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[/] [openrisc/] [trunk/] [gnu-src/] [gcc-4.5.1/] [gcc/] [tree-ssa-sink.c] - Blame information for rev 461

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1 280 jeremybenn
/* Code sinking for trees
2
   Copyright (C) 2001, 2002, 2003, 2004, 2007, 2008, 2009
3
   Free Software Foundation, Inc.
4
   Contributed by Daniel Berlin <dan@dberlin.org>
5
 
6
This file is part of GCC.
7
 
8
GCC is free software; you can redistribute it and/or modify
9
it under the terms of the GNU General Public License as published by
10
the Free Software Foundation; either version 3, or (at your option)
11
any later version.
12
 
13
GCC is distributed in the hope that it will be useful,
14
but WITHOUT ANY WARRANTY; without even the implied warranty of
15
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
16
GNU General Public License 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 "ggc.h"
27
#include "tree.h"
28
#include "basic-block.h"
29
#include "diagnostic.h"
30
#include "tree-inline.h"
31
#include "tree-flow.h"
32
#include "gimple.h"
33
#include "tree-dump.h"
34
#include "timevar.h"
35
#include "fibheap.h"
36
#include "hashtab.h"
37
#include "tree-iterator.h"
38
#include "real.h"
39
#include "alloc-pool.h"
40
#include "tree-pass.h"
41
#include "flags.h"
42
#include "bitmap.h"
43
#include "langhooks.h"
44
#include "cfgloop.h"
45
 
46
/* TODO:
47
   1. Sinking store only using scalar promotion (IE without moving the RHS):
48
 
49
   *q = p;
50
   p = p + 1;
51
   if (something)
52
     *q = <not p>;
53
   else
54
     y = *q;
55
 
56
 
57
   should become
58
   sinktemp = p;
59
   p = p + 1;
60
   if (something)
61
     *q = <not p>;
62
   else
63
   {
64
     *q = sinktemp;
65
     y = *q
66
   }
67
   Store copy propagation will take care of the store elimination above.
68
 
69
 
70
   2. Sinking using Partial Dead Code Elimination.  */
71
 
72
 
73
static struct
74
{
75
  /* The number of statements sunk down the flowgraph by code sinking.  */
76
  int sunk;
77
 
78
} sink_stats;
79
 
80
 
81
/* Given a PHI, and one of its arguments (DEF), find the edge for
82
   that argument and return it.  If the argument occurs twice in the PHI node,
83
   we return NULL.  */
84
 
85
static basic_block
86
find_bb_for_arg (gimple phi, tree def)
87
{
88
  size_t i;
89
  bool foundone = false;
90
  basic_block result = NULL;
91
  for (i = 0; i < gimple_phi_num_args (phi); i++)
92
    if (PHI_ARG_DEF (phi, i) == def)
93
      {
94
        if (foundone)
95
          return NULL;
96
        foundone = true;
97
        result = gimple_phi_arg_edge (phi, i)->src;
98
      }
99
  return result;
100
}
101
 
102
/* When the first immediate use is in a statement, then return true if all
103
   immediate uses in IMM are in the same statement.
104
   We could also do the case where  the first immediate use is in a phi node,
105
   and all the other uses are in phis in the same basic block, but this
106
   requires some expensive checking later (you have to make sure no def/vdef
107
   in the statement occurs for multiple edges in the various phi nodes it's
108
   used in, so that you only have one place you can sink it to.  */
109
 
110
static bool
111
all_immediate_uses_same_place (gimple stmt)
112
{
113
  gimple firstuse = NULL;
114
  ssa_op_iter op_iter;
115
  imm_use_iterator imm_iter;
116
  use_operand_p use_p;
117
  tree var;
118
 
119
  FOR_EACH_SSA_TREE_OPERAND (var, stmt, op_iter, SSA_OP_ALL_DEFS)
120
    {
121
      FOR_EACH_IMM_USE_FAST (use_p, imm_iter, var)
122
        {
123
          if (is_gimple_debug (USE_STMT (use_p)))
124
            continue;
125
          if (firstuse == NULL)
126
            firstuse = USE_STMT (use_p);
127
          else
128
            if (firstuse != USE_STMT (use_p))
129
              return false;
130
        }
131
    }
132
 
133
  return true;
134
}
135
 
136
/* Some global stores don't necessarily have VDEF's of global variables,
137
   but we still must avoid moving them around.  */
138
 
139
bool
140
is_hidden_global_store (gimple stmt)
141
{
142
  /* Check virtual definitions.  If we get here, the only virtual
143
     definitions we should see are those generated by assignment or call
144
     statements.  */
145
  if (gimple_vdef (stmt))
146
    {
147
      tree lhs;
148
 
149
      gcc_assert (is_gimple_assign (stmt) || is_gimple_call (stmt));
150
 
151
      /* Note that we must not check the individual virtual operands
152
         here.  In particular, if this is an aliased store, we could
153
         end up with something like the following (SSA notation
154
         redacted for brevity):
155
 
156
                foo (int *p, int i)
157
                {
158
                  int x;
159
                  p_1 = (i_2 > 3) ? &x : p;
160
 
161
                  # x_4 = VDEF <x_3>
162
                  *p_1 = 5;
163
 
164
                  return 2;
165
                }
166
 
167
         Notice that the store to '*p_1' should be preserved, if we
168
         were to check the virtual definitions in that store, we would
169
         not mark it needed.  This is because 'x' is not a global
170
         variable.
171
 
172
         Therefore, we check the base address of the LHS.  If the
173
         address is a pointer, we check if its name tag or symbol tag is
174
         a global variable.  Otherwise, we check if the base variable
175
         is a global.  */
176
      lhs = gimple_get_lhs (stmt);
177
 
178
      if (REFERENCE_CLASS_P (lhs))
179
        lhs = get_base_address (lhs);
180
 
181
      if (lhs == NULL_TREE)
182
        {
183
          /* If LHS is NULL, it means that we couldn't get the base
184
             address of the reference.  In which case, we should not
185
             move this store.  */
186
          return true;
187
        }
188
      else if (DECL_P (lhs))
189
        {
190
          /* If the store is to a global symbol, we need to keep it.  */
191
          if (is_global_var (lhs))
192
            return true;
193
 
194
        }
195
      else if (INDIRECT_REF_P (lhs))
196
        return ptr_deref_may_alias_global_p (TREE_OPERAND (lhs, 0));
197
      else
198
        gcc_unreachable ();
199
    }
200
 
201
  return false;
202
}
203
 
204
/* Find the nearest common dominator of all of the immediate uses in IMM.  */
205
 
206
static basic_block
207
nearest_common_dominator_of_uses (gimple stmt, bool *debug_stmts)
208
{
209
  bitmap blocks = BITMAP_ALLOC (NULL);
210
  basic_block commondom;
211
  unsigned int j;
212
  bitmap_iterator bi;
213
  ssa_op_iter op_iter;
214
  imm_use_iterator imm_iter;
215
  use_operand_p use_p;
216
  tree var;
217
 
218
  bitmap_clear (blocks);
219
  FOR_EACH_SSA_TREE_OPERAND (var, stmt, op_iter, SSA_OP_ALL_DEFS)
220
    {
221
      FOR_EACH_IMM_USE_FAST (use_p, imm_iter, var)
222
        {
223
          gimple usestmt = USE_STMT (use_p);
224
          basic_block useblock;
225
 
226
          if (gimple_code (usestmt) == GIMPLE_PHI)
227
            {
228
              int idx = PHI_ARG_INDEX_FROM_USE (use_p);
229
 
230
              useblock = gimple_phi_arg_edge (usestmt, idx)->src;
231
            }
232
          else if (is_gimple_debug (usestmt))
233
            {
234
              *debug_stmts = true;
235
              continue;
236
            }
237
          else
238
            {
239
              useblock = gimple_bb (usestmt);
240
            }
241
 
242
          /* Short circuit. Nothing dominates the entry block.  */
243
          if (useblock == ENTRY_BLOCK_PTR)
244
            {
245
              BITMAP_FREE (blocks);
246
              return NULL;
247
            }
248
          bitmap_set_bit (blocks, useblock->index);
249
        }
250
    }
251
  commondom = BASIC_BLOCK (bitmap_first_set_bit (blocks));
252
  EXECUTE_IF_SET_IN_BITMAP (blocks, 0, j, bi)
253
    commondom = nearest_common_dominator (CDI_DOMINATORS, commondom,
254
                                          BASIC_BLOCK (j));
255
  BITMAP_FREE (blocks);
256
  return commondom;
257
}
258
 
259
/* Given a statement (STMT) and the basic block it is currently in (FROMBB),
260
   determine the location to sink the statement to, if any.
261
   Returns true if there is such location; in that case, TOGSI points to the
262
   statement before that STMT should be moved.  */
263
 
264
static bool
265
statement_sink_location (gimple stmt, basic_block frombb,
266
                         gimple_stmt_iterator *togsi)
267
{
268
  gimple use;
269
  tree def;
270
  use_operand_p one_use = NULL_USE_OPERAND_P;
271
  basic_block sinkbb;
272
  use_operand_p use_p;
273
  def_operand_p def_p;
274
  ssa_op_iter iter;
275
  imm_use_iterator imm_iter;
276
 
277
  FOR_EACH_SSA_TREE_OPERAND (def, stmt, iter, SSA_OP_ALL_DEFS)
278
    {
279
      FOR_EACH_IMM_USE_FAST (one_use, imm_iter, def)
280
        {
281
          if (is_gimple_debug (USE_STMT (one_use)))
282
            continue;
283
 
284
          break;
285
        }
286
      if (one_use != NULL_USE_OPERAND_P)
287
        break;
288
    }
289
 
290
  /* Return if there are no immediate uses of this stmt.  */
291
  if (one_use == NULL_USE_OPERAND_P)
292
    return false;
293
 
294
  if (gimple_code (stmt) != GIMPLE_ASSIGN)
295
    return false;
296
 
297
  /* There are a few classes of things we can't or don't move, some because we
298
     don't have code to handle it, some because it's not profitable and some
299
     because it's not legal.
300
 
301
     We can't sink things that may be global stores, at least not without
302
     calculating a lot more information, because we may cause it to no longer
303
     be seen by an external routine that needs it depending on where it gets
304
     moved to.
305
 
306
     We don't want to sink loads from memory.
307
 
308
     We can't sink statements that end basic blocks without splitting the
309
     incoming edge for the sink location to place it there.
310
 
311
     We can't sink statements that have volatile operands.
312
 
313
     We don't want to sink dead code, so anything with 0 immediate uses is not
314
     sunk.
315
 
316
     Don't sink BLKmode assignments if current function has any local explicit
317
     register variables, as BLKmode assignments may involve memcpy or memset
318
     calls or, on some targets, inline expansion thereof that sometimes need
319
     to use specific hard registers.
320
 
321
  */
322
  if (stmt_ends_bb_p (stmt)
323
      || gimple_has_side_effects (stmt)
324
      || is_hidden_global_store (stmt)
325
      || gimple_has_volatile_ops (stmt)
326
      || gimple_vuse (stmt)
327
      || (cfun->has_local_explicit_reg_vars
328
          && TYPE_MODE (TREE_TYPE (gimple_assign_lhs (stmt))) == BLKmode))
329
    return false;
330
 
331
  FOR_EACH_SSA_DEF_OPERAND (def_p, stmt, iter, SSA_OP_ALL_DEFS)
332
    {
333
      tree def = DEF_FROM_PTR (def_p);
334
      if (is_global_var (SSA_NAME_VAR (def))
335
          || SSA_NAME_OCCURS_IN_ABNORMAL_PHI (def))
336
        return false;
337
    }
338
 
339
  FOR_EACH_SSA_USE_OPERAND (use_p, stmt, iter, SSA_OP_ALL_USES)
340
    {
341
      tree use = USE_FROM_PTR (use_p);
342
      if (SSA_NAME_OCCURS_IN_ABNORMAL_PHI (use))
343
        return false;
344
    }
345
 
346
  /* If all the immediate uses are not in the same place, find the nearest
347
     common dominator of all the immediate uses.  For PHI nodes, we have to
348
     find the nearest common dominator of all of the predecessor blocks, since
349
     that is where insertion would have to take place.  */
350
  if (!all_immediate_uses_same_place (stmt))
351
    {
352
      bool debug_stmts = false;
353
      basic_block commondom = nearest_common_dominator_of_uses (stmt,
354
                                                                &debug_stmts);
355
 
356
      if (commondom == frombb)
357
        return false;
358
 
359
      /* Our common dominator has to be dominated by frombb in order to be a
360
         trivially safe place to put this statement, since it has multiple
361
         uses.  */
362
      if (!dominated_by_p (CDI_DOMINATORS, commondom, frombb))
363
        return false;
364
 
365
      /* It doesn't make sense to move to a dominator that post-dominates
366
         frombb, because it means we've just moved it into a path that always
367
         executes if frombb executes, instead of reducing the number of
368
         executions .  */
369
      if (dominated_by_p (CDI_POST_DOMINATORS, frombb, commondom))
370
        {
371
          if (dump_file && (dump_flags & TDF_DETAILS))
372
            fprintf (dump_file, "Not moving store, common dominator post-dominates from block.\n");
373
          return false;
374
        }
375
 
376
      if (commondom == frombb || commondom->loop_depth > frombb->loop_depth)
377
        return false;
378
      if (dump_file && (dump_flags & TDF_DETAILS))
379
        {
380
          fprintf (dump_file, "Common dominator of all uses is %d\n",
381
                   commondom->index);
382
        }
383
 
384
      *togsi = gsi_after_labels (commondom);
385
 
386
      return true;
387
    }
388
 
389
  use = USE_STMT (one_use);
390
  if (gimple_code (use) != GIMPLE_PHI)
391
    {
392
      sinkbb = gimple_bb (use);
393
      if (sinkbb == frombb || sinkbb->loop_depth > frombb->loop_depth
394
          || sinkbb->loop_father != frombb->loop_father)
395
        return false;
396
 
397
      /* Move the expression to a post dominator can't reduce the number of
398
         executions.  */
399
      if (dominated_by_p (CDI_POST_DOMINATORS, frombb, sinkbb))
400
        return false;
401
 
402
      *togsi = gsi_for_stmt (use);
403
 
404
      return true;
405
    }
406
 
407
  /* Note that at this point, all uses must be in the same statement, so it
408
     doesn't matter which def op we choose, pick the first one.  */
409
  FOR_EACH_SSA_TREE_OPERAND (def, stmt, iter, SSA_OP_ALL_DEFS)
410
    break;
411
 
412
  sinkbb = find_bb_for_arg (use, def);
413
  if (!sinkbb)
414
    return false;
415
 
416
  /* This will happen when you have
417
     a_3 = PHI <a_13, a_26>
418
 
419
     a_26 = VDEF <a_3>
420
 
421
     If the use is a phi, and is in the same bb as the def,
422
     we can't sink it.  */
423
 
424
  if (gimple_bb (use) == frombb)
425
    return false;
426
  if (sinkbb == frombb || sinkbb->loop_depth > frombb->loop_depth
427
      || sinkbb->loop_father != frombb->loop_father)
428
    return false;
429
 
430
  /* Move the expression to a post dominator can't reduce the number of
431
     executions.  */
432
  if (dominated_by_p (CDI_POST_DOMINATORS, frombb, sinkbb))
433
    return false;
434
 
435
  *togsi = gsi_after_labels (sinkbb);
436
 
437
  return true;
438
}
439
 
440
/* Perform code sinking on BB */
441
 
442
static void
443
sink_code_in_bb (basic_block bb)
444
{
445
  basic_block son;
446
  gimple_stmt_iterator gsi;
447
  edge_iterator ei;
448
  edge e;
449
  bool last = true;
450
 
451
  /* If this block doesn't dominate anything, there can't be any place to sink
452
     the statements to.  */
453
  if (first_dom_son (CDI_DOMINATORS, bb) == NULL)
454
    goto earlyout;
455
 
456
  /* We can't move things across abnormal edges, so don't try.  */
457
  FOR_EACH_EDGE (e, ei, bb->succs)
458
    if (e->flags & EDGE_ABNORMAL)
459
      goto earlyout;
460
 
461
  for (gsi = gsi_last_bb (bb); !gsi_end_p (gsi);)
462
    {
463
      gimple stmt = gsi_stmt (gsi);
464
      gimple_stmt_iterator togsi;
465
 
466
      if (!statement_sink_location (stmt, bb, &togsi))
467
        {
468
          if (!gsi_end_p (gsi))
469
            gsi_prev (&gsi);
470
          last = false;
471
          continue;
472
        }
473
      if (dump_file)
474
        {
475
          fprintf (dump_file, "Sinking ");
476
          print_gimple_stmt (dump_file, stmt, 0, TDF_VOPS);
477
          fprintf (dump_file, " from bb %d to bb %d\n",
478
                   bb->index, (gsi_bb (togsi))->index);
479
        }
480
 
481
      /* If this is the end of the basic block, we need to insert at the end
482
         of the basic block.  */
483
      if (gsi_end_p (togsi))
484
        gsi_move_to_bb_end (&gsi, gsi_bb (togsi));
485
      else
486
        gsi_move_before (&gsi, &togsi);
487
 
488
      sink_stats.sunk++;
489
 
490
      /* If we've just removed the last statement of the BB, the
491
         gsi_end_p() test below would fail, but gsi_prev() would have
492
         succeeded, and we want it to succeed.  So we keep track of
493
         whether we're at the last statement and pick up the new last
494
         statement.  */
495
      if (last)
496
        {
497
          gsi = gsi_last_bb (bb);
498
          continue;
499
        }
500
 
501
      last = false;
502
      if (!gsi_end_p (gsi))
503
        gsi_prev (&gsi);
504
 
505
    }
506
 earlyout:
507
  for (son = first_dom_son (CDI_POST_DOMINATORS, bb);
508
       son;
509
       son = next_dom_son (CDI_POST_DOMINATORS, son))
510
    {
511
      sink_code_in_bb (son);
512
    }
513
}
514
 
515
/* Perform code sinking.
516
   This moves code down the flowgraph when we know it would be
517
   profitable to do so, or it wouldn't increase the number of
518
   executions of the statement.
519
 
520
   IE given
521
 
522
   a_1 = b + c;
523
   if (<something>)
524
   {
525
   }
526
   else
527
   {
528
     foo (&b, &c);
529
     a_5 = b + c;
530
   }
531
   a_6 = PHI (a_5, a_1);
532
   USE a_6.
533
 
534
   we'll transform this into:
535
 
536
   if (<something>)
537
   {
538
      a_1 = b + c;
539
   }
540
   else
541
   {
542
      foo (&b, &c);
543
      a_5 = b + c;
544
   }
545
   a_6 = PHI (a_5, a_1);
546
   USE a_6.
547
 
548
   Note that this reduces the number of computations of a = b + c to 1
549
   when we take the else edge, instead of 2.
550
*/
551
static void
552
execute_sink_code (void)
553
{
554
  loop_optimizer_init (LOOPS_NORMAL);
555
 
556
  connect_infinite_loops_to_exit ();
557
  memset (&sink_stats, 0, sizeof (sink_stats));
558
  calculate_dominance_info (CDI_DOMINATORS);
559
  calculate_dominance_info (CDI_POST_DOMINATORS);
560
  sink_code_in_bb (EXIT_BLOCK_PTR);
561
  statistics_counter_event (cfun, "Sunk statements", sink_stats.sunk);
562
  free_dominance_info (CDI_POST_DOMINATORS);
563
  remove_fake_exit_edges ();
564
  loop_optimizer_finalize ();
565
}
566
 
567
/* Gate and execute functions for PRE.  */
568
 
569
static unsigned int
570
do_sink (void)
571
{
572
  execute_sink_code ();
573
  return 0;
574
}
575
 
576
static bool
577
gate_sink (void)
578
{
579
  return flag_tree_sink != 0;
580
}
581
 
582
struct gimple_opt_pass pass_sink_code =
583
{
584
 {
585
  GIMPLE_PASS,
586
  "sink",                               /* name */
587
  gate_sink,                            /* gate */
588
  do_sink,                              /* execute */
589
  NULL,                                 /* sub */
590
  NULL,                                 /* next */
591
  0,                                     /* static_pass_number */
592
  TV_TREE_SINK,                         /* tv_id */
593
  PROP_no_crit_edges | PROP_cfg
594
    | PROP_ssa,                         /* properties_required */
595
  0,                                     /* properties_provided */
596
  0,                                     /* properties_destroyed */
597
  0,                                     /* todo_flags_start */
598
  TODO_update_ssa
599
    | TODO_dump_func
600
    | TODO_ggc_collect
601
    | TODO_verify_ssa                   /* todo_flags_finish */
602
 }
603
};

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