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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [loop-doloop.c] - Blame information for rev 867

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1 684 jeremybenn
/* Perform doloop optimizations
2
   Copyright (C) 2004, 2005, 2006, 2007, 2008, 2010
3
   Free Software Foundation, Inc.
4
   Based on code by Michael P. Hayes (m.hayes@elec.canterbury.ac.nz)
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
#include "config.h"
23
#include "system.h"
24
#include "coretypes.h"
25
#include "tm.h"
26
#include "rtl.h"
27
#include "flags.h"
28
#include "expr.h"
29
#include "hard-reg-set.h"
30
#include "basic-block.h"
31
#include "diagnostic-core.h"
32
#include "tm_p.h"
33
#include "cfgloop.h"
34
#include "output.h"
35
#include "params.h"
36
#include "target.h"
37
 
38
/* This module is used to modify loops with a determinable number of
39
   iterations to use special low-overhead looping instructions.
40
 
41
   It first validates whether the loop is well behaved and has a
42
   determinable number of iterations (either at compile or run-time).
43
   It then modifies the loop to use a low-overhead looping pattern as
44
   follows:
45
 
46
   1. A pseudo register is allocated as the loop iteration counter.
47
 
48
   2. The number of loop iterations is calculated and is stored
49
      in the loop counter.
50
 
51
   3. At the end of the loop, the jump insn is replaced by the
52
      doloop_end pattern.  The compare must remain because it might be
53
      used elsewhere.  If the loop-variable or condition register are
54
      used elsewhere, they will be eliminated by flow.
55
 
56
   4. An optional doloop_begin pattern is inserted at the top of the
57
      loop.
58
 
59
   TODO The optimization should only performed when either the biv used for exit
60
   condition is unused at all except for the exit test, or if we do not have to
61
   change its value, since otherwise we have to add a new induction variable,
62
   which usually will not pay up (unless the cost of the doloop pattern is
63
   somehow extremely lower than the cost of compare & jump, or unless the bct
64
   register cannot be used for anything else but doloop -- ??? detect these
65
   cases).  */
66
 
67
#ifdef HAVE_doloop_end
68
 
69
/* Return the loop termination condition for PATTERN or zero
70
   if it is not a decrement and branch jump insn.  */
71
 
72
rtx
73
doloop_condition_get (rtx doloop_pat)
74
{
75
  rtx cmp;
76
  rtx inc;
77
  rtx reg;
78
  rtx inc_src;
79
  rtx condition;
80
  rtx pattern;
81
  rtx cc_reg = NULL_RTX;
82
  rtx reg_orig = NULL_RTX;
83
 
84
  /* The canonical doloop pattern we expect has one of the following
85
     forms:
86
 
87
     1)  (parallel [(set (pc) (if_then_else (condition)
88
                                            (label_ref (label))
89
                                            (pc)))
90
                     (set (reg) (plus (reg) (const_int -1)))
91
                     (additional clobbers and uses)])
92
 
93
     The branch must be the first entry of the parallel (also required
94
     by jump.c), and the second entry of the parallel must be a set of
95
     the loop counter register.  Some targets (IA-64) wrap the set of
96
     the loop counter in an if_then_else too.
97
 
98
     2)  (set (reg) (plus (reg) (const_int -1))
99
         (set (pc) (if_then_else (reg != 0)
100
                                 (label_ref (label))
101
                                 (pc))).
102
 
103
     Some targets (ARM) do the comparison before the branch, as in the
104
     following form:
105
 
106
     3) (parallel [(set (cc) (compare ((plus (reg) (const_int -1), 0)))
107
                   (set (reg) (plus (reg) (const_int -1)))])
108
        (set (pc) (if_then_else (cc == NE)
109
                                (label_ref (label))
110
                                (pc))) */
111
 
112
  pattern = PATTERN (doloop_pat);
113
 
114
  if (GET_CODE (pattern) != PARALLEL)
115
    {
116
      rtx cond;
117
      rtx prev_insn = prev_nondebug_insn (doloop_pat);
118
      rtx cmp_arg1, cmp_arg2;
119
      rtx cmp_orig;
120
 
121
      /* In case the pattern is not PARALLEL we expect two forms
122
         of doloop which are cases 2) and 3) above: in case 2) the
123
         decrement immediately precedes the branch, while in case 3)
124
         the compare and decrement instructions immediately precede
125
         the branch.  */
126
 
127
      if (prev_insn == NULL_RTX || !INSN_P (prev_insn))
128
        return 0;
129
 
130
      cmp = pattern;
131
      if (GET_CODE (PATTERN (prev_insn)) == PARALLEL)
132
        {
133
          /* The third case: the compare and decrement instructions
134
             immediately precede the branch.  */
135
          cmp_orig = XVECEXP (PATTERN (prev_insn), 0, 0);
136
          if (GET_CODE (cmp_orig) != SET)
137
            return 0;
138
          if (GET_CODE (SET_SRC (cmp_orig)) != COMPARE)
139
            return 0;
140
          cmp_arg1 = XEXP (SET_SRC (cmp_orig), 0);
141
          cmp_arg2 = XEXP (SET_SRC (cmp_orig), 1);
142
          if (cmp_arg2 != const0_rtx
143
              || GET_CODE (cmp_arg1) != PLUS)
144
            return 0;
145
          reg_orig = XEXP (cmp_arg1, 0);
146
          if (XEXP (cmp_arg1, 1) != GEN_INT (-1)
147
              || !REG_P (reg_orig))
148
            return 0;
149
          cc_reg = SET_DEST (cmp_orig);
150
 
151
          inc = XVECEXP (PATTERN (prev_insn), 0, 1);
152
        }
153
      else
154
        inc = PATTERN (prev_insn);
155
      /* We expect the condition to be of the form (reg != 0)  */
156
      cond = XEXP (SET_SRC (cmp), 0);
157
      if (GET_CODE (cond) != NE || XEXP (cond, 1) != const0_rtx)
158
        return 0;
159
    }
160
  else
161
    {
162
      cmp = XVECEXP (pattern, 0, 0);
163
      inc = XVECEXP (pattern, 0, 1);
164
    }
165
 
166
  /* Check for (set (reg) (something)).  */
167
  if (GET_CODE (inc) != SET)
168
    return 0;
169
  reg = SET_DEST (inc);
170
  if (! REG_P (reg))
171
    return 0;
172
 
173
  /* Check if something = (plus (reg) (const_int -1)).
174
     On IA-64, this decrement is wrapped in an if_then_else.  */
175
  inc_src = SET_SRC (inc);
176
  if (GET_CODE (inc_src) == IF_THEN_ELSE)
177
    inc_src = XEXP (inc_src, 1);
178
  if (GET_CODE (inc_src) != PLUS
179
      || XEXP (inc_src, 0) != reg
180
      || XEXP (inc_src, 1) != constm1_rtx)
181
    return 0;
182
 
183
  /* Check for (set (pc) (if_then_else (condition)
184
                                       (label_ref (label))
185
                                       (pc))).  */
186
  if (GET_CODE (cmp) != SET
187
      || SET_DEST (cmp) != pc_rtx
188
      || GET_CODE (SET_SRC (cmp)) != IF_THEN_ELSE
189
      || GET_CODE (XEXP (SET_SRC (cmp), 1)) != LABEL_REF
190
      || XEXP (SET_SRC (cmp), 2) != pc_rtx)
191
    return 0;
192
 
193
  /* Extract loop termination condition.  */
194
  condition = XEXP (SET_SRC (cmp), 0);
195
 
196
  /* We expect a GE or NE comparison with 0 or 1.  */
197
  if ((GET_CODE (condition) != GE
198
       && GET_CODE (condition) != NE)
199
      || (XEXP (condition, 1) != const0_rtx
200
          && XEXP (condition, 1) != const1_rtx))
201
    return 0;
202
 
203
  if ((XEXP (condition, 0) == reg)
204
      /* For the third case:  */
205
      || ((cc_reg != NULL_RTX)
206
          && (XEXP (condition, 0) == cc_reg)
207
          && (reg_orig == reg))
208
      || (GET_CODE (XEXP (condition, 0)) == PLUS
209
          && XEXP (XEXP (condition, 0), 0) == reg))
210
   {
211
     if (GET_CODE (pattern) != PARALLEL)
212
     /*  For the second form we expect:
213
 
214
         (set (reg) (plus (reg) (const_int -1))
215
         (set (pc) (if_then_else (reg != 0)
216
                                 (label_ref (label))
217
                                 (pc))).
218
 
219
         is equivalent to the following:
220
 
221
         (parallel [(set (pc) (if_then_else (reg != 1)
222
                                            (label_ref (label))
223
                                            (pc)))
224
                     (set (reg) (plus (reg) (const_int -1)))
225
                     (additional clobbers and uses)])
226
 
227
        For the third form we expect:
228
 
229
        (parallel [(set (cc) (compare ((plus (reg) (const_int -1)), 0))
230
                   (set (reg) (plus (reg) (const_int -1)))])
231
        (set (pc) (if_then_else (cc == NE)
232
                                (label_ref (label))
233
                                (pc)))
234
 
235
        which is equivalent to the following:
236
 
237
        (parallel [(set (cc) (compare (reg,  1))
238
                   (set (reg) (plus (reg) (const_int -1)))
239
                   (set (pc) (if_then_else (NE == cc)
240
                                           (label_ref (label))
241
                                           (pc))))])
242
 
243
        So we return the second form instead for the two cases.
244
 
245
     */
246
        condition = gen_rtx_fmt_ee (NE, VOIDmode, inc_src, const1_rtx);
247
 
248
    return condition;
249
   }
250
 
251
  /* ??? If a machine uses a funny comparison, we could return a
252
     canonicalized form here.  */
253
 
254
  return 0;
255
}
256
 
257
/* Return nonzero if the loop specified by LOOP is suitable for
258
   the use of special low-overhead looping instructions.  DESC
259
   describes the number of iterations of the loop.  */
260
 
261
static bool
262
doloop_valid_p (struct loop *loop, struct niter_desc *desc)
263
{
264
  basic_block *body = get_loop_body (loop), bb;
265
  rtx insn;
266
  unsigned i;
267
  bool result = true;
268
 
269
  /* Check for loops that may not terminate under special conditions.  */
270
  if (!desc->simple_p
271
      || desc->assumptions
272
      || desc->infinite)
273
    {
274
      /* There are some cases that would require a special attention.
275
         For example if the comparison is LEU and the comparison value
276
         is UINT_MAX then the loop will not terminate.  Similarly, if the
277
         comparison code is GEU and the comparison value is 0, the
278
         loop will not terminate.
279
 
280
         If the absolute increment is not 1, the loop can be infinite
281
         even with LTU/GTU, e.g. for (i = 3; i > 0; i -= 2)
282
 
283
         ??? We could compute these conditions at run-time and have a
284
         additional jump around the loop to ensure an infinite loop.
285
         However, it is very unlikely that this is the intended
286
         behavior of the loop and checking for these rare boundary
287
         conditions would pessimize all other code.
288
 
289
         If the loop is executed only a few times an extra check to
290
         restart the loop could use up most of the benefits of using a
291
         count register loop.  Note however, that normally, this
292
         restart branch would never execute, so it could be predicted
293
         well by the CPU.  We should generate the pessimistic code by
294
         default, and have an option, e.g. -funsafe-loops that would
295
         enable count-register loops in this case.  */
296
      if (dump_file)
297
        fprintf (dump_file, "Doloop: Possible infinite iteration case.\n");
298
      result = false;
299
      goto cleanup;
300
    }
301
 
302
  for (i = 0; i < loop->num_nodes; i++)
303
    {
304
      bb = body[i];
305
 
306
      for (insn = BB_HEAD (bb);
307
           insn != NEXT_INSN (BB_END (bb));
308
           insn = NEXT_INSN (insn))
309
        {
310
          /* Different targets have different necessities for low-overhead
311
             looping.  Call the back end for each instruction within the loop
312
             to let it decide whether the insn prohibits a low-overhead loop.
313
             It will then return the cause for it to emit to the dump file.  */
314
          const char * invalid = targetm.invalid_within_doloop (insn);
315
          if (invalid)
316
            {
317
              if (dump_file)
318
                fprintf (dump_file, "Doloop: %s\n", invalid);
319
              result = false;
320
              goto cleanup;
321
            }
322
        }
323
    }
324
  result = true;
325
 
326
cleanup:
327
  free (body);
328
 
329
  return result;
330
}
331
 
332
/* Adds test of COND jumping to DEST on edge *E and set *E to the new fallthru
333
   edge.  If the condition is always false, do not do anything.  If it is always
334
   true, redirect E to DEST and return false.  In all other cases, true is
335
   returned.  */
336
 
337
static bool
338
add_test (rtx cond, edge *e, basic_block dest)
339
{
340
  rtx seq, jump, label;
341
  enum machine_mode mode;
342
  rtx op0 = XEXP (cond, 0), op1 = XEXP (cond, 1);
343
  enum rtx_code code = GET_CODE (cond);
344
  basic_block bb;
345
 
346
  mode = GET_MODE (XEXP (cond, 0));
347
  if (mode == VOIDmode)
348
    mode = GET_MODE (XEXP (cond, 1));
349
 
350
  start_sequence ();
351
  op0 = force_operand (op0, NULL_RTX);
352
  op1 = force_operand (op1, NULL_RTX);
353
  label = block_label (dest);
354
  do_compare_rtx_and_jump (op0, op1, code, 0, mode, NULL_RTX,
355
                           NULL_RTX, label, -1);
356
 
357
  jump = get_last_insn ();
358
  if (!jump || !JUMP_P (jump))
359
    {
360
      /* The condition is always false and the jump was optimized out.  */
361
      end_sequence ();
362
      return true;
363
    }
364
 
365
  seq = get_insns ();
366
  end_sequence ();
367
 
368
  /* There always is at least the jump insn in the sequence.  */
369
  gcc_assert (seq != NULL_RTX);
370
 
371
  bb = split_edge_and_insert (*e, seq);
372
  *e = single_succ_edge (bb);
373
 
374
  if (any_uncondjump_p (jump))
375
    {
376
      /* The condition is always true.  */
377
      delete_insn (jump);
378
      redirect_edge_and_branch_force (*e, dest);
379
      return false;
380
    }
381
 
382
  JUMP_LABEL (jump) = label;
383
 
384
  /* The jump is supposed to handle an unlikely special case.  */
385
  add_reg_note (jump, REG_BR_PROB, const0_rtx);
386
 
387
  LABEL_NUSES (label)++;
388
 
389
  make_edge (bb, dest, (*e)->flags & ~EDGE_FALLTHRU);
390
  return true;
391
}
392
 
393
/* Modify the loop to use the low-overhead looping insn where LOOP
394
   describes the loop, DESC describes the number of iterations of the
395
   loop, and DOLOOP_INSN is the low-overhead looping insn to emit at the
396
   end of the loop.  CONDITION is the condition separated from the
397
   DOLOOP_SEQ.  COUNT is the number of iterations of the LOOP.  */
398
 
399
static void
400
doloop_modify (struct loop *loop, struct niter_desc *desc,
401
               rtx doloop_seq, rtx condition, rtx count)
402
{
403
  rtx counter_reg;
404
  rtx tmp, noloop = NULL_RTX;
405
  rtx sequence;
406
  rtx jump_insn;
407
  rtx jump_label;
408
  int nonneg = 0;
409
  bool increment_count;
410
  basic_block loop_end = desc->out_edge->src;
411
  enum machine_mode mode;
412
  rtx true_prob_val;
413
 
414
  jump_insn = BB_END (loop_end);
415
 
416
  if (dump_file)
417
    {
418
      fprintf (dump_file, "Doloop: Inserting doloop pattern (");
419
      if (desc->const_iter)
420
        fprintf (dump_file, HOST_WIDEST_INT_PRINT_DEC, desc->niter);
421
      else
422
        fputs ("runtime", dump_file);
423
      fputs (" iterations).\n", dump_file);
424
    }
425
 
426
  /* Get the probability of the original branch. If it exists we would
427
     need to update REG_BR_PROB of the new jump_insn.  */
428
  true_prob_val = find_reg_note (jump_insn, REG_BR_PROB, NULL_RTX);
429
 
430
  /* Discard original jump to continue loop.  The original compare
431
     result may still be live, so it cannot be discarded explicitly.  */
432
  delete_insn (jump_insn);
433
 
434
  counter_reg = XEXP (condition, 0);
435
  if (GET_CODE (counter_reg) == PLUS)
436
    counter_reg = XEXP (counter_reg, 0);
437
  mode = GET_MODE (counter_reg);
438
 
439
  increment_count = false;
440
  switch (GET_CODE (condition))
441
    {
442
    case NE:
443
      /* Currently only NE tests against zero and one are supported.  */
444
      noloop = XEXP (condition, 1);
445
      if (noloop != const0_rtx)
446
        {
447
          gcc_assert (noloop == const1_rtx);
448
          increment_count = true;
449
        }
450
      break;
451
 
452
    case GE:
453
      /* Currently only GE tests against zero are supported.  */
454
      gcc_assert (XEXP (condition, 1) == const0_rtx);
455
 
456
      noloop = constm1_rtx;
457
 
458
      /* The iteration count does not need incrementing for a GE test.  */
459
      increment_count = false;
460
 
461
      /* Determine if the iteration counter will be non-negative.
462
         Note that the maximum value loaded is iterations_max - 1.  */
463
      if (desc->niter_max
464
          <= ((unsigned HOST_WIDEST_INT) 1
465
              << (GET_MODE_PRECISION (mode) - 1)))
466
        nonneg = 1;
467
      break;
468
 
469
      /* Abort if an invalid doloop pattern has been generated.  */
470
    default:
471
      gcc_unreachable ();
472
    }
473
 
474
  if (increment_count)
475
    count = simplify_gen_binary (PLUS, mode, count, const1_rtx);
476
 
477
  /* Insert initialization of the count register into the loop header.  */
478
  start_sequence ();
479
  tmp = force_operand (count, counter_reg);
480
  convert_move (counter_reg, tmp, 1);
481
  sequence = get_insns ();
482
  end_sequence ();
483
  emit_insn_after (sequence, BB_END (loop_preheader_edge (loop)->src));
484
 
485
  if (desc->noloop_assumptions)
486
    {
487
      rtx ass = copy_rtx (desc->noloop_assumptions);
488
      basic_block preheader = loop_preheader_edge (loop)->src;
489
      basic_block set_zero
490
              = split_edge (loop_preheader_edge (loop));
491
      basic_block new_preheader
492
              = split_edge (loop_preheader_edge (loop));
493
      edge te;
494
 
495
      /* Expand the condition testing the assumptions and if it does not pass,
496
         reset the count register to 0.  */
497
      redirect_edge_and_branch_force (single_succ_edge (preheader), new_preheader);
498
      set_immediate_dominator (CDI_DOMINATORS, new_preheader, preheader);
499
 
500
      set_zero->count = 0;
501
      set_zero->frequency = 0;
502
 
503
      te = single_succ_edge (preheader);
504
      for (; ass; ass = XEXP (ass, 1))
505
        if (!add_test (XEXP (ass, 0), &te, set_zero))
506
          break;
507
 
508
      if (ass)
509
        {
510
          /* We reached a condition that is always true.  This is very hard to
511
             reproduce (such a loop does not roll, and thus it would most
512
             likely get optimized out by some of the preceding optimizations).
513
             In fact, I do not have any testcase for it.  However, it would
514
             also be very hard to show that it is impossible, so we must
515
             handle this case.  */
516
          set_zero->count = preheader->count;
517
          set_zero->frequency = preheader->frequency;
518
        }
519
 
520
      if (EDGE_COUNT (set_zero->preds) == 0)
521
        {
522
          /* All the conditions were simplified to false, remove the
523
             unreachable set_zero block.  */
524
          delete_basic_block (set_zero);
525
        }
526
      else
527
        {
528
          /* Reset the counter to zero in the set_zero block.  */
529
          start_sequence ();
530
          convert_move (counter_reg, noloop, 0);
531
          sequence = get_insns ();
532
          end_sequence ();
533
          emit_insn_after (sequence, BB_END (set_zero));
534
 
535
          set_immediate_dominator (CDI_DOMINATORS, set_zero,
536
                                   recompute_dominator (CDI_DOMINATORS,
537
                                                        set_zero));
538
        }
539
 
540
      set_immediate_dominator (CDI_DOMINATORS, new_preheader,
541
                               recompute_dominator (CDI_DOMINATORS,
542
                                                    new_preheader));
543
    }
544
 
545
  /* Some targets (eg, C4x) need to initialize special looping
546
     registers.  */
547
#ifdef HAVE_doloop_begin
548
  {
549
    rtx init;
550
    unsigned level = get_loop_level (loop) + 1;
551
    init = gen_doloop_begin (counter_reg,
552
                             desc->const_iter ? desc->niter_expr : const0_rtx,
553
                             GEN_INT (desc->niter_max),
554
                             GEN_INT (level));
555
    if (init)
556
      {
557
        start_sequence ();
558
        emit_insn (init);
559
        sequence = get_insns ();
560
        end_sequence ();
561
        emit_insn_after (sequence, BB_END (loop_preheader_edge (loop)->src));
562
      }
563
  }
564
#endif
565
 
566
  /* Insert the new low-overhead looping insn.  */
567
  emit_jump_insn_after (doloop_seq, BB_END (loop_end));
568
  jump_insn = BB_END (loop_end);
569
  jump_label = block_label (desc->in_edge->dest);
570
  JUMP_LABEL (jump_insn) = jump_label;
571
  LABEL_NUSES (jump_label)++;
572
 
573
  /* Ensure the right fallthru edge is marked, for case we have reversed
574
     the condition.  */
575
  desc->in_edge->flags &= ~EDGE_FALLTHRU;
576
  desc->out_edge->flags |= EDGE_FALLTHRU;
577
 
578
  /* Add a REG_NONNEG note if the actual or estimated maximum number
579
     of iterations is non-negative.  */
580
  if (nonneg)
581
    add_reg_note (jump_insn, REG_NONNEG, NULL_RTX);
582
 
583
  /* Update the REG_BR_PROB note.  */
584
  if (true_prob_val)
585
    {
586
      /* Seems safer to use the branch probability.  */
587
      add_reg_note (jump_insn, REG_BR_PROB,
588
                    GEN_INT (desc->in_edge->probability));
589
    }
590
}
591
 
592
/* Process loop described by LOOP validating that the loop is suitable for
593
   conversion to use a low overhead looping instruction, replacing the jump
594
   insn where suitable.  Returns true if the loop was successfully
595
   modified.  */
596
 
597
static bool
598
doloop_optimize (struct loop *loop)
599
{
600
  enum machine_mode mode;
601
  rtx doloop_seq, doloop_pat, doloop_reg;
602
  rtx iterations, count;
603
  rtx iterations_max;
604
  rtx start_label;
605
  rtx condition;
606
  unsigned level, est_niter;
607
  int max_cost;
608
  struct niter_desc *desc;
609
  unsigned word_mode_size;
610
  unsigned HOST_WIDE_INT word_mode_max;
611
 
612
  if (dump_file)
613
    fprintf (dump_file, "Doloop: Processing loop %d.\n", loop->num);
614
 
615
  iv_analysis_loop_init (loop);
616
 
617
  /* Find the simple exit of a LOOP.  */
618
  desc = get_simple_loop_desc (loop);
619
 
620
  /* Check that loop is a candidate for a low-overhead looping insn.  */
621
  if (!doloop_valid_p (loop, desc))
622
    {
623
      if (dump_file)
624
        fprintf (dump_file,
625
                 "Doloop: The loop is not suitable.\n");
626
      return false;
627
    }
628
  mode = desc->mode;
629
 
630
  est_niter = 3;
631
  if (desc->const_iter)
632
    est_niter = desc->niter;
633
  /* If the estimate on number of iterations is reliable (comes from profile
634
     feedback), use it.  Do not use it normally, since the expected number
635
     of iterations of an unrolled loop is 2.  */
636
  if (loop->header->count)
637
    est_niter = expected_loop_iterations (loop);
638
 
639
  if (est_niter < 3)
640
    {
641
      if (dump_file)
642
        fprintf (dump_file,
643
                 "Doloop: Too few iterations (%u) to be profitable.\n",
644
                 est_niter);
645
      return false;
646
    }
647
 
648
  max_cost
649
    = COSTS_N_INSNS (PARAM_VALUE (PARAM_MAX_ITERATIONS_COMPUTATION_COST));
650
  if (set_src_cost (desc->niter_expr, optimize_loop_for_speed_p (loop))
651
      > max_cost)
652
    {
653
      if (dump_file)
654
        fprintf (dump_file,
655
                 "Doloop: number of iterations too costly to compute.\n");
656
      return false;
657
    }
658
 
659
  count = copy_rtx (desc->niter_expr);
660
  iterations = desc->const_iter ? desc->niter_expr : const0_rtx;
661
  iterations_max = GEN_INT (desc->niter_max);
662
  level = get_loop_level (loop) + 1;
663
 
664
  /* Generate looping insn.  If the pattern FAILs then give up trying
665
     to modify the loop since there is some aspect the back-end does
666
     not like.  */
667
  start_label = block_label (desc->in_edge->dest);
668
  doloop_reg = gen_reg_rtx (mode);
669
  doloop_seq = gen_doloop_end (doloop_reg, iterations, iterations_max,
670
                               GEN_INT (level), start_label);
671
 
672
  word_mode_size = GET_MODE_PRECISION (word_mode);
673
  word_mode_max
674
          = ((unsigned HOST_WIDE_INT) 1 << (word_mode_size - 1) << 1) - 1;
675
  if (! doloop_seq
676
      && mode != word_mode
677
      /* Before trying mode different from the one in that # of iterations is
678
         computed, we must be sure that the number of iterations fits into
679
         the new mode.  */
680
      && (word_mode_size >= GET_MODE_PRECISION (mode)
681
          || desc->niter_max <= word_mode_max))
682
    {
683
      if (word_mode_size > GET_MODE_PRECISION (mode))
684
        {
685
          count = simplify_gen_unary (ZERO_EXTEND, word_mode,
686
                                      count, mode);
687
          iterations = simplify_gen_unary (ZERO_EXTEND, word_mode,
688
                                           iterations, mode);
689
          iterations_max = simplify_gen_unary (ZERO_EXTEND, word_mode,
690
                                               iterations_max, mode);
691
        }
692
      else
693
        {
694
          count = lowpart_subreg (word_mode, count, mode);
695
          iterations = lowpart_subreg (word_mode, iterations, mode);
696
          iterations_max = lowpart_subreg (word_mode, iterations_max, mode);
697
        }
698
      PUT_MODE (doloop_reg, word_mode);
699
      doloop_seq = gen_doloop_end (doloop_reg, iterations, iterations_max,
700
                                   GEN_INT (level), start_label);
701
    }
702
  if (! doloop_seq)
703
    {
704
      if (dump_file)
705
        fprintf (dump_file,
706
                 "Doloop: Target unwilling to use doloop pattern!\n");
707
      return false;
708
    }
709
 
710
  /* If multiple instructions were created, the last must be the
711
     jump instruction.  Also, a raw define_insn may yield a plain
712
     pattern.  */
713
  doloop_pat = doloop_seq;
714
  if (INSN_P (doloop_pat))
715
    {
716
      while (NEXT_INSN (doloop_pat) != NULL_RTX)
717
        doloop_pat = NEXT_INSN (doloop_pat);
718
      if (!JUMP_P (doloop_pat))
719
        doloop_pat = NULL_RTX;
720
    }
721
 
722
  if (! doloop_pat
723
      || ! (condition = doloop_condition_get (doloop_pat)))
724
    {
725
      if (dump_file)
726
        fprintf (dump_file, "Doloop: Unrecognizable doloop pattern!\n");
727
      return false;
728
    }
729
 
730
  doloop_modify (loop, desc, doloop_seq, condition, count);
731
  return true;
732
}
733
 
734
/* This is the main entry point.  Process all loops using doloop_optimize.  */
735
 
736
void
737
doloop_optimize_loops (void)
738
{
739
  loop_iterator li;
740
  struct loop *loop;
741
 
742
  FOR_EACH_LOOP (li, loop, 0)
743
    {
744
      doloop_optimize (loop);
745
    }
746
 
747
  iv_analysis_done ();
748
 
749
#ifdef ENABLE_CHECKING
750
  verify_dominators (CDI_DOMINATORS);
751
  verify_loop_structure ();
752
#endif
753
}
754
#endif /* HAVE_doloop_end */
755
 

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