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1 684 jeremybenn
/* Move registers around to reduce number of move instructions needed.
2
   Copyright (C) 1987, 1988, 1989, 1992, 1993, 1994, 1995, 1996, 1997, 1998,
3
   1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010
4
   Free Software Foundation, Inc.
5
 
6
This file is part of GCC.
7
 
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.
12
 
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.
17
 
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/>.  */
21
 
22
 
23
/* This module makes some simple RTL code transformations which
24
   improve the subsequent register allocation.  */
25
 
26
#include "config.h"
27
#include "system.h"
28
#include "coretypes.h"
29
#include "tm.h"
30
#include "rtl.h"
31
#include "tm_p.h"
32
#include "insn-config.h"
33
#include "recog.h"
34
#include "target.h"
35
#include "output.h"
36
#include "regs.h"
37
#include "hard-reg-set.h"
38
#include "flags.h"
39
#include "function.h"
40
#include "expr.h"
41
#include "basic-block.h"
42
#include "except.h"
43
#include "diagnostic-core.h"
44
#include "reload.h"
45
#include "timevar.h"
46
#include "tree-pass.h"
47
#include "df.h"
48
#include "ira.h"
49
 
50
static int optimize_reg_copy_1 (rtx, rtx, rtx);
51
static void optimize_reg_copy_2 (rtx, rtx, rtx);
52
static void optimize_reg_copy_3 (rtx, rtx, rtx);
53
static void copy_src_to_dest (rtx, rtx, rtx);
54
 
55
enum match_use
56
{
57
  READ,
58
  WRITE,
59
  READWRITE
60
};
61
 
62
struct match {
63
  int with[MAX_RECOG_OPERANDS];
64
  enum match_use use[MAX_RECOG_OPERANDS];
65
  int commutative[MAX_RECOG_OPERANDS];
66
  int early_clobber[MAX_RECOG_OPERANDS];
67
};
68
 
69
static int find_matches (rtx, struct match *);
70
static int fixup_match_2 (rtx, rtx, rtx, rtx);
71
 
72
/* Return nonzero if registers with CLASS1 and CLASS2 can be merged without
73
   causing too much register allocation problems.  */
74
static int
75
regclass_compatible_p (reg_class_t class0, reg_class_t class1)
76
{
77
  return (class0 == class1
78
          || (reg_class_subset_p (class0, class1)
79
              && ! targetm.class_likely_spilled_p (class0))
80
          || (reg_class_subset_p (class1, class0)
81
              && ! targetm.class_likely_spilled_p (class1)));
82
}
83
 
84
 
85
#ifdef AUTO_INC_DEC
86
 
87
/* Find the place in the rtx X where REG is used as a memory address.
88
   Return the MEM rtx that so uses it.
89
   If PLUSCONST is nonzero, search instead for a memory address equivalent to
90
   (plus REG (const_int PLUSCONST)).
91
 
92
   If such an address does not appear, return 0.
93
   If REG appears more than once, or is used other than in such an address,
94
   return (rtx) 1.  */
95
 
96
static rtx
97
find_use_as_address (rtx x, rtx reg, HOST_WIDE_INT plusconst)
98
{
99
  enum rtx_code code = GET_CODE (x);
100
  const char * const fmt = GET_RTX_FORMAT (code);
101
  int i;
102
  rtx value = 0;
103
  rtx tem;
104
 
105
  if (code == MEM && XEXP (x, 0) == reg && plusconst == 0)
106
    return x;
107
 
108
  if (code == MEM && GET_CODE (XEXP (x, 0)) == PLUS
109
      && XEXP (XEXP (x, 0), 0) == reg
110
      && CONST_INT_P (XEXP (XEXP (x, 0), 1))
111
      && INTVAL (XEXP (XEXP (x, 0), 1)) == plusconst)
112
    return x;
113
 
114
  if (code == SIGN_EXTRACT || code == ZERO_EXTRACT)
115
    {
116
      /* If REG occurs inside a MEM used in a bit-field reference,
117
         that is unacceptable.  */
118
      if (find_use_as_address (XEXP (x, 0), reg, 0) != 0)
119
        return (rtx) (size_t) 1;
120
    }
121
 
122
  if (x == reg)
123
    return (rtx) (size_t) 1;
124
 
125
  for (i = GET_RTX_LENGTH (code) - 1; i >= 0; i--)
126
    {
127
      if (fmt[i] == 'e')
128
        {
129
          tem = find_use_as_address (XEXP (x, i), reg, plusconst);
130
          if (value == 0)
131
            value = tem;
132
          else if (tem != 0)
133
            return (rtx) (size_t) 1;
134
        }
135
      else if (fmt[i] == 'E')
136
        {
137
          int j;
138
          for (j = XVECLEN (x, i) - 1; j >= 0; j--)
139
            {
140
              tem = find_use_as_address (XVECEXP (x, i, j), reg, plusconst);
141
              if (value == 0)
142
                value = tem;
143
              else if (tem != 0)
144
                return (rtx) (size_t) 1;
145
            }
146
        }
147
    }
148
 
149
  return value;
150
}
151
 
152
 
153
/* INC_INSN is an instruction that adds INCREMENT to REG.
154
   Try to fold INC_INSN as a post/pre in/decrement into INSN.
155
   Iff INC_INSN_SET is nonzero, inc_insn has a destination different from src.
156
   Return nonzero for success.  */
157
static int
158
try_auto_increment (rtx insn, rtx inc_insn, rtx inc_insn_set, rtx reg,
159
                    HOST_WIDE_INT increment, int pre)
160
{
161
  enum rtx_code inc_code;
162
 
163
  rtx pset = single_set (insn);
164
  if (pset)
165
    {
166
      /* Can't use the size of SET_SRC, we might have something like
167
         (sign_extend:SI (mem:QI ...  */
168
      rtx use = find_use_as_address (pset, reg, 0);
169
      if (use != 0 && use != (rtx) (size_t) 1)
170
        {
171
          int size = GET_MODE_SIZE (GET_MODE (use));
172
          if (0
173
              || (HAVE_POST_INCREMENT
174
                  && pre == 0 && (inc_code = POST_INC, increment == size))
175
              || (HAVE_PRE_INCREMENT
176
                  && pre == 1 && (inc_code = PRE_INC, increment == size))
177
              || (HAVE_POST_DECREMENT
178
                  && pre == 0 && (inc_code = POST_DEC, increment == -size))
179
              || (HAVE_PRE_DECREMENT
180
                  && pre == 1 && (inc_code = PRE_DEC, increment == -size))
181
          )
182
            {
183
              if (inc_insn_set)
184
                validate_change
185
                  (inc_insn,
186
                   &SET_SRC (inc_insn_set),
187
                   XEXP (SET_SRC (inc_insn_set), 0), 1);
188
              validate_change (insn, &XEXP (use, 0),
189
                               gen_rtx_fmt_e (inc_code,
190
                                              GET_MODE (XEXP (use, 0)), reg),
191
                               1);
192
              if (apply_change_group ())
193
                {
194
                  /* If there is a REG_DEAD note on this insn, we must
195
                     change this not to REG_UNUSED meaning that the register
196
                     is set, but the value is dead.  Failure to do so will
197
                     result in sched1 dying -- when it recomputes lifetime
198
                     information, the number of REG_DEAD notes will have
199
                     changed.  */
200
                  rtx note = find_reg_note (insn, REG_DEAD, reg);
201
                  if (note)
202
                    PUT_REG_NOTE_KIND (note, REG_UNUSED);
203
 
204
                  add_reg_note (insn, REG_INC, reg);
205
 
206
                  if (! inc_insn_set)
207
                    delete_insn (inc_insn);
208
                  return 1;
209
                }
210
            }
211
        }
212
    }
213
  return 0;
214
}
215
#endif
216
 
217
 
218
static int *regno_src_regno;
219
 
220
/* INSN is a copy from SRC to DEST, both registers, and SRC does not die
221
   in INSN.
222
 
223
   Search forward to see if SRC dies before either it or DEST is modified,
224
   but don't scan past the end of a basic block.  If so, we can replace SRC
225
   with DEST and let SRC die in INSN.
226
 
227
   This will reduce the number of registers live in that range and may enable
228
   DEST to be tied to SRC, thus often saving one register in addition to a
229
   register-register copy.  */
230
 
231
static int
232
optimize_reg_copy_1 (rtx insn, rtx dest, rtx src)
233
{
234
  rtx p, q;
235
  rtx note;
236
  rtx dest_death = 0;
237
  int sregno = REGNO (src);
238
  int dregno = REGNO (dest);
239
  basic_block bb = BLOCK_FOR_INSN (insn);
240
 
241
  /* We don't want to mess with hard regs if register classes are small.  */
242
  if (sregno == dregno
243
      || (targetm.small_register_classes_for_mode_p (GET_MODE (src))
244
          && (sregno < FIRST_PSEUDO_REGISTER
245
              || dregno < FIRST_PSEUDO_REGISTER))
246
      /* We don't see all updates to SP if they are in an auto-inc memory
247
         reference, so we must disallow this optimization on them.  */
248
      || sregno == STACK_POINTER_REGNUM || dregno == STACK_POINTER_REGNUM)
249
    return 0;
250
 
251
  for (p = NEXT_INSN (insn); p; p = NEXT_INSN (p))
252
    {
253
      if (! INSN_P (p))
254
        continue;
255
      if (BLOCK_FOR_INSN (p) != bb)
256
        break;
257
 
258
      if (reg_set_p (src, p) || reg_set_p (dest, p)
259
          /* If SRC is an asm-declared register, it must not be replaced
260
             in any asm.  Unfortunately, the REG_EXPR tree for the asm
261
             variable may be absent in the SRC rtx, so we can't check the
262
             actual register declaration easily (the asm operand will have
263
             it, though).  To avoid complicating the test for a rare case,
264
             we just don't perform register replacement for a hard reg
265
             mentioned in an asm.  */
266
          || (sregno < FIRST_PSEUDO_REGISTER
267
              && asm_noperands (PATTERN (p)) >= 0
268
              && reg_overlap_mentioned_p (src, PATTERN (p)))
269
          /* Don't change hard registers used by a call.  */
270
          || (CALL_P (p) && sregno < FIRST_PSEUDO_REGISTER
271
              && find_reg_fusage (p, USE, src))
272
          /* Don't change a USE of a register.  */
273
          || (GET_CODE (PATTERN (p)) == USE
274
              && reg_overlap_mentioned_p (src, XEXP (PATTERN (p), 0))))
275
        break;
276
 
277
      /* See if all of SRC dies in P.  This test is slightly more
278
         conservative than it needs to be.  */
279
      if ((note = find_regno_note (p, REG_DEAD, sregno)) != 0
280
          && GET_MODE (XEXP (note, 0)) == GET_MODE (src))
281
        {
282
          int failed = 0;
283
          int d_length = 0;
284
          int s_length = 0;
285
          int d_n_calls = 0;
286
          int s_n_calls = 0;
287
          int s_freq_calls = 0;
288
          int d_freq_calls = 0;
289
 
290
          /* We can do the optimization.  Scan forward from INSN again,
291
             replacing regs as we go.  Set FAILED if a replacement can't
292
             be done.  In that case, we can't move the death note for SRC.
293
             This should be rare.  */
294
 
295
          /* Set to stop at next insn.  */
296
          for (q = next_real_insn (insn);
297
               q != next_real_insn (p);
298
               q = next_real_insn (q))
299
            {
300
              if (reg_overlap_mentioned_p (src, PATTERN (q)))
301
                {
302
                  /* If SRC is a hard register, we might miss some
303
                     overlapping registers with validate_replace_rtx,
304
                     so we would have to undo it.  We can't if DEST is
305
                     present in the insn, so fail in that combination
306
                     of cases.  */
307
                  if (sregno < FIRST_PSEUDO_REGISTER
308
                      && reg_mentioned_p (dest, PATTERN (q)))
309
                    failed = 1;
310
 
311
                  /* Attempt to replace all uses.  */
312
                  else if (!validate_replace_rtx (src, dest, q))
313
                    failed = 1;
314
 
315
                  /* If this succeeded, but some part of the register
316
                     is still present, undo the replacement.  */
317
                  else if (sregno < FIRST_PSEUDO_REGISTER
318
                           && reg_overlap_mentioned_p (src, PATTERN (q)))
319
                    {
320
                      validate_replace_rtx (dest, src, q);
321
                      failed = 1;
322
                    }
323
                }
324
 
325
              /* For SREGNO, count the total number of insns scanned.
326
                 For DREGNO, count the total number of insns scanned after
327
                 passing the death note for DREGNO.  */
328
              if (!DEBUG_INSN_P (p))
329
                {
330
                  s_length++;
331
                  if (dest_death)
332
                    d_length++;
333
                }
334
 
335
              /* If the insn in which SRC dies is a CALL_INSN, don't count it
336
                 as a call that has been crossed.  Otherwise, count it.  */
337
              if (q != p && CALL_P (q))
338
                {
339
                  /* Similarly, total calls for SREGNO, total calls beyond
340
                     the death note for DREGNO.  */
341
                  s_n_calls++;
342
                  s_freq_calls += REG_FREQ_FROM_BB  (BLOCK_FOR_INSN (q));
343
                  if (dest_death)
344
                    {
345
                      d_n_calls++;
346
                      d_freq_calls += REG_FREQ_FROM_BB  (BLOCK_FOR_INSN (q));
347
                    }
348
                }
349
 
350
              /* If DEST dies here, remove the death note and save it for
351
                 later.  Make sure ALL of DEST dies here; again, this is
352
                 overly conservative.  */
353
              if (dest_death == 0
354
                  && (dest_death = find_regno_note (q, REG_DEAD, dregno)) != 0)
355
                {
356
                  if (GET_MODE (XEXP (dest_death, 0)) != GET_MODE (dest))
357
                    failed = 1, dest_death = 0;
358
                  else
359
                    remove_note (q, dest_death);
360
                }
361
            }
362
 
363
          if (! failed)
364
            {
365
              /* These counters need to be updated if and only if we are
366
                 going to move the REG_DEAD note.  */
367
              if (sregno >= FIRST_PSEUDO_REGISTER)
368
                {
369
                  if (REG_LIVE_LENGTH (sregno) >= 0)
370
                    {
371
                      REG_LIVE_LENGTH (sregno) -= s_length;
372
                      /* REG_LIVE_LENGTH is only an approximation after
373
                         combine if sched is not run, so make sure that we
374
                         still have a reasonable value.  */
375
                      if (REG_LIVE_LENGTH (sregno) < 2)
376
                        REG_LIVE_LENGTH (sregno) = 2;
377
                    }
378
 
379
                  REG_N_CALLS_CROSSED (sregno) -= s_n_calls;
380
                  REG_FREQ_CALLS_CROSSED (sregno) -= s_freq_calls;
381
                }
382
 
383
              /* Move death note of SRC from P to INSN.  */
384
              remove_note (p, note);
385
              XEXP (note, 1) = REG_NOTES (insn);
386
              REG_NOTES (insn) = note;
387
            }
388
 
389
          /* DEST is also dead if INSN has a REG_UNUSED note for DEST.  */
390
          if (! dest_death
391
              && (dest_death = find_regno_note (insn, REG_UNUSED, dregno)))
392
            {
393
              PUT_REG_NOTE_KIND (dest_death, REG_DEAD);
394
              remove_note (insn, dest_death);
395
            }
396
 
397
          /* Put death note of DEST on P if we saw it die.  */
398
          if (dest_death)
399
            {
400
              XEXP (dest_death, 1) = REG_NOTES (p);
401
              REG_NOTES (p) = dest_death;
402
 
403
              if (dregno >= FIRST_PSEUDO_REGISTER)
404
                {
405
                  /* If and only if we are moving the death note for DREGNO,
406
                     then we need to update its counters.  */
407
                  if (REG_LIVE_LENGTH (dregno) >= 0)
408
                    REG_LIVE_LENGTH (dregno) += d_length;
409
                  REG_N_CALLS_CROSSED (dregno) += d_n_calls;
410
                  REG_FREQ_CALLS_CROSSED (dregno) += d_freq_calls;
411
                }
412
            }
413
 
414
          return ! failed;
415
        }
416
 
417
      /* If SRC is a hard register which is set or killed in some other
418
         way, we can't do this optimization.  */
419
      else if (sregno < FIRST_PSEUDO_REGISTER
420
               && dead_or_set_p (p, src))
421
        break;
422
    }
423
  return 0;
424
}
425
 
426
/* INSN is a copy of SRC to DEST, in which SRC dies.  See if we now have
427
   a sequence of insns that modify DEST followed by an insn that sets
428
   SRC to DEST in which DEST dies, with no prior modification of DEST.
429
   (There is no need to check if the insns in between actually modify
430
   DEST.  We should not have cases where DEST is not modified, but
431
   the optimization is safe if no such modification is detected.)
432
   In that case, we can replace all uses of DEST, starting with INSN and
433
   ending with the set of SRC to DEST, with SRC.  We do not do this
434
   optimization if a CALL_INSN is crossed unless SRC already crosses a
435
   call or if DEST dies before the copy back to SRC.
436
 
437
   It is assumed that DEST and SRC are pseudos; it is too complicated to do
438
   this for hard registers since the substitutions we may make might fail.  */
439
 
440
static void
441
optimize_reg_copy_2 (rtx insn, rtx dest, rtx src)
442
{
443
  rtx p, q;
444
  rtx set;
445
  int sregno = REGNO (src);
446
  int dregno = REGNO (dest);
447
  basic_block bb = BLOCK_FOR_INSN (insn);
448
 
449
  for (p = NEXT_INSN (insn); p; p = NEXT_INSN (p))
450
    {
451
      if (! INSN_P (p))
452
        continue;
453
      if (BLOCK_FOR_INSN (p) != bb)
454
        break;
455
 
456
      set = single_set (p);
457
      if (set && SET_SRC (set) == dest && SET_DEST (set) == src
458
          && find_reg_note (p, REG_DEAD, dest))
459
        {
460
          /* We can do the optimization.  Scan forward from INSN again,
461
             replacing regs as we go.  */
462
 
463
          /* Set to stop at next insn.  */
464
          for (q = insn; q != NEXT_INSN (p); q = NEXT_INSN (q))
465
            if (INSN_P (q))
466
              {
467
                if (reg_mentioned_p (dest, PATTERN (q)))
468
                  {
469
                    rtx note;
470
 
471
                    PATTERN (q) = replace_rtx (PATTERN (q), dest, src);
472
                    note = FIND_REG_INC_NOTE (q, dest);
473
                    if (note)
474
                      {
475
                        remove_note (q, note);
476
                        add_reg_note (q, REG_INC, src);
477
                      }
478
                    df_insn_rescan (q);
479
                  }
480
 
481
                if (CALL_P (q))
482
                  {
483
                    int freq = REG_FREQ_FROM_BB  (BLOCK_FOR_INSN (q));
484
                    REG_N_CALLS_CROSSED (dregno)--;
485
                    REG_N_CALLS_CROSSED (sregno)++;
486
                    REG_FREQ_CALLS_CROSSED (dregno) -= freq;
487
                    REG_FREQ_CALLS_CROSSED (sregno) += freq;
488
                  }
489
              }
490
 
491
          remove_note (p, find_reg_note (p, REG_DEAD, dest));
492
          REG_N_DEATHS (dregno)--;
493
          remove_note (insn, find_reg_note (insn, REG_DEAD, src));
494
          REG_N_DEATHS (sregno)--;
495
          return;
496
        }
497
 
498
      if (reg_set_p (src, p)
499
          || find_reg_note (p, REG_DEAD, dest)
500
          || (CALL_P (p) && REG_N_CALLS_CROSSED (sregno) == 0))
501
        break;
502
    }
503
}
504
 
505
/* INSN is a ZERO_EXTEND or SIGN_EXTEND of SRC to DEST.
506
   Look if SRC dies there, and if it is only set once, by loading
507
   it from memory.  If so, try to incorporate the zero/sign extension
508
   into the memory read, change SRC to the mode of DEST, and alter
509
   the remaining accesses to use the appropriate SUBREG.  This allows
510
   SRC and DEST to be tied later.  */
511
static void
512
optimize_reg_copy_3 (rtx insn, rtx dest, rtx src)
513
{
514
  rtx src_reg = XEXP (src, 0);
515
  int src_no = REGNO (src_reg);
516
  int dst_no = REGNO (dest);
517
  rtx p, set, set_insn;
518
  enum machine_mode old_mode;
519
  basic_block bb = BLOCK_FOR_INSN (insn);
520
 
521
  if (src_no < FIRST_PSEUDO_REGISTER
522
      || dst_no < FIRST_PSEUDO_REGISTER
523
      || ! find_reg_note (insn, REG_DEAD, src_reg)
524
      || REG_N_DEATHS (src_no) != 1
525
      || REG_N_SETS (src_no) != 1)
526
    return;
527
 
528
  for (p = PREV_INSN (insn); p && ! reg_set_p (src_reg, p); p = PREV_INSN (p))
529
    if (INSN_P (p) && BLOCK_FOR_INSN (p) != bb)
530
      break;
531
 
532
  if (! p || BLOCK_FOR_INSN (p) != bb)
533
    return;
534
 
535
  if (! (set = single_set (p))
536
      || !MEM_P (SET_SRC (set))
537
      /* If there's a REG_EQUIV note, this must be an insn that loads an
538
         argument.  Prefer keeping the note over doing this optimization.  */
539
      || find_reg_note (p, REG_EQUIV, NULL_RTX)
540
      || SET_DEST (set) != src_reg)
541
    return;
542
 
543
  /* Be conservative: although this optimization is also valid for
544
     volatile memory references, that could cause trouble in later passes.  */
545
  if (MEM_VOLATILE_P (SET_SRC (set)))
546
    return;
547
 
548
  /* Do not use a SUBREG to truncate from one mode to another if truncation
549
     is not a nop.  */
550
  if (GET_MODE_BITSIZE (GET_MODE (src_reg)) <= GET_MODE_BITSIZE (GET_MODE (src))
551
      && !TRULY_NOOP_TRUNCATION_MODES_P (GET_MODE (src), GET_MODE (src_reg)))
552
    return;
553
 
554
  set_insn = p;
555
  old_mode = GET_MODE (src_reg);
556
  PUT_MODE (src_reg, GET_MODE (src));
557
  XEXP (src, 0) = SET_SRC (set);
558
 
559
  /* Include this change in the group so that it's easily undone if
560
     one of the changes in the group is invalid.  */
561
  validate_change (p, &SET_SRC (set), src, 1);
562
 
563
  /* Now walk forward making additional replacements.  We want to be able
564
     to undo all the changes if a later substitution fails.  */
565
  while (p = NEXT_INSN (p), p != insn)
566
    {
567
      if (! INSN_P (p))
568
        continue;
569
 
570
      /* Make a tentative change.  */
571
      validate_replace_rtx_group (src_reg,
572
                                  gen_lowpart_SUBREG (old_mode, src_reg),
573
                                  p);
574
    }
575
 
576
  validate_replace_rtx_group (src, src_reg, insn);
577
 
578
  /* Now see if all the changes are valid.  */
579
  if (! apply_change_group ())
580
    {
581
      /* One or more changes were no good.  Back out everything.  */
582
      PUT_MODE (src_reg, old_mode);
583
      XEXP (src, 0) = src_reg;
584
    }
585
  else
586
    {
587
      rtx note = find_reg_note (set_insn, REG_EQUAL, NULL_RTX);
588
      if (note)
589
        {
590
          if (rtx_equal_p (XEXP (note, 0), XEXP (src, 0)))
591
            {
592
              XEXP (note, 0)
593
                = gen_rtx_fmt_e (GET_CODE (src), GET_MODE (src),
594
                                 XEXP (note, 0));
595
              df_notes_rescan (set_insn);
596
            }
597
          else
598
            remove_note (set_insn, note);
599
        }
600
    }
601
}
602
 
603
 
604
/* If we were not able to update the users of src to use dest directly, try
605
   instead moving the value to dest directly before the operation.  */
606
 
607
static void
608
copy_src_to_dest (rtx insn, rtx src, rtx dest)
609
{
610
  rtx seq;
611
  rtx link;
612
  rtx next;
613
  rtx set;
614
  rtx move_insn;
615
  rtx *p_insn_notes;
616
  rtx *p_move_notes;
617
  int src_regno;
618
  int dest_regno;
619
 
620
  /* A REG_LIVE_LENGTH of -1 indicates the register is equivalent to a constant
621
     or memory location and is used infrequently; a REG_LIVE_LENGTH of -2 is
622
     parameter when there is no frame pointer that is not allocated a register.
623
     For now, we just reject them, rather than incrementing the live length.  */
624
 
625
  if (REG_P (src)
626
      && REG_LIVE_LENGTH (REGNO (src)) > 0
627
      && REG_P (dest)
628
      && REG_LIVE_LENGTH (REGNO (dest)) > 0
629
      && (set = single_set (insn)) != NULL_RTX
630
      && !reg_mentioned_p (dest, SET_SRC (set))
631
      && GET_MODE (src) == GET_MODE (dest))
632
    {
633
      int old_num_regs = reg_rtx_no;
634
 
635
      /* Generate the src->dest move.  */
636
      start_sequence ();
637
      emit_move_insn (dest, src);
638
      seq = get_insns ();
639
      end_sequence ();
640
      /* If this sequence uses new registers, we may not use it.  */
641
      if (old_num_regs != reg_rtx_no
642
          || ! validate_replace_rtx (src, dest, insn))
643
        {
644
          /* We have to restore reg_rtx_no to its old value, lest
645
             recompute_reg_usage will try to compute the usage of the
646
             new regs, yet reg_n_info is not valid for them.  */
647
          reg_rtx_no = old_num_regs;
648
          return;
649
        }
650
      emit_insn_before (seq, insn);
651
      move_insn = PREV_INSN (insn);
652
      p_move_notes = &REG_NOTES (move_insn);
653
      p_insn_notes = &REG_NOTES (insn);
654
 
655
      /* Move any notes mentioning src to the move instruction.  */
656
      for (link = REG_NOTES (insn); link != NULL_RTX; link = next)
657
        {
658
          next = XEXP (link, 1);
659
          if (XEXP (link, 0) == src)
660
            {
661
              *p_move_notes = link;
662
              p_move_notes = &XEXP (link, 1);
663
            }
664
          else
665
            {
666
              *p_insn_notes = link;
667
              p_insn_notes = &XEXP (link, 1);
668
            }
669
        }
670
 
671
      *p_move_notes = NULL_RTX;
672
      *p_insn_notes = NULL_RTX;
673
 
674
      /* Update the various register tables.  */
675
      dest_regno = REGNO (dest);
676
      INC_REG_N_SETS (dest_regno, 1);
677
      REG_LIVE_LENGTH (dest_regno)++;
678
      src_regno = REGNO (src);
679
      if (! find_reg_note (move_insn, REG_DEAD, src))
680
        REG_LIVE_LENGTH (src_regno)++;
681
    }
682
}
683
 
684
/* reg_set_in_bb[REGNO] points to basic block iff the register is set
685
   only once in the given block and has REG_EQUAL note.  */
686
 
687
static basic_block *reg_set_in_bb;
688
 
689
/* Size of reg_set_in_bb array.  */
690
static unsigned int max_reg_computed;
691
 
692
 
693
/* Return whether REG is set in only one location, and is set to a
694
   constant, but is set in a different basic block from INSN (an
695
   instructions which uses REG).  In this case REG is equivalent to a
696
   constant, and we don't want to break that equivalence, because that
697
   may increase register pressure and make reload harder.  If REG is
698
   set in the same basic block as INSN, we don't worry about it,
699
   because we'll probably need a register anyhow (??? but what if REG
700
   is used in a different basic block as well as this one?).  */
701
 
702
static bool
703
reg_is_remote_constant_p (rtx reg, rtx insn)
704
{
705
  basic_block bb;
706
  rtx p;
707
  int max;
708
 
709
  if (!reg_set_in_bb)
710
    {
711
      max_reg_computed = max = max_reg_num ();
712
      reg_set_in_bb = XCNEWVEC (basic_block, max);
713
 
714
      FOR_EACH_BB (bb)
715
        FOR_BB_INSNS (bb, p)
716
          {
717
            rtx s;
718
 
719
            if (!INSN_P (p))
720
              continue;
721
            s = single_set (p);
722
            /* This is the instruction which sets REG.  If there is a
723
               REG_EQUAL note, then REG is equivalent to a constant.  */
724
            if (s != 0
725
                && REG_P (SET_DEST (s))
726
                && REG_N_SETS (REGNO (SET_DEST (s))) == 1
727
                && find_reg_note (p, REG_EQUAL, NULL_RTX))
728
              reg_set_in_bb[REGNO (SET_DEST (s))] = bb;
729
          }
730
    }
731
 
732
  gcc_assert (REGNO (reg) < max_reg_computed);
733
  if (reg_set_in_bb[REGNO (reg)] == NULL)
734
    return false;
735
  return (reg_set_in_bb[REGNO (reg)] != BLOCK_FOR_INSN (insn));
736
}
737
 
738
/* INSN is adding a CONST_INT to a REG.  We search backwards looking for
739
   another add immediate instruction with the same source and dest registers,
740
   and if we find one, we change INSN to an increment, and return 1.  If
741
   no changes are made, we return 0.
742
 
743
   This changes
744
     (set (reg100) (plus reg1 offset1))
745
     ...
746
     (set (reg100) (plus reg1 offset2))
747
   to
748
     (set (reg100) (plus reg1 offset1))
749
     ...
750
     (set (reg100) (plus reg100 offset2-offset1))  */
751
 
752
/* ??? What does this comment mean?  */
753
/* cse disrupts preincrement / postdecrement sequences when it finds a
754
   hard register as ultimate source, like the frame pointer.  */
755
 
756
static int
757
fixup_match_2 (rtx insn, rtx dst, rtx src, rtx offset)
758
{
759
  rtx p, dst_death = 0;
760
  int length, num_calls = 0, freq_calls = 0;
761
  basic_block bb = BLOCK_FOR_INSN (insn);
762
 
763
  /* If SRC dies in INSN, we'd have to move the death note.  This is
764
     considered to be very unlikely, so we just skip the optimization
765
     in this case.  */
766
  if (find_regno_note (insn, REG_DEAD, REGNO (src)))
767
    return 0;
768
 
769
  /* Scan backward to find the first instruction that sets DST.  */
770
 
771
  for (length = 0, p = PREV_INSN (insn); p; p = PREV_INSN (p))
772
    {
773
      rtx pset;
774
 
775
      if (! INSN_P (p))
776
        continue;
777
      if (BLOCK_FOR_INSN (p) != bb)
778
        break;
779
 
780
      if (find_regno_note (p, REG_DEAD, REGNO (dst)))
781
        dst_death = p;
782
      if (! dst_death && !DEBUG_INSN_P (p))
783
        length++;
784
 
785
      pset = single_set (p);
786
      if (pset && SET_DEST (pset) == dst
787
          && GET_CODE (SET_SRC (pset)) == PLUS
788
          && XEXP (SET_SRC (pset), 0) == src
789
          && CONST_INT_P (XEXP (SET_SRC (pset), 1)))
790
        {
791
          HOST_WIDE_INT newconst
792
            = INTVAL (offset) - INTVAL (XEXP (SET_SRC (pset), 1));
793
          rtx add = gen_add3_insn (dst, dst, GEN_INT (newconst));
794
 
795
          if (add && validate_change (insn, &PATTERN (insn), add, 0))
796
            {
797
              /* Remove the death note for DST from DST_DEATH.  */
798
              if (dst_death)
799
                {
800
                  remove_death (REGNO (dst), dst_death);
801
                  REG_LIVE_LENGTH (REGNO (dst)) += length;
802
                  REG_N_CALLS_CROSSED (REGNO (dst)) += num_calls;
803
                  REG_FREQ_CALLS_CROSSED (REGNO (dst)) += freq_calls;
804
                }
805
 
806
              if (dump_file)
807
                fprintf (dump_file,
808
                         "Fixed operand of insn %d.\n",
809
                          INSN_UID (insn));
810
 
811
#ifdef AUTO_INC_DEC
812
              for (p = PREV_INSN (insn); p; p = PREV_INSN (p))
813
                {
814
                  if (! INSN_P (p))
815
                    continue;
816
                  if (BLOCK_FOR_INSN (p) != bb)
817
                    break;
818
                  if (reg_overlap_mentioned_p (dst, PATTERN (p)))
819
                    {
820
                      if (try_auto_increment (p, insn, 0, dst, newconst, 0))
821
                        return 1;
822
                      break;
823
                    }
824
                }
825
              for (p = NEXT_INSN (insn); p; p = NEXT_INSN (p))
826
                {
827
                  if (! INSN_P (p))
828
                    continue;
829
                  if (BLOCK_FOR_INSN (p) != bb)
830
                    break;
831
                  if (reg_overlap_mentioned_p (dst, PATTERN (p)))
832
                    {
833
                      try_auto_increment (p, insn, 0, dst, newconst, 1);
834
                      break;
835
                    }
836
                }
837
#endif
838
              return 1;
839
            }
840
        }
841
 
842
      if (reg_set_p (dst, PATTERN (p)))
843
        break;
844
 
845
      /* If we have passed a call instruction, and the
846
         pseudo-reg SRC is not already live across a call,
847
         then don't perform the optimization.  */
848
      /* reg_set_p is overly conservative for CALL_INSNS, thinks that all
849
         hard regs are clobbered.  Thus, we only use it for src for
850
         non-call insns.  */
851
      if (CALL_P (p))
852
        {
853
          if (! dst_death)
854
            {
855
              num_calls++;
856
              freq_calls += REG_FREQ_FROM_BB  (BLOCK_FOR_INSN (p));
857
            }
858
 
859
          if (REG_N_CALLS_CROSSED (REGNO (src)) == 0)
860
            break;
861
 
862
          if ((HARD_REGISTER_P (dst) && call_used_regs [REGNO (dst)])
863
              || find_reg_fusage (p, CLOBBER, dst))
864
            break;
865
        }
866
      else if (reg_set_p (src, PATTERN (p)))
867
        break;
868
    }
869
 
870
  return 0;
871
}
872
 
873
/* A forward pass.  Replace output operands with input operands.  */
874
 
875
static void
876
regmove_forward_pass (void)
877
{
878
  basic_block bb;
879
  rtx insn;
880
 
881
  if (! flag_expensive_optimizations)
882
    return;
883
 
884
  if (dump_file)
885
    fprintf (dump_file, "Starting forward pass...\n");
886
 
887
  FOR_EACH_BB (bb)
888
    {
889
      FOR_BB_INSNS (bb, insn)
890
        {
891
          rtx set = single_set (insn);
892
          if (! set)
893
            continue;
894
 
895
          if ((GET_CODE (SET_SRC (set)) == SIGN_EXTEND
896
               || GET_CODE (SET_SRC (set)) == ZERO_EXTEND)
897
              && REG_P (XEXP (SET_SRC (set), 0))
898
              && REG_P (SET_DEST (set)))
899
            optimize_reg_copy_3 (insn, SET_DEST (set), SET_SRC (set));
900
 
901
          if (REG_P (SET_SRC (set))
902
              && REG_P (SET_DEST (set)))
903
            {
904
              /* If this is a register-register copy where SRC is not dead,
905
                 see if we can optimize it.  If this optimization succeeds,
906
                 it will become a copy where SRC is dead.  */
907
              if ((find_reg_note (insn, REG_DEAD, SET_SRC (set))
908
                   || optimize_reg_copy_1 (insn, SET_DEST (set), SET_SRC (set)))
909
                  && REGNO (SET_DEST (set)) >= FIRST_PSEUDO_REGISTER)
910
                {
911
                  /* Similarly for a pseudo-pseudo copy when SRC is dead.  */
912
                  if (REGNO (SET_SRC (set)) >= FIRST_PSEUDO_REGISTER)
913
                    optimize_reg_copy_2 (insn, SET_DEST (set), SET_SRC (set));
914
                  if (regno_src_regno[REGNO (SET_DEST (set))] < 0
915
                      && SET_SRC (set) != SET_DEST (set))
916
                    {
917
                      int srcregno = REGNO (SET_SRC (set));
918
                      if (regno_src_regno[srcregno] >= 0)
919
                        srcregno = regno_src_regno[srcregno];
920
                      regno_src_regno[REGNO (SET_DEST (set))] = srcregno;
921
                    }
922
                }
923
            }
924
        }
925
    }
926
}
927
 
928
/* A backward pass.  Replace input operands with output operands.  */
929
 
930
static void
931
regmove_backward_pass (void)
932
{
933
  basic_block bb;
934
  rtx insn, prev;
935
 
936
  if (dump_file)
937
    fprintf (dump_file, "Starting backward pass...\n");
938
 
939
  FOR_EACH_BB_REVERSE (bb)
940
    {
941
      /* ??? Use the safe iterator because fixup_match_2 can remove
942
             insns via try_auto_increment.  */
943
      FOR_BB_INSNS_REVERSE_SAFE (bb, insn, prev)
944
        {
945
          struct match match;
946
          rtx copy_src, copy_dst;
947
          int op_no, match_no;
948
          int success = 0;
949
 
950
          if (! INSN_P (insn))
951
            continue;
952
 
953
          if (! find_matches (insn, &match))
954
            continue;
955
 
956
          /* Now scan through the operands looking for a destination operand
957
             which is supposed to match a source operand.
958
             Then scan backward for an instruction which sets the source
959
             operand.  If safe, then replace the source operand with the
960
             dest operand in both instructions.  */
961
 
962
          copy_src = NULL_RTX;
963
          copy_dst = NULL_RTX;
964
          for (op_no = 0; op_no < recog_data.n_operands; op_no++)
965
            {
966
              rtx set, p, src, dst;
967
              rtx src_note, dst_note;
968
              int num_calls = 0, freq_calls = 0;
969
              enum reg_class src_class, dst_class;
970
              int length;
971
 
972
              match_no = match.with[op_no];
973
 
974
              /* Nothing to do if the two operands aren't supposed to match.  */
975
              if (match_no < 0)
976
                continue;
977
 
978
              dst = recog_data.operand[match_no];
979
              src = recog_data.operand[op_no];
980
 
981
              if (!REG_P (src))
982
                continue;
983
 
984
              if (!REG_P (dst)
985
                  || REGNO (dst) < FIRST_PSEUDO_REGISTER
986
                  || REG_LIVE_LENGTH (REGNO (dst)) < 0
987
                  || GET_MODE (src) != GET_MODE (dst))
988
                continue;
989
 
990
              /* If the operands already match, then there is nothing to do.  */
991
              if (operands_match_p (src, dst))
992
                continue;
993
 
994
              if (match.commutative[op_no] >= 0)
995
                {
996
                  rtx comm = recog_data.operand[match.commutative[op_no]];
997
                  if (operands_match_p (comm, dst))
998
                    continue;
999
                }
1000
 
1001
              set = single_set (insn);
1002
              if (! set)
1003
                continue;
1004
 
1005
              /* Note that single_set ignores parts of a parallel set for
1006
                 which one of the destinations is REG_UNUSED.  We can't
1007
                 handle that here, since we can wind up rewriting things
1008
                 such that a single register is set twice within a single
1009
                 parallel.  */
1010
              if (reg_set_p (src, insn))
1011
                continue;
1012
 
1013
              /* match_no/dst must be a write-only operand, and
1014
                 operand_operand/src must be a read-only operand.  */
1015
              if (match.use[op_no] != READ
1016
                  || match.use[match_no] != WRITE)
1017
                continue;
1018
 
1019
              if (match.early_clobber[match_no]
1020
                  && count_occurrences (PATTERN (insn), src, 0) > 1)
1021
                continue;
1022
 
1023
              /* Make sure match_no is the destination.  */
1024
              if (recog_data.operand[match_no] != SET_DEST (set))
1025
                continue;
1026
 
1027
              if (REGNO (src) < FIRST_PSEUDO_REGISTER)
1028
                {
1029
                  if (GET_CODE (SET_SRC (set)) == PLUS
1030
                      && CONST_INT_P (XEXP (SET_SRC (set), 1))
1031
                      && XEXP (SET_SRC (set), 0) == src
1032
                      && fixup_match_2 (insn, dst, src,
1033
                                        XEXP (SET_SRC (set), 1)))
1034
                    break;
1035
                  continue;
1036
                }
1037
              src_class = reg_preferred_class (REGNO (src));
1038
              dst_class = reg_preferred_class (REGNO (dst));
1039
 
1040
              if (! (src_note = find_reg_note (insn, REG_DEAD, src)))
1041
                {
1042
                  /* We used to force the copy here like in other cases, but
1043
                     it produces worse code, as it eliminates no copy
1044
                     instructions and the copy emitted will be produced by
1045
                     reload anyway.  On patterns with multiple alternatives,
1046
                     there may be better solution available.
1047
 
1048
                     In particular this change produced slower code for numeric
1049
                     i387 programs.  */
1050
 
1051
                  continue;
1052
                }
1053
 
1054
              if (! regclass_compatible_p (src_class, dst_class))
1055
                {
1056
                  if (!copy_src)
1057
                    {
1058
                      copy_src = src;
1059
                      copy_dst = dst;
1060
                    }
1061
                  continue;
1062
                }
1063
 
1064
              /* Can not modify an earlier insn to set dst if this insn
1065
                 uses an old value in the source.  */
1066
              if (reg_overlap_mentioned_p (dst, SET_SRC (set)))
1067
                {
1068
                  if (!copy_src)
1069
                    {
1070
                      copy_src = src;
1071
                      copy_dst = dst;
1072
                    }
1073
                  continue;
1074
                }
1075
 
1076
              /* If src is set once in a different basic block,
1077
                 and is set equal to a constant, then do not use
1078
                 it for this optimization, as this would make it
1079
                 no longer equivalent to a constant.  */
1080
 
1081
              if (reg_is_remote_constant_p (src, insn))
1082
                {
1083
                  if (!copy_src)
1084
                    {
1085
                      copy_src = src;
1086
                      copy_dst = dst;
1087
                    }
1088
                  continue;
1089
                }
1090
 
1091
 
1092
              if (dump_file)
1093
                fprintf (dump_file,
1094
                         "Could fix operand %d of insn %d matching operand %d.\n",
1095
                         op_no, INSN_UID (insn), match_no);
1096
 
1097
              /* Scan backward to find the first instruction that uses
1098
                 the input operand.  If the operand is set here, then
1099
                 replace it in both instructions with match_no.  */
1100
 
1101
              for (length = 0, p = PREV_INSN (insn); p; p = PREV_INSN (p))
1102
                {
1103
                  rtx pset;
1104
 
1105
                  if (! INSN_P (p))
1106
                    continue;
1107
                  if (BLOCK_FOR_INSN (p) != bb)
1108
                    break;
1109
 
1110
                  if (!DEBUG_INSN_P (p))
1111
                    length++;
1112
 
1113
                  /* ??? See if all of SRC is set in P.  This test is much
1114
                     more conservative than it needs to be.  */
1115
                  pset = single_set (p);
1116
                  if (pset && SET_DEST (pset) == src)
1117
                    {
1118
                      /* We use validate_replace_rtx, in case there
1119
                         are multiple identical source operands.  All
1120
                         of them have to be changed at the same time:
1121
                         when validate_replace_rtx() calls
1122
                         apply_change_group().  */
1123
                      validate_change (p, &SET_DEST (pset), dst, 1);
1124
                      if (validate_replace_rtx (src, dst, insn))
1125
                        success = 1;
1126
                      break;
1127
                    }
1128
 
1129
                  /* We can't make this change if DST is mentioned at
1130
                     all in P, since we are going to change its value.
1131
                     We can't make this change if SRC is read or
1132
                     partially written in P, since we are going to
1133
                     eliminate SRC.  However, if it's a debug insn, we
1134
                     can't refrain from making the change, for this
1135
                     would cause codegen differences, so instead we
1136
                     invalidate debug expressions that reference DST,
1137
                     and adjust references to SRC in them so that they
1138
                     become references to DST.  */
1139
                  if (reg_mentioned_p (dst, PATTERN (p)))
1140
                    {
1141
                      if (DEBUG_INSN_P (p))
1142
                        validate_change (p, &INSN_VAR_LOCATION_LOC (p),
1143
                                         gen_rtx_UNKNOWN_VAR_LOC (), 1);
1144
                      else
1145
                        break;
1146
                    }
1147
                  if (reg_overlap_mentioned_p (src, PATTERN (p)))
1148
                    {
1149
                      if (DEBUG_INSN_P (p))
1150
                        validate_replace_rtx_group (src, dst, p);
1151
                      else
1152
                        break;
1153
                    }
1154
 
1155
                  /* If we have passed a call instruction, and the
1156
                     pseudo-reg DST is not already live across a call,
1157
                     then don't perform the optimization.  */
1158
                  if (CALL_P (p))
1159
                    {
1160
                      num_calls++;
1161
                      freq_calls += REG_FREQ_FROM_BB  (BLOCK_FOR_INSN (p));
1162
 
1163
                      if (REG_N_CALLS_CROSSED (REGNO (dst)) == 0)
1164
                        break;
1165
                    }
1166
                }
1167
 
1168
              if (success)
1169
                {
1170
                  int dstno, srcno;
1171
 
1172
                  /* Remove the death note for SRC from INSN.  */
1173
                  remove_note (insn, src_note);
1174
                  /* Move the death note for SRC to P if it is used
1175
                     there.  */
1176
                  if (reg_overlap_mentioned_p (src, PATTERN (p)))
1177
                    {
1178
                      XEXP (src_note, 1) = REG_NOTES (p);
1179
                      REG_NOTES (p) = src_note;
1180
                    }
1181
                  /* If there is a REG_DEAD note for DST on P, then remove
1182
                     it, because DST is now set there.  */
1183
                  if ((dst_note = find_reg_note (p, REG_DEAD, dst)))
1184
                    remove_note (p, dst_note);
1185
 
1186
                  dstno = REGNO (dst);
1187
                  srcno = REGNO (src);
1188
 
1189
                  INC_REG_N_SETS (dstno, 1);
1190
                  INC_REG_N_SETS (srcno, -1);
1191
 
1192
                  REG_N_CALLS_CROSSED (dstno) += num_calls;
1193
                  REG_N_CALLS_CROSSED (srcno) -= num_calls;
1194
                  REG_FREQ_CALLS_CROSSED (dstno) += freq_calls;
1195
                  REG_FREQ_CALLS_CROSSED (srcno) -= freq_calls;
1196
 
1197
                  REG_LIVE_LENGTH (dstno) += length;
1198
                  if (REG_LIVE_LENGTH (srcno) >= 0)
1199
                    {
1200
                      REG_LIVE_LENGTH (srcno) -= length;
1201
                      /* REG_LIVE_LENGTH is only an approximation after
1202
                         combine if sched is not run, so make sure that we
1203
                         still have a reasonable value.  */
1204
                      if (REG_LIVE_LENGTH (srcno) < 2)
1205
                        REG_LIVE_LENGTH (srcno) = 2;
1206
                    }
1207
 
1208
                  if (dump_file)
1209
                    fprintf (dump_file,
1210
                             "Fixed operand %d of insn %d matching operand %d.\n",
1211
                             op_no, INSN_UID (insn), match_no);
1212
 
1213
                  break;
1214
                }
1215
              else if (num_changes_pending () > 0)
1216
                cancel_changes (0);
1217
            }
1218
 
1219
          /* If we weren't able to replace any of the alternatives, try an
1220
             alternative approach of copying the source to the destination.  */
1221
          if (!success && copy_src != NULL_RTX)
1222
            copy_src_to_dest (insn, copy_src, copy_dst);
1223
        }
1224
    }
1225
}
1226
 
1227
/* Main entry for the register move optimization.  */
1228
 
1229
static unsigned int
1230
regmove_optimize (void)
1231
{
1232
  int i;
1233
  int nregs = max_reg_num ();
1234
 
1235
  df_note_add_problem ();
1236
  df_analyze ();
1237
 
1238
  regstat_init_n_sets_and_refs ();
1239
  regstat_compute_ri ();
1240
 
1241
  if (flag_ira_loop_pressure)
1242
    ira_set_pseudo_classes (dump_file);
1243
 
1244
  regno_src_regno = XNEWVEC (int, nregs);
1245
  for (i = nregs; --i >= 0; )
1246
    regno_src_regno[i] = -1;
1247
 
1248
  /* A forward pass.  Replace output operands with input operands.  */
1249
  regmove_forward_pass ();
1250
 
1251
  /* A backward pass.  Replace input operands with output operands.  */
1252
  regmove_backward_pass ();
1253
 
1254
  /* Clean up.  */
1255
  free (regno_src_regno);
1256
  if (reg_set_in_bb)
1257
    {
1258
      free (reg_set_in_bb);
1259
      reg_set_in_bb = NULL;
1260
    }
1261
  regstat_free_n_sets_and_refs ();
1262
  regstat_free_ri ();
1263
  if (flag_ira_loop_pressure)
1264
    free_reg_info ();
1265
  return 0;
1266
}
1267
 
1268
/* Returns nonzero if INSN's pattern has matching constraints for any operand.
1269
   Returns 0 if INSN can't be recognized, or if the alternative can't be
1270
   determined.
1271
 
1272
   Initialize the info in MATCHP based on the constraints.  */
1273
 
1274
static int
1275
find_matches (rtx insn, struct match *matchp)
1276
{
1277
  int likely_spilled[MAX_RECOG_OPERANDS];
1278
  int op_no;
1279
  int any_matches = 0;
1280
 
1281
  extract_insn (insn);
1282
  if (! constrain_operands (0))
1283
    return 0;
1284
 
1285
  /* Must initialize this before main loop, because the code for
1286
     the commutative case may set matches for operands other than
1287
     the current one.  */
1288
  for (op_no = recog_data.n_operands; --op_no >= 0; )
1289
    matchp->with[op_no] = matchp->commutative[op_no] = -1;
1290
 
1291
  for (op_no = 0; op_no < recog_data.n_operands; op_no++)
1292
    {
1293
      const char *p;
1294
      char c;
1295
      int i = 0;
1296
 
1297
      p = recog_data.constraints[op_no];
1298
 
1299
      likely_spilled[op_no] = 0;
1300
      matchp->use[op_no] = READ;
1301
      matchp->early_clobber[op_no] = 0;
1302
      if (*p == '=')
1303
        matchp->use[op_no] = WRITE;
1304
      else if (*p == '+')
1305
        matchp->use[op_no] = READWRITE;
1306
 
1307
      for (;*p && i < which_alternative; p++)
1308
        if (*p == ',')
1309
          i++;
1310
 
1311
      while ((c = *p) != '\0' && c != ',')
1312
        {
1313
          switch (c)
1314
            {
1315
            case '=':
1316
              break;
1317
            case '+':
1318
              break;
1319
            case '&':
1320
              matchp->early_clobber[op_no] = 1;
1321
              break;
1322
            case '%':
1323
              matchp->commutative[op_no] = op_no + 1;
1324
              matchp->commutative[op_no + 1] = op_no;
1325
              break;
1326
 
1327
            case '0': case '1': case '2': case '3': case '4':
1328
            case '5': case '6': case '7': case '8': case '9':
1329
              {
1330
                char *end;
1331
                unsigned long match_ul = strtoul (p, &end, 10);
1332
                int match = match_ul;
1333
 
1334
                p = end;
1335
 
1336
                if (match < op_no && likely_spilled[match])
1337
                  continue;
1338
                matchp->with[op_no] = match;
1339
                any_matches = 1;
1340
                if (matchp->commutative[op_no] >= 0)
1341
                  matchp->with[matchp->commutative[op_no]] = match;
1342
              }
1343
            continue;
1344
 
1345
          case 'a': case 'b': case 'c': case 'd': case 'e': case 'f': case 'h':
1346
          case 'j': case 'k': case 'l': case 'p': case 'q': case 't': case 'u':
1347
          case 'v': case 'w': case 'x': case 'y': case 'z': case 'A': case 'B':
1348
          case 'C': case 'D': case 'W': case 'Y': case 'Z':
1349
            if (targetm.class_likely_spilled_p (REG_CLASS_FROM_CONSTRAINT ((unsigned char) c, p)))
1350
              likely_spilled[op_no] = 1;
1351
            break;
1352
          }
1353
          p += CONSTRAINT_LEN (c, p);
1354
        }
1355
    }
1356
  return any_matches;
1357
}
1358
 
1359
 
1360
 
1361
static bool
1362
gate_handle_regmove (void)
1363
{
1364
  return (optimize > 0 && flag_regmove);
1365
}
1366
 
1367
 
1368
struct rtl_opt_pass pass_regmove =
1369
{
1370
 {
1371
  RTL_PASS,
1372
  "regmove",                            /* name */
1373
  gate_handle_regmove,                  /* gate */
1374
  regmove_optimize,                     /* execute */
1375
  NULL,                                 /* sub */
1376
  NULL,                                 /* next */
1377
  0,                                    /* static_pass_number */
1378
  TV_REGMOVE,                           /* tv_id */
1379
  0,                                    /* properties_required */
1380
  0,                                    /* properties_provided */
1381
  0,                                    /* properties_destroyed */
1382
  0,                                    /* todo_flags_start */
1383
  TODO_df_finish | TODO_verify_rtl_sharing |
1384
  TODO_ggc_collect                      /* todo_flags_finish */
1385
 }
1386
};

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