gcc/ada/
[official-gcc.git] / gcc / loop-invariant.c
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1 /* RTL-level loop invariant motion.
2 Copyright (C) 2004-2015 Free Software Foundation, Inc.
4 This file is part of GCC.
6 GCC is free software; you can redistribute it and/or modify it
7 under the terms of the GNU General Public License as published by the
8 Free Software Foundation; either version 3, or (at your option) any
9 later version.
11 GCC is distributed in the hope that it will be useful, but WITHOUT
12 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
13 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
14 for more details.
16 You should have received a copy of the GNU General Public License
17 along with GCC; see the file COPYING3. If not see
18 <http://www.gnu.org/licenses/>. */
20 /* This implements the loop invariant motion pass. It is very simple
21 (no calls, no loads/stores, etc.). This should be sufficient to cleanup
22 things like address arithmetics -- other more complicated invariants should
23 be eliminated on GIMPLE either in tree-ssa-loop-im.c or in tree-ssa-pre.c.
25 We proceed loop by loop -- it is simpler than trying to handle things
26 globally and should not lose much. First we inspect all sets inside loop
27 and create a dependency graph on insns (saying "to move this insn, you must
28 also move the following insns").
30 We then need to determine what to move. We estimate the number of registers
31 used and move as many invariants as possible while we still have enough free
32 registers. We prefer the expensive invariants.
34 Then we move the selected invariants out of the loop, creating a new
35 temporaries for them if necessary. */
37 #include "config.h"
38 #include "system.h"
39 #include "coretypes.h"
40 #include "tm.h"
41 #include "hard-reg-set.h"
42 #include "rtl.h"
43 #include "tm_p.h"
44 #include "obstack.h"
45 #include "predict.h"
46 #include "function.h"
47 #include "dominance.h"
48 #include "cfg.h"
49 #include "cfgrtl.h"
50 #include "basic-block.h"
51 #include "cfgloop.h"
52 #include "symtab.h"
53 #include "flags.h"
54 #include "alias.h"
55 #include "tree.h"
56 #include "insn-config.h"
57 #include "expmed.h"
58 #include "dojump.h"
59 #include "explow.h"
60 #include "calls.h"
61 #include "emit-rtl.h"
62 #include "varasm.h"
63 #include "stmt.h"
64 #include "expr.h"
65 #include "recog.h"
66 #include "target.h"
67 #include "df.h"
68 #include "except.h"
69 #include "params.h"
70 #include "regs.h"
71 #include "ira.h"
72 #include "dumpfile.h"
74 /* The data stored for the loop. */
76 struct loop_data
78 struct loop *outermost_exit; /* The outermost exit of the loop. */
79 bool has_call; /* True if the loop contains a call. */
80 /* Maximal register pressure inside loop for given register class
81 (defined only for the pressure classes). */
82 int max_reg_pressure[N_REG_CLASSES];
83 /* Loop regs referenced and live pseudo-registers. */
84 bitmap_head regs_ref;
85 bitmap_head regs_live;
88 #define LOOP_DATA(LOOP) ((struct loop_data *) (LOOP)->aux)
90 /* The description of an use. */
92 struct use
94 rtx *pos; /* Position of the use. */
95 rtx_insn *insn; /* The insn in that the use occurs. */
96 unsigned addr_use_p; /* Whether the use occurs in an address. */
97 struct use *next; /* Next use in the list. */
100 /* The description of a def. */
102 struct def
104 struct use *uses; /* The list of uses that are uniquely reached
105 by it. */
106 unsigned n_uses; /* Number of such uses. */
107 unsigned n_addr_uses; /* Number of uses in addresses. */
108 unsigned invno; /* The corresponding invariant. */
111 /* The data stored for each invariant. */
113 struct invariant
115 /* The number of the invariant. */
116 unsigned invno;
118 /* The number of the invariant with the same value. */
119 unsigned eqto;
121 /* The number of invariants which eqto this. */
122 unsigned eqno;
124 /* If we moved the invariant out of the loop, the register that contains its
125 value. */
126 rtx reg;
128 /* If we moved the invariant out of the loop, the original regno
129 that contained its value. */
130 int orig_regno;
132 /* The definition of the invariant. */
133 struct def *def;
135 /* The insn in that it is defined. */
136 rtx_insn *insn;
138 /* Whether it is always executed. */
139 bool always_executed;
141 /* Whether to move the invariant. */
142 bool move;
144 /* Whether the invariant is cheap when used as an address. */
145 bool cheap_address;
147 /* Cost of the invariant. */
148 unsigned cost;
150 /* The invariants it depends on. */
151 bitmap depends_on;
153 /* Used for detecting already visited invariants during determining
154 costs of movements. */
155 unsigned stamp;
158 /* Currently processed loop. */
159 static struct loop *curr_loop;
161 /* Table of invariants indexed by the df_ref uid field. */
163 static unsigned int invariant_table_size = 0;
164 static struct invariant ** invariant_table;
166 /* Entry for hash table of invariant expressions. */
168 struct invariant_expr_entry
170 /* The invariant. */
171 struct invariant *inv;
173 /* Its value. */
174 rtx expr;
176 /* Its mode. */
177 machine_mode mode;
179 /* Its hash. */
180 hashval_t hash;
183 /* The actual stamp for marking already visited invariants during determining
184 costs of movements. */
186 static unsigned actual_stamp;
188 typedef struct invariant *invariant_p;
191 /* The invariants. */
193 static vec<invariant_p> invariants;
195 /* Check the size of the invariant table and realloc if necessary. */
197 static void
198 check_invariant_table_size (void)
200 if (invariant_table_size < DF_DEFS_TABLE_SIZE ())
202 unsigned int new_size = DF_DEFS_TABLE_SIZE () + (DF_DEFS_TABLE_SIZE () / 4);
203 invariant_table = XRESIZEVEC (struct invariant *, invariant_table, new_size);
204 memset (&invariant_table[invariant_table_size], 0,
205 (new_size - invariant_table_size) * sizeof (struct invariant *));
206 invariant_table_size = new_size;
210 /* Test for possibility of invariantness of X. */
212 static bool
213 check_maybe_invariant (rtx x)
215 enum rtx_code code = GET_CODE (x);
216 int i, j;
217 const char *fmt;
219 switch (code)
221 CASE_CONST_ANY:
222 case SYMBOL_REF:
223 case CONST:
224 case LABEL_REF:
225 return true;
227 case PC:
228 case CC0:
229 case UNSPEC_VOLATILE:
230 case CALL:
231 return false;
233 case REG:
234 return true;
236 case MEM:
237 /* Load/store motion is done elsewhere. ??? Perhaps also add it here?
238 It should not be hard, and might be faster than "elsewhere". */
240 /* Just handle the most trivial case where we load from an unchanging
241 location (most importantly, pic tables). */
242 if (MEM_READONLY_P (x) && !MEM_VOLATILE_P (x))
243 break;
245 return false;
247 case ASM_OPERANDS:
248 /* Don't mess with insns declared volatile. */
249 if (MEM_VOLATILE_P (x))
250 return false;
251 break;
253 default:
254 break;
257 fmt = GET_RTX_FORMAT (code);
258 for (i = GET_RTX_LENGTH (code) - 1; i >= 0; i--)
260 if (fmt[i] == 'e')
262 if (!check_maybe_invariant (XEXP (x, i)))
263 return false;
265 else if (fmt[i] == 'E')
267 for (j = 0; j < XVECLEN (x, i); j++)
268 if (!check_maybe_invariant (XVECEXP (x, i, j)))
269 return false;
273 return true;
276 /* Returns the invariant definition for USE, or NULL if USE is not
277 invariant. */
279 static struct invariant *
280 invariant_for_use (df_ref use)
282 struct df_link *defs;
283 df_ref def;
284 basic_block bb = DF_REF_BB (use), def_bb;
286 if (DF_REF_FLAGS (use) & DF_REF_READ_WRITE)
287 return NULL;
289 defs = DF_REF_CHAIN (use);
290 if (!defs || defs->next)
291 return NULL;
292 def = defs->ref;
293 check_invariant_table_size ();
294 if (!invariant_table[DF_REF_ID (def)])
295 return NULL;
297 def_bb = DF_REF_BB (def);
298 if (!dominated_by_p (CDI_DOMINATORS, bb, def_bb))
299 return NULL;
300 return invariant_table[DF_REF_ID (def)];
303 /* Computes hash value for invariant expression X in INSN. */
305 static hashval_t
306 hash_invariant_expr_1 (rtx_insn *insn, rtx x)
308 enum rtx_code code = GET_CODE (x);
309 int i, j;
310 const char *fmt;
311 hashval_t val = code;
312 int do_not_record_p;
313 df_ref use;
314 struct invariant *inv;
316 switch (code)
318 CASE_CONST_ANY:
319 case SYMBOL_REF:
320 case CONST:
321 case LABEL_REF:
322 return hash_rtx (x, GET_MODE (x), &do_not_record_p, NULL, false);
324 case REG:
325 use = df_find_use (insn, x);
326 if (!use)
327 return hash_rtx (x, GET_MODE (x), &do_not_record_p, NULL, false);
328 inv = invariant_for_use (use);
329 if (!inv)
330 return hash_rtx (x, GET_MODE (x), &do_not_record_p, NULL, false);
332 gcc_assert (inv->eqto != ~0u);
333 return inv->eqto;
335 default:
336 break;
339 fmt = GET_RTX_FORMAT (code);
340 for (i = GET_RTX_LENGTH (code) - 1; i >= 0; i--)
342 if (fmt[i] == 'e')
343 val ^= hash_invariant_expr_1 (insn, XEXP (x, i));
344 else if (fmt[i] == 'E')
346 for (j = 0; j < XVECLEN (x, i); j++)
347 val ^= hash_invariant_expr_1 (insn, XVECEXP (x, i, j));
349 else if (fmt[i] == 'i' || fmt[i] == 'n')
350 val ^= XINT (x, i);
353 return val;
356 /* Returns true if the invariant expressions E1 and E2 used in insns INSN1
357 and INSN2 have always the same value. */
359 static bool
360 invariant_expr_equal_p (rtx_insn *insn1, rtx e1, rtx_insn *insn2, rtx e2)
362 enum rtx_code code = GET_CODE (e1);
363 int i, j;
364 const char *fmt;
365 df_ref use1, use2;
366 struct invariant *inv1 = NULL, *inv2 = NULL;
367 rtx sub1, sub2;
369 /* If mode of only one of the operands is VOIDmode, it is not equivalent to
370 the other one. If both are VOIDmode, we rely on the caller of this
371 function to verify that their modes are the same. */
372 if (code != GET_CODE (e2) || GET_MODE (e1) != GET_MODE (e2))
373 return false;
375 switch (code)
377 CASE_CONST_ANY:
378 case SYMBOL_REF:
379 case CONST:
380 case LABEL_REF:
381 return rtx_equal_p (e1, e2);
383 case REG:
384 use1 = df_find_use (insn1, e1);
385 use2 = df_find_use (insn2, e2);
386 if (use1)
387 inv1 = invariant_for_use (use1);
388 if (use2)
389 inv2 = invariant_for_use (use2);
391 if (!inv1 && !inv2)
392 return rtx_equal_p (e1, e2);
394 if (!inv1 || !inv2)
395 return false;
397 gcc_assert (inv1->eqto != ~0u);
398 gcc_assert (inv2->eqto != ~0u);
399 return inv1->eqto == inv2->eqto;
401 default:
402 break;
405 fmt = GET_RTX_FORMAT (code);
406 for (i = GET_RTX_LENGTH (code) - 1; i >= 0; i--)
408 if (fmt[i] == 'e')
410 sub1 = XEXP (e1, i);
411 sub2 = XEXP (e2, i);
413 if (!invariant_expr_equal_p (insn1, sub1, insn2, sub2))
414 return false;
417 else if (fmt[i] == 'E')
419 if (XVECLEN (e1, i) != XVECLEN (e2, i))
420 return false;
422 for (j = 0; j < XVECLEN (e1, i); j++)
424 sub1 = XVECEXP (e1, i, j);
425 sub2 = XVECEXP (e2, i, j);
427 if (!invariant_expr_equal_p (insn1, sub1, insn2, sub2))
428 return false;
431 else if (fmt[i] == 'i' || fmt[i] == 'n')
433 if (XINT (e1, i) != XINT (e2, i))
434 return false;
436 /* Unhandled type of subexpression, we fail conservatively. */
437 else
438 return false;
441 return true;
444 struct invariant_expr_hasher : typed_free_remove <invariant_expr_entry>
446 typedef invariant_expr_entry *value_type;
447 typedef invariant_expr_entry *compare_type;
448 static inline hashval_t hash (const invariant_expr_entry *);
449 static inline bool equal (const invariant_expr_entry *,
450 const invariant_expr_entry *);
453 /* Returns hash value for invariant expression entry ENTRY. */
455 inline hashval_t
456 invariant_expr_hasher::hash (const invariant_expr_entry *entry)
458 return entry->hash;
461 /* Compares invariant expression entries ENTRY1 and ENTRY2. */
463 inline bool
464 invariant_expr_hasher::equal (const invariant_expr_entry *entry1,
465 const invariant_expr_entry *entry2)
467 if (entry1->mode != entry2->mode)
468 return 0;
470 return invariant_expr_equal_p (entry1->inv->insn, entry1->expr,
471 entry2->inv->insn, entry2->expr);
474 typedef hash_table<invariant_expr_hasher> invariant_htab_type;
476 /* Checks whether invariant with value EXPR in machine mode MODE is
477 recorded in EQ. If this is the case, return the invariant. Otherwise
478 insert INV to the table for this expression and return INV. */
480 static struct invariant *
481 find_or_insert_inv (invariant_htab_type *eq, rtx expr, machine_mode mode,
482 struct invariant *inv)
484 hashval_t hash = hash_invariant_expr_1 (inv->insn, expr);
485 struct invariant_expr_entry *entry;
486 struct invariant_expr_entry pentry;
487 invariant_expr_entry **slot;
489 pentry.expr = expr;
490 pentry.inv = inv;
491 pentry.mode = mode;
492 slot = eq->find_slot_with_hash (&pentry, hash, INSERT);
493 entry = *slot;
495 if (entry)
496 return entry->inv;
498 entry = XNEW (struct invariant_expr_entry);
499 entry->inv = inv;
500 entry->expr = expr;
501 entry->mode = mode;
502 entry->hash = hash;
503 *slot = entry;
505 return inv;
508 /* Finds invariants identical to INV and records the equivalence. EQ is the
509 hash table of the invariants. */
511 static void
512 find_identical_invariants (invariant_htab_type *eq, struct invariant *inv)
514 unsigned depno;
515 bitmap_iterator bi;
516 struct invariant *dep;
517 rtx expr, set;
518 machine_mode mode;
519 struct invariant *tmp;
521 if (inv->eqto != ~0u)
522 return;
524 EXECUTE_IF_SET_IN_BITMAP (inv->depends_on, 0, depno, bi)
526 dep = invariants[depno];
527 find_identical_invariants (eq, dep);
530 set = single_set (inv->insn);
531 expr = SET_SRC (set);
532 mode = GET_MODE (expr);
533 if (mode == VOIDmode)
534 mode = GET_MODE (SET_DEST (set));
536 tmp = find_or_insert_inv (eq, expr, mode, inv);
537 inv->eqto = tmp->invno;
539 if (tmp->invno != inv->invno && inv->always_executed)
540 tmp->eqno++;
542 if (dump_file && inv->eqto != inv->invno)
543 fprintf (dump_file,
544 "Invariant %d is equivalent to invariant %d.\n",
545 inv->invno, inv->eqto);
548 /* Find invariants with the same value and record the equivalences. */
550 static void
551 merge_identical_invariants (void)
553 unsigned i;
554 struct invariant *inv;
555 invariant_htab_type eq (invariants.length ());
557 FOR_EACH_VEC_ELT (invariants, i, inv)
558 find_identical_invariants (&eq, inv);
561 /* Determines the basic blocks inside LOOP that are always executed and
562 stores their bitmap to ALWAYS_REACHED. MAY_EXIT is a bitmap of
563 basic blocks that may either exit the loop, or contain the call that
564 does not have to return. BODY is body of the loop obtained by
565 get_loop_body_in_dom_order. */
567 static void
568 compute_always_reached (struct loop *loop, basic_block *body,
569 bitmap may_exit, bitmap always_reached)
571 unsigned i;
573 for (i = 0; i < loop->num_nodes; i++)
575 if (dominated_by_p (CDI_DOMINATORS, loop->latch, body[i]))
576 bitmap_set_bit (always_reached, i);
578 if (bitmap_bit_p (may_exit, i))
579 return;
583 /* Finds exits out of the LOOP with body BODY. Marks blocks in that we may
584 exit the loop by cfg edge to HAS_EXIT and MAY_EXIT. In MAY_EXIT
585 additionally mark blocks that may exit due to a call. */
587 static void
588 find_exits (struct loop *loop, basic_block *body,
589 bitmap may_exit, bitmap has_exit)
591 unsigned i;
592 edge_iterator ei;
593 edge e;
594 struct loop *outermost_exit = loop, *aexit;
595 bool has_call = false;
596 rtx_insn *insn;
598 for (i = 0; i < loop->num_nodes; i++)
600 if (body[i]->loop_father == loop)
602 FOR_BB_INSNS (body[i], insn)
604 if (CALL_P (insn)
605 && (RTL_LOOPING_CONST_OR_PURE_CALL_P (insn)
606 || !RTL_CONST_OR_PURE_CALL_P (insn)))
608 has_call = true;
609 bitmap_set_bit (may_exit, i);
610 break;
614 FOR_EACH_EDGE (e, ei, body[i]->succs)
616 if (flow_bb_inside_loop_p (loop, e->dest))
617 continue;
619 bitmap_set_bit (may_exit, i);
620 bitmap_set_bit (has_exit, i);
621 outermost_exit = find_common_loop (outermost_exit,
622 e->dest->loop_father);
624 continue;
627 /* Use the data stored for the subloop to decide whether we may exit
628 through it. It is sufficient to do this for header of the loop,
629 as other basic blocks inside it must be dominated by it. */
630 if (body[i]->loop_father->header != body[i])
631 continue;
633 if (LOOP_DATA (body[i]->loop_father)->has_call)
635 has_call = true;
636 bitmap_set_bit (may_exit, i);
638 aexit = LOOP_DATA (body[i]->loop_father)->outermost_exit;
639 if (aexit != loop)
641 bitmap_set_bit (may_exit, i);
642 bitmap_set_bit (has_exit, i);
644 if (flow_loop_nested_p (aexit, outermost_exit))
645 outermost_exit = aexit;
649 if (loop->aux == NULL)
651 loop->aux = xcalloc (1, sizeof (struct loop_data));
652 bitmap_initialize (&LOOP_DATA (loop)->regs_ref, &reg_obstack);
653 bitmap_initialize (&LOOP_DATA (loop)->regs_live, &reg_obstack);
655 LOOP_DATA (loop)->outermost_exit = outermost_exit;
656 LOOP_DATA (loop)->has_call = has_call;
659 /* Check whether we may assign a value to X from a register. */
661 static bool
662 may_assign_reg_p (rtx x)
664 return (GET_MODE (x) != VOIDmode
665 && GET_MODE (x) != BLKmode
666 && can_copy_p (GET_MODE (x))
667 && (!REG_P (x)
668 || !HARD_REGISTER_P (x)
669 || REGNO_REG_CLASS (REGNO (x)) != NO_REGS));
672 /* Finds definitions that may correspond to invariants in LOOP with body
673 BODY. */
675 static void
676 find_defs (struct loop *loop)
678 if (dump_file)
680 fprintf (dump_file,
681 "*****starting processing of loop %d ******\n",
682 loop->num);
685 df_remove_problem (df_chain);
686 df_process_deferred_rescans ();
687 df_chain_add_problem (DF_UD_CHAIN);
688 df_set_flags (DF_RD_PRUNE_DEAD_DEFS);
689 df_analyze_loop (loop);
690 check_invariant_table_size ();
692 if (dump_file)
694 df_dump_region (dump_file);
695 fprintf (dump_file,
696 "*****ending processing of loop %d ******\n",
697 loop->num);
701 /* Creates a new invariant for definition DEF in INSN, depending on invariants
702 in DEPENDS_ON. ALWAYS_EXECUTED is true if the insn is always executed,
703 unless the program ends due to a function call. The newly created invariant
704 is returned. */
706 static struct invariant *
707 create_new_invariant (struct def *def, rtx_insn *insn, bitmap depends_on,
708 bool always_executed)
710 struct invariant *inv = XNEW (struct invariant);
711 rtx set = single_set (insn);
712 bool speed = optimize_bb_for_speed_p (BLOCK_FOR_INSN (insn));
714 inv->def = def;
715 inv->always_executed = always_executed;
716 inv->depends_on = depends_on;
718 /* If the set is simple, usually by moving it we move the whole store out of
719 the loop. Otherwise we save only cost of the computation. */
720 if (def)
722 inv->cost = set_rtx_cost (set, speed);
723 /* ??? Try to determine cheapness of address computation. Unfortunately
724 the address cost is only a relative measure, we can't really compare
725 it with any absolute number, but only with other address costs.
726 But here we don't have any other addresses, so compare with a magic
727 number anyway. It has to be large enough to not regress PR33928
728 (by avoiding to move reg+8,reg+16,reg+24 invariants), but small
729 enough to not regress 410.bwaves either (by still moving reg+reg
730 invariants).
731 See http://gcc.gnu.org/ml/gcc-patches/2009-10/msg01210.html . */
732 if (SCALAR_INT_MODE_P (GET_MODE (SET_DEST (set))))
733 inv->cheap_address = address_cost (SET_SRC (set), word_mode,
734 ADDR_SPACE_GENERIC, speed) < 3;
735 else
736 inv->cheap_address = false;
738 else
740 inv->cost = set_src_cost (SET_SRC (set), speed);
741 inv->cheap_address = false;
744 inv->move = false;
745 inv->reg = NULL_RTX;
746 inv->orig_regno = -1;
747 inv->stamp = 0;
748 inv->insn = insn;
750 inv->invno = invariants.length ();
751 inv->eqto = ~0u;
753 /* Itself. */
754 inv->eqno = 1;
756 if (def)
757 def->invno = inv->invno;
758 invariants.safe_push (inv);
760 if (dump_file)
762 fprintf (dump_file,
763 "Set in insn %d is invariant (%d), cost %d, depends on ",
764 INSN_UID (insn), inv->invno, inv->cost);
765 dump_bitmap (dump_file, inv->depends_on);
768 return inv;
771 /* Record USE at DEF. */
773 static void
774 record_use (struct def *def, df_ref use)
776 struct use *u = XNEW (struct use);
778 u->pos = DF_REF_REAL_LOC (use);
779 u->insn = DF_REF_INSN (use);
780 u->addr_use_p = (DF_REF_TYPE (use) == DF_REF_REG_MEM_LOAD
781 || DF_REF_TYPE (use) == DF_REF_REG_MEM_STORE);
782 u->next = def->uses;
783 def->uses = u;
784 def->n_uses++;
785 if (u->addr_use_p)
786 def->n_addr_uses++;
789 /* Finds the invariants USE depends on and store them to the DEPENDS_ON
790 bitmap. Returns true if all dependencies of USE are known to be
791 loop invariants, false otherwise. */
793 static bool
794 check_dependency (basic_block bb, df_ref use, bitmap depends_on)
796 df_ref def;
797 basic_block def_bb;
798 struct df_link *defs;
799 struct def *def_data;
800 struct invariant *inv;
802 if (DF_REF_FLAGS (use) & DF_REF_READ_WRITE)
803 return false;
805 defs = DF_REF_CHAIN (use);
806 if (!defs)
808 unsigned int regno = DF_REF_REGNO (use);
810 /* If this is the use of an uninitialized argument register that is
811 likely to be spilled, do not move it lest this might extend its
812 lifetime and cause reload to die. This can occur for a call to
813 a function taking complex number arguments and moving the insns
814 preparing the arguments without moving the call itself wouldn't
815 gain much in practice. */
816 if ((DF_REF_FLAGS (use) & DF_HARD_REG_LIVE)
817 && FUNCTION_ARG_REGNO_P (regno)
818 && targetm.class_likely_spilled_p (REGNO_REG_CLASS (regno)))
819 return false;
821 return true;
824 if (defs->next)
825 return false;
827 def = defs->ref;
828 check_invariant_table_size ();
829 inv = invariant_table[DF_REF_ID (def)];
830 if (!inv)
831 return false;
833 def_data = inv->def;
834 gcc_assert (def_data != NULL);
836 def_bb = DF_REF_BB (def);
837 /* Note that in case bb == def_bb, we know that the definition
838 dominates insn, because def has invariant_table[DF_REF_ID(def)]
839 defined and we process the insns in the basic block bb
840 sequentially. */
841 if (!dominated_by_p (CDI_DOMINATORS, bb, def_bb))
842 return false;
844 bitmap_set_bit (depends_on, def_data->invno);
845 return true;
849 /* Finds the invariants INSN depends on and store them to the DEPENDS_ON
850 bitmap. Returns true if all dependencies of INSN are known to be
851 loop invariants, false otherwise. */
853 static bool
854 check_dependencies (rtx_insn *insn, bitmap depends_on)
856 struct df_insn_info *insn_info = DF_INSN_INFO_GET (insn);
857 df_ref use;
858 basic_block bb = BLOCK_FOR_INSN (insn);
860 FOR_EACH_INSN_INFO_USE (use, insn_info)
861 if (!check_dependency (bb, use, depends_on))
862 return false;
863 FOR_EACH_INSN_INFO_EQ_USE (use, insn_info)
864 if (!check_dependency (bb, use, depends_on))
865 return false;
867 return true;
870 /* Pre-check candidate DEST to skip the one which can not make a valid insn
871 during move_invariant_reg. SIMPLE is to skip HARD_REGISTER. */
872 static bool
873 pre_check_invariant_p (bool simple, rtx dest)
875 if (simple && REG_P (dest) && DF_REG_DEF_COUNT (REGNO (dest)) > 1)
877 df_ref use;
878 unsigned int i = REGNO (dest);
879 struct df_insn_info *insn_info;
880 df_ref def_rec;
882 for (use = DF_REG_USE_CHAIN (i); use; use = DF_REF_NEXT_REG (use))
884 rtx_insn *ref = DF_REF_INSN (use);
885 insn_info = DF_INSN_INFO_GET (ref);
887 FOR_EACH_INSN_INFO_DEF (def_rec, insn_info)
888 if (DF_REF_REGNO (def_rec) == i)
890 /* Multi definitions at this stage, most likely are due to
891 instruction constraints, which requires both read and write
892 on the same register. Since move_invariant_reg is not
893 powerful enough to handle such cases, just ignore the INV
894 and leave the chance to others. */
895 return false;
899 return true;
902 /* Finds invariant in INSN. ALWAYS_REACHED is true if the insn is always
903 executed. ALWAYS_EXECUTED is true if the insn is always executed,
904 unless the program ends due to a function call. */
906 static void
907 find_invariant_insn (rtx_insn *insn, bool always_reached, bool always_executed)
909 df_ref ref;
910 struct def *def;
911 bitmap depends_on;
912 rtx set, dest;
913 bool simple = true;
914 struct invariant *inv;
916 /* We can't move a CC0 setter without the user. */
917 if (HAVE_cc0 && sets_cc0_p (insn))
918 return;
920 set = single_set (insn);
921 if (!set)
922 return;
923 dest = SET_DEST (set);
925 if (!REG_P (dest)
926 || HARD_REGISTER_P (dest))
927 simple = false;
929 if (!may_assign_reg_p (dest)
930 || !pre_check_invariant_p (simple, dest)
931 || !check_maybe_invariant (SET_SRC (set)))
932 return;
934 /* If the insn can throw exception, we cannot move it at all without changing
935 cfg. */
936 if (can_throw_internal (insn))
937 return;
939 /* We cannot make trapping insn executed, unless it was executed before. */
940 if (may_trap_or_fault_p (PATTERN (insn)) && !always_reached)
941 return;
943 depends_on = BITMAP_ALLOC (NULL);
944 if (!check_dependencies (insn, depends_on))
946 BITMAP_FREE (depends_on);
947 return;
950 if (simple)
951 def = XCNEW (struct def);
952 else
953 def = NULL;
955 inv = create_new_invariant (def, insn, depends_on, always_executed);
957 if (simple)
959 ref = df_find_def (insn, dest);
960 check_invariant_table_size ();
961 invariant_table[DF_REF_ID (ref)] = inv;
965 /* Record registers used in INSN that have a unique invariant definition. */
967 static void
968 record_uses (rtx_insn *insn)
970 struct df_insn_info *insn_info = DF_INSN_INFO_GET (insn);
971 df_ref use;
972 struct invariant *inv;
974 FOR_EACH_INSN_INFO_USE (use, insn_info)
976 inv = invariant_for_use (use);
977 if (inv)
978 record_use (inv->def, use);
980 FOR_EACH_INSN_INFO_EQ_USE (use, insn_info)
982 inv = invariant_for_use (use);
983 if (inv)
984 record_use (inv->def, use);
988 /* Finds invariants in INSN. ALWAYS_REACHED is true if the insn is always
989 executed. ALWAYS_EXECUTED is true if the insn is always executed,
990 unless the program ends due to a function call. */
992 static void
993 find_invariants_insn (rtx_insn *insn, bool always_reached, bool always_executed)
995 find_invariant_insn (insn, always_reached, always_executed);
996 record_uses (insn);
999 /* Finds invariants in basic block BB. ALWAYS_REACHED is true if the
1000 basic block is always executed. ALWAYS_EXECUTED is true if the basic
1001 block is always executed, unless the program ends due to a function
1002 call. */
1004 static void
1005 find_invariants_bb (basic_block bb, bool always_reached, bool always_executed)
1007 rtx_insn *insn;
1009 FOR_BB_INSNS (bb, insn)
1011 if (!NONDEBUG_INSN_P (insn))
1012 continue;
1014 find_invariants_insn (insn, always_reached, always_executed);
1016 if (always_reached
1017 && CALL_P (insn)
1018 && (RTL_LOOPING_CONST_OR_PURE_CALL_P (insn)
1019 || ! RTL_CONST_OR_PURE_CALL_P (insn)))
1020 always_reached = false;
1024 /* Finds invariants in LOOP with body BODY. ALWAYS_REACHED is the bitmap of
1025 basic blocks in BODY that are always executed. ALWAYS_EXECUTED is the
1026 bitmap of basic blocks in BODY that are always executed unless the program
1027 ends due to a function call. */
1029 static void
1030 find_invariants_body (struct loop *loop, basic_block *body,
1031 bitmap always_reached, bitmap always_executed)
1033 unsigned i;
1035 for (i = 0; i < loop->num_nodes; i++)
1036 find_invariants_bb (body[i],
1037 bitmap_bit_p (always_reached, i),
1038 bitmap_bit_p (always_executed, i));
1041 /* Finds invariants in LOOP. */
1043 static void
1044 find_invariants (struct loop *loop)
1046 bitmap may_exit = BITMAP_ALLOC (NULL);
1047 bitmap always_reached = BITMAP_ALLOC (NULL);
1048 bitmap has_exit = BITMAP_ALLOC (NULL);
1049 bitmap always_executed = BITMAP_ALLOC (NULL);
1050 basic_block *body = get_loop_body_in_dom_order (loop);
1052 find_exits (loop, body, may_exit, has_exit);
1053 compute_always_reached (loop, body, may_exit, always_reached);
1054 compute_always_reached (loop, body, has_exit, always_executed);
1056 find_defs (loop);
1057 find_invariants_body (loop, body, always_reached, always_executed);
1058 merge_identical_invariants ();
1060 BITMAP_FREE (always_reached);
1061 BITMAP_FREE (always_executed);
1062 BITMAP_FREE (may_exit);
1063 BITMAP_FREE (has_exit);
1064 free (body);
1067 /* Frees a list of uses USE. */
1069 static void
1070 free_use_list (struct use *use)
1072 struct use *next;
1074 for (; use; use = next)
1076 next = use->next;
1077 free (use);
1081 /* Return pressure class and number of hard registers (through *NREGS)
1082 for destination of INSN. */
1083 static enum reg_class
1084 get_pressure_class_and_nregs (rtx_insn *insn, int *nregs)
1086 rtx reg;
1087 enum reg_class pressure_class;
1088 rtx set = single_set (insn);
1090 /* Considered invariant insns have only one set. */
1091 gcc_assert (set != NULL_RTX);
1092 reg = SET_DEST (set);
1093 if (GET_CODE (reg) == SUBREG)
1094 reg = SUBREG_REG (reg);
1095 if (MEM_P (reg))
1097 *nregs = 0;
1098 pressure_class = NO_REGS;
1100 else
1102 if (! REG_P (reg))
1103 reg = NULL_RTX;
1104 if (reg == NULL_RTX)
1105 pressure_class = GENERAL_REGS;
1106 else
1108 pressure_class = reg_allocno_class (REGNO (reg));
1109 pressure_class = ira_pressure_class_translate[pressure_class];
1111 *nregs
1112 = ira_reg_class_max_nregs[pressure_class][GET_MODE (SET_SRC (set))];
1114 return pressure_class;
1117 /* Calculates cost and number of registers needed for moving invariant INV
1118 out of the loop and stores them to *COST and *REGS_NEEDED. *CL will be
1119 the REG_CLASS of INV. Return
1120 -1: if INV is invalid.
1121 0: if INV and its depends_on have same reg_class
1122 1: if INV and its depends_on have different reg_classes. */
1124 static int
1125 get_inv_cost (struct invariant *inv, int *comp_cost, unsigned *regs_needed,
1126 enum reg_class *cl)
1128 int i, acomp_cost;
1129 unsigned aregs_needed[N_REG_CLASSES];
1130 unsigned depno;
1131 struct invariant *dep;
1132 bitmap_iterator bi;
1133 int ret = 1;
1135 /* Find the representative of the class of the equivalent invariants. */
1136 inv = invariants[inv->eqto];
1138 *comp_cost = 0;
1139 if (! flag_ira_loop_pressure)
1140 regs_needed[0] = 0;
1141 else
1143 for (i = 0; i < ira_pressure_classes_num; i++)
1144 regs_needed[ira_pressure_classes[i]] = 0;
1147 if (inv->move
1148 || inv->stamp == actual_stamp)
1149 return -1;
1150 inv->stamp = actual_stamp;
1152 if (! flag_ira_loop_pressure)
1153 regs_needed[0]++;
1154 else
1156 int nregs;
1157 enum reg_class pressure_class;
1159 pressure_class = get_pressure_class_and_nregs (inv->insn, &nregs);
1160 regs_needed[pressure_class] += nregs;
1161 *cl = pressure_class;
1162 ret = 0;
1165 if (!inv->cheap_address
1166 || inv->def->n_uses == 0
1167 || inv->def->n_addr_uses < inv->def->n_uses)
1168 (*comp_cost) += inv->cost * inv->eqno;
1170 #ifdef STACK_REGS
1172 /* Hoisting constant pool constants into stack regs may cost more than
1173 just single register. On x87, the balance is affected both by the
1174 small number of FP registers, and by its register stack organization,
1175 that forces us to add compensation code in and around the loop to
1176 shuffle the operands to the top of stack before use, and pop them
1177 from the stack after the loop finishes.
1179 To model this effect, we increase the number of registers needed for
1180 stack registers by two: one register push, and one register pop.
1181 This usually has the effect that FP constant loads from the constant
1182 pool are not moved out of the loop.
1184 Note that this also means that dependent invariants can not be moved.
1185 However, the primary purpose of this pass is to move loop invariant
1186 address arithmetic out of loops, and address arithmetic that depends
1187 on floating point constants is unlikely to ever occur. */
1188 rtx set = single_set (inv->insn);
1189 if (set
1190 && IS_STACK_MODE (GET_MODE (SET_SRC (set)))
1191 && constant_pool_constant_p (SET_SRC (set)))
1193 if (flag_ira_loop_pressure)
1194 regs_needed[ira_stack_reg_pressure_class] += 2;
1195 else
1196 regs_needed[0] += 2;
1199 #endif
1201 EXECUTE_IF_SET_IN_BITMAP (inv->depends_on, 0, depno, bi)
1203 bool check_p;
1204 enum reg_class dep_cl = ALL_REGS;
1205 int dep_ret;
1207 dep = invariants[depno];
1209 /* If DEP is moved out of the loop, it is not a depends_on any more. */
1210 if (dep->move)
1211 continue;
1213 dep_ret = get_inv_cost (dep, &acomp_cost, aregs_needed, &dep_cl);
1215 if (! flag_ira_loop_pressure)
1216 check_p = aregs_needed[0] != 0;
1217 else
1219 for (i = 0; i < ira_pressure_classes_num; i++)
1220 if (aregs_needed[ira_pressure_classes[i]] != 0)
1221 break;
1222 check_p = i < ira_pressure_classes_num;
1224 if ((dep_ret == 1) || ((dep_ret == 0) && (*cl != dep_cl)))
1226 *cl = ALL_REGS;
1227 ret = 1;
1230 if (check_p
1231 /* We need to check always_executed, since if the original value of
1232 the invariant may be preserved, we may need to keep it in a
1233 separate register. TODO check whether the register has an
1234 use outside of the loop. */
1235 && dep->always_executed
1236 && !dep->def->uses->next)
1238 /* If this is a single use, after moving the dependency we will not
1239 need a new register. */
1240 if (! flag_ira_loop_pressure)
1241 aregs_needed[0]--;
1242 else
1244 int nregs;
1245 enum reg_class pressure_class;
1247 pressure_class = get_pressure_class_and_nregs (inv->insn, &nregs);
1248 aregs_needed[pressure_class] -= nregs;
1252 if (! flag_ira_loop_pressure)
1253 regs_needed[0] += aregs_needed[0];
1254 else
1256 for (i = 0; i < ira_pressure_classes_num; i++)
1257 regs_needed[ira_pressure_classes[i]]
1258 += aregs_needed[ira_pressure_classes[i]];
1260 (*comp_cost) += acomp_cost;
1262 return ret;
1265 /* Calculates gain for eliminating invariant INV. REGS_USED is the number
1266 of registers used in the loop, NEW_REGS is the number of new variables
1267 already added due to the invariant motion. The number of registers needed
1268 for it is stored in *REGS_NEEDED. SPEED and CALL_P are flags passed
1269 through to estimate_reg_pressure_cost. */
1271 static int
1272 gain_for_invariant (struct invariant *inv, unsigned *regs_needed,
1273 unsigned *new_regs, unsigned regs_used,
1274 bool speed, bool call_p)
1276 int comp_cost, size_cost;
1277 /* Workaround -Wmaybe-uninitialized false positive during
1278 profiledbootstrap by initializing it. */
1279 enum reg_class cl = NO_REGS;
1280 int ret;
1282 actual_stamp++;
1284 ret = get_inv_cost (inv, &comp_cost, regs_needed, &cl);
1286 if (! flag_ira_loop_pressure)
1288 size_cost = (estimate_reg_pressure_cost (new_regs[0] + regs_needed[0],
1289 regs_used, speed, call_p)
1290 - estimate_reg_pressure_cost (new_regs[0],
1291 regs_used, speed, call_p));
1293 else if (ret < 0)
1294 return -1;
1295 else if ((ret == 0) && (cl == NO_REGS))
1296 /* Hoist it anyway since it does not impact register pressure. */
1297 return 1;
1298 else
1300 int i;
1301 enum reg_class pressure_class;
1303 for (i = 0; i < ira_pressure_classes_num; i++)
1305 pressure_class = ira_pressure_classes[i];
1307 if (!reg_classes_intersect_p (pressure_class, cl))
1308 continue;
1310 if ((int) new_regs[pressure_class]
1311 + (int) regs_needed[pressure_class]
1312 + LOOP_DATA (curr_loop)->max_reg_pressure[pressure_class]
1313 + IRA_LOOP_RESERVED_REGS
1314 > ira_class_hard_regs_num[pressure_class])
1315 break;
1317 if (i < ira_pressure_classes_num)
1318 /* There will be register pressure excess and we want not to
1319 make this loop invariant motion. All loop invariants with
1320 non-positive gains will be rejected in function
1321 find_invariants_to_move. Therefore we return the negative
1322 number here.
1324 One could think that this rejects also expensive loop
1325 invariant motions and this will hurt code performance.
1326 However numerous experiments with different heuristics
1327 taking invariant cost into account did not confirm this
1328 assumption. There are possible explanations for this
1329 result:
1330 o probably all expensive invariants were already moved out
1331 of the loop by PRE and gimple invariant motion pass.
1332 o expensive invariant execution will be hidden by insn
1333 scheduling or OOO processor hardware because usually such
1334 invariants have a lot of freedom to be executed
1335 out-of-order.
1336 Another reason for ignoring invariant cost vs spilling cost
1337 heuristics is also in difficulties to evaluate accurately
1338 spill cost at this stage. */
1339 return -1;
1340 else
1341 size_cost = 0;
1344 return comp_cost - size_cost;
1347 /* Finds invariant with best gain for moving. Returns the gain, stores
1348 the invariant in *BEST and number of registers needed for it to
1349 *REGS_NEEDED. REGS_USED is the number of registers used in the loop.
1350 NEW_REGS is the number of new variables already added due to invariant
1351 motion. */
1353 static int
1354 best_gain_for_invariant (struct invariant **best, unsigned *regs_needed,
1355 unsigned *new_regs, unsigned regs_used,
1356 bool speed, bool call_p)
1358 struct invariant *inv;
1359 int i, gain = 0, again;
1360 unsigned aregs_needed[N_REG_CLASSES], invno;
1362 FOR_EACH_VEC_ELT (invariants, invno, inv)
1364 if (inv->move)
1365 continue;
1367 /* Only consider the "representatives" of equivalent invariants. */
1368 if (inv->eqto != inv->invno)
1369 continue;
1371 again = gain_for_invariant (inv, aregs_needed, new_regs, regs_used,
1372 speed, call_p);
1373 if (again > gain)
1375 gain = again;
1376 *best = inv;
1377 if (! flag_ira_loop_pressure)
1378 regs_needed[0] = aregs_needed[0];
1379 else
1381 for (i = 0; i < ira_pressure_classes_num; i++)
1382 regs_needed[ira_pressure_classes[i]]
1383 = aregs_needed[ira_pressure_classes[i]];
1388 return gain;
1391 /* Marks invariant INVNO and all its dependencies for moving. */
1393 static void
1394 set_move_mark (unsigned invno, int gain)
1396 struct invariant *inv = invariants[invno];
1397 bitmap_iterator bi;
1399 /* Find the representative of the class of the equivalent invariants. */
1400 inv = invariants[inv->eqto];
1402 if (inv->move)
1403 return;
1404 inv->move = true;
1406 if (dump_file)
1408 if (gain >= 0)
1409 fprintf (dump_file, "Decided to move invariant %d -- gain %d\n",
1410 invno, gain);
1411 else
1412 fprintf (dump_file, "Decided to move dependent invariant %d\n",
1413 invno);
1416 EXECUTE_IF_SET_IN_BITMAP (inv->depends_on, 0, invno, bi)
1418 set_move_mark (invno, -1);
1422 /* Determines which invariants to move. */
1424 static void
1425 find_invariants_to_move (bool speed, bool call_p)
1427 int gain;
1428 unsigned i, regs_used, regs_needed[N_REG_CLASSES], new_regs[N_REG_CLASSES];
1429 struct invariant *inv = NULL;
1431 if (!invariants.length ())
1432 return;
1434 if (flag_ira_loop_pressure)
1435 /* REGS_USED is actually never used when the flag is on. */
1436 regs_used = 0;
1437 else
1438 /* We do not really do a good job in estimating number of
1439 registers used; we put some initial bound here to stand for
1440 induction variables etc. that we do not detect. */
1442 unsigned int n_regs = DF_REG_SIZE (df);
1444 regs_used = 2;
1446 for (i = 0; i < n_regs; i++)
1448 if (!DF_REGNO_FIRST_DEF (i) && DF_REGNO_LAST_USE (i))
1450 /* This is a value that is used but not changed inside loop. */
1451 regs_used++;
1456 if (! flag_ira_loop_pressure)
1457 new_regs[0] = regs_needed[0] = 0;
1458 else
1460 for (i = 0; (int) i < ira_pressure_classes_num; i++)
1461 new_regs[ira_pressure_classes[i]] = 0;
1463 while ((gain = best_gain_for_invariant (&inv, regs_needed,
1464 new_regs, regs_used,
1465 speed, call_p)) > 0)
1467 set_move_mark (inv->invno, gain);
1468 if (! flag_ira_loop_pressure)
1469 new_regs[0] += regs_needed[0];
1470 else
1472 for (i = 0; (int) i < ira_pressure_classes_num; i++)
1473 new_regs[ira_pressure_classes[i]]
1474 += regs_needed[ira_pressure_classes[i]];
1479 /* Replace the uses, reached by the definition of invariant INV, by REG.
1481 IN_GROUP is nonzero if this is part of a group of changes that must be
1482 performed as a group. In that case, the changes will be stored. The
1483 function `apply_change_group' will validate and apply the changes. */
1485 static int
1486 replace_uses (struct invariant *inv, rtx reg, bool in_group)
1488 /* Replace the uses we know to be dominated. It saves work for copy
1489 propagation, and also it is necessary so that dependent invariants
1490 are computed right. */
1491 if (inv->def)
1493 struct use *use;
1494 for (use = inv->def->uses; use; use = use->next)
1495 validate_change (use->insn, use->pos, reg, true);
1497 /* If we aren't part of a larger group, apply the changes now. */
1498 if (!in_group)
1499 return apply_change_group ();
1502 return 1;
1505 /* Whether invariant INV setting REG can be moved out of LOOP, at the end of
1506 the block preceding its header. */
1508 static bool
1509 can_move_invariant_reg (struct loop *loop, struct invariant *inv, rtx reg)
1511 df_ref def, use;
1512 unsigned int dest_regno, defs_in_loop_count = 0;
1513 rtx_insn *insn = inv->insn;
1514 basic_block bb = BLOCK_FOR_INSN (inv->insn);
1516 /* We ignore hard register and memory access for cost and complexity reasons.
1517 Hard register are few at this stage and expensive to consider as they
1518 require building a separate data flow. Memory access would require using
1519 df_simulate_* and can_move_insns_across functions and is more complex. */
1520 if (!REG_P (reg) || HARD_REGISTER_P (reg))
1521 return false;
1523 /* Check whether the set is always executed. We could omit this condition if
1524 we know that the register is unused outside of the loop, but it does not
1525 seem worth finding out. */
1526 if (!inv->always_executed)
1527 return false;
1529 /* Check that all uses that would be dominated by def are already dominated
1530 by it. */
1531 dest_regno = REGNO (reg);
1532 for (use = DF_REG_USE_CHAIN (dest_regno); use; use = DF_REF_NEXT_REG (use))
1534 rtx_insn *use_insn;
1535 basic_block use_bb;
1537 use_insn = DF_REF_INSN (use);
1538 use_bb = BLOCK_FOR_INSN (use_insn);
1540 /* Ignore instruction considered for moving. */
1541 if (use_insn == insn)
1542 continue;
1544 /* Don't consider uses outside loop. */
1545 if (!flow_bb_inside_loop_p (loop, use_bb))
1546 continue;
1548 /* Don't move if a use is not dominated by def in insn. */
1549 if (use_bb == bb && DF_INSN_LUID (insn) >= DF_INSN_LUID (use_insn))
1550 return false;
1551 if (!dominated_by_p (CDI_DOMINATORS, use_bb, bb))
1552 return false;
1555 /* Check for other defs. Any other def in the loop might reach a use
1556 currently reached by the def in insn. */
1557 for (def = DF_REG_DEF_CHAIN (dest_regno); def; def = DF_REF_NEXT_REG (def))
1559 basic_block def_bb = DF_REF_BB (def);
1561 /* Defs in exit block cannot reach a use they weren't already. */
1562 if (single_succ_p (def_bb))
1564 basic_block def_bb_succ;
1566 def_bb_succ = single_succ (def_bb);
1567 if (!flow_bb_inside_loop_p (loop, def_bb_succ))
1568 continue;
1571 if (++defs_in_loop_count > 1)
1572 return false;
1575 return true;
1578 /* Move invariant INVNO out of the LOOP. Returns true if this succeeds, false
1579 otherwise. */
1581 static bool
1582 move_invariant_reg (struct loop *loop, unsigned invno)
1584 struct invariant *inv = invariants[invno];
1585 struct invariant *repr = invariants[inv->eqto];
1586 unsigned i;
1587 basic_block preheader = loop_preheader_edge (loop)->src;
1588 rtx reg, set, dest, note;
1589 bitmap_iterator bi;
1590 int regno = -1;
1592 if (inv->reg)
1593 return true;
1594 if (!repr->move)
1595 return false;
1597 /* If this is a representative of the class of equivalent invariants,
1598 really move the invariant. Otherwise just replace its use with
1599 the register used for the representative. */
1600 if (inv == repr)
1602 if (inv->depends_on)
1604 EXECUTE_IF_SET_IN_BITMAP (inv->depends_on, 0, i, bi)
1606 if (!move_invariant_reg (loop, i))
1607 goto fail;
1611 /* If possible, just move the set out of the loop. Otherwise, we
1612 need to create a temporary register. */
1613 set = single_set (inv->insn);
1614 reg = dest = SET_DEST (set);
1615 if (GET_CODE (reg) == SUBREG)
1616 reg = SUBREG_REG (reg);
1617 if (REG_P (reg))
1618 regno = REGNO (reg);
1620 if (!can_move_invariant_reg (loop, inv, dest))
1622 reg = gen_reg_rtx_and_attrs (dest);
1624 /* Try replacing the destination by a new pseudoregister. */
1625 validate_change (inv->insn, &SET_DEST (set), reg, true);
1627 /* As well as all the dominated uses. */
1628 replace_uses (inv, reg, true);
1630 /* And validate all the changes. */
1631 if (!apply_change_group ())
1632 goto fail;
1634 emit_insn_after (gen_move_insn (dest, reg), inv->insn);
1636 else if (dump_file)
1637 fprintf (dump_file, "Invariant %d moved without introducing a new "
1638 "temporary register\n", invno);
1639 reorder_insns (inv->insn, inv->insn, BB_END (preheader));
1641 /* If there is a REG_EQUAL note on the insn we just moved, and the
1642 insn is in a basic block that is not always executed or the note
1643 contains something for which we don't know the invariant status,
1644 the note may no longer be valid after we move the insn. Note that
1645 uses in REG_EQUAL notes are taken into account in the computation
1646 of invariants, so it is safe to retain the note even if it contains
1647 register references for which we know the invariant status. */
1648 if ((note = find_reg_note (inv->insn, REG_EQUAL, NULL_RTX))
1649 && (!inv->always_executed
1650 || !check_maybe_invariant (XEXP (note, 0))))
1651 remove_note (inv->insn, note);
1653 else
1655 if (!move_invariant_reg (loop, repr->invno))
1656 goto fail;
1657 reg = repr->reg;
1658 regno = repr->orig_regno;
1659 if (!replace_uses (inv, reg, false))
1660 goto fail;
1661 set = single_set (inv->insn);
1662 emit_insn_after (gen_move_insn (SET_DEST (set), reg), inv->insn);
1663 delete_insn (inv->insn);
1666 inv->reg = reg;
1667 inv->orig_regno = regno;
1669 return true;
1671 fail:
1672 /* If we failed, clear move flag, so that we do not try to move inv
1673 again. */
1674 if (dump_file)
1675 fprintf (dump_file, "Failed to move invariant %d\n", invno);
1676 inv->move = false;
1677 inv->reg = NULL_RTX;
1678 inv->orig_regno = -1;
1680 return false;
1683 /* Move selected invariant out of the LOOP. Newly created regs are marked
1684 in TEMPORARY_REGS. */
1686 static void
1687 move_invariants (struct loop *loop)
1689 struct invariant *inv;
1690 unsigned i;
1692 FOR_EACH_VEC_ELT (invariants, i, inv)
1693 move_invariant_reg (loop, i);
1694 if (flag_ira_loop_pressure && resize_reg_info ())
1696 FOR_EACH_VEC_ELT (invariants, i, inv)
1697 if (inv->reg != NULL_RTX)
1699 if (inv->orig_regno >= 0)
1700 setup_reg_classes (REGNO (inv->reg),
1701 reg_preferred_class (inv->orig_regno),
1702 reg_alternate_class (inv->orig_regno),
1703 reg_allocno_class (inv->orig_regno));
1704 else
1705 setup_reg_classes (REGNO (inv->reg),
1706 GENERAL_REGS, NO_REGS, GENERAL_REGS);
1711 /* Initializes invariant motion data. */
1713 static void
1714 init_inv_motion_data (void)
1716 actual_stamp = 1;
1718 invariants.create (100);
1721 /* Frees the data allocated by invariant motion. */
1723 static void
1724 free_inv_motion_data (void)
1726 unsigned i;
1727 struct def *def;
1728 struct invariant *inv;
1730 check_invariant_table_size ();
1731 for (i = 0; i < DF_DEFS_TABLE_SIZE (); i++)
1733 inv = invariant_table[i];
1734 if (inv)
1736 def = inv->def;
1737 gcc_assert (def != NULL);
1739 free_use_list (def->uses);
1740 free (def);
1741 invariant_table[i] = NULL;
1745 FOR_EACH_VEC_ELT (invariants, i, inv)
1747 BITMAP_FREE (inv->depends_on);
1748 free (inv);
1750 invariants.release ();
1753 /* Move the invariants out of the LOOP. */
1755 static void
1756 move_single_loop_invariants (struct loop *loop)
1758 init_inv_motion_data ();
1760 find_invariants (loop);
1761 find_invariants_to_move (optimize_loop_for_speed_p (loop),
1762 LOOP_DATA (loop)->has_call);
1763 move_invariants (loop);
1765 free_inv_motion_data ();
1768 /* Releases the auxiliary data for LOOP. */
1770 static void
1771 free_loop_data (struct loop *loop)
1773 struct loop_data *data = LOOP_DATA (loop);
1774 if (!data)
1775 return;
1777 bitmap_clear (&LOOP_DATA (loop)->regs_ref);
1778 bitmap_clear (&LOOP_DATA (loop)->regs_live);
1779 free (data);
1780 loop->aux = NULL;
1785 /* Registers currently living. */
1786 static bitmap_head curr_regs_live;
1788 /* Current reg pressure for each pressure class. */
1789 static int curr_reg_pressure[N_REG_CLASSES];
1791 /* Record all regs that are set in any one insn. Communication from
1792 mark_reg_{store,clobber} and global_conflicts. Asm can refer to
1793 all hard-registers. */
1794 static rtx regs_set[(FIRST_PSEUDO_REGISTER > MAX_RECOG_OPERANDS
1795 ? FIRST_PSEUDO_REGISTER : MAX_RECOG_OPERANDS) * 2];
1796 /* Number of regs stored in the previous array. */
1797 static int n_regs_set;
1799 /* Return pressure class and number of needed hard registers (through
1800 *NREGS) of register REGNO. */
1801 static enum reg_class
1802 get_regno_pressure_class (int regno, int *nregs)
1804 if (regno >= FIRST_PSEUDO_REGISTER)
1806 enum reg_class pressure_class;
1808 pressure_class = reg_allocno_class (regno);
1809 pressure_class = ira_pressure_class_translate[pressure_class];
1810 *nregs
1811 = ira_reg_class_max_nregs[pressure_class][PSEUDO_REGNO_MODE (regno)];
1812 return pressure_class;
1814 else if (! TEST_HARD_REG_BIT (ira_no_alloc_regs, regno)
1815 && ! TEST_HARD_REG_BIT (eliminable_regset, regno))
1817 *nregs = 1;
1818 return ira_pressure_class_translate[REGNO_REG_CLASS (regno)];
1820 else
1822 *nregs = 0;
1823 return NO_REGS;
1827 /* Increase (if INCR_P) or decrease current register pressure for
1828 register REGNO. */
1829 static void
1830 change_pressure (int regno, bool incr_p)
1832 int nregs;
1833 enum reg_class pressure_class;
1835 pressure_class = get_regno_pressure_class (regno, &nregs);
1836 if (! incr_p)
1837 curr_reg_pressure[pressure_class] -= nregs;
1838 else
1840 curr_reg_pressure[pressure_class] += nregs;
1841 if (LOOP_DATA (curr_loop)->max_reg_pressure[pressure_class]
1842 < curr_reg_pressure[pressure_class])
1843 LOOP_DATA (curr_loop)->max_reg_pressure[pressure_class]
1844 = curr_reg_pressure[pressure_class];
1848 /* Mark REGNO birth. */
1849 static void
1850 mark_regno_live (int regno)
1852 struct loop *loop;
1854 for (loop = curr_loop;
1855 loop != current_loops->tree_root;
1856 loop = loop_outer (loop))
1857 bitmap_set_bit (&LOOP_DATA (loop)->regs_live, regno);
1858 if (!bitmap_set_bit (&curr_regs_live, regno))
1859 return;
1860 change_pressure (regno, true);
1863 /* Mark REGNO death. */
1864 static void
1865 mark_regno_death (int regno)
1867 if (! bitmap_clear_bit (&curr_regs_live, regno))
1868 return;
1869 change_pressure (regno, false);
1872 /* Mark setting register REG. */
1873 static void
1874 mark_reg_store (rtx reg, const_rtx setter ATTRIBUTE_UNUSED,
1875 void *data ATTRIBUTE_UNUSED)
1877 if (GET_CODE (reg) == SUBREG)
1878 reg = SUBREG_REG (reg);
1880 if (! REG_P (reg))
1881 return;
1883 regs_set[n_regs_set++] = reg;
1885 unsigned int end_regno = END_REGNO (reg);
1886 for (unsigned int regno = REGNO (reg); regno < end_regno; ++regno)
1887 mark_regno_live (regno);
1890 /* Mark clobbering register REG. */
1891 static void
1892 mark_reg_clobber (rtx reg, const_rtx setter, void *data)
1894 if (GET_CODE (setter) == CLOBBER)
1895 mark_reg_store (reg, setter, data);
1898 /* Mark register REG death. */
1899 static void
1900 mark_reg_death (rtx reg)
1902 unsigned int end_regno = END_REGNO (reg);
1903 for (unsigned int regno = REGNO (reg); regno < end_regno; ++regno)
1904 mark_regno_death (regno);
1907 /* Mark occurrence of registers in X for the current loop. */
1908 static void
1909 mark_ref_regs (rtx x)
1911 RTX_CODE code;
1912 int i;
1913 const char *fmt;
1915 if (!x)
1916 return;
1918 code = GET_CODE (x);
1919 if (code == REG)
1921 struct loop *loop;
1923 for (loop = curr_loop;
1924 loop != current_loops->tree_root;
1925 loop = loop_outer (loop))
1926 bitmap_set_bit (&LOOP_DATA (loop)->regs_ref, REGNO (x));
1927 return;
1930 fmt = GET_RTX_FORMAT (code);
1931 for (i = GET_RTX_LENGTH (code) - 1; i >= 0; i--)
1932 if (fmt[i] == 'e')
1933 mark_ref_regs (XEXP (x, i));
1934 else if (fmt[i] == 'E')
1936 int j;
1938 for (j = 0; j < XVECLEN (x, i); j++)
1939 mark_ref_regs (XVECEXP (x, i, j));
1943 /* Calculate register pressure in the loops. */
1944 static void
1945 calculate_loop_reg_pressure (void)
1947 int i;
1948 unsigned int j;
1949 bitmap_iterator bi;
1950 basic_block bb;
1951 rtx_insn *insn;
1952 rtx link;
1953 struct loop *loop, *parent;
1955 FOR_EACH_LOOP (loop, 0)
1956 if (loop->aux == NULL)
1958 loop->aux = xcalloc (1, sizeof (struct loop_data));
1959 bitmap_initialize (&LOOP_DATA (loop)->regs_ref, &reg_obstack);
1960 bitmap_initialize (&LOOP_DATA (loop)->regs_live, &reg_obstack);
1962 ira_setup_eliminable_regset ();
1963 bitmap_initialize (&curr_regs_live, &reg_obstack);
1964 FOR_EACH_BB_FN (bb, cfun)
1966 curr_loop = bb->loop_father;
1967 if (curr_loop == current_loops->tree_root)
1968 continue;
1970 for (loop = curr_loop;
1971 loop != current_loops->tree_root;
1972 loop = loop_outer (loop))
1973 bitmap_ior_into (&LOOP_DATA (loop)->regs_live, DF_LR_IN (bb));
1975 bitmap_copy (&curr_regs_live, DF_LR_IN (bb));
1976 for (i = 0; i < ira_pressure_classes_num; i++)
1977 curr_reg_pressure[ira_pressure_classes[i]] = 0;
1978 EXECUTE_IF_SET_IN_BITMAP (&curr_regs_live, 0, j, bi)
1979 change_pressure (j, true);
1981 FOR_BB_INSNS (bb, insn)
1983 if (! NONDEBUG_INSN_P (insn))
1984 continue;
1986 mark_ref_regs (PATTERN (insn));
1987 n_regs_set = 0;
1988 note_stores (PATTERN (insn), mark_reg_clobber, NULL);
1990 /* Mark any registers dead after INSN as dead now. */
1992 for (link = REG_NOTES (insn); link; link = XEXP (link, 1))
1993 if (REG_NOTE_KIND (link) == REG_DEAD)
1994 mark_reg_death (XEXP (link, 0));
1996 /* Mark any registers set in INSN as live,
1997 and mark them as conflicting with all other live regs.
1998 Clobbers are processed again, so they conflict with
1999 the registers that are set. */
2001 note_stores (PATTERN (insn), mark_reg_store, NULL);
2003 #ifdef AUTO_INC_DEC
2004 for (link = REG_NOTES (insn); link; link = XEXP (link, 1))
2005 if (REG_NOTE_KIND (link) == REG_INC)
2006 mark_reg_store (XEXP (link, 0), NULL_RTX, NULL);
2007 #endif
2008 while (n_regs_set-- > 0)
2010 rtx note = find_regno_note (insn, REG_UNUSED,
2011 REGNO (regs_set[n_regs_set]));
2012 if (! note)
2013 continue;
2015 mark_reg_death (XEXP (note, 0));
2019 bitmap_clear (&curr_regs_live);
2020 if (flag_ira_region == IRA_REGION_MIXED
2021 || flag_ira_region == IRA_REGION_ALL)
2022 FOR_EACH_LOOP (loop, 0)
2024 EXECUTE_IF_SET_IN_BITMAP (&LOOP_DATA (loop)->regs_live, 0, j, bi)
2025 if (! bitmap_bit_p (&LOOP_DATA (loop)->regs_ref, j))
2027 enum reg_class pressure_class;
2028 int nregs;
2030 pressure_class = get_regno_pressure_class (j, &nregs);
2031 LOOP_DATA (loop)->max_reg_pressure[pressure_class] -= nregs;
2034 if (dump_file == NULL)
2035 return;
2036 FOR_EACH_LOOP (loop, 0)
2038 parent = loop_outer (loop);
2039 fprintf (dump_file, "\n Loop %d (parent %d, header bb%d, depth %d)\n",
2040 loop->num, (parent == NULL ? -1 : parent->num),
2041 loop->header->index, loop_depth (loop));
2042 fprintf (dump_file, "\n ref. regnos:");
2043 EXECUTE_IF_SET_IN_BITMAP (&LOOP_DATA (loop)->regs_ref, 0, j, bi)
2044 fprintf (dump_file, " %d", j);
2045 fprintf (dump_file, "\n live regnos:");
2046 EXECUTE_IF_SET_IN_BITMAP (&LOOP_DATA (loop)->regs_live, 0, j, bi)
2047 fprintf (dump_file, " %d", j);
2048 fprintf (dump_file, "\n Pressure:");
2049 for (i = 0; (int) i < ira_pressure_classes_num; i++)
2051 enum reg_class pressure_class;
2053 pressure_class = ira_pressure_classes[i];
2054 if (LOOP_DATA (loop)->max_reg_pressure[pressure_class] == 0)
2055 continue;
2056 fprintf (dump_file, " %s=%d", reg_class_names[pressure_class],
2057 LOOP_DATA (loop)->max_reg_pressure[pressure_class]);
2059 fprintf (dump_file, "\n");
2065 /* Move the invariants out of the loops. */
2067 void
2068 move_loop_invariants (void)
2070 struct loop *loop;
2072 if (flag_ira_loop_pressure)
2074 df_analyze ();
2075 regstat_init_n_sets_and_refs ();
2076 ira_set_pseudo_classes (true, dump_file);
2077 calculate_loop_reg_pressure ();
2078 regstat_free_n_sets_and_refs ();
2080 df_set_flags (DF_EQ_NOTES + DF_DEFER_INSN_RESCAN);
2081 /* Process the loops, innermost first. */
2082 FOR_EACH_LOOP (loop, LI_FROM_INNERMOST)
2084 curr_loop = loop;
2085 /* move_single_loop_invariants for very large loops
2086 is time consuming and might need a lot of memory. */
2087 if (loop->num_nodes <= (unsigned) LOOP_INVARIANT_MAX_BBS_IN_LOOP)
2088 move_single_loop_invariants (loop);
2091 FOR_EACH_LOOP (loop, 0)
2093 free_loop_data (loop);
2096 if (flag_ira_loop_pressure)
2097 /* There is no sense to keep this info because it was most
2098 probably outdated by subsequent passes. */
2099 free_reg_info ();
2100 free (invariant_table);
2101 invariant_table = NULL;
2102 invariant_table_size = 0;
2104 #ifdef ENABLE_CHECKING
2105 verify_flow_info ();
2106 #endif