2, NULL, NULL);
2924 gsi_insert_after (&gsi, stmt, GSI_CONTINUE_LINKING);
2926 tm_log_emit_restores (region->entry_block, code_bb);
2928 edge ei = make_edge (transaction_bb, test_bb, EDGE_FALLTHRU);
2929 edge et = make_edge (test_bb, code_bb, EDGE_TRUE_VALUE);
2930 edge ef = make_edge (test_bb, join_bb, EDGE_FALSE_VALUE);
2931 redirect_edge_pred (fallthru_edge, join_bb);
2933 join_bb->frequency = test_bb->frequency = transaction_bb->frequency;
2934 join_bb->count = test_bb->count = transaction_bb->count;
2936 ei->probability = PROB_ALWAYS;
2937 et->probability = PROB_LIKELY;
2938 ef->probability = PROB_UNLIKELY;
2939 et->count = apply_probability (test_bb->count, et->probability);
2940 ef->count = apply_probability (test_bb->count, ef->probability);
2942 code_bb->count = et->count;
2943 code_bb->frequency = EDGE_FREQUENCY (et);
2945 transaction_bb = join_bb;
2948 // If we have an ABORT edge, create a test to perform the abort.
2949 if (abort_edge)
2951 basic_block test_bb = create_empty_bb (transaction_bb);
2952 add_bb_to_loop (test_bb, transaction_bb->loop_father);
2953 if (region->restart_block == region->entry_block)
2954 region->restart_block = test_bb;
2956 tree t1 = create_tmp_reg (tm_state_type);
2957 tree t2 = build_int_cst (tm_state_type, A_ABORTTRANSACTION);
2958 gimple *stmt = gimple_build_assign (t1, BIT_AND_EXPR, tm_state, t2);
2959 gimple_stmt_iterator gsi = gsi_last_bb (test_bb);
2960 gsi_insert_after (&gsi, stmt, GSI_CONTINUE_LINKING);
2962 t2 = build_int_cst (tm_state_type, 0);
2963 stmt = gimple_build_cond (NE_EXPR, t1, t2, NULL, NULL);
2964 gsi_insert_after (&gsi, stmt, GSI_CONTINUE_LINKING);
2966 edge ei = make_edge (transaction_bb, test_bb, EDGE_FALLTHRU);
2967 test_bb->frequency = transaction_bb->frequency;
2968 test_bb->count = transaction_bb->count;
2969 ei->probability = PROB_ALWAYS;
2971 // Not abort edge. If both are live, chose one at random as we'll
2972 // we'll be fixing that up below.
2973 redirect_edge_pred (fallthru_edge, test_bb);
2974 fallthru_edge->flags = EDGE_FALSE_VALUE;
2975 fallthru_edge->probability = PROB_VERY_LIKELY;
2976 fallthru_edge->count
2977 = apply_probability (test_bb->count, fallthru_edge->probability);
2979 // Abort/over edge.
2980 redirect_edge_pred (abort_edge, test_bb);
2981 abort_edge->flags = EDGE_TRUE_VALUE;
2982 abort_edge->probability = PROB_VERY_UNLIKELY;
2983 abort_edge->count
2984 = apply_probability (test_bb->count, abort_edge->probability);
2986 transaction_bb = test_bb;
2989 // If we have both instrumented and uninstrumented code paths, select one.
2990 if (inst_edge && uninst_edge)
2992 basic_block test_bb = create_empty_bb (transaction_bb);
2993 add_bb_to_loop (test_bb, transaction_bb->loop_father);
2994 if (region->restart_block == region->entry_block)
2995 region->restart_block = test_bb;
2997 tree t1 = create_tmp_reg (tm_state_type);
2998 tree t2 = build_int_cst (tm_state_type, A_RUNUNINSTRUMENTEDCODE);
3000 gimple *stmt = gimple_build_assign (t1, BIT_AND_EXPR, tm_state, t2);
3001 gimple_stmt_iterator gsi = gsi_last_bb (test_bb);
3002 gsi_insert_after (&gsi, stmt, GSI_CONTINUE_LINKING);
3004 t2 = build_int_cst (tm_state_type, 0);
3005 stmt = gimple_build_cond (NE_EXPR, t1, t2, NULL, NULL);
3006 gsi_insert_after (&gsi, stmt, GSI_CONTINUE_LINKING);
3008 // Create the edge into test_bb first, as we want to copy values
3009 // out of the fallthru edge.
3010 edge e = make_edge (transaction_bb, test_bb, fallthru_edge->flags);
3011 e->probability = fallthru_edge->probability;
3012 test_bb->count = e->count = fallthru_edge->count;
3013 test_bb->frequency = EDGE_FREQUENCY (e);
3015 // Now update the edges to the inst/uninist implementations.
3016 // For now assume that the paths are equally likely. When using HTM,
3017 // we'll try the uninst path first and fallback to inst path if htm
3018 // buffers are exceeded. Without HTM we start with the inst path and
3019 // use the uninst path when falling back to serial mode.
3020 redirect_edge_pred (inst_edge, test_bb);
3021 inst_edge->flags = EDGE_FALSE_VALUE;
3022 inst_edge->probability = REG_BR_PROB_BASE / 2;
3023 inst_edge->count
3024 = apply_probability (test_bb->count, inst_edge->probability);
3026 redirect_edge_pred (uninst_edge, test_bb);
3027 uninst_edge->flags = EDGE_TRUE_VALUE;
3028 uninst_edge->probability = REG_BR_PROB_BASE / 2;
3029 uninst_edge->count
3030 = apply_probability (test_bb->count, uninst_edge->probability);
3033 // If we have no previous special cases, and we have PHIs at the beginning
3034 // of the atomic region, this means we have a loop at the beginning of the
3035 // atomic region that shares the first block. This can cause problems with
3036 // the transaction restart abnormal edges to be added in the tm_edges pass.
3037 // Solve this by adding a new empty block to receive the abnormal edges.
3038 if (region->restart_block == region->entry_block
3039 && phi_nodes (region->entry_block))
3041 basic_block empty_bb = create_empty_bb (transaction_bb);
3042 region->restart_block = empty_bb;
3043 add_bb_to_loop (empty_bb, transaction_bb->loop_father);
3045 redirect_edge_pred (fallthru_edge, empty_bb);
3046 make_edge (transaction_bb, empty_bb, EDGE_FALLTHRU);
3049 return NULL;
3052 /* Generate the temporary to be used for the return value of
3053 BUILT_IN_TM_START. */
3055 static void *
3056 generate_tm_state (struct tm_region *region, void *data ATTRIBUTE_UNUSED)
3058 tree tm_start = builtin_decl_explicit (BUILT_IN_TM_START);
3059 region->tm_state =
3060 create_tmp_reg (TREE_TYPE (TREE_TYPE (tm_start)), "tm_state");
3062 // Reset the subcode, post optimizations. We'll fill this in
3063 // again as we process blocks.
3064 if (region->exit_blocks)
3066 gtransaction *transaction_stmt = region->get_transaction_stmt ();
3067 unsigned int subcode = gimple_transaction_subcode (transaction_stmt);
3069 if (subcode & GTMA_DOES_GO_IRREVOCABLE)
3070 subcode &= (GTMA_DECLARATION_MASK | GTMA_DOES_GO_IRREVOCABLE
3071 | GTMA_MAY_ENTER_IRREVOCABLE
3072 | GTMA_HAS_NO_INSTRUMENTATION);
3073 else
3074 subcode &= GTMA_DECLARATION_MASK;
3075 gimple_transaction_set_subcode (transaction_stmt, subcode);
3078 return NULL;
3081 // Propagate flags from inner transactions outwards.
3082 static void
3083 propagate_tm_flags_out (struct tm_region *region)
3085 if (region == NULL)
3086 return;
3087 propagate_tm_flags_out (region->inner);
3089 if (region->outer && region->outer->transaction_stmt)
3091 unsigned s
3092 = gimple_transaction_subcode (region->get_transaction_stmt ());
3093 s &= (GTMA_HAVE_ABORT | GTMA_HAVE_LOAD | GTMA_HAVE_STORE
3094 | GTMA_MAY_ENTER_IRREVOCABLE);
3095 s |= gimple_transaction_subcode (region->outer->get_transaction_stmt ());
3096 gimple_transaction_set_subcode (region->outer->get_transaction_stmt (),
3100 propagate_tm_flags_out (region->next);
3103 /* Entry point to the MARK phase of TM expansion. Here we replace
3104 transactional memory statements with calls to builtins, and function
3105 calls with their transactional clones (if available). But we don't
3106 yet lower GIMPLE_TRANSACTION or add the transaction restart back-edges. */
3108 static unsigned int
3109 execute_tm_mark (void)
3111 pending_edge_inserts_p = false;
3113 expand_regions (all_tm_regions, generate_tm_state, NULL,
3114 /*traverse_clones=*/true);
3116 tm_log_init ();
3118 vec<tm_region *> bb_regions
3119 = get_bb_regions_instrumented (/*traverse_clones=*/true,
3120 /*include_uninstrumented_p=*/false);
3121 struct tm_region *r;
3122 unsigned i;
3124 // Expand memory operations into calls into the runtime.
3125 // This collects log entries as well.
3126 FOR_EACH_VEC_ELT (bb_regions, i, r)
3128 if (r != NULL)
3130 if (r->transaction_stmt)
3132 unsigned sub
3133 = gimple_transaction_subcode (r->get_transaction_stmt ());
3135 /* If we're sure to go irrevocable, there won't be
3136 anything to expand, since the run-time will go
3137 irrevocable right away. */
3138 if (sub & GTMA_DOES_GO_IRREVOCABLE
3139 && sub & GTMA_MAY_ENTER_IRREVOCABLE)
3140 continue;
3142 expand_block_tm (r, BASIC_BLOCK_FOR_FN (cfun, i));
3146 bb_regions.release ();
3148 // Propagate flags from inner transactions outwards.
3149 propagate_tm_flags_out (all_tm_regions);
3151 // Expand GIMPLE_TRANSACTIONs into calls into the runtime.
3152 expand_regions (all_tm_regions, expand_transaction, NULL,
3153 /*traverse_clones=*/false);
3155 tm_log_emit ();
3156 tm_log_delete ();
3158 if (pending_edge_inserts_p)
3159 gsi_commit_edge_inserts ();
3160 free_dominance_info (CDI_DOMINATORS);
3161 return 0;
3164 namespace {
3166 const pass_data pass_data_tm_mark =
3168 GIMPLE_PASS, /* type */
3169 "tmmark", /* name */
3170 OPTGROUP_NONE, /* optinfo_flags */
3171 TV_TRANS_MEM, /* tv_id */
3172 ( PROP_ssa | PROP_cfg ), /* properties_required */
3173 0, /* properties_provided */
3174 0, /* properties_destroyed */
3175 0, /* todo_flags_start */
3176 TODO_update_ssa, /* todo_flags_finish */
3179 class pass_tm_mark : public gimple_opt_pass
3181 public:
3182 pass_tm_mark (gcc::context *ctxt)
3183 : gimple_opt_pass (pass_data_tm_mark, ctxt)
3186 /* opt_pass methods: */
3187 virtual unsigned int execute (function *) { return execute_tm_mark (); }
3189 }; // class pass_tm_mark
3191 } // anon namespace
3193 gimple_opt_pass *
3194 make_pass_tm_mark (gcc::context *ctxt)
3196 return new pass_tm_mark (ctxt);
3200 /* Create an abnormal edge from STMT at iter, splitting the block
3201 as necessary. Adjust *PNEXT as needed for the split block. */
3203 static inline void
3204 split_bb_make_tm_edge (gimple *stmt, basic_block dest_bb,
3205 gimple_stmt_iterator iter, gimple_stmt_iterator *pnext)
3207 basic_block bb = gimple_bb (stmt);
3208 if (!gsi_one_before_end_p (iter))
3210 edge e = split_block (bb, stmt);
3211 *pnext = gsi_start_bb (e->dest);
3213 make_edge (bb, dest_bb, EDGE_ABNORMAL);
3215 // Record the need for the edge for the benefit of the rtl passes.
3216 if (cfun->gimple_df->tm_restart == NULL)
3217 cfun->gimple_df->tm_restart
3218 = hash_table<tm_restart_hasher>::create_ggc (31);
3220 struct tm_restart_node dummy;
3221 dummy.stmt = stmt;
3222 dummy.label_or_list = gimple_block_label (dest_bb);
3224 tm_restart_node **slot = cfun->gimple_df->tm_restart->find_slot (&dummy,
3225 INSERT);
3226 struct tm_restart_node *n = *slot;
3227 if (n == NULL)
3229 n = ggc_alloc<tm_restart_node> ();
3230 *n = dummy;
3232 else
3234 tree old = n->label_or_list;
3235 if (TREE_CODE (old) == LABEL_DECL)
3236 old = tree_cons (NULL, old, NULL);
3237 n->label_or_list = tree_cons (NULL, dummy.label_or_list, old);
3241 /* Split block BB as necessary for every builtin function we added, and
3242 wire up the abnormal back edges implied by the transaction restart. */
3244 static void
3245 expand_block_edges (struct tm_region *const region, basic_block bb)
3247 gimple_stmt_iterator gsi, next_gsi;
3249 for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi = next_gsi)
3251 gimple *stmt = gsi_stmt (gsi);
3252 gcall *call_stmt;
3254 next_gsi = gsi;
3255 gsi_next (&next_gsi);
3257 // ??? Shouldn't we split for any non-pure, non-irrevocable function?
3258 call_stmt = dyn_cast <gcall *> (stmt);
3259 if ((!call_stmt)
3260 || (gimple_call_flags (call_stmt) & ECF_TM_BUILTIN) == 0)
3261 continue;
3263 if (DECL_FUNCTION_CODE (gimple_call_fndecl (call_stmt))
3264 == BUILT_IN_TM_ABORT)
3266 // If we have a ``_transaction_cancel [[outer]]'', there is only
3267 // one abnormal edge: to the transaction marked OUTER.
3268 // All compiler-generated instances of BUILT_IN_TM_ABORT have a
3269 // constant argument, which we can examine here. Users invoking
3270 // TM_ABORT directly get what they deserve.
3271 tree arg = gimple_call_arg (call_stmt, 0);
3272 if (TREE_CODE (arg) == INTEGER_CST
3273 && (TREE_INT_CST_LOW (arg) & AR_OUTERABORT) != 0
3274 && !decl_is_tm_clone (current_function_decl))
3276 // Find the GTMA_IS_OUTER transaction.
3277 for (struct tm_region *o = region; o; o = o->outer)
3278 if (o->original_transaction_was_outer)
3280 split_bb_make_tm_edge (call_stmt, o->restart_block,
3281 gsi, &next_gsi);
3282 break;
3285 // Otherwise, the front-end should have semantically checked
3286 // outer aborts, but in either case the target region is not
3287 // within this function.
3288 continue;
3291 // Non-outer, TM aborts have an abnormal edge to the inner-most
3292 // transaction, the one being aborted;
3293 split_bb_make_tm_edge (call_stmt, region->restart_block, gsi,
3294 &next_gsi);
3297 // All TM builtins have an abnormal edge to the outer-most transaction.
3298 // We never restart inner transactions. For tm clones, we know a-priori
3299 // that the outer-most transaction is outside the function.
3300 if (decl_is_tm_clone (current_function_decl))
3301 continue;
3303 if (cfun->gimple_df->tm_restart == NULL)
3304 cfun->gimple_df->tm_restart
3305 = hash_table<tm_restart_hasher>::create_ggc (31);
3307 // All TM builtins have an abnormal edge to the outer-most transaction.
3308 // We never restart inner transactions.
3309 for (struct tm_region *o = region; o; o = o->outer)
3310 if (!o->outer)
3312 split_bb_make_tm_edge (call_stmt, o->restart_block, gsi, &next_gsi);
3313 break;
3316 // Delete any tail-call annotation that may have been added.
3317 // The tail-call pass may have mis-identified the commit as being
3318 // a candidate because we had not yet added this restart edge.
3319 gimple_call_set_tail (call_stmt, false);
3323 /* Entry point to the final expansion of transactional nodes. */
3325 namespace {
3327 const pass_data pass_data_tm_edges =
3329 GIMPLE_PASS, /* type */
3330 "tmedge", /* name */
3331 OPTGROUP_NONE, /* optinfo_flags */
3332 TV_TRANS_MEM, /* tv_id */
3333 ( PROP_ssa | PROP_cfg ), /* properties_required */
3334 0, /* properties_provided */
3335 0, /* properties_destroyed */
3336 0, /* todo_flags_start */
3337 TODO_update_ssa, /* todo_flags_finish */
3340 class pass_tm_edges : public gimple_opt_pass
3342 public:
3343 pass_tm_edges (gcc::context *ctxt)
3344 : gimple_opt_pass (pass_data_tm_edges, ctxt)
3347 /* opt_pass methods: */
3348 virtual unsigned int execute (function *);
3350 }; // class pass_tm_edges
3352 unsigned int
3353 pass_tm_edges::execute (function *fun)
3355 vec<tm_region *> bb_regions
3356 = get_bb_regions_instrumented (/*traverse_clones=*/false,
3357 /*include_uninstrumented_p=*/true);
3358 struct tm_region *r;
3359 unsigned i;
3361 FOR_EACH_VEC_ELT (bb_regions, i, r)
3362 if (r != NULL)
3363 expand_block_edges (r, BASIC_BLOCK_FOR_FN (fun, i));
3365 bb_regions.release ();
3367 /* We've got to release the dominance info now, to indicate that it
3368 must be rebuilt completely. Otherwise we'll crash trying to update
3369 the SSA web in the TODO section following this pass. */
3370 free_dominance_info (CDI_DOMINATORS);
3371 bitmap_obstack_release (&tm_obstack);
3372 all_tm_regions = NULL;
3374 return 0;
3377 } // anon namespace
3379 gimple_opt_pass *
3380 make_pass_tm_edges (gcc::context *ctxt)
3382 return new pass_tm_edges (ctxt);
3385 /* Helper function for expand_regions. Expand REGION and recurse to
3386 the inner region. Call CALLBACK on each region. CALLBACK returns
3387 NULL to continue the traversal, otherwise a non-null value which
3388 this function will return as well. TRAVERSE_CLONES is true if we
3389 should traverse transactional clones. */
3391 static void *
3392 expand_regions_1 (struct tm_region *region,
3393 void *(*callback)(struct tm_region *, void *),
3394 void *data,
3395 bool traverse_clones)
3397 void *retval = NULL;
3398 if (region->exit_blocks
3399 || (traverse_clones && decl_is_tm_clone (current_function_decl)))
3401 retval = callback (region, data);
3402 if (retval)
3403 return retval;
3405 if (region->inner)
3407 retval = expand_regions (region->inner, callback, data, traverse_clones);
3408 if (retval)
3409 return retval;
3411 return retval;
3414 /* Traverse the regions enclosed and including REGION. Execute
3415 CALLBACK for each region, passing DATA. CALLBACK returns NULL to
3416 continue the traversal, otherwise a non-null value which this
3417 function will return as well. TRAVERSE_CLONES is true if we should
3418 traverse transactional clones. */
3420 static void *
3421 expand_regions (struct tm_region *region,
3422 void *(*callback)(struct tm_region *, void *),
3423 void *data,
3424 bool traverse_clones)
3426 void *retval = NULL;
3427 while (region)
3429 retval = expand_regions_1 (region, callback, data, traverse_clones);
3430 if (retval)
3431 return retval;
3432 region = region->next;
3434 return retval;
3438 /* A unique TM memory operation. */
3439 struct tm_memop
3441 /* Unique ID that all memory operations to the same location have. */
3442 unsigned int value_id;
3443 /* Address of load/store. */
3444 tree addr;
3447 /* TM memory operation hashtable helpers. */
3449 struct tm_memop_hasher : free_ptr_hash <tm_memop>
3451 static inline hashval_t hash (const tm_memop *);
3452 static inline bool equal (const tm_memop *, const tm_memop *);
3455 /* Htab support. Return a hash value for a `tm_memop'. */
3456 inline hashval_t
3457 tm_memop_hasher::hash (const tm_memop *mem)
3459 tree addr = mem->addr;
3460 /* We drill down to the SSA_NAME/DECL for the hash, but equality is
3461 actually done with operand_equal_p (see tm_memop_eq). */
3462 if (TREE_CODE (addr) == ADDR_EXPR)
3463 addr = TREE_OPERAND (addr, 0);
3464 return iterative_hash_expr (addr, 0);
3467 /* Htab support. Return true if two tm_memop's are the same. */
3468 inline bool
3469 tm_memop_hasher::equal (const tm_memop *mem1, const tm_memop *mem2)
3471 return operand_equal_p (mem1->addr, mem2->addr, 0);
3474 /* Sets for solving data flow equations in the memory optimization pass. */
3475 struct tm_memopt_bitmaps
3477 /* Stores available to this BB upon entry. Basically, stores that
3478 dominate this BB. */
3479 bitmap store_avail_in;
3480 /* Stores available at the end of this BB. */
3481 bitmap store_avail_out;
3482 bitmap store_antic_in;
3483 bitmap store_antic_out;
3484 /* Reads available to this BB upon entry. Basically, reads that
3485 dominate this BB. */
3486 bitmap read_avail_in;
3487 /* Reads available at the end of this BB. */
3488 bitmap read_avail_out;
3489 /* Reads performed in this BB. */
3490 bitmap read_local;
3491 /* Writes performed in this BB. */
3492 bitmap store_local;
3494 /* Temporary storage for pass. */
3495 /* Is the current BB in the worklist? */
3496 bool avail_in_worklist_p;
3497 /* Have we visited this BB? */
3498 bool visited_p;
3501 static bitmap_obstack tm_memopt_obstack;
3503 /* Unique counter for TM loads and stores. Loads and stores of the
3504 same address get the same ID. */
3505 static unsigned int tm_memopt_value_id;
3506 static hash_table<tm_memop_hasher> *tm_memopt_value_numbers;
3508 #define STORE_AVAIL_IN(BB) \
3509 ((struct tm_memopt_bitmaps *) ((BB)->aux))->store_avail_in
3510 #define STORE_AVAIL_OUT(BB) \
3511 ((struct tm_memopt_bitmaps *) ((BB)->aux))->store_avail_out
3512 #define STORE_ANTIC_IN(BB) \
3513 ((struct tm_memopt_bitmaps *) ((BB)->aux))->store_antic_in
3514 #define STORE_ANTIC_OUT(BB) \
3515 ((struct tm_memopt_bitmaps *) ((BB)->aux))->store_antic_out
3516 #define READ_AVAIL_IN(BB) \
3517 ((struct tm_memopt_bitmaps *) ((BB)->aux))->read_avail_in
3518 #define READ_AVAIL_OUT(BB) \
3519 ((struct tm_memopt_bitmaps *) ((BB)->aux))->read_avail_out
3520 #define READ_LOCAL(BB) \
3521 ((struct tm_memopt_bitmaps *) ((BB)->aux))->read_local
3522 #define STORE_LOCAL(BB) \
3523 ((struct tm_memopt_bitmaps *) ((BB)->aux))->store_local
3524 #define AVAIL_IN_WORKLIST_P(BB) \
3525 ((struct tm_memopt_bitmaps *) ((BB)->aux))->avail_in_worklist_p
3526 #define BB_VISITED_P(BB) \
3527 ((struct tm_memopt_bitmaps *) ((BB)->aux))->visited_p
3529 /* Given a TM load/store in STMT, return the value number for the address
3530 it accesses. */
3532 static unsigned int
3533 tm_memopt_value_number (gimple *stmt, enum insert_option op)
3535 struct tm_memop tmpmem, *mem;
3536 tm_memop **slot;
3538 gcc_assert (is_tm_load (stmt) || is_tm_store (stmt));
3539 tmpmem.addr = gimple_call_arg (stmt, 0);
3540 slot = tm_memopt_value_numbers->find_slot (&tmpmem, op);
3541 if (*slot)
3542 mem = *slot;
3543 else if (op == INSERT)
3545 mem = XNEW (struct tm_memop);
3546 *slot = mem;
3547 mem->value_id = tm_memopt_value_id++;
3548 mem->addr = tmpmem.addr;
3550 else
3551 gcc_unreachable ();
3552 return mem->value_id;
3555 /* Accumulate TM memory operations in BB into STORE_LOCAL and READ_LOCAL. */
3557 static void
3558 tm_memopt_accumulate_memops (basic_block bb)
3560 gimple_stmt_iterator gsi;
3562 for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi))
3564 gimple *stmt = gsi_stmt (gsi);
3565 bitmap bits;
3566 unsigned int loc;
3568 if (is_tm_store (stmt))
3569 bits = STORE_LOCAL (bb);
3570 else if (is_tm_load (stmt))
3571 bits = READ_LOCAL (bb);
3572 else
3573 continue;
3575 loc = tm_memopt_value_number (stmt, INSERT);
3576 bitmap_set_bit (bits, loc);
3577 if (dump_file)
3579 fprintf (dump_file, "TM memopt (%s): value num=%d, BB=%d, addr=",
3580 is_tm_load (stmt) ? "LOAD" : "STORE", loc,
3581 gimple_bb (stmt)->index);
3582 print_generic_expr (dump_file, gimple_call_arg (stmt, 0), 0);
3583 fprintf (dump_file, "\n");
3588 /* Prettily dump one of the memopt sets. BITS is the bitmap to dump. */
3590 static void
3591 dump_tm_memopt_set (const char *set_name, bitmap bits)
3593 unsigned i;
3594 bitmap_iterator bi;
3595 const char *comma = "";
3597 fprintf (dump_file, "TM memopt: %s: [", set_name);
3598 EXECUTE_IF_SET_IN_BITMAP (bits, 0, i, bi)
3600 hash_table<tm_memop_hasher>::iterator hi;
3601 struct tm_memop *mem = NULL;
3603 /* Yeah, yeah, yeah. Whatever. This is just for debugging. */
3604 FOR_EACH_HASH_TABLE_ELEMENT (*tm_memopt_value_numbers, mem, tm_memop_t, hi)
3605 if (mem->value_id == i)
3606 break;
3607 gcc_assert (mem->value_id == i);
3608 fprintf (dump_file, "%s", comma);
3609 comma = ", ";
3610 print_generic_expr (dump_file, mem->addr, 0);
3612 fprintf (dump_file, "]\n");
3615 /* Prettily dump all of the memopt sets in BLOCKS. */
3617 static void
3618 dump_tm_memopt_sets (vec<basic_block> blocks)
3620 size_t i;
3621 basic_block bb;
3623 for (i = 0; blocks.iterate (i, &bb); ++i)
3625 fprintf (dump_file, "------------BB %d---------\n", bb->index);
3626 dump_tm_memopt_set ("STORE_LOCAL", STORE_LOCAL (bb));
3627 dump_tm_memopt_set ("READ_LOCAL", READ_LOCAL (bb));
3628 dump_tm_memopt_set ("STORE_AVAIL_IN", STORE_AVAIL_IN (bb));
3629 dump_tm_memopt_set ("STORE_AVAIL_OUT", STORE_AVAIL_OUT (bb));
3630 dump_tm_memopt_set ("READ_AVAIL_IN", READ_AVAIL_IN (bb));
3631 dump_tm_memopt_set ("READ_AVAIL_OUT", READ_AVAIL_OUT (bb));
3635 /* Compute {STORE,READ}_AVAIL_IN for the basic block BB. */
3637 static void
3638 tm_memopt_compute_avin (basic_block bb)
3640 edge e;
3641 unsigned ix;
3643 /* Seed with the AVOUT of any predecessor. */
3644 for (ix = 0; ix < EDGE_COUNT (bb->preds); ix++)
3646 e = EDGE_PRED (bb, ix);
3647 /* Make sure we have already visited this BB, and is thus
3648 initialized.
3650 If e->src->aux is NULL, this predecessor is actually on an
3651 enclosing transaction. We only care about the current
3652 transaction, so ignore it. */
3653 if (e->src->aux && BB_VISITED_P (e->src))
3655 bitmap_copy (STORE_AVAIL_IN (bb), STORE_AVAIL_OUT (e->src));
3656 bitmap_copy (READ_AVAIL_IN (bb), READ_AVAIL_OUT (e->src));
3657 break;
3661 for (; ix < EDGE_COUNT (bb->preds); ix++)
3663 e = EDGE_PRED (bb, ix);
3664 if (e->src->aux && BB_VISITED_P (e->src))
3666 bitmap_and_into (STORE_AVAIL_IN (bb), STORE_AVAIL_OUT (e->src));
3667 bitmap_and_into (READ_AVAIL_IN (bb), READ_AVAIL_OUT (e->src));
3671 BB_VISITED_P (bb) = true;
3674 /* Compute the STORE_ANTIC_IN for the basic block BB. */
3676 static void
3677 tm_memopt_compute_antin (basic_block bb)
3679 edge e;
3680 unsigned ix;
3682 /* Seed with the ANTIC_OUT of any successor. */
3683 for (ix = 0; ix < EDGE_COUNT (bb->succs); ix++)
3685 e = EDGE_SUCC (bb, ix);
3686 /* Make sure we have already visited this BB, and is thus
3687 initialized. */
3688 if (BB_VISITED_P (e->dest))
3690 bitmap_copy (STORE_ANTIC_IN (bb), STORE_ANTIC_OUT (e->dest));
3691 break;
3695 for (; ix < EDGE_COUNT (bb->succs); ix++)
3697 e = EDGE_SUCC (bb, ix);
3698 if (BB_VISITED_P (e->dest))
3699 bitmap_and_into (STORE_ANTIC_IN (bb), STORE_ANTIC_OUT (e->dest));
3702 BB_VISITED_P (bb) = true;
3705 /* Compute the AVAIL sets for every basic block in BLOCKS.
3707 We compute {STORE,READ}_AVAIL_{OUT,IN} as follows:
3709 AVAIL_OUT[bb] = union (AVAIL_IN[bb], LOCAL[bb])
3710 AVAIL_IN[bb] = intersect (AVAIL_OUT[predecessors])
3712 This is basically what we do in lcm's compute_available(), but here
3713 we calculate two sets of sets (one for STOREs and one for READs),
3714 and we work on a region instead of the entire CFG.
3716 REGION is the TM region.
3717 BLOCKS are the basic blocks in the region. */
3719 static void
3720 tm_memopt_compute_available (struct tm_region *region,
3721 vec<basic_block> blocks)
3723 edge e;
3724 basic_block *worklist, *qin, *qout, *qend, bb;
3725 unsigned int qlen, i;
3726 edge_iterator ei;
3727 bool changed;
3729 /* Allocate a worklist array/queue. Entries are only added to the
3730 list if they were not already on the list. So the size is
3731 bounded by the number of basic blocks in the region. */
3732 qlen = blocks.length () - 1;
3733 qin = qout = worklist =
3734 XNEWVEC (basic_block, qlen);
3736 /* Put every block in the region on the worklist. */
3737 for (i = 0; blocks.iterate (i, &bb); ++i)
3739 /* Seed AVAIL_OUT with the LOCAL set. */
3740 bitmap_ior_into (STORE_AVAIL_OUT (bb), STORE_LOCAL (bb));
3741 bitmap_ior_into (READ_AVAIL_OUT (bb), READ_LOCAL (bb));
3743 AVAIL_IN_WORKLIST_P (bb) = true;
3744 /* No need to insert the entry block, since it has an AVIN of
3745 null, and an AVOUT that has already been seeded in. */
3746 if (bb != region->entry_block)
3747 *qin++ = bb;
3750 /* The entry block has been initialized with the local sets. */
3751 BB_VISITED_P (region->entry_block) = true;
3753 qin = worklist;
3754 qend = &worklist[qlen];
3756 /* Iterate until the worklist is empty. */
3757 while (qlen)
3759 /* Take the first entry off the worklist. */
3760 bb = *qout++;
3761 qlen--;
3763 if (qout >= qend)
3764 qout = worklist;
3766 /* This block can be added to the worklist again if necessary. */
3767 AVAIL_IN_WORKLIST_P (bb) = false;
3768 tm_memopt_compute_avin (bb);
3770 /* Note: We do not add the LOCAL sets here because we already
3771 seeded the AVAIL_OUT sets with them. */
3772 changed = bitmap_ior_into (STORE_AVAIL_OUT (bb), STORE_AVAIL_IN (bb));
3773 changed |= bitmap_ior_into (READ_AVAIL_OUT (bb), READ_AVAIL_IN (bb));
3774 if (changed
3775 && (region->exit_blocks == NULL
3776 || !bitmap_bit_p (region->exit_blocks, bb->index)))
3777 /* If the out state of this block changed, then we need to add
3778 its successors to the worklist if they are not already in. */
3779 FOR_EACH_EDGE (e, ei, bb->succs)
3780 if (!AVAIL_IN_WORKLIST_P (e->dest)
3781 && e->dest != EXIT_BLOCK_PTR_FOR_FN (cfun))
3783 *qin++ = e->dest;
3784 AVAIL_IN_WORKLIST_P (e->dest) = true;
3785 qlen++;
3787 if (qin >= qend)
3788 qin = worklist;
3792 free (worklist);
3794 if (dump_file)
3795 dump_tm_memopt_sets (blocks);
3798 /* Compute ANTIC sets for every basic block in BLOCKS.
3800 We compute STORE_ANTIC_OUT as follows:
3802 STORE_ANTIC_OUT[bb] = union(STORE_ANTIC_IN[bb], STORE_LOCAL[bb])
3803 STORE_ANTIC_IN[bb] = intersect(STORE_ANTIC_OUT[successors])
3805 REGION is the TM region.
3806 BLOCKS are the basic blocks in the region. */
3808 static void
3809 tm_memopt_compute_antic (struct tm_region *region,
3810 vec<basic_block> blocks)
3812 edge e;
3813 basic_block *worklist, *qin, *qout, *qend, bb;
3814 unsigned int qlen;
3815 int i;
3816 edge_iterator ei;
3818 /* Allocate a worklist array/queue. Entries are only added to the
3819 list if they were not already on the list. So the size is
3820 bounded by the number of basic blocks in the region. */
3821 qin = qout = worklist = XNEWVEC (basic_block, blocks.length ());
3823 for (qlen = 0, i = blocks.length () - 1; i >= 0; --i)
3825 bb = blocks[i];
3827 /* Seed ANTIC_OUT with the LOCAL set. */
3828 bitmap_ior_into (STORE_ANTIC_OUT (bb), STORE_LOCAL (bb));
3830 /* Put every block in the region on the worklist. */
3831 AVAIL_IN_WORKLIST_P (bb) = true;
3832 /* No need to insert exit blocks, since their ANTIC_IN is NULL,
3833 and their ANTIC_OUT has already been seeded in. */
3834 if (region->exit_blocks
3835 && !bitmap_bit_p (region->exit_blocks, bb->index))
3837 qlen++;
3838 *qin++ = bb;
3842 /* The exit blocks have been initialized with the local sets. */
3843 if (region->exit_blocks)
3845 unsigned int i;
3846 bitmap_iterator bi;
3847 EXECUTE_IF_SET_IN_BITMAP (region->exit_blocks, 0, i, bi)
3848 BB_VISITED_P (BASIC_BLOCK_FOR_FN (cfun, i)) = true;
3851 qin = worklist;
3852 qend = &worklist[qlen];
3854 /* Iterate until the worklist is empty. */
3855 while (qlen)
3857 /* Take the first entry off the worklist. */
3858 bb = *qout++;
3859 qlen--;
3861 if (qout >= qend)
3862 qout = worklist;
3864 /* This block can be added to the worklist again if necessary. */
3865 AVAIL_IN_WORKLIST_P (bb) = false;
3866 tm_memopt_compute_antin (bb);
3868 /* Note: We do not add the LOCAL sets here because we already
3869 seeded the ANTIC_OUT sets with them. */
3870 if (bitmap_ior_into (STORE_ANTIC_OUT (bb), STORE_ANTIC_IN (bb))
3871 && bb != region->entry_block)
3872 /* If the out state of this block changed, then we need to add
3873 its predecessors to the worklist if they are not already in. */
3874 FOR_EACH_EDGE (e, ei, bb->preds)
3875 if (!AVAIL_IN_WORKLIST_P (e->src))
3877 *qin++ = e->src;
3878 AVAIL_IN_WORKLIST_P (e->src) = true;
3879 qlen++;
3881 if (qin >= qend)
3882 qin = worklist;
3886 free (worklist);
3888 if (dump_file)
3889 dump_tm_memopt_sets (blocks);
3892 /* Offsets of load variants from TM_LOAD. For example,
3893 BUILT_IN_TM_LOAD_RAR* is an offset of 1 from BUILT_IN_TM_LOAD*.
3894 See gtm-builtins.def. */
3895 #define TRANSFORM_RAR 1
3896 #define TRANSFORM_RAW 2
3897 #define TRANSFORM_RFW 3
3898 /* Offsets of store variants from TM_STORE. */
3899 #define TRANSFORM_WAR 1
3900 #define TRANSFORM_WAW 2
3902 /* Inform about a load/store optimization. */
3904 static void
3905 dump_tm_memopt_transform (gimple *stmt)
3907 if (dump_file)
3909 fprintf (dump_file, "TM memopt: transforming: ");
3910 print_gimple_stmt (dump_file, stmt, 0, 0);
3911 fprintf (dump_file, "\n");
3915 /* Perform a read/write optimization. Replaces the TM builtin in STMT
3916 by a builtin that is OFFSET entries down in the builtins table in
3917 gtm-builtins.def. */
3919 static void
3920 tm_memopt_transform_stmt (unsigned int offset,
3921 gcall *stmt,
3922 gimple_stmt_iterator *gsi)
3924 tree fn = gimple_call_fn (stmt);
3925 gcc_assert (TREE_CODE (fn) == ADDR_EXPR);
3926 TREE_OPERAND (fn, 0)
3927 = builtin_decl_explicit ((enum built_in_function)
3928 (DECL_FUNCTION_CODE (TREE_OPERAND (fn, 0))
3929 + offset));
3930 gimple_call_set_fn (stmt, fn);
3931 gsi_replace (gsi, stmt, true);
3932 dump_tm_memopt_transform (stmt);
3935 /* Perform the actual TM memory optimization transformations in the
3936 basic blocks in BLOCKS. */
3938 static void
3939 tm_memopt_transform_blocks (vec<basic_block> blocks)
3941 size_t i;
3942 basic_block bb;
3943 gimple_stmt_iterator gsi;
3945 for (i = 0; blocks.iterate (i, &bb); ++i)
3947 for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi))
3949 gimple *stmt = gsi_stmt (gsi);
3950 bitmap read_avail = READ_AVAIL_IN (bb);
3951 bitmap store_avail = STORE_AVAIL_IN (bb);
3952 bitmap store_antic = STORE_ANTIC_OUT (bb);
3953 unsigned int loc;
3955 if (is_tm_simple_load (stmt))
3957 gcall *call_stmt = as_a <gcall *> (stmt);
3958 loc = tm_memopt_value_number (stmt, NO_INSERT);
3959 if (store_avail && bitmap_bit_p (store_avail, loc))
3960 tm_memopt_transform_stmt (TRANSFORM_RAW, call_stmt, &gsi);
3961 else if (store_antic && bitmap_bit_p (store_antic, loc))
3963 tm_memopt_transform_stmt (TRANSFORM_RFW, call_stmt, &gsi);
3964 bitmap_set_bit (store_avail, loc);
3966 else if (read_avail && bitmap_bit_p (read_avail, loc))
3967 tm_memopt_transform_stmt (TRANSFORM_RAR, call_stmt, &gsi);
3968 else
3969 bitmap_set_bit (read_avail, loc);
3971 else if (is_tm_simple_store (stmt))
3973 gcall *call_stmt = as_a <gcall *> (stmt);
3974 loc = tm_memopt_value_number (stmt, NO_INSERT);
3975 if (store_avail && bitmap_bit_p (store_avail, loc))
3976 tm_memopt_transform_stmt (TRANSFORM_WAW, call_stmt, &gsi);
3977 else
3979 if (read_avail && bitmap_bit_p (read_avail, loc))
3980 tm_memopt_transform_stmt (TRANSFORM_WAR, call_stmt, &gsi);
3981 bitmap_set_bit (store_avail, loc);
3988 /* Return a new set of bitmaps for a BB. */
3990 static struct tm_memopt_bitmaps *
3991 tm_memopt_init_sets (void)
3993 struct tm_memopt_bitmaps *b
3994 = XOBNEW (&tm_memopt_obstack.obstack, struct tm_memopt_bitmaps);
3995 b->store_avail_in = BITMAP_ALLOC (&tm_memopt_obstack);
3996 b->store_avail_out = BITMAP_ALLOC (&tm_memopt_obstack);
3997 b->store_antic_in = BITMAP_ALLOC (&tm_memopt_obstack);
3998 b->store_antic_out = BITMAP_ALLOC (&tm_memopt_obstack);
3999 b->store_avail_out = BITMAP_ALLOC (&tm_memopt_obstack);
4000 b->read_avail_in = BITMAP_ALLOC (&tm_memopt_obstack);
4001 b->read_avail_out = BITMAP_ALLOC (&tm_memopt_obstack);
4002 b->read_local = BITMAP_ALLOC (&tm_memopt_obstack);
4003 b->store_local = BITMAP_ALLOC (&tm_memopt_obstack);
4004 return b;
4007 /* Free sets computed for each BB. */
4009 static void
4010 tm_memopt_free_sets (vec<basic_block> blocks)
4012 size_t i;
4013 basic_block bb;
4015 for (i = 0; blocks.iterate (i, &bb); ++i)
4016 bb->aux = NULL;
4019 /* Clear the visited bit for every basic block in BLOCKS. */
4021 static void
4022 tm_memopt_clear_visited (vec<basic_block> blocks)
4024 size_t i;
4025 basic_block bb;
4027 for (i = 0; blocks.iterate (i, &bb); ++i)
4028 BB_VISITED_P (bb) = false;
4031 /* Replace TM load/stores with hints for the runtime. We handle
4032 things like read-after-write, write-after-read, read-after-read,
4033 read-for-write, etc. */
4035 static unsigned int
4036 execute_tm_memopt (void)
4038 struct tm_region *region;
4039 vec<basic_block> bbs;
4041 tm_memopt_value_id = 0;
4042 tm_memopt_value_numbers = new hash_table<tm_memop_hasher> (10);
4044 for (region = all_tm_regions; region; region = region->next)
4046 /* All the TM stores/loads in the current region. */
4047 size_t i;
4048 basic_block bb;
4050 bitmap_obstack_initialize (&tm_memopt_obstack);
4052 /* Save all BBs for the current region. */
4053 bbs = get_tm_region_blocks (region->entry_block,
4054 region->exit_blocks,
4055 region->irr_blocks,
4056 NULL,
4057 false);
4059 /* Collect all the memory operations. */
4060 for (i = 0; bbs.iterate (i, &bb); ++i)
4062 bb->aux = tm_memopt_init_sets ();
4063 tm_memopt_accumulate_memops (bb);
4066 /* Solve data flow equations and transform each block accordingly. */
4067 tm_memopt_clear_visited (bbs);
4068 tm_memopt_compute_available (region, bbs);
4069 tm_memopt_clear_visited (bbs);
4070 tm_memopt_compute_antic (region, bbs);
4071 tm_memopt_transform_blocks (bbs);
4073 tm_memopt_free_sets (bbs);
4074 bbs.release ();
4075 bitmap_obstack_release (&tm_memopt_obstack);
4076 tm_memopt_value_numbers->empty ();
4079 delete tm_memopt_value_numbers;
4080 tm_memopt_value_numbers = NULL;
4081 return 0;
4084 namespace {
4086 const pass_data pass_data_tm_memopt =
4088 GIMPLE_PASS, /* type */
4089 "tmmemopt", /* name */
4090 OPTGROUP_NONE, /* optinfo_flags */
4091 TV_TRANS_MEM, /* tv_id */
4092 ( PROP_ssa | PROP_cfg ), /* properties_required */
4093 0, /* properties_provided */
4094 0, /* properties_destroyed */
4095 0, /* todo_flags_start */
4096 0, /* todo_flags_finish */
4099 class pass_tm_memopt : public gimple_opt_pass
4101 public:
4102 pass_tm_memopt (gcc::context *ctxt)
4103 : gimple_opt_pass (pass_data_tm_memopt, ctxt)
4106 /* opt_pass methods: */
4107 virtual bool gate (function *) { return flag_tm && optimize > 0; }
4108 virtual unsigned int execute (function *) { return execute_tm_memopt (); }
4110 }; // class pass_tm_memopt
4112 } // anon namespace
4114 gimple_opt_pass *
4115 make_pass_tm_memopt (gcc::context *ctxt)
4117 return new pass_tm_memopt (ctxt);
4121 /* Interprocedual analysis for the creation of transactional clones.
4122 The aim of this pass is to find which functions are referenced in
4123 a non-irrevocable transaction context, and for those over which
4124 we have control (or user directive), create a version of the
4125 function which uses only the transactional interface to reference
4126 protected memories. This analysis proceeds in several steps:
4128 (1) Collect the set of all possible transactional clones:
4130 (a) For all local public functions marked tm_callable, push
4131 it onto the tm_callee queue.
4133 (b) For all local functions, scan for calls in transaction blocks.
4134 Push the caller and callee onto the tm_caller and tm_callee
4135 queues. Count the number of callers for each callee.
4137 (c) For each local function on the callee list, assume we will
4138 create a transactional clone. Push *all* calls onto the
4139 callee queues; count the number of clone callers separately
4140 to the number of original callers.
4142 (2) Propagate irrevocable status up the dominator tree:
4144 (a) Any external function on the callee list that is not marked
4145 tm_callable is irrevocable. Push all callers of such onto
4146 a worklist.
4148 (b) For each function on the worklist, mark each block that
4149 contains an irrevocable call. Use the AND operator to
4150 propagate that mark up the dominator tree.
4152 (c) If we reach the entry block for a possible transactional
4153 clone, then the transactional clone is irrevocable, and
4154 we should not create the clone after all. Push all
4155 callers onto the worklist.
4157 (d) Place tm_irrevocable calls at the beginning of the relevant
4158 blocks. Special case here is the entry block for the entire
4159 transaction region; there we mark it GTMA_DOES_GO_IRREVOCABLE for
4160 the library to begin the region in serial mode. Decrement
4161 the call count for all callees in the irrevocable region.
4163 (3) Create the transactional clones:
4165 Any tm_callee that still has a non-zero call count is cloned.
4168 /* This structure is stored in the AUX field of each cgraph_node. */
4169 struct tm_ipa_cg_data
4171 /* The clone of the function that got created. */
4172 struct cgraph_node *clone;
4174 /* The tm regions in the normal function. */
4175 struct tm_region *all_tm_regions;
4177 /* The blocks of the normal/clone functions that contain irrevocable
4178 calls, or blocks that are post-dominated by irrevocable calls. */
4179 bitmap irrevocable_blocks_normal;
4180 bitmap irrevocable_blocks_clone;
4182 /* The blocks of the normal function that are involved in transactions. */
4183 bitmap transaction_blocks_normal;
4185 /* The number of callers to the transactional clone of this function
4186 from normal and transactional clones respectively. */
4187 unsigned tm_callers_normal;
4188 unsigned tm_callers_clone;
4190 /* True if all calls to this function's transactional clone
4191 are irrevocable. Also automatically true if the function
4192 has no transactional clone. */
4193 bool is_irrevocable;
4195 /* Flags indicating the presence of this function in various queues. */
4196 bool in_callee_queue;
4197 bool in_worklist;
4199 /* Flags indicating the kind of scan desired while in the worklist. */
4200 bool want_irr_scan_normal;
4203 typedef vec<cgraph_node *> cgraph_node_queue;
4205 /* Return the ipa data associated with NODE, allocating zeroed memory
4206 if necessary. TRAVERSE_ALIASES is true if we must traverse aliases
4207 and set *NODE accordingly. */
4209 static struct tm_ipa_cg_data *
4210 get_cg_data (struct cgraph_node **node, bool traverse_aliases)
4212 struct tm_ipa_cg_data *d;
4214 if (traverse_aliases && (*node)->alias)
4215 *node = (*node)->get_alias_target ();
4217 d = (struct tm_ipa_cg_data *) (*node)->aux;
4219 if (d == NULL)
4221 d = (struct tm_ipa_cg_data *)
4222 obstack_alloc (&tm_obstack.obstack, sizeof (*d));
4223 (*node)->aux = (void *) d;
4224 memset (d, 0, sizeof (*d));
4227 return d;
4230 /* Add NODE to the end of QUEUE, unless IN_QUEUE_P indicates that
4231 it is already present. */
4233 static void
4234 maybe_push_queue (struct cgraph_node *node,
4235 cgraph_node_queue *queue_p, bool *in_queue_p)
4237 if (!*in_queue_p)
4239 *in_queue_p = true;
4240 queue_p->safe_push (node);
4244 /* A subroutine of ipa_tm_scan_calls_transaction and ipa_tm_scan_calls_clone.
4245 Queue all callees within block BB. */
4247 static void
4248 ipa_tm_scan_calls_block (cgraph_node_queue *callees_p,
4249 basic_block bb, bool for_clone)
4251 gimple_stmt_iterator gsi;
4253 for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi))
4255 gimple *stmt = gsi_stmt (gsi);
4256 if (is_gimple_call (stmt) && !is_tm_pure_call (stmt))
4258 tree fndecl = gimple_call_fndecl (stmt);
4259 if (fndecl)
4261 struct tm_ipa_cg_data *d;
4262 unsigned *pcallers;
4263 struct cgraph_node *node;
4265 if (is_tm_ending_fndecl (fndecl))
4266 continue;
4267 if (find_tm_replacement_function (fndecl))
4268 continue;
4270 node = cgraph_node::get (fndecl);
4271 gcc_assert (node != NULL);
4272 d = get_cg_data (&node, true);
4274 pcallers = (for_clone ? &d->tm_callers_clone
4275 : &d->tm_callers_normal);
4276 *pcallers += 1;
4278 maybe_push_queue (node, callees_p, &d->in_callee_queue);
4284 /* Scan all calls in NODE that are within a transaction region,
4285 and push the resulting nodes into the callee queue. */
4287 static void
4288 ipa_tm_scan_calls_transaction (struct tm_ipa_cg_data *d,
4289 cgraph_node_queue *callees_p)
4291 d->transaction_blocks_normal = BITMAP_ALLOC (&tm_obstack);
4292 d->all_tm_regions = all_tm_regions;
4294 for (tm_region *r = all_tm_regions; r; r = r->next)
4296 vec<basic_block> bbs;
4297 basic_block bb;
4298 unsigned i;
4300 bbs = get_tm_region_blocks (r->entry_block, r->exit_blocks, NULL,
4301 d->transaction_blocks_normal, false, false);
4303 FOR_EACH_VEC_ELT (bbs, i, bb)
4304 ipa_tm_scan_calls_block (callees_p, bb, false);
4306 bbs.release ();
4310 /* Scan all calls in NODE as if this is the transactional clone,
4311 and push the destinations into the callee queue. */
4313 static void
4314 ipa_tm_scan_calls_clone (struct cgraph_node *node,
4315 cgraph_node_queue *callees_p)
4317 struct function *fn = DECL_STRUCT_FUNCTION (node->decl);
4318 basic_block bb;
4320 FOR_EACH_BB_FN (bb, fn)
4321 ipa_tm_scan_calls_block (callees_p, bb, true);
4324 /* The function NODE has been detected to be irrevocable. Push all
4325 of its callers onto WORKLIST for the purpose of re-scanning them. */
4327 static void
4328 ipa_tm_note_irrevocable (struct cgraph_node *node,
4329 cgraph_node_queue *worklist_p)
4331 struct tm_ipa_cg_data *d = get_cg_data (&node, true);
4332 struct cgraph_edge *e;
4334 d->is_irrevocable = true;
4336 for (e = node->callers; e ; e = e->next_caller)
4338 basic_block bb;
4339 struct cgraph_node *caller;
4341 /* Don't examine recursive calls. */
4342 if (e->caller == node)
4343 continue;
4344 /* Even if we think we can go irrevocable, believe the user
4345 above all. */
4346 if (is_tm_safe_or_pure (e->caller->decl))
4347 continue;
4349 caller = e->caller;
4350 d = get_cg_data (&caller, true);
4352 /* Check if the callee is in a transactional region. If so,
4353 schedule the function for normal re-scan as well. */
4354 bb = gimple_bb (e->call_stmt);
4355 gcc_assert (bb != NULL);
4356 if (d->transaction_blocks_normal
4357 && bitmap_bit_p (d->transaction_blocks_normal, bb->index))
4358 d->want_irr_scan_normal = true;
4360 maybe_push_queue (caller, worklist_p, &d->in_worklist);
4364 /* A subroutine of ipa_tm_scan_irr_blocks; return true iff any statement
4365 within the block is irrevocable. */
4367 static bool
4368 ipa_tm_scan_irr_block (basic_block bb)
4370 gimple_stmt_iterator gsi;
4371 tree fn;
4373 for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi))
4375 gimple *stmt = gsi_stmt (gsi);
4376 switch (gimple_code (stmt))
4378 case GIMPLE_ASSIGN:
4379 if (gimple_assign_single_p (stmt))
4381 tree lhs = gimple_assign_lhs (stmt);
4382 tree rhs = gimple_assign_rhs1 (stmt);
4383 if (volatile_lvalue_p (lhs) || volatile_lvalue_p (rhs))
4384 return true;
4386 break;
4388 case GIMPLE_CALL:
4390 tree lhs = gimple_call_lhs (stmt);
4391 if (lhs && volatile_lvalue_p (lhs))
4392 return true;
4394 if (is_tm_pure_call (stmt))
4395 break;
4397 fn = gimple_call_fn (stmt);
4399 /* Functions with the attribute are by definition irrevocable. */
4400 if (is_tm_irrevocable (fn))
4401 return true;
4403 /* For direct function calls, go ahead and check for replacement
4404 functions, or transitive irrevocable functions. For indirect
4405 functions, we'll ask the runtime. */
4406 if (TREE_CODE (fn) == ADDR_EXPR)
4408 struct tm_ipa_cg_data *d;
4409 struct cgraph_node *node;
4411 fn = TREE_OPERAND (fn, 0);
4412 if (is_tm_ending_fndecl (fn))
4413 break;
4414 if (find_tm_replacement_function (fn))
4415 break;
4417 node = cgraph_node::get (fn);
4418 d = get_cg_data (&node, true);
4420 /* Return true if irrevocable, but above all, believe
4421 the user. */
4422 if (d->is_irrevocable
4423 && !is_tm_safe_or_pure (fn))
4424 return true;
4426 break;
4429 case GIMPLE_ASM:
4430 /* ??? The Approved Method of indicating that an inline
4431 assembly statement is not relevant to the transaction
4432 is to wrap it in a __tm_waiver block. This is not
4433 yet implemented, so we can't check for it. */
4434 if (is_tm_safe (current_function_decl))
4436 tree t = build1 (NOP_EXPR, void_type_node, size_zero_node);
4437 SET_EXPR_LOCATION (t, gimple_location (stmt));
4438 error ("%Kasm not allowed in %<transaction_safe%> function", t);
4440 return true;
4442 default:
4443 break;
4447 return false;
4450 /* For each of the blocks seeded witin PQUEUE, walk the CFG looking
4451 for new irrevocable blocks, marking them in NEW_IRR. Don't bother
4452 scanning past OLD_IRR or EXIT_BLOCKS. */
4454 static bool
4455 ipa_tm_scan_irr_blocks (vec<basic_block> *pqueue, bitmap new_irr,
4456 bitmap old_irr, bitmap exit_blocks)
4458 bool any_new_irr = false;
4459 edge e;
4460 edge_iterator ei;
4461 bitmap visited_blocks = BITMAP_ALLOC (NULL);
4465 basic_block bb = pqueue->pop ();
4467 /* Don't re-scan blocks we know already are irrevocable. */
4468 if (old_irr && bitmap_bit_p (old_irr, bb->index))
4469 continue;
4471 if (ipa_tm_scan_irr_block (bb))
4473 bitmap_set_bit (new_irr, bb->index);
4474 any_new_irr = true;
4476 else if (exit_blocks == NULL || !bitmap_bit_p (exit_blocks, bb->index))
4478 FOR_EACH_EDGE (e, ei, bb->succs)
4479 if (!bitmap_bit_p (visited_blocks, e->dest->index))
4481 bitmap_set_bit (visited_blocks, e->dest->index);
4482 pqueue->safe_push (e->dest);
4486 while (!pqueue->is_empty ());
4488 BITMAP_FREE (visited_blocks);
4490 return any_new_irr;
4493 /* Propagate the irrevocable property both up and down the dominator tree.
4494 BB is the current block being scanned; EXIT_BLOCKS are the edges of the
4495 TM regions; OLD_IRR are the results of a previous scan of the dominator
4496 tree which has been fully propagated; NEW_IRR is the set of new blocks
4497 which are gaining the irrevocable property during the current scan. */
4499 static void
4500 ipa_tm_propagate_irr (basic_block entry_block, bitmap new_irr,
4501 bitmap old_irr, bitmap exit_blocks)
4503 vec<basic_block> bbs;
4504 bitmap all_region_blocks;
4506 /* If this block is in the old set, no need to rescan. */
4507 if (old_irr && bitmap_bit_p (old_irr, entry_block->index))
4508 return;
4510 all_region_blocks = BITMAP_ALLOC (&tm_obstack);
4511 bbs = get_tm_region_blocks (entry_block, exit_blocks, NULL,
4512 all_region_blocks, false);
4515 basic_block bb = bbs.pop ();
4516 bool this_irr = bitmap_bit_p (new_irr, bb->index);
4517 bool all_son_irr = false;
4518 edge_iterator ei;
4519 edge e;
4521 /* Propagate up. If my children are, I am too, but we must have
4522 at least one child that is. */
4523 if (!this_irr)
4525 FOR_EACH_EDGE (e, ei, bb->succs)
4527 if (!bitmap_bit_p (new_irr, e->dest->index))
4529 all_son_irr = false;
4530 break;
4532 else
4533 all_son_irr = true;
4535 if (all_son_irr)
4537 /* Add block to new_irr if it hasn't already been processed. */
4538 if (!old_irr || !bitmap_bit_p (old_irr, bb->index))
4540 bitmap_set_bit (new_irr, bb->index);
4541 this_irr = true;
4546 /* Propagate down to everyone we immediately dominate. */
4547 if (this_irr)
4549 basic_block son;
4550 for (son = first_dom_son (CDI_DOMINATORS, bb);
4551 son;
4552 son = next_dom_son (CDI_DOMINATORS, son))
4554 /* Make sure block is actually in a TM region, and it
4555 isn't already in old_irr. */
4556 if ((!old_irr || !bitmap_bit_p (old_irr, son->index))
4557 && bitmap_bit_p (all_region_blocks, son->index))
4558 bitmap_set_bit (new_irr, son->index);
4562 while (!bbs.is_empty ());
4564 BITMAP_FREE (all_region_blocks);
4565 bbs.release ();
4568 static void
4569 ipa_tm_decrement_clone_counts (basic_block bb, bool for_clone)
4571 gimple_stmt_iterator gsi;
4573 for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi))
4575 gimple *stmt = gsi_stmt (gsi);
4576 if (is_gimple_call (stmt) && !is_tm_pure_call (stmt))
4578 tree fndecl = gimple_call_fndecl (stmt);
4579 if (fndecl)
4581 struct tm_ipa_cg_data *d;
4582 unsigned *pcallers;
4583 struct cgraph_node *tnode;
4585 if (is_tm_ending_fndecl (fndecl))
4586 continue;
4587 if (find_tm_replacement_function (fndecl))
4588 continue;
4590 tnode = cgraph_node::get (fndecl);
4591 d = get_cg_data (&tnode, true);
4593 pcallers = (for_clone ? &d->tm_callers_clone
4594 : &d->tm_callers_normal);
4596 gcc_assert (*pcallers > 0);
4597 *pcallers -= 1;
4603 /* (Re-)Scan the transaction blocks in NODE for calls to irrevocable functions,
4604 as well as other irrevocable actions such as inline assembly. Mark all
4605 such blocks as irrevocable and decrement the number of calls to
4606 transactional clones. Return true if, for the transactional clone, the
4607 entire function is irrevocable. */
4609 static bool
4610 ipa_tm_scan_irr_function (struct cgraph_node *node, bool for_clone)
4612 struct tm_ipa_cg_data *d;
4613 bitmap new_irr, old_irr;
4614 bool ret = false;
4616 /* Builtin operators (operator new, and such). */
4617 if (DECL_STRUCT_FUNCTION (node->decl) == NULL
4618 || DECL_STRUCT_FUNCTION (node->decl)->cfg == NULL)
4619 return false;
4621 push_cfun (DECL_STRUCT_FUNCTION (node->decl));
4622 calculate_dominance_info (CDI_DOMINATORS);
4624 d = get_cg_data (&node, true);
4625 auto_vec<basic_block, 10> queue;
4626 new_irr = BITMAP_ALLOC (&tm_obstack);
4628 /* Scan each tm region, propagating irrevocable status through the tree. */
4629 if (for_clone)
4631 old_irr = d->irrevocable_blocks_clone;
4632 queue.quick_push (single_succ (ENTRY_BLOCK_PTR_FOR_FN (cfun)));
4633 if (ipa_tm_scan_irr_blocks (&queue, new_irr, old_irr, NULL))
4635 ipa_tm_propagate_irr (single_succ (ENTRY_BLOCK_PTR_FOR_FN (cfun)),
4636 new_irr,
4637 old_irr, NULL);
4638 ret = bitmap_bit_p (new_irr,
4639 single_succ (ENTRY_BLOCK_PTR_FOR_FN (cfun))->index);
4642 else
4644 struct tm_region *region;
4646 old_irr = d->irrevocable_blocks_normal;
4647 for (region = d->all_tm_regions; region; region = region->next)
4649 queue.quick_push (region->entry_block);
4650 if (ipa_tm_scan_irr_blocks (&queue, new_irr, old_irr,
4651 region->exit_blocks))
4652 ipa_tm_propagate_irr (region->entry_block, new_irr, old_irr,
4653 region->exit_blocks);
4657 /* If we found any new irrevocable blocks, reduce the call count for
4658 transactional clones within the irrevocable blocks. Save the new
4659 set of irrevocable blocks for next time. */
4660 if (!bitmap_empty_p (new_irr))
4662 bitmap_iterator bmi;
4663 unsigned i;
4665 EXECUTE_IF_SET_IN_BITMAP (new_irr, 0, i, bmi)
4666 ipa_tm_decrement_clone_counts (BASIC_BLOCK_FOR_FN (cfun, i),
4667 for_clone);
4669 if (old_irr)
4671 bitmap_ior_into (old_irr, new_irr);
4672 BITMAP_FREE (new_irr);
4674 else if (for_clone)
4675 d->irrevocable_blocks_clone = new_irr;
4676 else
4677 d->irrevocable_blocks_normal = new_irr;
4679 if (dump_file && new_irr)
4681 const char *dname;
4682 bitmap_iterator bmi;
4683 unsigned i;
4685 dname = lang_hooks.decl_printable_name (current_function_decl, 2);
4686 EXECUTE_IF_SET_IN_BITMAP (new_irr, 0, i, bmi)
4687 fprintf (dump_file, "%s: bb %d goes irrevocable\n", dname, i);
4690 else
4691 BITMAP_FREE (new_irr);
4693 pop_cfun ();
4695 return ret;
4698 /* Return true if, for the transactional clone of NODE, any call
4699 may enter irrevocable mode. */
4701 static bool
4702 ipa_tm_mayenterirr_function (struct cgraph_node *node)
4704 struct tm_ipa_cg_data *d;
4705 tree decl;
4706 unsigned flags;
4708 d = get_cg_data (&node, true);
4709 decl = node->decl;
4710 flags = flags_from_decl_or_type (decl);
4712 /* Handle some TM builtins. Ordinarily these aren't actually generated
4713 at this point, but handling these functions when written in by the
4714 user makes it easier to build unit tests. */
4715 if (flags & ECF_TM_BUILTIN)
4716 return false;
4718 /* Filter out all functions that are marked. */
4719 if (flags & ECF_TM_PURE)
4720 return false;
4721 if (is_tm_safe (decl))
4722 return false;
4723 if (is_tm_irrevocable (decl))
4724 return true;
4725 if (is_tm_callable (decl))
4726 return true;
4727 if (find_tm_replacement_function (decl))
4728 return true;
4730 /* If we aren't seeing the final version of the function we don't
4731 know what it will contain at runtime. */
4732 if (node->get_availability () < AVAIL_AVAILABLE)
4733 return true;
4735 /* If the function must go irrevocable, then of course true. */
4736 if (d->is_irrevocable)
4737 return true;
4739 /* If there are any blocks marked irrevocable, then the function
4740 as a whole may enter irrevocable. */
4741 if (d->irrevocable_blocks_clone)
4742 return true;
4744 /* We may have previously marked this function as tm_may_enter_irr;
4745 see pass_diagnose_tm_blocks. */
4746 if (node->local.tm_may_enter_irr)
4747 return true;
4749 /* Recurse on the main body for aliases. In general, this will
4750 result in one of the bits above being set so that we will not
4751 have to recurse next time. */
4752 if (node->alias)
4753 return ipa_tm_mayenterirr_function (cgraph_node::get (node->thunk.alias));
4755 /* What remains is unmarked local functions without items that force
4756 the function to go irrevocable. */
4757 return false;
4760 /* Diagnose calls from transaction_safe functions to unmarked
4761 functions that are determined to not be safe. */
4763 static void
4764 ipa_tm_diagnose_tm_safe (struct cgraph_node *node)
4766 struct cgraph_edge *e;
4768 for (e = node->callees; e ; e = e->next_callee)
4769 if (!is_tm_callable (e->callee->decl)
4770 && e->callee->local.tm_may_enter_irr)
4771 error_at (gimple_location (e->call_stmt),
4772 "unsafe function call %qD within "
4773 "%<transaction_safe%> function", e->callee->decl);
4776 /* Diagnose call from atomic transactions to unmarked functions
4777 that are determined to not be safe. */
4779 static void
4780 ipa_tm_diagnose_transaction (struct cgraph_node *node,
4781 struct tm_region *all_tm_regions)
4783 struct tm_region *r;
4785 for (r = all_tm_regions; r ; r = r->next)
4786 if (gimple_transaction_subcode (r->get_transaction_stmt ())
4787 & GTMA_IS_RELAXED)
4789 /* Atomic transactions can be nested inside relaxed. */
4790 if (r->inner)
4791 ipa_tm_diagnose_transaction (node, r->inner);
4793 else
4795 vec<basic_block> bbs;
4796 gimple_stmt_iterator gsi;
4797 basic_block bb;
4798 size_t i;
4800 bbs = get_tm_region_blocks (r->entry_block, r->exit_blocks,
4801 r->irr_blocks, NULL, false);
4803 for (i = 0; bbs.iterate (i, &bb); ++i)
4804 for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi))
4806 gimple *stmt = gsi_stmt (gsi);
4807 tree fndecl;
4809 if (gimple_code (stmt) == GIMPLE_ASM)
4811 error_at (gimple_location (stmt),
4812 "asm not allowed in atomic transaction");
4813 continue;
4816 if (!is_gimple_call (stmt))
4817 continue;
4818 fndecl = gimple_call_fndecl (stmt);
4820 /* Indirect function calls have been diagnosed already. */
4821 if (!fndecl)
4822 continue;
4824 /* Stop at the end of the transaction. */
4825 if (is_tm_ending_fndecl (fndecl))
4827 if (bitmap_bit_p (r->exit_blocks, bb->index))
4828 break;
4829 continue;
4832 /* Marked functions have been diagnosed already. */
4833 if (is_tm_pure_call (stmt))
4834 continue;
4835 if (is_tm_callable (fndecl))
4836 continue;
4838 if (cgraph_node::local_info (fndecl)->tm_may_enter_irr)
4839 error_at (gimple_location (stmt),
4840 "unsafe function call %qD within "
4841 "atomic transaction", fndecl);
4844 bbs.release ();
4848 /* Return a transactional mangled name for the DECL_ASSEMBLER_NAME in
4849 OLD_DECL. The returned value is a freshly malloced pointer that
4850 should be freed by the caller. */
4852 static tree
4853 tm_mangle (tree old_asm_id)
4855 const char *old_asm_name;
4856 char *tm_name;
4857 void *alloc = NULL;
4858 struct demangle_component *dc;
4859 tree new_asm_id;
4861 /* Determine if the symbol is already a valid C++ mangled name. Do this
4862 even for C, which might be interfacing with C++ code via appropriately
4863 ugly identifiers. */
4864 /* ??? We could probably do just as well checking for "_Z" and be done. */
4865 old_asm_name = IDENTIFIER_POINTER (old_asm_id);
4866 dc = cplus_demangle_v3_components (old_asm_name, DMGL_NO_OPTS, &alloc);
4868 if (dc == NULL)
4870 char length[8];
4872 do_unencoded:
4873 sprintf (length, "%u", IDENTIFIER_LENGTH (old_asm_id));
4874 tm_name = concat ("_ZGTt", length, old_asm_name, NULL);
4876 else
4878 old_asm_name += 2; /* Skip _Z */
4880 switch (dc->type)
4882 case DEMANGLE_COMPONENT_TRANSACTION_CLONE:
4883 case DEMANGLE_COMPONENT_NONTRANSACTION_CLONE:
4884 /* Don't play silly games, you! */
4885 goto do_unencoded;
4887 case DEMANGLE_COMPONENT_HIDDEN_ALIAS:
4888 /* I'd really like to know if we can ever be passed one of
4889 these from the C++ front end. The Logical Thing would
4890 seem that hidden-alias should be outer-most, so that we
4891 get hidden-alias of a transaction-clone and not vice-versa. */
4892 old_asm_name += 2;
4893 break;
4895 default:
4896 break;
4899 tm_name = concat ("_ZGTt", old_asm_name, NULL);
4901 free (alloc);
4903 new_asm_id = get_identifier (tm_name);
4904 free (tm_name);
4906 return new_asm_id;
4909 static inline void
4910 ipa_tm_mark_force_output_node (struct cgraph_node *node)
4912 node->mark_force_output ();
4913 node->analyzed = true;
4916 static inline void
4917 ipa_tm_mark_forced_by_abi_node (struct cgraph_node *node)
4919 node->forced_by_abi = true;
4920 node->analyzed = true;
4923 /* Callback data for ipa_tm_create_version_alias. */
4924 struct create_version_alias_info
4926 struct cgraph_node *old_node;
4927 tree new_decl;
4930 /* A subroutine of ipa_tm_create_version, called via
4931 cgraph_for_node_and_aliases. Create new tm clones for each of
4932 the existing aliases. */
4933 static bool
4934 ipa_tm_create_version_alias (struct cgraph_node *node, void *data)
4936 struct create_version_alias_info *info
4937 = (struct create_version_alias_info *)data;
4938 tree old_decl, new_decl, tm_name;
4939 struct cgraph_node *new_node;
4941 if (!node->cpp_implicit_alias)
4942 return false;
4944 old_decl = node->decl;
4945 tm_name = tm_mangle (DECL_ASSEMBLER_NAME (old_decl));
4946 new_decl = build_decl (DECL_SOURCE_LOCATION (old_decl),
4947 TREE_CODE (old_decl), tm_name,
4948 TREE_TYPE (old_decl));
4950 SET_DECL_ASSEMBLER_NAME (new_decl, tm_name);
4951 SET_DECL_RTL (new_decl, NULL);
4953 /* Based loosely on C++'s make_alias_for(). */
4954 TREE_PUBLIC (new_decl) = TREE_PUBLIC (old_decl);
4955 DECL_CONTEXT (new_decl) = DECL_CONTEXT (old_decl);
4956 DECL_LANG_SPECIFIC (new_decl) = DECL_LANG_SPECIFIC (old_decl);
4957 TREE_READONLY (new_decl) = TREE_READONLY (old_decl);
4958 DECL_EXTERNAL (new_decl) = 0;
4959 DECL_ARTIFICIAL (new_decl) = 1;
4960 TREE_ADDRESSABLE (new_decl) = 1;
4961 TREE_USED (new_decl) = 1;
4962 TREE_SYMBOL_REFERENCED (tm_name) = 1;
4964 /* Perform the same remapping to the comdat group. */
4965 if (DECL_ONE_ONLY (new_decl))
4966 varpool_node::get (new_decl)->set_comdat_group
4967 (tm_mangle (decl_comdat_group_id (old_decl)));
4969 new_node = cgraph_node::create_same_body_alias (new_decl, info->new_decl);
4970 new_node->tm_clone = true;
4971 new_node->externally_visible = info->old_node->externally_visible;
4972 new_node->no_reorder = info->old_node->no_reorder;
4973 /* ?? Do not traverse aliases here. */
4974 get_cg_data (&node, false)->clone = new_node;
4976 record_tm_clone_pair (old_decl, new_decl);
4978 if (info->old_node->force_output
4979 || info->old_node->ref_list.first_referring ())
4980 ipa_tm_mark_force_output_node (new_node);
4981 if (info->old_node->forced_by_abi)
4982 ipa_tm_mark_forced_by_abi_node (new_node);
4983 return false;
4986 /* Create a copy of the function (possibly declaration only) of OLD_NODE,
4987 appropriate for the transactional clone. */
4989 static void
4990 ipa_tm_create_version (struct cgraph_node *old_node)
4992 tree new_decl, old_decl, tm_name;
4993 struct cgraph_node *new_node;
4995 old_decl = old_node->decl;
4996 new_decl = copy_node (old_decl);
4998 /* DECL_ASSEMBLER_NAME needs to be set before we call
4999 cgraph_copy_node_for_versioning below, because cgraph_node will
5000 fill the assembler_name_hash. */
5001 tm_name = tm_mangle (DECL_ASSEMBLER_NAME (old_decl));
5002 SET_DECL_ASSEMBLER_NAME (new_decl, tm_name);
5003 SET_DECL_RTL (new_decl, NULL);
5004 TREE_SYMBOL_REFERENCED (tm_name) = 1;
5006 /* Perform the same remapping to the comdat group. */
5007 if (DECL_ONE_ONLY (new_decl))
5008 varpool_node::get (new_decl)->set_comdat_group
5009 (tm_mangle (DECL_COMDAT_GROUP (old_decl)));
5011 gcc_assert (!old_node->ipa_transforms_to_apply.exists ());
5012 new_node = old_node->create_version_clone (new_decl, vNULL, NULL);
5013 new_node->local.local = false;
5014 new_node->externally_visible = old_node->externally_visible;
5015 new_node->lowered = true;
5016 new_node->tm_clone = 1;
5017 if (!old_node->implicit_section)
5018 new_node->set_section (old_node->get_section ());
5019 get_cg_data (&old_node, true)->clone = new_node;
5021 if (old_node->get_availability () >= AVAIL_INTERPOSABLE)
5023 /* Remap extern inline to static inline. */
5024 /* ??? Is it worth trying to use make_decl_one_only? */
5025 if (DECL_DECLARED_INLINE_P (new_decl) && DECL_EXTERNAL (new_decl))
5027 DECL_EXTERNAL (new_decl) = 0;
5028 TREE_PUBLIC (new_decl) = 0;
5029 DECL_WEAK (new_decl) = 0;
5032 tree_function_versioning (old_decl, new_decl,
5033 NULL, false, NULL,
5034 false, NULL, NULL);
5037 record_tm_clone_pair (old_decl, new_decl);
5039 symtab->call_cgraph_insertion_hooks (new_node);
5040 if (old_node->force_output
5041 || old_node->ref_list.first_referring ())
5042 ipa_tm_mark_force_output_node (new_node);
5043 if (old_node->forced_by_abi)
5044 ipa_tm_mark_forced_by_abi_node (new_node);
5046 /* Do the same thing, but for any aliases of the original node. */
5048 struct create_version_alias_info data;
5049 data.old_node = old_node;
5050 data.new_decl = new_decl;
5051 old_node->call_for_symbol_thunks_and_aliases (ipa_tm_create_version_alias,
5052 &data, true);
5056 /* Construct a call to TM_IRREVOCABLE and insert it at the beginning of BB. */
5058 static void
5059 ipa_tm_insert_irr_call (struct cgraph_node *node, struct tm_region *region,
5060 basic_block bb)
5062 gimple_stmt_iterator gsi;
5063 gcall *g;
5065 transaction_subcode_ior (region, GTMA_MAY_ENTER_IRREVOCABLE);
5067 g = gimple_build_call (builtin_decl_explicit (BUILT_IN_TM_IRREVOCABLE),
5068 1, build_int_cst (NULL_TREE, MODE_SERIALIRREVOCABLE));
5070 split_block_after_labels (bb);
5071 gsi = gsi_after_labels (bb);
5072 gsi_insert_before (&gsi, g, GSI_SAME_STMT);
5074 node->create_edge (cgraph_node::get_create
5075 (builtin_decl_explicit (BUILT_IN_TM_IRREVOCABLE)),
5076 g, 0,
5077 compute_call_stmt_bb_frequency (node->decl,
5078 gimple_bb (g)));
5081 /* Construct a call to TM_GETTMCLONE and insert it before GSI. */
5083 static bool
5084 ipa_tm_insert_gettmclone_call (struct cgraph_node *node,
5085 struct tm_region *region,
5086 gimple_stmt_iterator *gsi, gcall *stmt)
5088 tree gettm_fn, ret, old_fn, callfn;
5089 gcall *g;
5090 gassign *g2;
5091 bool safe;
5093 old_fn = gimple_call_fn (stmt);
5095 if (TREE_CODE (old_fn) == ADDR_EXPR)
5097 tree fndecl = TREE_OPERAND (old_fn, 0);
5098 tree clone = get_tm_clone_pair (fndecl);
5100 /* By transforming the call into a TM_GETTMCLONE, we are
5101 technically taking the address of the original function and
5102 its clone. Explain this so inlining will know this function
5103 is needed. */
5104 cgraph_node::get (fndecl)->mark_address_taken () ;
5105 if (clone)
5106 cgraph_node::get (clone)->mark_address_taken ();
5109 safe = is_tm_safe (TREE_TYPE (old_fn));
5110 gettm_fn = builtin_decl_explicit (safe ? BUILT_IN_TM_GETTMCLONE_SAFE
5111 : BUILT_IN_TM_GETTMCLONE_IRR);
5112 ret = create_tmp_var (ptr_type_node);
5114 if (!safe)
5115 transaction_subcode_ior (region, GTMA_MAY_ENTER_IRREVOCABLE);
5117 /* Discard OBJ_TYPE_REF, since we weren't able to fold it. */
5118 if (TREE_CODE (old_fn) == OBJ_TYPE_REF)
5119 old_fn = OBJ_TYPE_REF_EXPR (old_fn);
5121 g = gimple_build_call (gettm_fn, 1, old_fn);
5122 ret = make_ssa_name (ret, g);
5123 gimple_call_set_lhs (g, ret);
5125 gsi_insert_before (gsi, g, GSI_SAME_STMT);
5127 node->create_edge (cgraph_node::get_create (gettm_fn), g, 0,
5128 compute_call_stmt_bb_frequency (node->decl,
5129 gimple_bb (g)));
5131 /* Cast return value from tm_gettmclone* into appropriate function
5132 pointer. */
5133 callfn = create_tmp_var (TREE_TYPE (old_fn));
5134 g2 = gimple_build_assign (callfn,
5135 fold_build1 (NOP_EXPR, TREE_TYPE (callfn), ret));
5136 callfn = make_ssa_name (callfn, g2);
5137 gimple_assign_set_lhs (g2, callfn);
5138 gsi_insert_before (gsi, g2, GSI_SAME_STMT);
5140 /* ??? This is a hack to preserve the NOTHROW bit on the call,
5141 which we would have derived from the decl. Failure to save
5142 this bit means we might have to split the basic block. */
5143 if (gimple_call_nothrow_p (stmt))
5144 gimple_call_set_nothrow (stmt, true);
5146 gimple_call_set_fn (stmt, callfn);
5148 /* Discarding OBJ_TYPE_REF above may produce incompatible LHS and RHS
5149 for a call statement. Fix it. */
5151 tree lhs = gimple_call_lhs (stmt);
5152 tree rettype = TREE_TYPE (gimple_call_fntype (stmt));
5153 if (lhs
5154 && !useless_type_conversion_p (TREE_TYPE (lhs), rettype))
5156 tree temp;
5158 temp = create_tmp_reg (rettype);
5159 gimple_call_set_lhs (stmt, temp);
5161 g2 = gimple_build_assign (lhs,
5162 fold_build1 (VIEW_CONVERT_EXPR,
5163 TREE_TYPE (lhs), temp));
5164 gsi_insert_after (gsi, g2, GSI_SAME_STMT);
5168 update_stmt (stmt);
5169 cgraph_edge *e = cgraph_node::get (current_function_decl)->get_edge (stmt);
5170 if (e && e->indirect_info)
5171 e->indirect_info->polymorphic = false;
5173 return true;
5176 /* Helper function for ipa_tm_transform_calls*. Given a call
5177 statement in GSI which resides inside transaction REGION, redirect
5178 the call to either its wrapper function, or its clone. */
5180 static void
5181 ipa_tm_transform_calls_redirect (struct cgraph_node *node,
5182 struct tm_region *region,
5183 gimple_stmt_iterator *gsi,
5184 bool *need_ssa_rename_p)
5186 gcall *stmt = as_a <gcall *> (gsi_stmt (*gsi));
5187 struct cgraph_node *new_node;
5188 struct cgraph_edge *e = node->get_edge (stmt);
5189 tree fndecl = gimple_call_fndecl (stmt);
5191 /* For indirect calls, pass the address through the runtime. */
5192 if (fndecl == NULL)
5194 *need_ssa_rename_p |=
5195 ipa_tm_insert_gettmclone_call (node, region, gsi, stmt);
5196 return;
5199 /* Handle some TM builtins. Ordinarily these aren't actually generated
5200 at this point, but handling these functions when written in by the
5201 user makes it easier to build unit tests. */
5202 if (flags_from_decl_or_type (fndecl) & ECF_TM_BUILTIN)
5203 return;
5205 /* Fixup recursive calls inside clones. */
5206 /* ??? Why did cgraph_copy_node_for_versioning update the call edges
5207 for recursion but not update the call statements themselves? */
5208 if (e->caller == e->callee && decl_is_tm_clone (current_function_decl))
5210 gimple_call_set_fndecl (stmt, current_function_decl);
5211 return;
5214 /* If there is a replacement, use it. */
5215 fndecl = find_tm_replacement_function (fndecl);
5216 if (fndecl)
5218 new_node = cgraph_node::get_create (fndecl);
5220 /* ??? Mark all transaction_wrap functions tm_may_enter_irr.
5222 We can't do this earlier in record_tm_replacement because
5223 cgraph_remove_unreachable_nodes is called before we inject
5224 references to the node. Further, we can't do this in some
5225 nice central place in ipa_tm_execute because we don't have
5226 the exact list of wrapper functions that would be used.
5227 Marking more wrappers than necessary results in the creation
5228 of unnecessary cgraph_nodes, which can cause some of the
5229 other IPA passes to crash.
5231 We do need to mark these nodes so that we get the proper
5232 result in expand_call_tm. */
5233 /* ??? This seems broken. How is it that we're marking the
5234 CALLEE as may_enter_irr? Surely we should be marking the
5235 CALLER. Also note that find_tm_replacement_function also
5236 contains mappings into the TM runtime, e.g. memcpy. These
5237 we know won't go irrevocable. */
5238 new_node->local.tm_may_enter_irr = 1;
5240 else
5242 struct tm_ipa_cg_data *d;
5243 struct cgraph_node *tnode = e->callee;
5245 d = get_cg_data (&tnode, true);
5246 new_node = d->clone;
5248 /* As we've already skipped pure calls and appropriate builtins,
5249 and we've already marked irrevocable blocks, if we can't come
5250 up with a static replacement, then ask the runtime. */
5251 if (new_node == NULL)
5253 *need_ssa_rename_p |=
5254 ipa_tm_insert_gettmclone_call (node, region, gsi, stmt);
5255 return;
5258 fndecl = new_node->decl;
5261 e->redirect_callee (new_node);
5262 gimple_call_set_fndecl (stmt, fndecl);
5265 /* Helper function for ipa_tm_transform_calls. For a given BB,
5266 install calls to tm_irrevocable when IRR_BLOCKS are reached,
5267 redirect other calls to the generated transactional clone. */
5269 static bool
5270 ipa_tm_transform_calls_1 (struct cgraph_node *node, struct tm_region *region,
5271 basic_block bb, bitmap irr_blocks)
5273 gimple_stmt_iterator gsi;
5274 bool need_ssa_rename = false;
5276 if (irr_blocks && bitmap_bit_p (irr_blocks, bb->index))
5278 ipa_tm_insert_irr_call (node, region, bb);
5279 return true;
5282 for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi))
5284 gimple *stmt = gsi_stmt (gsi);
5286 if (!is_gimple_call (stmt))
5287 continue;
5288 if (is_tm_pure_call (stmt))
5289 continue;
5291 /* Redirect edges to the appropriate replacement or clone. */
5292 ipa_tm_transform_calls_redirect (node, region, &gsi, &need_ssa_rename);
5295 return need_ssa_rename;
5298 /* Walk the CFG for REGION, beginning at BB. Install calls to
5299 tm_irrevocable when IRR_BLOCKS are reached, redirect other calls to
5300 the generated transactional clone. */
5302 static bool
5303 ipa_tm_transform_calls (struct cgraph_node *node, struct tm_region *region,
5304 basic_block bb, bitmap irr_blocks)
5306 bool need_ssa_rename = false;
5307 edge e;
5308 edge_iterator ei;
5309 auto_vec<basic_block> queue;
5310 bitmap visited_blocks = BITMAP_ALLOC (NULL);
5312 queue.safe_push (bb);
5315 bb = queue.pop ();
5317 need_ssa_rename |=
5318 ipa_tm_transform_calls_1 (node, region, bb, irr_blocks);
5320 if (irr_blocks && bitmap_bit_p (irr_blocks, bb->index))
5321 continue;
5323 if (region && bitmap_bit_p (region->exit_blocks, bb->index))
5324 continue;
5326 FOR_EACH_EDGE (e, ei, bb->succs)
5327 if (!bitmap_bit_p (visited_blocks, e->dest->index))
5329 bitmap_set_bit (visited_blocks, e->dest->index);
5330 queue.safe_push (e->dest);
5333 while (!queue.is_empty ());
5335 BITMAP_FREE (visited_blocks);
5337 return need_ssa_rename;
5340 /* Transform the calls within the TM regions within NODE. */
5342 static void
5343 ipa_tm_transform_transaction (struct cgraph_node *node)
5345 struct tm_ipa_cg_data *d;
5346 struct tm_region *region;
5347 bool need_ssa_rename = false;
5349 d = get_cg_data (&node, true);
5351 push_cfun (DECL_STRUCT_FUNCTION (node->decl));
5352 calculate_dominance_info (CDI_DOMINATORS);
5354 for (region = d->all_tm_regions; region; region = region->next)
5356 /* If we're sure to go irrevocable, don't transform anything. */
5357 if (d->irrevocable_blocks_normal
5358 && bitmap_bit_p (d->irrevocable_blocks_normal,
5359 region->entry_block->index))
5361 transaction_subcode_ior (region, GTMA_DOES_GO_IRREVOCABLE
5362 | GTMA_MAY_ENTER_IRREVOCABLE
5363 | GTMA_HAS_NO_INSTRUMENTATION);
5364 continue;
5367 need_ssa_rename |=
5368 ipa_tm_transform_calls (node, region, region->entry_block,
5369 d->irrevocable_blocks_normal);
5372 if (need_ssa_rename)
5373 update_ssa (TODO_update_ssa_only_virtuals);
5375 pop_cfun ();
5378 /* Transform the calls within the transactional clone of NODE. */
5380 static void
5381 ipa_tm_transform_clone (struct cgraph_node *node)
5383 struct tm_ipa_cg_data *d;
5384 bool need_ssa_rename;
5386 d = get_cg_data (&node, true);
5388 /* If this function makes no calls and has no irrevocable blocks,
5389 then there's nothing to do. */
5390 /* ??? Remove non-aborting top-level transactions. */
5391 if (!node->callees && !node->indirect_calls && !d->irrevocable_blocks_clone)
5392 return;
5394 push_cfun (DECL_STRUCT_FUNCTION (d->clone->decl));
5395 calculate_dominance_info (CDI_DOMINATORS);
5397 need_ssa_rename =
5398 ipa_tm_transform_calls (d->clone, NULL,
5399 single_succ (ENTRY_BLOCK_PTR_FOR_FN (cfun)),
5400 d->irrevocable_blocks_clone);
5402 if (need_ssa_rename)
5403 update_ssa (TODO_update_ssa_only_virtuals);
5405 pop_cfun ();
5408 /* Main entry point for the transactional memory IPA pass. */
5410 static unsigned int
5411 ipa_tm_execute (void)
5413 cgraph_node_queue tm_callees = cgraph_node_queue ();
5414 /* List of functions that will go irrevocable. */
5415 cgraph_node_queue irr_worklist = cgraph_node_queue ();
5417 struct cgraph_node *node;
5418 struct tm_ipa_cg_data *d;
5419 enum availability a;
5420 unsigned int i;
5422 cgraph_node::checking_verify_cgraph_nodes ();
5424 bitmap_obstack_initialize (&tm_obstack);
5425 initialize_original_copy_tables ();
5427 /* For all local functions marked tm_callable, queue them. */
5428 FOR_EACH_DEFINED_FUNCTION (node)
5429 if (is_tm_callable (node->decl)
5430 && node->get_availability () >= AVAIL_INTERPOSABLE)
5432 d = get_cg_data (&node, true);
5433 maybe_push_queue (node, &tm_callees, &d->in_callee_queue);
5436 /* For all local reachable functions... */
5437 FOR_EACH_DEFINED_FUNCTION (node)
5438 if (node->lowered
5439 && node->get_availability () >= AVAIL_INTERPOSABLE)
5441 /* ... marked tm_pure, record that fact for the runtime by
5442 indicating that the pure function is its own tm_callable.
5443 No need to do this if the function's address can't be taken. */
5444 if (is_tm_pure (node->decl))
5446 if (!node->local.local)
5447 record_tm_clone_pair (node->decl, node->decl);
5448 continue;
5451 push_cfun (DECL_STRUCT_FUNCTION (node->decl));
5452 calculate_dominance_info (CDI_DOMINATORS);
5454 tm_region_init (NULL);
5455 if (all_tm_regions)
5457 d = get_cg_data (&node, true);
5459 /* Scan for calls that are in each transaction, and
5460 generate the uninstrumented code path. */
5461 ipa_tm_scan_calls_transaction (d, &tm_callees);
5463 /* Put it in the worklist so we can scan the function
5464 later (ipa_tm_scan_irr_function) and mark the
5465 irrevocable blocks. */
5466 maybe_push_queue (node, &irr_worklist, &d->in_worklist);
5467 d->want_irr_scan_normal = true;
5470 pop_cfun ();
5473 /* For every local function on the callee list, scan as if we will be
5474 creating a transactional clone, queueing all new functions we find
5475 along the way. */
5476 for (i = 0; i < tm_callees.length (); ++i)
5478 node = tm_callees[i];
5479 a = node->get_availability ();
5480 d = get_cg_data (&node, true);
5482 /* Put it in the worklist so we can scan the function later
5483 (ipa_tm_scan_irr_function) and mark the irrevocable
5484 blocks. */
5485 maybe_push_queue (node, &irr_worklist, &d->in_worklist);
5487 /* Some callees cannot be arbitrarily cloned. These will always be
5488 irrevocable. Mark these now, so that we need not scan them. */
5489 if (is_tm_irrevocable (node->decl))
5490 ipa_tm_note_irrevocable (node, &irr_worklist);
5491 else if (a <= AVAIL_NOT_AVAILABLE
5492 && !is_tm_safe_or_pure (node->decl))
5493 ipa_tm_note_irrevocable (node, &irr_worklist);
5494 else if (a >= AVAIL_INTERPOSABLE)
5496 if (!tree_versionable_function_p (node->decl))
5497 ipa_tm_note_irrevocable (node, &irr_worklist);
5498 else if (!d->is_irrevocable)
5500 /* If this is an alias, make sure its base is queued as well.
5501 we need not scan the callees now, as the base will do. */
5502 if (node->alias)
5504 node = cgraph_node::get (node->thunk.alias);
5505 d = get_cg_data (&node, true);
5506 maybe_push_queue (node, &tm_callees, &d->in_callee_queue);
5507 continue;
5510 /* Add all nodes called by this function into
5511 tm_callees as well. */
5512 ipa_tm_scan_calls_clone (node, &tm_callees);
5517 /* Iterate scans until no more work to be done. Prefer not to use
5518 vec::pop because the worklist tends to follow a breadth-first
5519 search of the callgraph, which should allow convergance with a
5520 minimum number of scans. But we also don't want the worklist
5521 array to grow without bound, so we shift the array up periodically. */
5522 for (i = 0; i < irr_worklist.length (); ++i)
5524 if (i > 256 && i == irr_worklist.length () / 8)
5526 irr_worklist.block_remove (0, i);
5527 i = 0;
5530 node = irr_worklist[i];
5531 d = get_cg_data (&node, true);
5532 d->in_worklist = false;
5534 if (d->want_irr_scan_normal)
5536 d->want_irr_scan_normal = false;
5537 ipa_tm_scan_irr_function (node, false);
5539 if (d->in_callee_queue && ipa_tm_scan_irr_function (node, true))
5540 ipa_tm_note_irrevocable (node, &irr_worklist);
5543 /* For every function on the callee list, collect the tm_may_enter_irr
5544 bit on the node. */
5545 irr_worklist.truncate (0);
5546 for (i = 0; i < tm_callees.length (); ++i)
5548 node = tm_callees[i];
5549 if (ipa_tm_mayenterirr_function (node))
5551 d = get_cg_data (&node, true);
5552 gcc_assert (d->in_worklist == false);
5553 maybe_push_queue (node, &irr_worklist, &d->in_worklist);
5557 /* Propagate the tm_may_enter_irr bit to callers until stable. */
5558 for (i = 0; i < irr_worklist.length (); ++i)
5560 struct cgraph_node *caller;
5561 struct cgraph_edge *e;
5562 struct ipa_ref *ref;
5564 if (i > 256 && i == irr_worklist.length () / 8)
5566 irr_worklist.block_remove (0, i);
5567 i = 0;
5570 node = irr_worklist[i];
5571 d = get_cg_data (&node, true);
5572 d->in_worklist = false;
5573 node->local.tm_may_enter_irr = true;
5575 /* Propagate back to normal callers. */
5576 for (e = node->callers; e ; e = e->next_caller)
5578 caller = e->caller;
5579 if (!is_tm_safe_or_pure (caller->decl)
5580 && !caller->local.tm_may_enter_irr)
5582 d = get_cg_data (&caller, true);
5583 maybe_push_queue (caller, &irr_worklist, &d->in_worklist);
5587 /* Propagate back to referring aliases as well. */
5588 FOR_EACH_ALIAS (node, ref)
5590 caller = dyn_cast<cgraph_node *> (ref->referring);
5591 if (!caller->local.tm_may_enter_irr)
5593 /* ?? Do not traverse aliases here. */
5594 d = get_cg_data (&caller, false);
5595 maybe_push_queue (caller, &irr_worklist, &d->in_worklist);
5600 /* Now validate all tm_safe functions, and all atomic regions in
5601 other functions. */
5602 FOR_EACH_DEFINED_FUNCTION (node)
5603 if (node->lowered
5604 && node->get_availability () >= AVAIL_INTERPOSABLE)
5606 d = get_cg_data (&node, true);
5607 if (is_tm_safe (node->decl))
5608 ipa_tm_diagnose_tm_safe (node);
5609 else if (d->all_tm_regions)
5610 ipa_tm_diagnose_transaction (node, d->all_tm_regions);
5613 /* Create clones. Do those that are not irrevocable and have a
5614 positive call count. Do those publicly visible functions that
5615 the user directed us to clone. */
5616 for (i = 0; i < tm_callees.length (); ++i)
5618 bool doit = false;
5620 node = tm_callees[i];
5621 if (node->cpp_implicit_alias)
5622 continue;
5624 a = node->get_availability ();
5625 d = get_cg_data (&node, true);
5627 if (a <= AVAIL_NOT_AVAILABLE)
5628 doit = is_tm_callable (node->decl);
5629 else if (a <= AVAIL_AVAILABLE && is_tm_callable (node->decl))
5630 doit = true;
5631 else if (!d->is_irrevocable
5632 && d->tm_callers_normal + d->tm_callers_clone > 0)
5633 doit = true;
5635 if (doit)
5636 ipa_tm_create_version (node);
5639 /* Redirect calls to the new clones, and insert irrevocable marks. */
5640 for (i = 0; i < tm_callees.length (); ++i)
5642 node = tm_callees[i];
5643 if (node->analyzed)
5645 d = get_cg_data (&node, true);
5646 if (d->clone)
5647 ipa_tm_transform_clone (node);
5650 FOR_EACH_DEFINED_FUNCTION (node)
5651 if (node->lowered
5652 && node->get_availability () >= AVAIL_INTERPOSABLE)
5654 d = get_cg_data (&node, true);
5655 if (d->all_tm_regions)
5656 ipa_tm_transform_transaction (node);
5659 /* Free and clear all data structures. */
5660 tm_callees.release ();
5661 irr_worklist.release ();
5662 bitmap_obstack_release (&tm_obstack);
5663 free_original_copy_tables ();
5665 FOR_EACH_FUNCTION (node)
5666 node->aux = NULL;
5668 cgraph_node::checking_verify_cgraph_nodes ();
5670 return 0;
5673 namespace {
5675 const pass_data pass_data_ipa_tm =
5677 SIMPLE_IPA_PASS, /* type */
5678 "tmipa", /* name */
5679 OPTGROUP_NONE, /* optinfo_flags */
5680 TV_TRANS_MEM, /* tv_id */
5681 ( PROP_ssa | PROP_cfg ), /* properties_required */
5682 0, /* properties_provided */
5683 0, /* properties_destroyed */
5684 0, /* todo_flags_start */
5685 0, /* todo_flags_finish */
5688 class pass_ipa_tm : public simple_ipa_opt_pass
5690 public:
5691 pass_ipa_tm (gcc::context *ctxt)
5692 : simple_ipa_opt_pass (pass_data_ipa_tm, ctxt)
5695 /* opt_pass methods: */
5696 virtual bool gate (function *) { return flag_tm; }
5697 virtual unsigned int execute (function *) { return ipa_tm_execute (); }
5699 }; // class pass_ipa_tm
5701 } // anon namespace
5703 simple_ipa_opt_pass *
5704 make_pass_ipa_tm (gcc::context *ctxt)
5706 return new pass_ipa_tm (ctxt);
5709 #include "gt-trans-mem.h"