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[/] [openrisc/] [trunk/] [gnu-src/] [gcc-4.5.1/] [gcc/] [df-scan.c] - Blame information for rev 410

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1 280 jeremybenn
/* Scanning of rtl for dataflow analysis.
2
   Copyright (C) 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007,
3
   2008, 2009, 2010 Free Software Foundation, Inc.
4
   Originally contributed by Michael P. Hayes
5
             (m.hayes@elec.canterbury.ac.nz, mhayes@redhat.com)
6
   Major rewrite contributed by Danny Berlin (dberlin@dberlin.org)
7
             and Kenneth Zadeck (zadeck@naturalbridge.com).
8
 
9
This file is part of GCC.
10
 
11
GCC is free software; you can redistribute it and/or modify it under
12
the terms of the GNU General Public License as published by the Free
13
Software Foundation; either version 3, or (at your option) any later
14
version.
15
 
16
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
17
WARRANTY; without even the implied warranty of MERCHANTABILITY or
18
FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
19
for more details.
20
 
21
You should have received a copy of the GNU General Public License
22
along with GCC; see the file COPYING3.  If not see
23
<http://www.gnu.org/licenses/>.  */
24
 
25
#include "config.h"
26
#include "system.h"
27
#include "coretypes.h"
28
#include "tm.h"
29
#include "rtl.h"
30
#include "tm_p.h"
31
#include "insn-config.h"
32
#include "recog.h"
33
#include "function.h"
34
#include "regs.h"
35
#include "output.h"
36
#include "alloc-pool.h"
37
#include "flags.h"
38
#include "hard-reg-set.h"
39
#include "basic-block.h"
40
#include "sbitmap.h"
41
#include "bitmap.h"
42
#include "timevar.h"
43
#include "tree.h"
44
#include "target.h"
45
#include "target-def.h"
46
#include "df.h"
47
#include "tree-pass.h"
48
 
49
DEF_VEC_P(df_ref);
50
DEF_VEC_ALLOC_P_STACK(df_ref);
51
 
52
#define VEC_df_ref_stack_alloc(alloc) VEC_stack_alloc (df_ref, alloc)
53
 
54
typedef struct df_mw_hardreg *df_mw_hardreg_ptr;
55
 
56
DEF_VEC_P(df_mw_hardreg_ptr);
57
DEF_VEC_ALLOC_P_STACK(df_mw_hardreg_ptr);
58
 
59
#define VEC_df_mw_hardreg_ptr_stack_alloc(alloc) \
60
  VEC_stack_alloc (df_mw_hardreg_ptr, alloc)
61
 
62
#ifndef HAVE_epilogue
63
#define HAVE_epilogue 0
64
#endif
65
#ifndef HAVE_prologue
66
#define HAVE_prologue 0
67
#endif
68
#ifndef HAVE_sibcall_epilogue
69
#define HAVE_sibcall_epilogue 0
70
#endif
71
 
72
#ifndef EPILOGUE_USES
73
#define EPILOGUE_USES(REGNO)  0
74
#endif
75
 
76
/* The following two macros free the vecs that hold either the refs or
77
   the mw refs.  They are a little tricky because the vec has 0
78
   elements is special and is not to be freed.  */
79
#define df_scan_free_ref_vec(V) \
80
  do { \
81
    if (V && *V) \
82
      free (V);  \
83
  } while (0)
84
 
85
#define df_scan_free_mws_vec(V) \
86
  do { \
87
    if (V && *V) \
88
      free (V);  \
89
  } while (0)
90
 
91
/* The set of hard registers in eliminables[i].from. */
92
 
93
static HARD_REG_SET elim_reg_set;
94
 
95
/* Initialize ur_in and ur_out as if all hard registers were partially
96
   available.  */
97
 
98
struct df_collection_rec
99
{
100
  VEC(df_ref,stack) *def_vec;
101
  VEC(df_ref,stack) *use_vec;
102
  VEC(df_ref,stack) *eq_use_vec;
103
  VEC(df_mw_hardreg_ptr,stack) *mw_vec;
104
};
105
 
106
static df_ref df_null_ref_rec[1];
107
static struct df_mw_hardreg * df_null_mw_rec[1];
108
 
109
static void df_ref_record (enum df_ref_class, struct df_collection_rec *,
110
                           rtx, rtx *,
111
                           basic_block, struct df_insn_info *,
112
                           enum df_ref_type, int ref_flags,
113
                           int, int, enum machine_mode);
114
static void df_def_record_1 (struct df_collection_rec *, rtx,
115
                             basic_block, struct df_insn_info *,
116
                             int ref_flags);
117
static void df_defs_record (struct df_collection_rec *, rtx,
118
                            basic_block, struct df_insn_info *,
119
                            int ref_flags);
120
static void df_uses_record (enum df_ref_class, struct df_collection_rec *,
121
                            rtx *, enum df_ref_type,
122
                            basic_block, struct df_insn_info *,
123
                            int ref_flags,
124
                            int, int, enum machine_mode);
125
 
126
static df_ref df_ref_create_structure (enum df_ref_class,
127
                                       struct df_collection_rec *, rtx, rtx *,
128
                                       basic_block, struct df_insn_info *,
129
                                       enum df_ref_type, int ref_flags,
130
                                       int, int, enum machine_mode);
131
 
132
static void df_insn_refs_collect (struct df_collection_rec*,
133
                                  basic_block, struct df_insn_info *);
134
static void df_canonize_collection_rec (struct df_collection_rec *);
135
 
136
static void df_get_regular_block_artificial_uses (bitmap);
137
static void df_get_eh_block_artificial_uses (bitmap);
138
 
139
static void df_record_entry_block_defs (bitmap);
140
static void df_record_exit_block_uses (bitmap);
141
static void df_get_exit_block_use_set (bitmap);
142
static void df_get_entry_block_def_set (bitmap);
143
static void df_grow_ref_info (struct df_ref_info *, unsigned int);
144
static void df_ref_chain_delete_du_chain (df_ref *);
145
static void df_ref_chain_delete (df_ref *);
146
 
147
static void df_refs_add_to_chains (struct df_collection_rec *,
148
                                   basic_block, rtx);
149
 
150
static bool df_insn_refs_verify (struct df_collection_rec *, basic_block, rtx, bool);
151
static void df_entry_block_defs_collect (struct df_collection_rec *, bitmap);
152
static void df_exit_block_uses_collect (struct df_collection_rec *, bitmap);
153
static void df_install_ref (df_ref, struct df_reg_info *,
154
                            struct df_ref_info *, bool);
155
 
156
static int df_ref_compare (const void *, const void *);
157
static int df_mw_compare (const void *, const void *);
158
 
159
/* Indexed by hardware reg number, is true if that register is ever
160
   used in the current function.
161
 
162
   In df-scan.c, this is set up to record the hard regs used
163
   explicitly.  Reload adds in the hard regs used for holding pseudo
164
   regs.  Final uses it to generate the code in the function prologue
165
   and epilogue to save and restore registers as needed.  */
166
 
167
static bool regs_ever_live[FIRST_PSEUDO_REGISTER];
168
 
169
/*----------------------------------------------------------------------------
170
   SCANNING DATAFLOW PROBLEM
171
 
172
   There are several ways in which scanning looks just like the other
173
   dataflow problems.  It shares the all the mechanisms for local info
174
   as well as basic block info.  Where it differs is when and how often
175
   it gets run.  It also has no need for the iterative solver.
176
----------------------------------------------------------------------------*/
177
 
178
/* Problem data for the scanning dataflow function.  */
179
struct df_scan_problem_data
180
{
181
  alloc_pool ref_base_pool;
182
  alloc_pool ref_artificial_pool;
183
  alloc_pool ref_regular_pool;
184
  alloc_pool ref_extract_pool;
185
  alloc_pool insn_pool;
186
  alloc_pool reg_pool;
187
  alloc_pool mw_reg_pool;
188
  bitmap_obstack reg_bitmaps;
189
  bitmap_obstack insn_bitmaps;
190
};
191
 
192
typedef struct df_scan_bb_info *df_scan_bb_info_t;
193
 
194
 
195
/* Internal function to shut down the scanning problem.  */
196
static void
197
df_scan_free_internal (void)
198
{
199
  struct df_scan_problem_data *problem_data
200
    = (struct df_scan_problem_data *) df_scan->problem_data;
201
  unsigned int i;
202
  basic_block bb;
203
 
204
  /* The vectors that hold the refs are not pool allocated because
205
     they come in many sizes.  This makes them impossible to delete
206
     all at once.  */
207
  for (i = 0; i < DF_INSN_SIZE(); i++)
208
    {
209
      struct df_insn_info *insn_info = DF_INSN_UID_GET(i);
210
      /* Skip the insns that have no insn_info or have been
211
         deleted.  */
212
      if (insn_info)
213
        {
214
          df_scan_free_ref_vec (insn_info->defs);
215
          df_scan_free_ref_vec (insn_info->uses);
216
          df_scan_free_ref_vec (insn_info->eq_uses);
217
          df_scan_free_mws_vec (insn_info->mw_hardregs);
218
        }
219
    }
220
 
221
  FOR_ALL_BB (bb)
222
    {
223
      unsigned int bb_index = bb->index;
224
      struct df_scan_bb_info *bb_info = df_scan_get_bb_info (bb_index);
225
      if (bb_info)
226
        {
227
          df_scan_free_ref_vec (bb_info->artificial_defs);
228
          df_scan_free_ref_vec (bb_info->artificial_uses);
229
        }
230
    }
231
 
232
  free (df->def_info.refs);
233
  free (df->def_info.begin);
234
  free (df->def_info.count);
235
  memset (&df->def_info, 0, (sizeof (struct df_ref_info)));
236
 
237
  free (df->use_info.refs);
238
  free (df->use_info.begin);
239
  free (df->use_info.count);
240
  memset (&df->use_info, 0, (sizeof (struct df_ref_info)));
241
 
242
  free (df->def_regs);
243
  df->def_regs = NULL;
244
  free (df->use_regs);
245
  df->use_regs = NULL;
246
  free (df->eq_use_regs);
247
  df->eq_use_regs = NULL;
248
  df->regs_size = 0;
249
  DF_REG_SIZE(df) = 0;
250
 
251
  free (df->insns);
252
  df->insns = NULL;
253
  DF_INSN_SIZE () = 0;
254
 
255
  free (df_scan->block_info);
256
  df_scan->block_info = NULL;
257
  df_scan->block_info_size = 0;
258
 
259
  BITMAP_FREE (df->hardware_regs_used);
260
  BITMAP_FREE (df->regular_block_artificial_uses);
261
  BITMAP_FREE (df->eh_block_artificial_uses);
262
  BITMAP_FREE (df->entry_block_defs);
263
  BITMAP_FREE (df->exit_block_uses);
264
  BITMAP_FREE (df->insns_to_delete);
265
  BITMAP_FREE (df->insns_to_rescan);
266
  BITMAP_FREE (df->insns_to_notes_rescan);
267
 
268
  free_alloc_pool (df_scan->block_pool);
269
  free_alloc_pool (problem_data->ref_base_pool);
270
  free_alloc_pool (problem_data->ref_artificial_pool);
271
  free_alloc_pool (problem_data->ref_regular_pool);
272
  free_alloc_pool (problem_data->ref_extract_pool);
273
  free_alloc_pool (problem_data->insn_pool);
274
  free_alloc_pool (problem_data->reg_pool);
275
  free_alloc_pool (problem_data->mw_reg_pool);
276
  bitmap_obstack_release (&problem_data->reg_bitmaps);
277
  bitmap_obstack_release (&problem_data->insn_bitmaps);
278
  free (df_scan->problem_data);
279
}
280
 
281
 
282
/* Set basic block info.  */
283
 
284
static void
285
df_scan_set_bb_info (unsigned int index,
286
                     struct df_scan_bb_info *bb_info)
287
{
288
  df_grow_bb_info (df_scan);
289
  df_scan->block_info[index] = (void *) bb_info;
290
}
291
 
292
 
293
/* Free basic block info.  */
294
 
295
static void
296
df_scan_free_bb_info (basic_block bb, void *vbb_info)
297
{
298
  struct df_scan_bb_info *bb_info = (struct df_scan_bb_info *) vbb_info;
299
  unsigned int bb_index = bb->index;
300
  if (bb_info)
301
    {
302
      rtx insn;
303
      FOR_BB_INSNS (bb, insn)
304
        {
305
          if (INSN_P (insn))
306
            /* Record defs within INSN.  */
307
            df_insn_delete (bb, INSN_UID (insn));
308
        }
309
 
310
      if (bb_index < df_scan->block_info_size)
311
        bb_info = df_scan_get_bb_info (bb_index);
312
 
313
      /* Get rid of any artificial uses or defs.  */
314
      df_ref_chain_delete_du_chain (bb_info->artificial_defs);
315
      df_ref_chain_delete_du_chain (bb_info->artificial_uses);
316
      df_ref_chain_delete (bb_info->artificial_defs);
317
      df_ref_chain_delete (bb_info->artificial_uses);
318
      bb_info->artificial_defs = NULL;
319
      bb_info->artificial_uses = NULL;
320
      pool_free (df_scan->block_pool, bb_info);
321
    }
322
}
323
 
324
 
325
/* Allocate the problem data for the scanning problem.  This should be
326
   called when the problem is created or when the entire function is to
327
   be rescanned.  */
328
void
329
df_scan_alloc (bitmap all_blocks ATTRIBUTE_UNUSED)
330
{
331
  struct df_scan_problem_data *problem_data;
332
  unsigned int insn_num = get_max_uid () + 1;
333
  unsigned int block_size = 400;
334
  basic_block bb;
335
 
336
  /* Given the number of pools, this is really faster than tearing
337
     everything apart.  */
338
  if (df_scan->problem_data)
339
    df_scan_free_internal ();
340
 
341
  df_scan->block_pool
342
    = create_alloc_pool ("df_scan_block pool",
343
                         sizeof (struct df_scan_bb_info),
344
                         block_size);
345
 
346
  problem_data = XNEW (struct df_scan_problem_data);
347
  df_scan->problem_data = problem_data;
348
  df_scan->computed = true;
349
 
350
  problem_data->ref_base_pool
351
    = create_alloc_pool ("df_scan ref base",
352
                         sizeof (struct df_base_ref), block_size);
353
  problem_data->ref_artificial_pool
354
    = create_alloc_pool ("df_scan ref artificial",
355
                         sizeof (struct df_artificial_ref), block_size);
356
  problem_data->ref_regular_pool
357
    = create_alloc_pool ("df_scan ref regular",
358
                         sizeof (struct df_regular_ref), block_size);
359
  problem_data->ref_extract_pool
360
    = create_alloc_pool ("df_scan ref extract",
361
                         sizeof (struct df_extract_ref), block_size);
362
  problem_data->insn_pool
363
    = create_alloc_pool ("df_scan insn",
364
                         sizeof (struct df_insn_info), block_size);
365
  problem_data->reg_pool
366
    = create_alloc_pool ("df_scan reg",
367
                         sizeof (struct df_reg_info), block_size);
368
  problem_data->mw_reg_pool
369
    = create_alloc_pool ("df_scan mw_reg",
370
                         sizeof (struct df_mw_hardreg), block_size);
371
 
372
  bitmap_obstack_initialize (&problem_data->reg_bitmaps);
373
  bitmap_obstack_initialize (&problem_data->insn_bitmaps);
374
 
375
  insn_num += insn_num / 4;
376
  df_grow_reg_info ();
377
 
378
  df_grow_insn_info ();
379
  df_grow_bb_info (df_scan);
380
 
381
  FOR_ALL_BB (bb)
382
    {
383
      unsigned int bb_index = bb->index;
384
      struct df_scan_bb_info *bb_info = df_scan_get_bb_info (bb_index);
385
      if (!bb_info)
386
        {
387
          bb_info = (struct df_scan_bb_info *) pool_alloc (df_scan->block_pool);
388
          df_scan_set_bb_info (bb_index, bb_info);
389
        }
390
      bb_info->artificial_defs = NULL;
391
      bb_info->artificial_uses = NULL;
392
    }
393
 
394
  df->hardware_regs_used = BITMAP_ALLOC (&problem_data->reg_bitmaps);
395
  df->regular_block_artificial_uses = BITMAP_ALLOC (&problem_data->reg_bitmaps);
396
  df->eh_block_artificial_uses = BITMAP_ALLOC (&problem_data->reg_bitmaps);
397
  df->entry_block_defs = BITMAP_ALLOC (&problem_data->reg_bitmaps);
398
  df->exit_block_uses = BITMAP_ALLOC (&problem_data->reg_bitmaps);
399
  df->insns_to_delete = BITMAP_ALLOC (&problem_data->insn_bitmaps);
400
  df->insns_to_rescan = BITMAP_ALLOC (&problem_data->insn_bitmaps);
401
  df->insns_to_notes_rescan = BITMAP_ALLOC (&problem_data->insn_bitmaps);
402
  df_scan->optional_p = false;
403
}
404
 
405
 
406
/* Free all of the data associated with the scan problem.  */
407
 
408
static void
409
df_scan_free (void)
410
{
411
  if (df_scan->problem_data)
412
    df_scan_free_internal ();
413
 
414
  if (df->blocks_to_analyze)
415
    {
416
      BITMAP_FREE (df->blocks_to_analyze);
417
      df->blocks_to_analyze = NULL;
418
    }
419
 
420
  free (df_scan);
421
}
422
 
423
/* Dump the preamble for DF_SCAN dump. */
424
static void
425
df_scan_start_dump (FILE *file ATTRIBUTE_UNUSED)
426
{
427
  int i;
428
  int dcount = 0;
429
  int ucount = 0;
430
  int ecount = 0;
431
  int icount = 0;
432
  int ccount = 0;
433
  basic_block bb;
434
  rtx insn;
435
 
436
  fprintf (file, ";;  invalidated by call \t");
437
  df_print_regset (file, regs_invalidated_by_call_regset);
438
  fprintf (file, ";;  hardware regs used \t");
439
  df_print_regset (file, df->hardware_regs_used);
440
  fprintf (file, ";;  regular block artificial uses \t");
441
  df_print_regset (file, df->regular_block_artificial_uses);
442
  fprintf (file, ";;  eh block artificial uses \t");
443
  df_print_regset (file, df->eh_block_artificial_uses);
444
  fprintf (file, ";;  entry block defs \t");
445
  df_print_regset (file, df->entry_block_defs);
446
  fprintf (file, ";;  exit block uses \t");
447
  df_print_regset (file, df->exit_block_uses);
448
  fprintf (file, ";;  regs ever live \t");
449
  for (i = 0; i < FIRST_PSEUDO_REGISTER; i++)
450
    if (df_regs_ever_live_p (i))
451
      fprintf (file, " %d[%s]", i, reg_names[i]);
452
  fprintf (file, "\n;;  ref usage \t");
453
 
454
  for (i = 0; i < (int)df->regs_inited; i++)
455
    if (DF_REG_DEF_COUNT (i) || DF_REG_USE_COUNT (i) || DF_REG_EQ_USE_COUNT (i))
456
      {
457
        const char * sep = "";
458
 
459
        fprintf (file, "r%d={", i);
460
        if (DF_REG_DEF_COUNT (i))
461
          {
462
            fprintf (file, "%dd", DF_REG_DEF_COUNT (i));
463
            sep = ",";
464
            dcount += DF_REG_DEF_COUNT (i);
465
          }
466
        if (DF_REG_USE_COUNT (i))
467
          {
468
            fprintf (file, "%s%du", sep, DF_REG_USE_COUNT (i));
469
            sep = ",";
470
            ucount += DF_REG_USE_COUNT (i);
471
          }
472
        if (DF_REG_EQ_USE_COUNT (i))
473
          {
474
            fprintf (file, "%s%dd", sep, DF_REG_EQ_USE_COUNT (i));
475
            ecount += DF_REG_EQ_USE_COUNT (i);
476
          }
477
        fprintf (file, "} ");
478
      }
479
 
480
  FOR_EACH_BB (bb)
481
    FOR_BB_INSNS (bb, insn)
482
      if (INSN_P (insn))
483
        {
484
          if (CALL_P (insn))
485
            ccount++;
486
          else
487
            icount++;
488
        }
489
 
490
  fprintf (file, "\n;;    total ref usage %d{%dd,%du,%de} in %d{%d regular + %d call} insns.\n",
491
           dcount + ucount + ecount, dcount, ucount, ecount, icount + ccount, icount, ccount);
492
}
493
 
494
/* Dump the bb_info for a given basic block. */
495
static void
496
df_scan_start_block (basic_block bb, FILE *file)
497
{
498
  struct df_scan_bb_info *bb_info
499
    = df_scan_get_bb_info (bb->index);
500
 
501
  if (bb_info)
502
    {
503
      fprintf (file, ";; bb %d artificial_defs: ", bb->index);
504
      df_refs_chain_dump (bb_info->artificial_defs, true, file);
505
      fprintf (file, "\n;; bb %d artificial_uses: ", bb->index);
506
      df_refs_chain_dump (bb_info->artificial_uses, true, file);
507
      fprintf (file, "\n");
508
    }
509
#if 0
510
  {
511
    rtx insn;
512
    FOR_BB_INSNS (bb, insn)
513
      if (INSN_P (insn))
514
        df_insn_debug (insn, false, file);
515
  }
516
#endif
517
}
518
 
519
static struct df_problem problem_SCAN =
520
{
521
  DF_SCAN,                    /* Problem id.  */
522
  DF_NONE,                    /* Direction.  */
523
  df_scan_alloc,              /* Allocate the problem specific data.  */
524
  NULL,                       /* Reset global information.  */
525
  df_scan_free_bb_info,       /* Free basic block info.  */
526
  NULL,                       /* Local compute function.  */
527
  NULL,                       /* Init the solution specific data.  */
528
  NULL,                       /* Iterative solver.  */
529
  NULL,                       /* Confluence operator 0.  */
530
  NULL,                       /* Confluence operator n.  */
531
  NULL,                       /* Transfer function.  */
532
  NULL,                       /* Finalize function.  */
533
  df_scan_free,               /* Free all of the problem information.  */
534
  NULL,                       /* Remove this problem from the stack of dataflow problems.  */
535
  df_scan_start_dump,         /* Debugging.  */
536
  df_scan_start_block,        /* Debugging start block.  */
537
  NULL,                       /* Debugging end block.  */
538
  NULL,                       /* Incremental solution verify start.  */
539
  NULL,                       /* Incremental solution verify end.  */
540
  NULL,                       /* Dependent problem.  */
541
  TV_DF_SCAN,                 /* Timing variable.  */
542
  false                       /* Reset blocks on dropping out of blocks_to_analyze.  */
543
};
544
 
545
 
546
/* Create a new DATAFLOW instance and add it to an existing instance
547
   of DF.  The returned structure is what is used to get at the
548
   solution.  */
549
 
550
void
551
df_scan_add_problem (void)
552
{
553
  df_add_problem (&problem_SCAN);
554
}
555
 
556
 
557
/*----------------------------------------------------------------------------
558
   Storage Allocation Utilities
559
----------------------------------------------------------------------------*/
560
 
561
 
562
/* First, grow the reg_info information.  If the current size is less than
563
   the number of pseudos, grow to 25% more than the number of
564
   pseudos.
565
 
566
   Second, assure that all of the slots up to max_reg_num have been
567
   filled with reg_info structures.  */
568
 
569
void
570
df_grow_reg_info (void)
571
{
572
  unsigned int max_reg = max_reg_num ();
573
  unsigned int new_size = max_reg;
574
  struct df_scan_problem_data *problem_data
575
    = (struct df_scan_problem_data *) df_scan->problem_data;
576
  unsigned int i;
577
 
578
  if (df->regs_size < new_size)
579
    {
580
      new_size += new_size / 4;
581
      df->def_regs = XRESIZEVEC (struct df_reg_info *, df->def_regs, new_size);
582
      df->use_regs = XRESIZEVEC (struct df_reg_info *, df->use_regs, new_size);
583
      df->eq_use_regs = XRESIZEVEC (struct df_reg_info *, df->eq_use_regs,
584
                                    new_size);
585
      df->def_info.begin = XRESIZEVEC (unsigned, df->def_info.begin, new_size);
586
      df->def_info.count = XRESIZEVEC (unsigned, df->def_info.count, new_size);
587
      df->use_info.begin = XRESIZEVEC (unsigned, df->use_info.begin, new_size);
588
      df->use_info.count = XRESIZEVEC (unsigned, df->use_info.count, new_size);
589
      df->regs_size = new_size;
590
    }
591
 
592
  for (i = df->regs_inited; i < max_reg; i++)
593
    {
594
      struct df_reg_info *reg_info;
595
 
596
      reg_info = (struct df_reg_info *) pool_alloc (problem_data->reg_pool);
597
      memset (reg_info, 0, sizeof (struct df_reg_info));
598
      df->def_regs[i] = reg_info;
599
      reg_info = (struct df_reg_info *) pool_alloc (problem_data->reg_pool);
600
      memset (reg_info, 0, sizeof (struct df_reg_info));
601
      df->use_regs[i] = reg_info;
602
      reg_info = (struct df_reg_info *) pool_alloc (problem_data->reg_pool);
603
      memset (reg_info, 0, sizeof (struct df_reg_info));
604
      df->eq_use_regs[i] = reg_info;
605
      df->def_info.begin[i] = 0;
606
      df->def_info.count[i] = 0;
607
      df->use_info.begin[i] = 0;
608
      df->use_info.count[i] = 0;
609
    }
610
 
611
  df->regs_inited = max_reg;
612
}
613
 
614
 
615
/* Grow the ref information.  */
616
 
617
static void
618
df_grow_ref_info (struct df_ref_info *ref_info, unsigned int new_size)
619
{
620
  if (ref_info->refs_size < new_size)
621
    {
622
      ref_info->refs = XRESIZEVEC (df_ref, ref_info->refs, new_size);
623
      memset (ref_info->refs + ref_info->refs_size, 0,
624
              (new_size - ref_info->refs_size) *sizeof (df_ref));
625
      ref_info->refs_size = new_size;
626
    }
627
}
628
 
629
 
630
/* Check and grow the ref information if necessary.  This routine
631
   guarantees total_size + BITMAP_ADDEND amount of entries in refs
632
   array.  It updates ref_info->refs_size only and does not change
633
   ref_info->total_size.  */
634
 
635
static void
636
df_check_and_grow_ref_info (struct df_ref_info *ref_info,
637
                            unsigned bitmap_addend)
638
{
639
  if (ref_info->refs_size < ref_info->total_size + bitmap_addend)
640
    {
641
      int new_size = ref_info->total_size + bitmap_addend;
642
      new_size += ref_info->total_size / 4;
643
      df_grow_ref_info (ref_info, new_size);
644
    }
645
}
646
 
647
 
648
/* Grow the ref information.  If the current size is less than the
649
   number of instructions, grow to 25% more than the number of
650
   instructions.  */
651
 
652
void
653
df_grow_insn_info (void)
654
{
655
  unsigned int new_size = get_max_uid () + 1;
656
  if (DF_INSN_SIZE () < new_size)
657
    {
658
      new_size += new_size / 4;
659
      df->insns = XRESIZEVEC (struct df_insn_info *, df->insns, new_size);
660
      memset (df->insns + df->insns_size, 0,
661
              (new_size - DF_INSN_SIZE ()) *sizeof (struct df_insn_info *));
662
      DF_INSN_SIZE () = new_size;
663
    }
664
}
665
 
666
 
667
 
668
 
669
/*----------------------------------------------------------------------------
670
   PUBLIC INTERFACES FOR SMALL GRAIN CHANGES TO SCANNING.
671
----------------------------------------------------------------------------*/
672
 
673
/* Rescan all of the block_to_analyze or all of the blocks in the
674
   function if df_set_blocks if blocks_to_analyze is NULL;  */
675
 
676
void
677
df_scan_blocks (void)
678
{
679
  basic_block bb;
680
 
681
  df->def_info.ref_order = DF_REF_ORDER_NO_TABLE;
682
  df->use_info.ref_order = DF_REF_ORDER_NO_TABLE;
683
 
684
  df_get_regular_block_artificial_uses (df->regular_block_artificial_uses);
685
  df_get_eh_block_artificial_uses (df->eh_block_artificial_uses);
686
 
687
  bitmap_ior_into (df->eh_block_artificial_uses,
688
                   df->regular_block_artificial_uses);
689
 
690
  /* ENTRY and EXIT blocks have special defs/uses.  */
691
  df_get_entry_block_def_set (df->entry_block_defs);
692
  df_record_entry_block_defs (df->entry_block_defs);
693
  df_get_exit_block_use_set (df->exit_block_uses);
694
  df_record_exit_block_uses (df->exit_block_uses);
695
  df_set_bb_dirty (BASIC_BLOCK (ENTRY_BLOCK));
696
  df_set_bb_dirty (BASIC_BLOCK (EXIT_BLOCK));
697
 
698
  /* Regular blocks */
699
  FOR_EACH_BB (bb)
700
    {
701
      unsigned int bb_index = bb->index;
702
      df_bb_refs_record (bb_index, true);
703
    }
704
}
705
 
706
 
707
/* Create a new ref of type DF_REF_TYPE for register REG at address
708
   LOC within INSN of BB.  This function is only used externally.
709
 
710
   If the REF_FLAGS field contain DF_REF_SIGN_EXTRACT or
711
   DF_REF_ZERO_EXTRACT.  WIDTH, OFFSET and MODE are used to access the
712
   fields if they were constants.  Otherwise they should be -1 if
713
   those flags were set.  */
714
 
715
df_ref
716
df_ref_create (rtx reg, rtx *loc, rtx insn,
717
               basic_block bb,
718
               enum df_ref_type ref_type,
719
               int ref_flags,
720
               int width, int offset, enum machine_mode mode)
721
{
722
  df_ref ref;
723
  struct df_reg_info **reg_info;
724
  struct df_ref_info *ref_info;
725
  df_ref *ref_rec;
726
  df_ref **ref_rec_ptr;
727
  unsigned int count = 0;
728
  bool add_to_table;
729
  enum df_ref_class cl;
730
 
731
  df_grow_reg_info ();
732
 
733
  /* You cannot hack artificial refs.  */
734
  gcc_assert (insn);
735
 
736
  if (width != -1 || offset != -1)
737
    cl = DF_REF_EXTRACT;
738
  else if (loc)
739
    cl = DF_REF_REGULAR;
740
  else
741
    cl = DF_REF_BASE;
742
  ref = df_ref_create_structure (cl, NULL, reg, loc, bb, DF_INSN_INFO_GET (insn),
743
                                 ref_type, ref_flags,
744
                                 width, offset, mode);
745
 
746
  if (DF_REF_REG_DEF_P (ref))
747
    {
748
      reg_info = df->def_regs;
749
      ref_info = &df->def_info;
750
      ref_rec_ptr = &DF_INSN_DEFS (insn);
751
      add_to_table = ref_info->ref_order != DF_REF_ORDER_NO_TABLE;
752
    }
753
  else if (DF_REF_FLAGS (ref) & DF_REF_IN_NOTE)
754
    {
755
      reg_info = df->eq_use_regs;
756
      ref_info = &df->use_info;
757
      ref_rec_ptr = &DF_INSN_EQ_USES (insn);
758
      switch (ref_info->ref_order)
759
        {
760
        case DF_REF_ORDER_UNORDERED_WITH_NOTES:
761
        case DF_REF_ORDER_BY_REG_WITH_NOTES:
762
        case DF_REF_ORDER_BY_INSN_WITH_NOTES:
763
          add_to_table = true;
764
          break;
765
        default:
766
          add_to_table = false;
767
          break;
768
        }
769
    }
770
  else
771
    {
772
      reg_info = df->use_regs;
773
      ref_info = &df->use_info;
774
      ref_rec_ptr = &DF_INSN_USES (insn);
775
      add_to_table = ref_info->ref_order != DF_REF_ORDER_NO_TABLE;
776
    }
777
 
778
  /* Do not add if ref is not in the right blocks.  */
779
  if (add_to_table && df->analyze_subset)
780
    add_to_table = bitmap_bit_p (df->blocks_to_analyze, bb->index);
781
 
782
  df_install_ref (ref, reg_info[DF_REF_REGNO (ref)], ref_info, add_to_table);
783
 
784
  if (add_to_table)
785
    switch (ref_info->ref_order)
786
      {
787
      case DF_REF_ORDER_UNORDERED_WITH_NOTES:
788
      case DF_REF_ORDER_BY_REG_WITH_NOTES:
789
      case DF_REF_ORDER_BY_INSN_WITH_NOTES:
790
        ref_info->ref_order = DF_REF_ORDER_UNORDERED_WITH_NOTES;
791
        break;
792
      default:
793
        ref_info->ref_order = DF_REF_ORDER_UNORDERED;
794
        break;
795
      }
796
 
797
  ref_rec = *ref_rec_ptr;
798
  while (*ref_rec)
799
    {
800
      count++;
801
      ref_rec++;
802
    }
803
 
804
  ref_rec = *ref_rec_ptr;
805
  if (count)
806
    {
807
      ref_rec = XRESIZEVEC (df_ref, ref_rec, count+2);
808
      *ref_rec_ptr = ref_rec;
809
      ref_rec[count] = ref;
810
      ref_rec[count+1] = NULL;
811
      qsort (ref_rec, count + 1, sizeof (df_ref), df_ref_compare);
812
    }
813
  else
814
    {
815
      df_ref *ref_rec = XNEWVEC (df_ref, 2);
816
      ref_rec[0] = ref;
817
      ref_rec[1] = NULL;
818
      *ref_rec_ptr = ref_rec;
819
    }
820
 
821
#if 0
822
  if (dump_file)
823
    {
824
      fprintf (dump_file, "adding ref ");
825
      df_ref_debug (ref, dump_file);
826
    }
827
#endif
828
  /* By adding the ref directly, df_insn_rescan my not find any
829
     differences even though the block will have changed.  So we need
830
     to mark the block dirty ourselves.  */
831
  if (!DEBUG_INSN_P (DF_REF_INSN (ref)))
832
    df_set_bb_dirty (bb);
833
 
834
  return ref;
835
}
836
 
837
 
838
 
839
/*----------------------------------------------------------------------------
840
   UTILITIES TO CREATE AND DESTROY REFS AND CHAINS.
841
----------------------------------------------------------------------------*/
842
 
843
static void
844
df_free_ref (df_ref ref)
845
{
846
  struct df_scan_problem_data *problem_data
847
    = (struct df_scan_problem_data *) df_scan->problem_data;
848
 
849
  switch (DF_REF_CLASS (ref))
850
    {
851
    case DF_REF_BASE:
852
      pool_free (problem_data->ref_base_pool, ref);
853
      break;
854
 
855
    case DF_REF_ARTIFICIAL:
856
      pool_free (problem_data->ref_artificial_pool, ref);
857
      break;
858
 
859
    case DF_REF_REGULAR:
860
      pool_free (problem_data->ref_regular_pool, ref);
861
      break;
862
 
863
    case DF_REF_EXTRACT:
864
      pool_free (problem_data->ref_extract_pool, ref);
865
      break;
866
    }
867
}
868
 
869
 
870
/* Unlink and delete REF at the reg_use, reg_eq_use or reg_def chain.
871
   Also delete the def-use or use-def chain if it exists.  */
872
 
873
static void
874
df_reg_chain_unlink (df_ref ref)
875
{
876
  df_ref next = DF_REF_NEXT_REG (ref);
877
  df_ref prev = DF_REF_PREV_REG (ref);
878
  int id = DF_REF_ID (ref);
879
  struct df_reg_info *reg_info;
880
  df_ref *refs = NULL;
881
 
882
  if (DF_REF_REG_DEF_P (ref))
883
    {
884
      int regno = DF_REF_REGNO (ref);
885
      reg_info = DF_REG_DEF_GET (regno);
886
      refs = df->def_info.refs;
887
    }
888
  else
889
    {
890
      if (DF_REF_FLAGS (ref) & DF_REF_IN_NOTE)
891
        {
892
          reg_info = DF_REG_EQ_USE_GET (DF_REF_REGNO (ref));
893
          switch (df->use_info.ref_order)
894
            {
895
            case DF_REF_ORDER_UNORDERED_WITH_NOTES:
896
            case DF_REF_ORDER_BY_REG_WITH_NOTES:
897
            case DF_REF_ORDER_BY_INSN_WITH_NOTES:
898
              refs = df->use_info.refs;
899
              break;
900
            default:
901
              break;
902
            }
903
        }
904
      else
905
        {
906
          reg_info = DF_REG_USE_GET (DF_REF_REGNO (ref));
907
          refs = df->use_info.refs;
908
        }
909
    }
910
 
911
  if (refs)
912
    {
913
      if (df->analyze_subset)
914
        {
915
          if (bitmap_bit_p (df->blocks_to_analyze, DF_REF_BBNO (ref)))
916
            refs[id] = NULL;
917
        }
918
      else
919
        refs[id] = NULL;
920
    }
921
 
922
  /* Delete any def-use or use-def chains that start here. It is
923
     possible that there is trash in this field.  This happens for
924
     insns that have been deleted when rescanning has been deferred
925
     and the chain problem has also been deleted.  The chain tear down
926
     code skips deleted insns.  */
927
  if (df_chain && DF_REF_CHAIN (ref))
928
    df_chain_unlink (ref);
929
 
930
  reg_info->n_refs--;
931
  if (DF_REF_FLAGS_IS_SET (ref, DF_HARD_REG_LIVE))
932
    {
933
      gcc_assert (DF_REF_REGNO (ref) < FIRST_PSEUDO_REGISTER);
934
      df->hard_regs_live_count[DF_REF_REGNO (ref)]--;
935
    }
936
 
937
  /* Unlink from the reg chain.  If there is no prev, this is the
938
     first of the list.  If not, just join the next and prev.  */
939
  if (prev)
940
    DF_REF_NEXT_REG (prev) = next;
941
  else
942
    {
943
      gcc_assert (reg_info->reg_chain == ref);
944
      reg_info->reg_chain = next;
945
    }
946
  if (next)
947
    DF_REF_PREV_REG (next) = prev;
948
 
949
  df_free_ref (ref);
950
}
951
 
952
 
953
/* Remove REF from VEC.  */
954
 
955
static void
956
df_ref_compress_rec (df_ref **vec_ptr, df_ref ref)
957
{
958
  df_ref *vec = *vec_ptr;
959
 
960
  if (vec[1])
961
    {
962
      while (*vec && *vec != ref)
963
        vec++;
964
 
965
      while (*vec)
966
        {
967
          *vec = *(vec+1);
968
          vec++;
969
        }
970
    }
971
  else
972
    {
973
      free (vec);
974
      *vec_ptr = df_null_ref_rec;
975
    }
976
}
977
 
978
 
979
/* Unlink REF from all def-use/use-def chains, etc.  */
980
 
981
void
982
df_ref_remove (df_ref ref)
983
{
984
#if 0
985
  if (dump_file)
986
    {
987
      fprintf (dump_file, "removing ref ");
988
      df_ref_debug (ref, dump_file);
989
    }
990
#endif
991
 
992
  if (DF_REF_REG_DEF_P (ref))
993
    {
994
      if (DF_REF_IS_ARTIFICIAL (ref))
995
        {
996
          struct df_scan_bb_info *bb_info
997
            = df_scan_get_bb_info (DF_REF_BBNO (ref));
998
          df_ref_compress_rec (&bb_info->artificial_defs, ref);
999
        }
1000
      else
1001
        {
1002
          unsigned int uid = DF_REF_INSN_UID (ref);
1003
          struct df_insn_info *insn_rec = DF_INSN_UID_GET (uid);
1004
          df_ref_compress_rec (&insn_rec->defs, ref);
1005
        }
1006
    }
1007
  else
1008
    {
1009
      if (DF_REF_IS_ARTIFICIAL (ref))
1010
        {
1011
          struct df_scan_bb_info *bb_info
1012
            = df_scan_get_bb_info (DF_REF_BBNO (ref));
1013
          df_ref_compress_rec (&bb_info->artificial_uses, ref);
1014
        }
1015
      else
1016
        {
1017
          unsigned int uid = DF_REF_INSN_UID (ref);
1018
          struct df_insn_info *insn_rec = DF_INSN_UID_GET (uid);
1019
 
1020
          if (DF_REF_FLAGS (ref) & DF_REF_IN_NOTE)
1021
            df_ref_compress_rec (&insn_rec->eq_uses, ref);
1022
          else
1023
            df_ref_compress_rec (&insn_rec->uses, ref);
1024
        }
1025
    }
1026
 
1027
  /* By deleting the ref directly, df_insn_rescan my not find any
1028
     differences even though the block will have changed.  So we need
1029
     to mark the block dirty ourselves.  */
1030
  if (!DEBUG_INSN_P (DF_REF_INSN (ref)))
1031
    df_set_bb_dirty (DF_REF_BB (ref));
1032
  df_reg_chain_unlink (ref);
1033
}
1034
 
1035
 
1036
/* Create the insn record for INSN.  If there was one there, zero it
1037
   out.  */
1038
 
1039
struct df_insn_info *
1040
df_insn_create_insn_record (rtx insn)
1041
{
1042
  struct df_scan_problem_data *problem_data
1043
    = (struct df_scan_problem_data *) df_scan->problem_data;
1044
  struct df_insn_info *insn_rec;
1045
 
1046
  df_grow_insn_info ();
1047
  insn_rec = DF_INSN_INFO_GET (insn);
1048
  if (!insn_rec)
1049
    {
1050
      insn_rec = (struct df_insn_info *) pool_alloc (problem_data->insn_pool);
1051
      DF_INSN_INFO_SET (insn, insn_rec);
1052
    }
1053
  memset (insn_rec, 0, sizeof (struct df_insn_info));
1054
  insn_rec->insn = insn;
1055
  return insn_rec;
1056
}
1057
 
1058
 
1059
/* Delete all du chain (DF_REF_CHAIN()) of all refs in the ref chain.  */
1060
 
1061
static void
1062
df_ref_chain_delete_du_chain (df_ref *ref_rec)
1063
{
1064
  while (*ref_rec)
1065
    {
1066
      df_ref ref = *ref_rec;
1067
      /* CHAIN is allocated by DF_CHAIN. So make sure to
1068
         pass df_scan instance for the problem.  */
1069
      if (DF_REF_CHAIN (ref))
1070
        df_chain_unlink (ref);
1071
      ref_rec++;
1072
    }
1073
}
1074
 
1075
 
1076
/* Delete all refs in the ref chain.  */
1077
 
1078
static void
1079
df_ref_chain_delete (df_ref *ref_rec)
1080
{
1081
  df_ref *start = ref_rec;
1082
  while (*ref_rec)
1083
    {
1084
      df_reg_chain_unlink (*ref_rec);
1085
      ref_rec++;
1086
    }
1087
 
1088
  /* If the list is empty, it has a special shared element that is not
1089
     to be deleted.  */
1090
  if (*start)
1091
    free (start);
1092
}
1093
 
1094
 
1095
/* Delete the hardreg chain.  */
1096
 
1097
static void
1098
df_mw_hardreg_chain_delete (struct df_mw_hardreg **hardregs)
1099
{
1100
  struct df_scan_problem_data *problem_data;
1101
 
1102
  if (!hardregs)
1103
    return;
1104
 
1105
  problem_data = (struct df_scan_problem_data *) df_scan->problem_data;
1106
 
1107
  while (*hardregs)
1108
    {
1109
      pool_free (problem_data->mw_reg_pool, *hardregs);
1110
      hardregs++;
1111
    }
1112
}
1113
 
1114
 
1115
/* Delete all of the refs information from INSN.  BB must be passed in
1116
   except when called from df_process_deferred_rescans to mark the block
1117
   as dirty.  */
1118
 
1119
void
1120
df_insn_delete (basic_block bb, unsigned int uid)
1121
{
1122
  struct df_insn_info *insn_info = NULL;
1123
  if (!df)
1124
    return;
1125
 
1126
  df_grow_bb_info (df_scan);
1127
  df_grow_reg_info ();
1128
 
1129
  /* The block must be marked as dirty now, rather than later as in
1130
     df_insn_rescan and df_notes_rescan because it may not be there at
1131
     rescanning time and the mark would blow up.  */
1132
  if (bb)
1133
    df_set_bb_dirty (bb);
1134
 
1135
  insn_info = DF_INSN_UID_SAFE_GET (uid);
1136
 
1137
  /* The client has deferred rescanning.  */
1138
  if (df->changeable_flags & DF_DEFER_INSN_RESCAN)
1139
    {
1140
      if (insn_info)
1141
        {
1142
          bitmap_clear_bit (df->insns_to_rescan, uid);
1143
          bitmap_clear_bit (df->insns_to_notes_rescan, uid);
1144
          bitmap_set_bit (df->insns_to_delete, uid);
1145
        }
1146
      if (dump_file)
1147
        fprintf (dump_file, "deferring deletion of insn with uid = %d.\n", uid);
1148
      return;
1149
    }
1150
 
1151
  if (dump_file)
1152
    fprintf (dump_file, "deleting insn with uid = %d.\n", uid);
1153
 
1154
  bitmap_clear_bit (df->insns_to_delete, uid);
1155
  bitmap_clear_bit (df->insns_to_rescan, uid);
1156
  bitmap_clear_bit (df->insns_to_notes_rescan, uid);
1157
  if (insn_info)
1158
    {
1159
      struct df_scan_problem_data *problem_data
1160
        = (struct df_scan_problem_data *) df_scan->problem_data;
1161
 
1162
      /* In general, notes do not have the insn_info fields
1163
         initialized.  However, combine deletes insns by changing them
1164
         to notes.  How clever.  So we cannot just check if it is a
1165
         valid insn before short circuiting this code, we need to see
1166
         if we actually initialized it.  */
1167
      if (insn_info->defs)
1168
        {
1169
          df_mw_hardreg_chain_delete (insn_info->mw_hardregs);
1170
 
1171
          if (df_chain)
1172
            {
1173
              df_ref_chain_delete_du_chain (insn_info->defs);
1174
              df_ref_chain_delete_du_chain (insn_info->uses);
1175
              df_ref_chain_delete_du_chain (insn_info->eq_uses);
1176
            }
1177
 
1178
          df_ref_chain_delete (insn_info->defs);
1179
          df_ref_chain_delete (insn_info->uses);
1180
          df_ref_chain_delete (insn_info->eq_uses);
1181
        }
1182
      pool_free (problem_data->insn_pool, insn_info);
1183
      DF_INSN_UID_SET (uid, NULL);
1184
    }
1185
}
1186
 
1187
 
1188
/* Free all of the refs and the mw_hardregs in COLLECTION_REC.  */
1189
 
1190
static void
1191
df_free_collection_rec (struct df_collection_rec *collection_rec)
1192
{
1193
  unsigned int ix;
1194
  struct df_scan_problem_data *problem_data
1195
    = (struct df_scan_problem_data *) df_scan->problem_data;
1196
  df_ref ref;
1197
  struct df_mw_hardreg *mw;
1198
 
1199
  for (ix = 0; VEC_iterate (df_ref, collection_rec->def_vec, ix, ref); ++ix)
1200
    df_free_ref (ref);
1201
  for (ix = 0; VEC_iterate (df_ref, collection_rec->use_vec, ix, ref); ++ix)
1202
    df_free_ref (ref);
1203
  for (ix = 0; VEC_iterate (df_ref, collection_rec->eq_use_vec, ix, ref); ++ix)
1204
    df_free_ref (ref);
1205
  for (ix = 0;
1206
       VEC_iterate (df_mw_hardreg_ptr, collection_rec->mw_vec, ix, mw);
1207
       ++ix)
1208
    pool_free (problem_data->mw_reg_pool, mw);
1209
 
1210
  VEC_free (df_ref, stack, collection_rec->def_vec);
1211
  VEC_free (df_ref, stack, collection_rec->use_vec);
1212
  VEC_free (df_ref, stack, collection_rec->eq_use_vec);
1213
  VEC_free (df_mw_hardreg_ptr, stack, collection_rec->mw_vec);
1214
}
1215
 
1216
/* Rescan INSN.  Return TRUE if the rescanning produced any changes.  */
1217
 
1218
bool
1219
df_insn_rescan (rtx insn)
1220
{
1221
  unsigned int uid = INSN_UID (insn);
1222
  struct df_insn_info *insn_info = NULL;
1223
  basic_block bb = BLOCK_FOR_INSN (insn);
1224
  struct df_collection_rec collection_rec;
1225
 
1226
  if ((!df) || (!INSN_P (insn)))
1227
    return false;
1228
 
1229
  if (!bb)
1230
    {
1231
      if (dump_file)
1232
        fprintf (dump_file, "no bb for insn with uid = %d.\n", uid);
1233
      return false;
1234
    }
1235
 
1236
  /* The client has disabled rescanning and plans to do it itself.  */
1237
  if (df->changeable_flags & DF_NO_INSN_RESCAN)
1238
    return false;
1239
 
1240
  df_grow_bb_info (df_scan);
1241
  df_grow_reg_info ();
1242
 
1243
  insn_info = DF_INSN_UID_SAFE_GET (uid);
1244
 
1245
  /* The client has deferred rescanning.  */
1246
  if (df->changeable_flags & DF_DEFER_INSN_RESCAN)
1247
    {
1248
      if (!insn_info)
1249
        {
1250
          insn_info = df_insn_create_insn_record (insn);
1251
          insn_info->defs = df_null_ref_rec;
1252
          insn_info->uses = df_null_ref_rec;
1253
          insn_info->eq_uses = df_null_ref_rec;
1254
          insn_info->mw_hardregs = df_null_mw_rec;
1255
        }
1256
      if (dump_file)
1257
        fprintf (dump_file, "deferring rescan insn with uid = %d.\n", uid);
1258
 
1259
      bitmap_clear_bit (df->insns_to_delete, uid);
1260
      bitmap_clear_bit (df->insns_to_notes_rescan, uid);
1261
      bitmap_set_bit (df->insns_to_rescan, INSN_UID (insn));
1262
      return false;
1263
    }
1264
 
1265
  collection_rec.def_vec = VEC_alloc (df_ref, stack, 128);
1266
  collection_rec.use_vec = VEC_alloc (df_ref, stack, 32);
1267
  collection_rec.eq_use_vec = VEC_alloc (df_ref, stack, 32);
1268
  collection_rec.mw_vec = VEC_alloc (df_mw_hardreg_ptr, stack, 32);
1269
 
1270
  bitmap_clear_bit (df->insns_to_delete, uid);
1271
  bitmap_clear_bit (df->insns_to_rescan, uid);
1272
  bitmap_clear_bit (df->insns_to_notes_rescan, uid);
1273
  if (insn_info)
1274
    {
1275
      int luid;
1276
      bool the_same = df_insn_refs_verify (&collection_rec, bb, insn, false);
1277
      /* If there's no change, return false. */
1278
      if (the_same)
1279
        {
1280
          df_free_collection_rec (&collection_rec);
1281
          if (dump_file)
1282
            fprintf (dump_file, "verify found no changes in insn with uid = %d.\n", uid);
1283
          return false;
1284
        }
1285
      if (dump_file)
1286
        fprintf (dump_file, "rescanning insn with uid = %d.\n", uid);
1287
 
1288
      /* There's change - we need to delete the existing info.
1289
         Since the insn isn't moved, we can salvage its LUID.  */
1290
      luid = DF_INSN_LUID (insn);
1291
      df_insn_delete (NULL, uid);
1292
      df_insn_create_insn_record (insn);
1293
      DF_INSN_LUID (insn) = luid;
1294
    }
1295
  else
1296
    {
1297
      struct df_insn_info *insn_info = df_insn_create_insn_record (insn);
1298
      df_insn_refs_collect (&collection_rec, bb, insn_info);
1299
      if (dump_file)
1300
        fprintf (dump_file, "scanning new insn with uid = %d.\n", uid);
1301
    }
1302
 
1303
  df_refs_add_to_chains (&collection_rec, bb, insn);
1304
  if (DEBUG_INSN_P (insn))
1305
    df_set_bb_dirty_nonlr (bb);
1306
  else
1307
    df_set_bb_dirty (bb);
1308
 
1309
  VEC_free (df_ref, stack, collection_rec.def_vec);
1310
  VEC_free (df_ref, stack, collection_rec.use_vec);
1311
  VEC_free (df_ref, stack, collection_rec.eq_use_vec);
1312
  VEC_free (df_mw_hardreg_ptr, stack, collection_rec.mw_vec);
1313
 
1314
  return true;
1315
}
1316
 
1317
/* Same as df_insn_rescan, but don't mark the basic block as
1318
   dirty.  */
1319
 
1320
bool
1321
df_insn_rescan_debug_internal (rtx insn)
1322
{
1323
  unsigned int uid = INSN_UID (insn);
1324
  struct df_insn_info *insn_info;
1325
 
1326
  gcc_assert (DEBUG_INSN_P (insn)
1327
              && VAR_LOC_UNKNOWN_P (INSN_VAR_LOCATION_LOC (insn)));
1328
 
1329
  if (!df)
1330
    return false;
1331
 
1332
  insn_info = DF_INSN_UID_SAFE_GET (INSN_UID (insn));
1333
  if (!insn_info)
1334
    return false;
1335
 
1336
  if (dump_file)
1337
    fprintf (dump_file, "deleting debug_insn with uid = %d.\n", uid);
1338
 
1339
  bitmap_clear_bit (df->insns_to_delete, uid);
1340
  bitmap_clear_bit (df->insns_to_rescan, uid);
1341
  bitmap_clear_bit (df->insns_to_notes_rescan, uid);
1342
 
1343
  if (!insn_info->defs)
1344
    return false;
1345
 
1346
  if (insn_info->defs == df_null_ref_rec
1347
      && insn_info->uses == df_null_ref_rec
1348
      && insn_info->eq_uses == df_null_ref_rec
1349
      && insn_info->mw_hardregs == df_null_mw_rec)
1350
    return false;
1351
 
1352
  df_mw_hardreg_chain_delete (insn_info->mw_hardregs);
1353
 
1354
  if (df_chain)
1355
    {
1356
      df_ref_chain_delete_du_chain (insn_info->defs);
1357
      df_ref_chain_delete_du_chain (insn_info->uses);
1358
      df_ref_chain_delete_du_chain (insn_info->eq_uses);
1359
    }
1360
 
1361
  df_ref_chain_delete (insn_info->defs);
1362
  df_ref_chain_delete (insn_info->uses);
1363
  df_ref_chain_delete (insn_info->eq_uses);
1364
 
1365
  insn_info->defs = df_null_ref_rec;
1366
  insn_info->uses = df_null_ref_rec;
1367
  insn_info->eq_uses = df_null_ref_rec;
1368
  insn_info->mw_hardregs = df_null_mw_rec;
1369
 
1370
  return true;
1371
}
1372
 
1373
 
1374
/* Rescan all of the insns in the function.  Note that the artificial
1375
   uses and defs are not touched.  This function will destroy def-se
1376
   or use-def chains.  */
1377
 
1378
void
1379
df_insn_rescan_all (void)
1380
{
1381
  bool no_insn_rescan = false;
1382
  bool defer_insn_rescan = false;
1383
  basic_block bb;
1384
  bitmap_iterator bi;
1385
  unsigned int uid;
1386
  bitmap tmp = BITMAP_ALLOC (&df_bitmap_obstack);
1387
 
1388
  if (df->changeable_flags & DF_NO_INSN_RESCAN)
1389
    {
1390
      df_clear_flags (DF_NO_INSN_RESCAN);
1391
      no_insn_rescan = true;
1392
    }
1393
 
1394
  if (df->changeable_flags & DF_DEFER_INSN_RESCAN)
1395
    {
1396
      df_clear_flags (DF_DEFER_INSN_RESCAN);
1397
      defer_insn_rescan = true;
1398
    }
1399
 
1400
  bitmap_copy (tmp, df->insns_to_delete);
1401
  EXECUTE_IF_SET_IN_BITMAP (tmp, 0, uid, bi)
1402
    {
1403
      struct df_insn_info *insn_info = DF_INSN_UID_SAFE_GET (uid);
1404
      if (insn_info)
1405
        df_insn_delete (NULL, uid);
1406
    }
1407
 
1408
  BITMAP_FREE (tmp);
1409
  bitmap_clear (df->insns_to_delete);
1410
  bitmap_clear (df->insns_to_rescan);
1411
  bitmap_clear (df->insns_to_notes_rescan);
1412
 
1413
  FOR_EACH_BB (bb)
1414
    {
1415
      rtx insn;
1416
      FOR_BB_INSNS (bb, insn)
1417
        {
1418
          df_insn_rescan (insn);
1419
        }
1420
    }
1421
 
1422
  if (no_insn_rescan)
1423
    df_set_flags (DF_NO_INSN_RESCAN);
1424
  if (defer_insn_rescan)
1425
    df_set_flags (DF_DEFER_INSN_RESCAN);
1426
}
1427
 
1428
 
1429
/* Process all of the deferred rescans or deletions.  */
1430
 
1431
void
1432
df_process_deferred_rescans (void)
1433
{
1434
  bool no_insn_rescan = false;
1435
  bool defer_insn_rescan = false;
1436
  bitmap_iterator bi;
1437
  unsigned int uid;
1438
  bitmap tmp = BITMAP_ALLOC (&df_bitmap_obstack);
1439
 
1440
  if (df->changeable_flags & DF_NO_INSN_RESCAN)
1441
    {
1442
      df_clear_flags (DF_NO_INSN_RESCAN);
1443
      no_insn_rescan = true;
1444
    }
1445
 
1446
  if (df->changeable_flags & DF_DEFER_INSN_RESCAN)
1447
    {
1448
      df_clear_flags (DF_DEFER_INSN_RESCAN);
1449
      defer_insn_rescan = true;
1450
    }
1451
 
1452
  if (dump_file)
1453
    fprintf (dump_file, "starting the processing of deferred insns\n");
1454
 
1455
  bitmap_copy (tmp, df->insns_to_delete);
1456
  EXECUTE_IF_SET_IN_BITMAP (tmp, 0, uid, bi)
1457
    {
1458
      struct df_insn_info *insn_info = DF_INSN_UID_SAFE_GET (uid);
1459
      if (insn_info)
1460
        df_insn_delete (NULL, uid);
1461
    }
1462
 
1463
  bitmap_copy (tmp, df->insns_to_rescan);
1464
  EXECUTE_IF_SET_IN_BITMAP (tmp, 0, uid, bi)
1465
    {
1466
      struct df_insn_info *insn_info = DF_INSN_UID_SAFE_GET (uid);
1467
      if (insn_info)
1468
        df_insn_rescan (insn_info->insn);
1469
    }
1470
 
1471
  bitmap_copy (tmp, df->insns_to_notes_rescan);
1472
  EXECUTE_IF_SET_IN_BITMAP (tmp, 0, uid, bi)
1473
    {
1474
      struct df_insn_info *insn_info = DF_INSN_UID_SAFE_GET (uid);
1475
      if (insn_info)
1476
        df_notes_rescan (insn_info->insn);
1477
    }
1478
 
1479
  if (dump_file)
1480
    fprintf (dump_file, "ending the processing of deferred insns\n");
1481
 
1482
  BITMAP_FREE (tmp);
1483
  bitmap_clear (df->insns_to_delete);
1484
  bitmap_clear (df->insns_to_rescan);
1485
  bitmap_clear (df->insns_to_notes_rescan);
1486
 
1487
  if (no_insn_rescan)
1488
    df_set_flags (DF_NO_INSN_RESCAN);
1489
  if (defer_insn_rescan)
1490
    df_set_flags (DF_DEFER_INSN_RESCAN);
1491
 
1492
  /* If someone changed regs_ever_live during this pass, fix up the
1493
     entry and exit blocks.  */
1494
  if (df->redo_entry_and_exit)
1495
    {
1496
      df_update_entry_exit_and_calls ();
1497
      df->redo_entry_and_exit = false;
1498
    }
1499
}
1500
 
1501
 
1502
/* Count the number of refs. Include the defs if INCLUDE_DEFS. Include
1503
   the uses if INCLUDE_USES. Include the eq_uses if
1504
   INCLUDE_EQ_USES.  */
1505
 
1506
static unsigned int
1507
df_count_refs (bool include_defs, bool include_uses,
1508
               bool include_eq_uses)
1509
{
1510
  unsigned int regno;
1511
  int size = 0;
1512
  unsigned int m = df->regs_inited;
1513
 
1514
  for (regno = 0; regno < m; regno++)
1515
    {
1516
      if (include_defs)
1517
        size += DF_REG_DEF_COUNT (regno);
1518
      if (include_uses)
1519
        size += DF_REG_USE_COUNT (regno);
1520
      if (include_eq_uses)
1521
        size += DF_REG_EQ_USE_COUNT (regno);
1522
    }
1523
  return size;
1524
}
1525
 
1526
 
1527
/* Take build ref table for either the uses or defs from the reg-use
1528
   or reg-def chains.  This version processes the refs in reg order
1529
   which is likely to be best if processing the whole function.  */
1530
 
1531
static void
1532
df_reorganize_refs_by_reg_by_reg (struct df_ref_info *ref_info,
1533
                                  bool include_defs,
1534
                                  bool include_uses,
1535
                                  bool include_eq_uses)
1536
{
1537
  unsigned int m = df->regs_inited;
1538
  unsigned int regno;
1539
  unsigned int offset = 0;
1540
  unsigned int start;
1541
 
1542
  if (df->changeable_flags & DF_NO_HARD_REGS)
1543
    {
1544
      start = FIRST_PSEUDO_REGISTER;
1545
      memset (ref_info->begin, 0, sizeof (int) * FIRST_PSEUDO_REGISTER);
1546
      memset (ref_info->count, 0, sizeof (int) * FIRST_PSEUDO_REGISTER);
1547
    }
1548
  else
1549
    start = 0;
1550
 
1551
  ref_info->total_size
1552
    = df_count_refs (include_defs, include_uses, include_eq_uses);
1553
 
1554
  df_check_and_grow_ref_info (ref_info, 1);
1555
 
1556
  for (regno = start; regno < m; regno++)
1557
    {
1558
      int count = 0;
1559
      ref_info->begin[regno] = offset;
1560
      if (include_defs)
1561
        {
1562
          df_ref ref = DF_REG_DEF_CHAIN (regno);
1563
          while (ref)
1564
            {
1565
              ref_info->refs[offset] = ref;
1566
              DF_REF_ID (ref) = offset++;
1567
              count++;
1568
              ref = DF_REF_NEXT_REG (ref);
1569
              gcc_assert (offset < ref_info->refs_size);
1570
            }
1571
        }
1572
      if (include_uses)
1573
        {
1574
          df_ref ref = DF_REG_USE_CHAIN (regno);
1575
          while (ref)
1576
            {
1577
              ref_info->refs[offset] = ref;
1578
              DF_REF_ID (ref) = offset++;
1579
              count++;
1580
              ref = DF_REF_NEXT_REG (ref);
1581
              gcc_assert (offset < ref_info->refs_size);
1582
            }
1583
        }
1584
      if (include_eq_uses)
1585
        {
1586
          df_ref ref = DF_REG_EQ_USE_CHAIN (regno);
1587
          while (ref)
1588
            {
1589
              ref_info->refs[offset] = ref;
1590
              DF_REF_ID (ref) = offset++;
1591
              count++;
1592
              ref = DF_REF_NEXT_REG (ref);
1593
              gcc_assert (offset < ref_info->refs_size);
1594
            }
1595
        }
1596
      ref_info->count[regno] = count;
1597
    }
1598
 
1599
  /* The bitmap size is not decremented when refs are deleted.  So
1600
     reset it now that we have squished out all of the empty
1601
     slots.  */
1602
  ref_info->table_size = offset;
1603
}
1604
 
1605
 
1606
/* Take build ref table for either the uses or defs from the reg-use
1607
   or reg-def chains.  This version processes the refs in insn order
1608
   which is likely to be best if processing some segment of the
1609
   function.  */
1610
 
1611
static void
1612
df_reorganize_refs_by_reg_by_insn (struct df_ref_info *ref_info,
1613
                                   bool include_defs,
1614
                                   bool include_uses,
1615
                                   bool include_eq_uses)
1616
{
1617
  bitmap_iterator bi;
1618
  unsigned int bb_index;
1619
  unsigned int m = df->regs_inited;
1620
  unsigned int offset = 0;
1621
  unsigned int r;
1622
  unsigned int start
1623
    = (df->changeable_flags & DF_NO_HARD_REGS) ? FIRST_PSEUDO_REGISTER : 0;
1624
 
1625
  memset (ref_info->begin, 0, sizeof (int) * df->regs_inited);
1626
  memset (ref_info->count, 0, sizeof (int) * df->regs_inited);
1627
 
1628
  ref_info->total_size = df_count_refs (include_defs, include_uses, include_eq_uses);
1629
  df_check_and_grow_ref_info (ref_info, 1);
1630
 
1631
  EXECUTE_IF_SET_IN_BITMAP (df->blocks_to_analyze, 0, bb_index, bi)
1632
    {
1633
      basic_block bb = BASIC_BLOCK (bb_index);
1634
      rtx insn;
1635
      df_ref *ref_rec;
1636
 
1637
      if (include_defs)
1638
        for (ref_rec = df_get_artificial_defs (bb_index); *ref_rec; ref_rec++)
1639
          {
1640
            unsigned int regno = DF_REF_REGNO (*ref_rec);
1641
            ref_info->count[regno]++;
1642
          }
1643
      if (include_uses)
1644
        for (ref_rec = df_get_artificial_uses (bb_index); *ref_rec; ref_rec++)
1645
          {
1646
            unsigned int regno = DF_REF_REGNO (*ref_rec);
1647
            ref_info->count[regno]++;
1648
          }
1649
 
1650
      FOR_BB_INSNS (bb, insn)
1651
        {
1652
          if (INSN_P (insn))
1653
            {
1654
              unsigned int uid = INSN_UID (insn);
1655
 
1656
              if (include_defs)
1657
                for (ref_rec = DF_INSN_UID_DEFS (uid); *ref_rec; ref_rec++)
1658
                  {
1659
                    unsigned int regno = DF_REF_REGNO (*ref_rec);
1660
                    ref_info->count[regno]++;
1661
                  }
1662
              if (include_uses)
1663
                for (ref_rec = DF_INSN_UID_USES (uid); *ref_rec; ref_rec++)
1664
                  {
1665
                    unsigned int regno = DF_REF_REGNO (*ref_rec);
1666
                    ref_info->count[regno]++;
1667
                  }
1668
              if (include_eq_uses)
1669
                for (ref_rec = DF_INSN_UID_EQ_USES (uid); *ref_rec; ref_rec++)
1670
                  {
1671
                    unsigned int regno = DF_REF_REGNO (*ref_rec);
1672
                    ref_info->count[regno]++;
1673
                  }
1674
            }
1675
        }
1676
    }
1677
 
1678
  for (r = start; r < m; r++)
1679
    {
1680
      ref_info->begin[r] = offset;
1681
      offset += ref_info->count[r];
1682
      ref_info->count[r] = 0;
1683
    }
1684
 
1685
  EXECUTE_IF_SET_IN_BITMAP (df->blocks_to_analyze, 0, bb_index, bi)
1686
    {
1687
      basic_block bb = BASIC_BLOCK (bb_index);
1688
      rtx insn;
1689
      df_ref *ref_rec;
1690
 
1691
      if (include_defs)
1692
        for (ref_rec = df_get_artificial_defs (bb_index); *ref_rec; ref_rec++)
1693
          {
1694
            df_ref ref = *ref_rec;
1695
            unsigned int regno = DF_REF_REGNO (ref);
1696
            if (regno >= start)
1697
              {
1698
                unsigned int id
1699
                  = ref_info->begin[regno] + ref_info->count[regno]++;
1700
                DF_REF_ID (ref) = id;
1701
                ref_info->refs[id] = ref;
1702
              }
1703
          }
1704
      if (include_uses)
1705
        for (ref_rec = df_get_artificial_uses (bb_index); *ref_rec; ref_rec++)
1706
          {
1707
            df_ref ref = *ref_rec;
1708
            unsigned int regno = DF_REF_REGNO (ref);
1709
            if (regno >= start)
1710
              {
1711
                unsigned int id
1712
                  = ref_info->begin[regno] + ref_info->count[regno]++;
1713
                DF_REF_ID (ref) = id;
1714
                ref_info->refs[id] = ref;
1715
              }
1716
          }
1717
 
1718
      FOR_BB_INSNS (bb, insn)
1719
        {
1720
          if (INSN_P (insn))
1721
            {
1722
              unsigned int uid = INSN_UID (insn);
1723
 
1724
              if (include_defs)
1725
                for (ref_rec = DF_INSN_UID_DEFS (uid); *ref_rec; ref_rec++)
1726
                  {
1727
                    df_ref ref = *ref_rec;
1728
                    unsigned int regno = DF_REF_REGNO (ref);
1729
                    if (regno >= start)
1730
                      {
1731
                        unsigned int id
1732
                          = ref_info->begin[regno] + ref_info->count[regno]++;
1733
                        DF_REF_ID (ref) = id;
1734
                        ref_info->refs[id] = ref;
1735
                      }
1736
                  }
1737
              if (include_uses)
1738
                for (ref_rec = DF_INSN_UID_USES (uid); *ref_rec; ref_rec++)
1739
                  {
1740
                    df_ref ref = *ref_rec;
1741
                    unsigned int regno = DF_REF_REGNO (ref);
1742
                    if (regno >= start)
1743
                      {
1744
                        unsigned int id
1745
                          = ref_info->begin[regno] + ref_info->count[regno]++;
1746
                        DF_REF_ID (ref) = id;
1747
                        ref_info->refs[id] = ref;
1748
                      }
1749
                  }
1750
              if (include_eq_uses)
1751
                for (ref_rec = DF_INSN_UID_EQ_USES (uid); *ref_rec; ref_rec++)
1752
                  {
1753
                    df_ref ref = *ref_rec;
1754
                    unsigned int regno = DF_REF_REGNO (ref);
1755
                    if (regno >= start)
1756
                      {
1757
                        unsigned int id
1758
                          = ref_info->begin[regno] + ref_info->count[regno]++;
1759
                        DF_REF_ID (ref) = id;
1760
                        ref_info->refs[id] = ref;
1761
                      }
1762
                  }
1763
            }
1764
        }
1765
    }
1766
 
1767
  /* The bitmap size is not decremented when refs are deleted.  So
1768
     reset it now that we have squished out all of the empty
1769
     slots.  */
1770
 
1771
  ref_info->table_size = offset;
1772
}
1773
 
1774
/* Take build ref table for either the uses or defs from the reg-use
1775
   or reg-def chains.  */
1776
 
1777
static void
1778
df_reorganize_refs_by_reg (struct df_ref_info *ref_info,
1779
                           bool include_defs,
1780
                           bool include_uses,
1781
                           bool include_eq_uses)
1782
{
1783
  if (df->analyze_subset)
1784
    df_reorganize_refs_by_reg_by_insn (ref_info, include_defs,
1785
                                       include_uses, include_eq_uses);
1786
  else
1787
    df_reorganize_refs_by_reg_by_reg (ref_info, include_defs,
1788
                                       include_uses, include_eq_uses);
1789
}
1790
 
1791
 
1792
/* Add the refs in REF_VEC to the table in REF_INFO starting at OFFSET.  */
1793
static unsigned int
1794
df_add_refs_to_table (unsigned int offset,
1795
                      struct df_ref_info *ref_info,
1796
                      df_ref *ref_vec)
1797
{
1798
  while (*ref_vec)
1799
    {
1800
      df_ref ref = *ref_vec;
1801
      if ((!(df->changeable_flags & DF_NO_HARD_REGS))
1802
          || (DF_REF_REGNO (ref) >= FIRST_PSEUDO_REGISTER))
1803
        {
1804
          ref_info->refs[offset] = ref;
1805
          DF_REF_ID (*ref_vec) = offset++;
1806
        }
1807
      ref_vec++;
1808
    }
1809
  return offset;
1810
}
1811
 
1812
 
1813
/* Count the number of refs in all of the insns of BB. Include the
1814
   defs if INCLUDE_DEFS. Include the uses if INCLUDE_USES. Include the
1815
   eq_uses if INCLUDE_EQ_USES.  */
1816
 
1817
static unsigned int
1818
df_reorganize_refs_by_insn_bb (basic_block bb, unsigned int offset,
1819
                               struct df_ref_info *ref_info,
1820
                               bool include_defs, bool include_uses,
1821
                               bool include_eq_uses)
1822
{
1823
  rtx insn;
1824
 
1825
  if (include_defs)
1826
    offset = df_add_refs_to_table (offset, ref_info,
1827
                                   df_get_artificial_defs (bb->index));
1828
  if (include_uses)
1829
    offset = df_add_refs_to_table (offset, ref_info,
1830
                                   df_get_artificial_uses (bb->index));
1831
 
1832
  FOR_BB_INSNS (bb, insn)
1833
    if (INSN_P (insn))
1834
      {
1835
        unsigned int uid = INSN_UID (insn);
1836
        if (include_defs)
1837
          offset = df_add_refs_to_table (offset, ref_info,
1838
                                         DF_INSN_UID_DEFS (uid));
1839
        if (include_uses)
1840
          offset = df_add_refs_to_table (offset, ref_info,
1841
                                         DF_INSN_UID_USES (uid));
1842
        if (include_eq_uses)
1843
          offset = df_add_refs_to_table (offset, ref_info,
1844
                                         DF_INSN_UID_EQ_USES (uid));
1845
      }
1846
  return offset;
1847
}
1848
 
1849
 
1850
/* Organize the refs by insn into the table in REF_INFO.  If
1851
   blocks_to_analyze is defined, use that set, otherwise the entire
1852
   program.  Include the defs if INCLUDE_DEFS. Include the uses if
1853
   INCLUDE_USES. Include the eq_uses if INCLUDE_EQ_USES.  */
1854
 
1855
static void
1856
df_reorganize_refs_by_insn (struct df_ref_info *ref_info,
1857
                            bool include_defs, bool include_uses,
1858
                            bool include_eq_uses)
1859
{
1860
  basic_block bb;
1861
  unsigned int offset = 0;
1862
 
1863
  ref_info->total_size = df_count_refs (include_defs, include_uses, include_eq_uses);
1864
  df_check_and_grow_ref_info (ref_info, 1);
1865
  if (df->blocks_to_analyze)
1866
    {
1867
      bitmap_iterator bi;
1868
      unsigned int index;
1869
 
1870
      EXECUTE_IF_SET_IN_BITMAP (df->blocks_to_analyze, 0, index, bi)
1871
        {
1872
          offset = df_reorganize_refs_by_insn_bb (BASIC_BLOCK (index), offset, ref_info,
1873
                                                  include_defs, include_uses,
1874
                                                  include_eq_uses);
1875
        }
1876
 
1877
      ref_info->table_size = offset;
1878
    }
1879
  else
1880
    {
1881
      FOR_ALL_BB (bb)
1882
        offset = df_reorganize_refs_by_insn_bb (bb, offset, ref_info,
1883
                                                include_defs, include_uses,
1884
                                                include_eq_uses);
1885
      ref_info->table_size = offset;
1886
    }
1887
}
1888
 
1889
 
1890
/* If the use refs in DF are not organized, reorganize them.  */
1891
 
1892
void
1893
df_maybe_reorganize_use_refs (enum df_ref_order order)
1894
{
1895
  if (order == df->use_info.ref_order)
1896
    return;
1897
 
1898
  switch (order)
1899
    {
1900
    case DF_REF_ORDER_BY_REG:
1901
      df_reorganize_refs_by_reg (&df->use_info, false, true, false);
1902
      break;
1903
 
1904
    case DF_REF_ORDER_BY_REG_WITH_NOTES:
1905
      df_reorganize_refs_by_reg (&df->use_info, false, true, true);
1906
      break;
1907
 
1908
    case DF_REF_ORDER_BY_INSN:
1909
      df_reorganize_refs_by_insn (&df->use_info, false, true, false);
1910
      break;
1911
 
1912
    case DF_REF_ORDER_BY_INSN_WITH_NOTES:
1913
      df_reorganize_refs_by_insn (&df->use_info, false, true, true);
1914
      break;
1915
 
1916
    case DF_REF_ORDER_NO_TABLE:
1917
      free (df->use_info.refs);
1918
      df->use_info.refs = NULL;
1919
      df->use_info.refs_size = 0;
1920
      break;
1921
 
1922
    case DF_REF_ORDER_UNORDERED:
1923
    case DF_REF_ORDER_UNORDERED_WITH_NOTES:
1924
      gcc_unreachable ();
1925
      break;
1926
    }
1927
 
1928
  df->use_info.ref_order = order;
1929
}
1930
 
1931
 
1932
/* If the def refs in DF are not organized, reorganize them.  */
1933
 
1934
void
1935
df_maybe_reorganize_def_refs (enum df_ref_order order)
1936
{
1937
  if (order == df->def_info.ref_order)
1938
    return;
1939
 
1940
  switch (order)
1941
    {
1942
    case DF_REF_ORDER_BY_REG:
1943
      df_reorganize_refs_by_reg (&df->def_info, true, false, false);
1944
      break;
1945
 
1946
    case DF_REF_ORDER_BY_INSN:
1947
      df_reorganize_refs_by_insn (&df->def_info, true, false, false);
1948
      break;
1949
 
1950
    case DF_REF_ORDER_NO_TABLE:
1951
      free (df->def_info.refs);
1952
      df->def_info.refs = NULL;
1953
      df->def_info.refs_size = 0;
1954
      break;
1955
 
1956
    case DF_REF_ORDER_BY_INSN_WITH_NOTES:
1957
    case DF_REF_ORDER_BY_REG_WITH_NOTES:
1958
    case DF_REF_ORDER_UNORDERED:
1959
    case DF_REF_ORDER_UNORDERED_WITH_NOTES:
1960
      gcc_unreachable ();
1961
      break;
1962
    }
1963
 
1964
  df->def_info.ref_order = order;
1965
}
1966
 
1967
 
1968
/* Change all of the basic block references in INSN to use the insn's
1969
   current basic block.  This function is called from routines that move
1970
   instructions from one block to another.  */
1971
 
1972
void
1973
df_insn_change_bb (rtx insn, basic_block new_bb)
1974
{
1975
  basic_block old_bb = BLOCK_FOR_INSN (insn);
1976
  struct df_insn_info *insn_info;
1977
  unsigned int uid = INSN_UID (insn);
1978
 
1979
  if (old_bb == new_bb)
1980
    return;
1981
 
1982
  set_block_for_insn (insn, new_bb);
1983
 
1984
  if (!df)
1985
    return;
1986
 
1987
  if (dump_file)
1988
    fprintf (dump_file, "changing bb of uid %d\n", uid);
1989
 
1990
  insn_info = DF_INSN_UID_SAFE_GET (uid);
1991
  if (insn_info == NULL)
1992
    {
1993
      if (dump_file)
1994
        fprintf (dump_file, "  unscanned insn\n");
1995
      df_insn_rescan (insn);
1996
      return;
1997
    }
1998
 
1999
  if (!INSN_P (insn))
2000
    return;
2001
 
2002
  df_set_bb_dirty (new_bb);
2003
  if (old_bb)
2004
    {
2005
      if (dump_file)
2006
        fprintf (dump_file, "  from %d to %d\n",
2007
                 old_bb->index, new_bb->index);
2008
      df_set_bb_dirty (old_bb);
2009
    }
2010
  else
2011
    if (dump_file)
2012
      fprintf (dump_file, "  to %d\n", new_bb->index);
2013
}
2014
 
2015
 
2016
/* Helper function for df_ref_change_reg_with_loc.  */
2017
 
2018
static void
2019
df_ref_change_reg_with_loc_1 (struct df_reg_info *old_df,
2020
                              struct df_reg_info *new_df,
2021
                              int new_regno, rtx loc)
2022
{
2023
  df_ref the_ref = old_df->reg_chain;
2024
 
2025
  while (the_ref)
2026
    {
2027
      if ((!DF_REF_IS_ARTIFICIAL (the_ref))
2028
          && (DF_REF_LOC (the_ref))
2029
          && (*DF_REF_LOC (the_ref) == loc))
2030
        {
2031
          df_ref next_ref = DF_REF_NEXT_REG (the_ref);
2032
          df_ref prev_ref = DF_REF_PREV_REG (the_ref);
2033
          df_ref *ref_vec, *ref_vec_t;
2034
          struct df_insn_info *insn_info = DF_REF_INSN_INFO (the_ref);
2035
          unsigned int count = 0;
2036
 
2037
          DF_REF_REGNO (the_ref) = new_regno;
2038
          DF_REF_REG (the_ref) = regno_reg_rtx[new_regno];
2039
 
2040
          /* Pull the_ref out of the old regno chain.  */
2041
          if (prev_ref)
2042
            DF_REF_NEXT_REG (prev_ref) = next_ref;
2043
          else
2044
            old_df->reg_chain = next_ref;
2045
          if (next_ref)
2046
            DF_REF_PREV_REG (next_ref) = prev_ref;
2047
          old_df->n_refs--;
2048
 
2049
          /* Put the ref into the new regno chain.  */
2050
          DF_REF_PREV_REG (the_ref) = NULL;
2051
          DF_REF_NEXT_REG (the_ref) = new_df->reg_chain;
2052
          if (new_df->reg_chain)
2053
            DF_REF_PREV_REG (new_df->reg_chain) = the_ref;
2054
          new_df->reg_chain = the_ref;
2055
          new_df->n_refs++;
2056
          if (DF_REF_BB (the_ref))
2057
            df_set_bb_dirty (DF_REF_BB (the_ref));
2058
 
2059
          /* Need to sort the record again that the ref was in because
2060
             the regno is a sorting key.  First, find the right
2061
             record.  */
2062
          if (DF_REF_FLAGS (the_ref) & DF_REF_IN_NOTE)
2063
            ref_vec = insn_info->eq_uses;
2064
          else
2065
            ref_vec = insn_info->uses;
2066
          if (dump_file)
2067
            fprintf (dump_file, "changing reg in insn %d\n",
2068
                     DF_REF_INSN_UID (the_ref));
2069
 
2070
          ref_vec_t = ref_vec;
2071
 
2072
          /* Find the length.  */
2073
          while (*ref_vec_t)
2074
            {
2075
              count++;
2076
              ref_vec_t++;
2077
            }
2078
          qsort (ref_vec, count, sizeof (df_ref ), df_ref_compare);
2079
 
2080
          the_ref = next_ref;
2081
        }
2082
      else
2083
        the_ref = DF_REF_NEXT_REG (the_ref);
2084
    }
2085
}
2086
 
2087
 
2088
/* Change the regno of all refs that contained LOC from OLD_REGNO to
2089
   NEW_REGNO.  Refs that do not match LOC are not changed which means
2090
   that artificial refs are not changed since they have no loc.  This
2091
   call is to support the SET_REGNO macro. */
2092
 
2093
void
2094
df_ref_change_reg_with_loc (int old_regno, int new_regno, rtx loc)
2095
{
2096
  if ((!df) || (old_regno == -1) || (old_regno == new_regno))
2097
    return;
2098
 
2099
  df_grow_reg_info ();
2100
 
2101
  df_ref_change_reg_with_loc_1 (DF_REG_DEF_GET (old_regno),
2102
                                DF_REG_DEF_GET (new_regno), new_regno, loc);
2103
  df_ref_change_reg_with_loc_1 (DF_REG_USE_GET (old_regno),
2104
                                DF_REG_USE_GET (new_regno), new_regno, loc);
2105
  df_ref_change_reg_with_loc_1 (DF_REG_EQ_USE_GET (old_regno),
2106
                                DF_REG_EQ_USE_GET (new_regno), new_regno, loc);
2107
}
2108
 
2109
 
2110
/* Delete the mw_hardregs that point into the eq_notes.  */
2111
 
2112
static unsigned int
2113
df_mw_hardreg_chain_delete_eq_uses (struct df_insn_info *insn_info)
2114
{
2115
  struct df_mw_hardreg **mw_vec = insn_info->mw_hardregs;
2116
  unsigned int deleted = 0;
2117
  unsigned int count = 0;
2118
  struct df_scan_problem_data *problem_data
2119
    = (struct df_scan_problem_data *) df_scan->problem_data;
2120
 
2121
  if (!*mw_vec)
2122
    return 0;
2123
 
2124
  while (*mw_vec)
2125
    {
2126
      if ((*mw_vec)->flags & DF_REF_IN_NOTE)
2127
        {
2128
          struct df_mw_hardreg **temp_vec = mw_vec;
2129
 
2130
          pool_free (problem_data->mw_reg_pool, *mw_vec);
2131
          temp_vec = mw_vec;
2132
          /* Shove the remaining ones down one to fill the gap.  While
2133
             this looks n**2, it is highly unusual to have any mw regs
2134
             in eq_notes and the chances of more than one are almost
2135
             non existent.  */
2136
          while (*temp_vec)
2137
            {
2138
              *temp_vec = *(temp_vec + 1);
2139
              temp_vec++;
2140
            }
2141
          deleted++;
2142
        }
2143
      else
2144
        {
2145
          mw_vec++;
2146
          count++;
2147
        }
2148
    }
2149
 
2150
  if (count == 0)
2151
    {
2152
      df_scan_free_mws_vec (insn_info->mw_hardregs);
2153
      insn_info->mw_hardregs = df_null_mw_rec;
2154
      return 0;
2155
    }
2156
  return deleted;
2157
}
2158
 
2159
 
2160
/* Rescan only the REG_EQUIV/REG_EQUAL notes part of INSN.  */
2161
 
2162
void
2163
df_notes_rescan (rtx insn)
2164
{
2165
  struct df_insn_info *insn_info;
2166
  unsigned int uid = INSN_UID (insn);
2167
 
2168
  if (!df)
2169
    return;
2170
 
2171
  /* The client has disabled rescanning and plans to do it itself.  */
2172
  if (df->changeable_flags & DF_NO_INSN_RESCAN)
2173
    return;
2174
 
2175
  /* Do nothing if the insn hasn't been emitted yet.  */
2176
  if (!BLOCK_FOR_INSN (insn))
2177
    return;
2178
 
2179
  df_grow_bb_info (df_scan);
2180
  df_grow_reg_info ();
2181
 
2182
  insn_info = DF_INSN_UID_SAFE_GET (INSN_UID(insn));
2183
 
2184
  /* The client has deferred rescanning.  */
2185
  if (df->changeable_flags & DF_DEFER_INSN_RESCAN)
2186
    {
2187
      if (!insn_info)
2188
        {
2189
          insn_info = df_insn_create_insn_record (insn);
2190
          insn_info->defs = df_null_ref_rec;
2191
          insn_info->uses = df_null_ref_rec;
2192
          insn_info->eq_uses = df_null_ref_rec;
2193
          insn_info->mw_hardregs = df_null_mw_rec;
2194
        }
2195
 
2196
      bitmap_clear_bit (df->insns_to_delete, uid);
2197
      /* If the insn is set to be rescanned, it does not need to also
2198
         be notes rescanned.  */
2199
      if (!bitmap_bit_p (df->insns_to_rescan, uid))
2200
        bitmap_set_bit (df->insns_to_notes_rescan, INSN_UID (insn));
2201
      return;
2202
    }
2203
 
2204
  bitmap_clear_bit (df->insns_to_delete, uid);
2205
  bitmap_clear_bit (df->insns_to_notes_rescan, uid);
2206
 
2207
  if (insn_info)
2208
    {
2209
      basic_block bb = BLOCK_FOR_INSN (insn);
2210
      rtx note;
2211
      struct df_collection_rec collection_rec;
2212
      unsigned int num_deleted;
2213
      unsigned int mw_len;
2214
 
2215
      memset (&collection_rec, 0, sizeof (struct df_collection_rec));
2216
      collection_rec.eq_use_vec = VEC_alloc (df_ref, stack, 32);
2217
      collection_rec.mw_vec = VEC_alloc (df_mw_hardreg_ptr, stack, 32);
2218
 
2219
      num_deleted = df_mw_hardreg_chain_delete_eq_uses (insn_info);
2220
      df_ref_chain_delete (insn_info->eq_uses);
2221
      insn_info->eq_uses = NULL;
2222
 
2223
      /* Process REG_EQUIV/REG_EQUAL notes */
2224
      for (note = REG_NOTES (insn); note;
2225
           note = XEXP (note, 1))
2226
        {
2227
          switch (REG_NOTE_KIND (note))
2228
            {
2229
            case REG_EQUIV:
2230
            case REG_EQUAL:
2231
              df_uses_record (DF_REF_REGULAR, &collection_rec,
2232
                              &XEXP (note, 0), DF_REF_REG_USE,
2233
                              bb, insn_info, DF_REF_IN_NOTE, -1, -1, VOIDmode);
2234
            default:
2235
              break;
2236
            }
2237
        }
2238
 
2239
      /* Find some place to put any new mw_hardregs.  */
2240
      df_canonize_collection_rec (&collection_rec);
2241
      mw_len = VEC_length (df_mw_hardreg_ptr, collection_rec.mw_vec);
2242
      if (mw_len)
2243
        {
2244
          unsigned int count = 0;
2245
          struct df_mw_hardreg **mw_rec = insn_info->mw_hardregs;
2246
          while (*mw_rec)
2247
            {
2248
              count++;
2249
              mw_rec++;
2250
            }
2251
 
2252
          if (count)
2253
            {
2254
              /* Append to the end of the existing record after
2255
                 expanding it if necessary.  */
2256
              if (mw_len > num_deleted)
2257
                {
2258
                  insn_info->mw_hardregs =
2259
                    XRESIZEVEC (struct df_mw_hardreg *,
2260
                                insn_info->mw_hardregs,
2261
                                count + 1 + mw_len);
2262
                }
2263
              memcpy (&insn_info->mw_hardregs[count],
2264
                      VEC_address (df_mw_hardreg_ptr, collection_rec.mw_vec),
2265
                      mw_len * sizeof (struct df_mw_hardreg *));
2266
              insn_info->mw_hardregs[count + mw_len] = NULL;
2267
              qsort (insn_info->mw_hardregs, count + mw_len,
2268
                     sizeof (struct df_mw_hardreg *), df_mw_compare);
2269
            }
2270
          else
2271
            {
2272
              /* No vector there. */
2273
              insn_info->mw_hardregs
2274
                = XNEWVEC (struct df_mw_hardreg*, 1 + mw_len);
2275
              memcpy (insn_info->mw_hardregs,
2276
                      VEC_address (df_mw_hardreg_ptr, collection_rec.mw_vec),
2277
                      mw_len * sizeof (struct df_mw_hardreg *));
2278
              insn_info->mw_hardregs[mw_len] = NULL;
2279
            }
2280
        }
2281
      /* Get rid of the mw_rec so that df_refs_add_to_chains will
2282
         ignore it.  */
2283
      VEC_free (df_mw_hardreg_ptr, stack, collection_rec.mw_vec);
2284
      df_refs_add_to_chains (&collection_rec, bb, insn);
2285
      VEC_free (df_ref, stack, collection_rec.eq_use_vec);
2286
    }
2287
  else
2288
    df_insn_rescan (insn);
2289
 
2290
}
2291
 
2292
 
2293
/*----------------------------------------------------------------------------
2294
   Hard core instruction scanning code.  No external interfaces here,
2295
   just a lot of routines that look inside insns.
2296
----------------------------------------------------------------------------*/
2297
 
2298
 
2299
/* Return true if the contents of two df_ref's are identical.
2300
   It ignores DF_REF_MARKER.  */
2301
 
2302
static bool
2303
df_ref_equal_p (df_ref ref1, df_ref ref2)
2304
{
2305
  if (!ref2)
2306
    return false;
2307
 
2308
  if (ref1 == ref2)
2309
    return true;
2310
 
2311
  if (DF_REF_CLASS (ref1) != DF_REF_CLASS (ref2)
2312
      || DF_REF_REGNO (ref1) != DF_REF_REGNO (ref2)
2313
      || DF_REF_REG (ref1) != DF_REF_REG (ref2)
2314
      || DF_REF_TYPE (ref1) != DF_REF_TYPE (ref2)
2315
      || ((DF_REF_FLAGS (ref1) & ~(DF_REF_REG_MARKER + DF_REF_MW_HARDREG))
2316
          != (DF_REF_FLAGS (ref2) & ~(DF_REF_REG_MARKER + DF_REF_MW_HARDREG)))
2317
      || DF_REF_BB (ref1) != DF_REF_BB (ref2)
2318
      || DF_REF_INSN_INFO (ref1) != DF_REF_INSN_INFO (ref2))
2319
    return false;
2320
 
2321
  switch (DF_REF_CLASS (ref1))
2322
    {
2323
    case DF_REF_ARTIFICIAL:
2324
    case DF_REF_BASE:
2325
      return true;
2326
 
2327
    case DF_REF_EXTRACT:
2328
      if ((DF_REF_EXTRACT_OFFSET (ref1) != DF_REF_EXTRACT_OFFSET (ref2))
2329
          || (DF_REF_EXTRACT_WIDTH (ref1) != DF_REF_EXTRACT_WIDTH (ref2))
2330
          || (DF_REF_EXTRACT_MODE (ref1) != DF_REF_EXTRACT_MODE (ref2)))
2331
        return false;
2332
      /* fallthru.  */
2333
 
2334
    case DF_REF_REGULAR:
2335
      return DF_REF_LOC (ref1) == DF_REF_LOC (ref2);
2336
 
2337
    default:
2338
      gcc_unreachable ();
2339
    }
2340
  return false;
2341
}
2342
 
2343
 
2344
/* Compare REF1 and REF2 for sorting.  This is only called from places
2345
   where all of the refs are of the same type, in the same insn, and
2346
   have the same bb.  So these fields are not checked.  */
2347
 
2348
static int
2349
df_ref_compare (const void *r1, const void *r2)
2350
{
2351
  const df_ref ref1 = *(const df_ref *)r1;
2352
  const df_ref ref2 = *(const df_ref *)r2;
2353
 
2354
  if (ref1 == ref2)
2355
    return 0;
2356
 
2357
  if (DF_REF_CLASS (ref1) != DF_REF_CLASS (ref2))
2358
    return (int)DF_REF_CLASS (ref1) - (int)DF_REF_CLASS (ref2);
2359
 
2360
  if (DF_REF_REGNO (ref1) != DF_REF_REGNO (ref2))
2361
    return (int)DF_REF_REGNO (ref1) - (int)DF_REF_REGNO (ref2);
2362
 
2363
  if (DF_REF_TYPE (ref1) != DF_REF_TYPE (ref2))
2364
    return (int)DF_REF_TYPE (ref1) - (int)DF_REF_TYPE (ref2);
2365
 
2366
  if (DF_REF_REG (ref1) != DF_REF_REG (ref2))
2367
    return (int)DF_REF_ORDER (ref1) - (int)DF_REF_ORDER (ref2);
2368
 
2369
  /* Cannot look at the LOC field on artificial refs.  */
2370
  if (DF_REF_CLASS (ref1) != DF_REF_ARTIFICIAL
2371
      && DF_REF_LOC (ref1) != DF_REF_LOC (ref2))
2372
    return (int)DF_REF_ORDER (ref1) - (int)DF_REF_ORDER (ref2);
2373
 
2374
  if (DF_REF_FLAGS (ref1) != DF_REF_FLAGS (ref2))
2375
    {
2376
      /* If two refs are identical except that one of them has is from
2377
         a mw and one is not, we need to have the one with the mw
2378
         first.  */
2379
      if (DF_REF_FLAGS_IS_SET (ref1, DF_REF_MW_HARDREG) ==
2380
          DF_REF_FLAGS_IS_SET (ref2, DF_REF_MW_HARDREG))
2381
        return DF_REF_FLAGS (ref1) - DF_REF_FLAGS (ref2);
2382
      else if (DF_REF_FLAGS_IS_SET (ref1, DF_REF_MW_HARDREG))
2383
        return -1;
2384
      else
2385
        return 1;
2386
    }
2387
 
2388
  /* The classes are the same at this point so it is safe to only look
2389
     at ref1.  */
2390
  if (DF_REF_CLASS (ref1) == DF_REF_EXTRACT)
2391
    {
2392
      if (DF_REF_EXTRACT_OFFSET (ref1) != DF_REF_EXTRACT_OFFSET (ref2))
2393
        return DF_REF_EXTRACT_OFFSET (ref1) - DF_REF_EXTRACT_OFFSET (ref2);
2394
      if (DF_REF_EXTRACT_WIDTH (ref1) != DF_REF_EXTRACT_WIDTH (ref2))
2395
        return DF_REF_EXTRACT_WIDTH (ref1) - DF_REF_EXTRACT_WIDTH (ref2);
2396
      if (DF_REF_EXTRACT_MODE (ref1) != DF_REF_EXTRACT_MODE (ref2))
2397
        return DF_REF_EXTRACT_MODE (ref1) - DF_REF_EXTRACT_MODE (ref2);
2398
    }
2399
  return (int)DF_REF_ORDER (ref1) - (int)DF_REF_ORDER (ref2);
2400
}
2401
 
2402
static void
2403
df_swap_refs (VEC(df_ref,stack) **ref_vec, int i, int j)
2404
{
2405
  df_ref tmp = VEC_index (df_ref, *ref_vec, i);
2406
  VEC_replace (df_ref, *ref_vec, i, VEC_index (df_ref, *ref_vec, j));
2407
  VEC_replace (df_ref, *ref_vec, j, tmp);
2408
}
2409
 
2410
/* Sort and compress a set of refs.  */
2411
 
2412
static void
2413
df_sort_and_compress_refs (VEC(df_ref,stack) **ref_vec)
2414
{
2415
  unsigned int count;
2416
  unsigned int i;
2417
  unsigned int dist = 0;
2418
 
2419
  count = VEC_length (df_ref, *ref_vec);
2420
 
2421
  /* If there are 1 or 0 elements, there is nothing to do.  */
2422
  if (count < 2)
2423
    return;
2424
  else if (count == 2)
2425
    {
2426
      df_ref r0 = VEC_index (df_ref, *ref_vec, 0);
2427
      df_ref r1 = VEC_index (df_ref, *ref_vec, 1);
2428
      if (df_ref_compare (&r0, &r1) > 0)
2429
        df_swap_refs (ref_vec, 0, 1);
2430
    }
2431
  else
2432
    {
2433
      for (i = 0; i < count - 1; i++)
2434
        {
2435
          df_ref r0 = VEC_index (df_ref, *ref_vec, i);
2436
          df_ref r1 = VEC_index (df_ref, *ref_vec, i + 1);
2437
          if (df_ref_compare (&r0, &r1) >= 0)
2438
            break;
2439
        }
2440
      /* If the array is already strictly ordered,
2441
         which is the most common case for large COUNT case
2442
         (which happens for CALL INSNs),
2443
         no need to sort and filter out duplicate.
2444
         Simply return the count.
2445
         Make sure DF_GET_ADD_REFS adds refs in the increasing order
2446
         of DF_REF_COMPARE.  */
2447
      if (i == count - 1)
2448
        return;
2449
      qsort (VEC_address (df_ref, *ref_vec), count, sizeof (df_ref),
2450
             df_ref_compare);
2451
    }
2452
 
2453
  for (i=0; i<count-dist; i++)
2454
    {
2455
      /* Find the next ref that is not equal to the current ref.  */
2456
      while (i + dist + 1 < count
2457
             && df_ref_equal_p (VEC_index (df_ref, *ref_vec, i),
2458
                                VEC_index (df_ref, *ref_vec, i + dist + 1)))
2459
        {
2460
          df_free_ref (VEC_index (df_ref, *ref_vec, i + dist + 1));
2461
          dist++;
2462
        }
2463
      /* Copy it down to the next position.  */
2464
      if (dist && i + dist + 1 < count)
2465
        VEC_replace (df_ref, *ref_vec, i + 1,
2466
                     VEC_index (df_ref, *ref_vec, i + dist + 1));
2467
    }
2468
 
2469
  count -= dist;
2470
  VEC_truncate (df_ref, *ref_vec, count);
2471
}
2472
 
2473
 
2474
/* Return true if the contents of two df_ref's are identical.
2475
   It ignores DF_REF_MARKER.  */
2476
 
2477
static bool
2478
df_mw_equal_p (struct df_mw_hardreg *mw1, struct df_mw_hardreg *mw2)
2479
{
2480
  if (!mw2)
2481
    return false;
2482
  return (mw1 == mw2) ||
2483
    (mw1->mw_reg == mw2->mw_reg
2484
     && mw1->type == mw2->type
2485
     && mw1->flags == mw2->flags
2486
     && mw1->start_regno == mw2->start_regno
2487
     && mw1->end_regno == mw2->end_regno);
2488
}
2489
 
2490
 
2491
/* Compare MW1 and MW2 for sorting.  */
2492
 
2493
static int
2494
df_mw_compare (const void *m1, const void *m2)
2495
{
2496
  const struct df_mw_hardreg *const mw1 = *(const struct df_mw_hardreg *const*)m1;
2497
  const struct df_mw_hardreg *const mw2 = *(const struct df_mw_hardreg *const*)m2;
2498
 
2499
  if (mw1 == mw2)
2500
    return 0;
2501
 
2502
  if (mw1->type != mw2->type)
2503
    return mw1->type - mw2->type;
2504
 
2505
  if (mw1->flags != mw2->flags)
2506
    return mw1->flags - mw2->flags;
2507
 
2508
  if (mw1->start_regno != mw2->start_regno)
2509
    return mw1->start_regno - mw2->start_regno;
2510
 
2511
  if (mw1->end_regno != mw2->end_regno)
2512
    return mw1->end_regno - mw2->end_regno;
2513
 
2514
  if (mw1->mw_reg != mw2->mw_reg)
2515
    return mw1->mw_order - mw2->mw_order;
2516
 
2517
  return 0;
2518
}
2519
 
2520
 
2521
/* Sort and compress a set of refs.  */
2522
 
2523
static void
2524
df_sort_and_compress_mws (VEC(df_mw_hardreg_ptr,stack) **mw_vec)
2525
{
2526
  unsigned int count;
2527
  struct df_scan_problem_data *problem_data
2528
    = (struct df_scan_problem_data *) df_scan->problem_data;
2529
  unsigned int i;
2530
  unsigned int dist = 0;
2531
 
2532
  count = VEC_length (df_mw_hardreg_ptr, *mw_vec);
2533
  if (count < 2)
2534
    return;
2535
  else if (count == 2)
2536
    {
2537
      struct df_mw_hardreg *m0 = VEC_index (df_mw_hardreg_ptr, *mw_vec, 0);
2538
      struct df_mw_hardreg *m1 = VEC_index (df_mw_hardreg_ptr, *mw_vec, 1);
2539
      if (df_mw_compare (&m0, &m1) > 0)
2540
        {
2541
          struct df_mw_hardreg *tmp = VEC_index (df_mw_hardreg_ptr,
2542
                                                 *mw_vec, 0);
2543
          VEC_replace (df_mw_hardreg_ptr, *mw_vec, 0,
2544
                       VEC_index (df_mw_hardreg_ptr, *mw_vec, 1));
2545
          VEC_replace (df_mw_hardreg_ptr, *mw_vec, 1, tmp);
2546
        }
2547
    }
2548
  else
2549
    qsort (VEC_address (df_mw_hardreg_ptr, *mw_vec), count,
2550
           sizeof (struct df_mw_hardreg *), df_mw_compare);
2551
 
2552
  for (i=0; i<count-dist; i++)
2553
    {
2554
      /* Find the next ref that is not equal to the current ref.  */
2555
      while (i + dist + 1 < count
2556
             && df_mw_equal_p (VEC_index (df_mw_hardreg_ptr, *mw_vec, i),
2557
                               VEC_index (df_mw_hardreg_ptr, *mw_vec,
2558
                                          i + dist + 1)))
2559
        {
2560
          pool_free (problem_data->mw_reg_pool,
2561
                     VEC_index (df_mw_hardreg_ptr, *mw_vec, i + dist + 1));
2562
          dist++;
2563
        }
2564
      /* Copy it down to the next position.  */
2565
      if (dist && i + dist + 1 < count)
2566
        VEC_replace (df_mw_hardreg_ptr, *mw_vec, i + 1,
2567
                     VEC_index (df_mw_hardreg_ptr, *mw_vec, i + dist + 1));
2568
    }
2569
 
2570
  count -= dist;
2571
  VEC_truncate (df_mw_hardreg_ptr, *mw_vec, count);
2572
}
2573
 
2574
 
2575
/* Sort and remove duplicates from the COLLECTION_REC.  */
2576
 
2577
static void
2578
df_canonize_collection_rec (struct df_collection_rec *collection_rec)
2579
{
2580
  df_sort_and_compress_refs (&collection_rec->def_vec);
2581
  df_sort_and_compress_refs (&collection_rec->use_vec);
2582
  df_sort_and_compress_refs (&collection_rec->eq_use_vec);
2583
  df_sort_and_compress_mws (&collection_rec->mw_vec);
2584
}
2585
 
2586
 
2587
/* Add the new df_ref to appropriate reg_info/ref_info chains.  */
2588
 
2589
static void
2590
df_install_ref (df_ref this_ref,
2591
                struct df_reg_info *reg_info,
2592
                struct df_ref_info *ref_info,
2593
                bool add_to_table)
2594
{
2595
  unsigned int regno = DF_REF_REGNO (this_ref);
2596
  /* Add the ref to the reg_{def,use,eq_use} chain.  */
2597
  df_ref head = reg_info->reg_chain;
2598
 
2599
  reg_info->reg_chain = this_ref;
2600
  reg_info->n_refs++;
2601
 
2602
  if (DF_REF_FLAGS_IS_SET (this_ref, DF_HARD_REG_LIVE))
2603
    {
2604
      gcc_assert (regno < FIRST_PSEUDO_REGISTER);
2605
      df->hard_regs_live_count[regno]++;
2606
    }
2607
 
2608
  gcc_assert (DF_REF_NEXT_REG (this_ref) == NULL
2609
              && DF_REF_PREV_REG (this_ref) == NULL);
2610
 
2611
  DF_REF_NEXT_REG (this_ref) = head;
2612
 
2613
  /* We cannot actually link to the head of the chain.  */
2614
  DF_REF_PREV_REG (this_ref) = NULL;
2615
 
2616
  if (head)
2617
    DF_REF_PREV_REG (head) = this_ref;
2618
 
2619
  if (add_to_table)
2620
    {
2621
      gcc_assert (ref_info->ref_order != DF_REF_ORDER_NO_TABLE);
2622
      df_check_and_grow_ref_info (ref_info, 1);
2623
      DF_REF_ID (this_ref) = ref_info->table_size;
2624
      /* Add the ref to the big array of defs.  */
2625
      ref_info->refs[ref_info->table_size] = this_ref;
2626
      ref_info->table_size++;
2627
    }
2628
  else
2629
    DF_REF_ID (this_ref) = -1;
2630
 
2631
  ref_info->total_size++;
2632
}
2633
 
2634
 
2635
/* This function takes one of the groups of refs (defs, uses or
2636
   eq_uses) and installs the entire group into the insn.  It also adds
2637
   each of these refs into the appropriate chains.  */
2638
 
2639
static df_ref *
2640
df_install_refs (basic_block bb,
2641
                 VEC(df_ref,stack)* old_vec,
2642
                 struct df_reg_info **reg_info,
2643
                 struct df_ref_info *ref_info,
2644
                 bool is_notes)
2645
{
2646
  unsigned int count;
2647
 
2648
  count = VEC_length (df_ref, old_vec);
2649
  if (count)
2650
    {
2651
      df_ref *new_vec = XNEWVEC (df_ref, count + 1);
2652
      bool add_to_table;
2653
      df_ref this_ref;
2654
      unsigned int ix;
2655
 
2656
      switch (ref_info->ref_order)
2657
        {
2658
        case DF_REF_ORDER_UNORDERED_WITH_NOTES:
2659
        case DF_REF_ORDER_BY_REG_WITH_NOTES:
2660
        case DF_REF_ORDER_BY_INSN_WITH_NOTES:
2661
          ref_info->ref_order = DF_REF_ORDER_UNORDERED_WITH_NOTES;
2662
          add_to_table = true;
2663
          break;
2664
        case DF_REF_ORDER_UNORDERED:
2665
        case DF_REF_ORDER_BY_REG:
2666
        case DF_REF_ORDER_BY_INSN:
2667
          ref_info->ref_order = DF_REF_ORDER_UNORDERED;
2668
          add_to_table = !is_notes;
2669
          break;
2670
        default:
2671
          add_to_table = false;
2672
          break;
2673
        }
2674
 
2675
      /* Do not add if ref is not in the right blocks.  */
2676
      if (add_to_table && df->analyze_subset)
2677
        add_to_table = bitmap_bit_p (df->blocks_to_analyze, bb->index);
2678
 
2679
      for (ix = 0; VEC_iterate (df_ref, old_vec, ix, this_ref); ++ix)
2680
        {
2681
          new_vec[ix] = this_ref;
2682
          df_install_ref (this_ref, reg_info[DF_REF_REGNO (this_ref)],
2683
                          ref_info, add_to_table);
2684
        }
2685
 
2686
      new_vec[count] = NULL;
2687
      return new_vec;
2688
    }
2689
  else
2690
    return df_null_ref_rec;
2691
}
2692
 
2693
 
2694
/* This function takes the mws installs the entire group into the
2695
   insn.  */
2696
 
2697
static struct df_mw_hardreg **
2698
df_install_mws (VEC(df_mw_hardreg_ptr,stack) *old_vec)
2699
{
2700
  unsigned int count;
2701
 
2702
  count = VEC_length (df_mw_hardreg_ptr, old_vec);
2703
  if (count)
2704
    {
2705
      struct df_mw_hardreg **new_vec
2706
        = XNEWVEC (struct df_mw_hardreg*, count + 1);
2707
      memcpy (new_vec, VEC_address (df_mw_hardreg_ptr, old_vec),
2708
              sizeof (struct df_mw_hardreg*) * count);
2709
      new_vec[count] = NULL;
2710
      return new_vec;
2711
    }
2712
  else
2713
    return df_null_mw_rec;
2714
}
2715
 
2716
 
2717
/* Add a chain of df_refs to appropriate ref chain/reg_info/ref_info
2718
   chains and update other necessary information.  */
2719
 
2720
static void
2721
df_refs_add_to_chains (struct df_collection_rec *collection_rec,
2722
                       basic_block bb, rtx insn)
2723
{
2724
  if (insn)
2725
    {
2726
      struct df_insn_info *insn_rec = DF_INSN_INFO_GET (insn);
2727
      /* If there is a vector in the collection rec, add it to the
2728
         insn.  A null rec is a signal that the caller will handle the
2729
         chain specially.  */
2730
      if (collection_rec->def_vec)
2731
        {
2732
          df_scan_free_ref_vec (insn_rec->defs);
2733
          insn_rec->defs
2734
            = df_install_refs (bb, collection_rec->def_vec,
2735
                               df->def_regs,
2736
                               &df->def_info, false);
2737
        }
2738
      if (collection_rec->use_vec)
2739
        {
2740
          df_scan_free_ref_vec (insn_rec->uses);
2741
          insn_rec->uses
2742
            = df_install_refs (bb, collection_rec->use_vec,
2743
                               df->use_regs,
2744
                               &df->use_info, false);
2745
        }
2746
      if (collection_rec->eq_use_vec)
2747
        {
2748
          df_scan_free_ref_vec (insn_rec->eq_uses);
2749
          insn_rec->eq_uses
2750
            = df_install_refs (bb, collection_rec->eq_use_vec,
2751
                               df->eq_use_regs,
2752
                               &df->use_info, true);
2753
        }
2754
      if (collection_rec->mw_vec)
2755
        {
2756
          df_scan_free_mws_vec (insn_rec->mw_hardregs);
2757
          insn_rec->mw_hardregs
2758
            = df_install_mws (collection_rec->mw_vec);
2759
        }
2760
    }
2761
  else
2762
    {
2763
      struct df_scan_bb_info *bb_info = df_scan_get_bb_info (bb->index);
2764
 
2765
      df_scan_free_ref_vec (bb_info->artificial_defs);
2766
      bb_info->artificial_defs
2767
        = df_install_refs (bb, collection_rec->def_vec,
2768
                           df->def_regs,
2769
                           &df->def_info, false);
2770
      df_scan_free_ref_vec (bb_info->artificial_uses);
2771
      bb_info->artificial_uses
2772
        = df_install_refs (bb, collection_rec->use_vec,
2773
                           df->use_regs,
2774
                           &df->use_info, false);
2775
    }
2776
}
2777
 
2778
 
2779
/* Allocate a ref and initialize its fields.
2780
 
2781
   If the REF_FLAGS field contain DF_REF_SIGN_EXTRACT or
2782
   DF_REF_ZERO_EXTRACT.  WIDTH, OFFSET and MODE are used to access the fields
2783
   if they were constants.  Otherwise they should be -1 if those flags
2784
   were set.  */
2785
 
2786
static df_ref
2787
df_ref_create_structure (enum df_ref_class cl,
2788
                         struct df_collection_rec *collection_rec,
2789
                         rtx reg, rtx *loc,
2790
                         basic_block bb, struct df_insn_info *info,
2791
                         enum df_ref_type ref_type,
2792
                         int ref_flags,
2793
                         int width, int offset, enum machine_mode mode)
2794
{
2795
  df_ref this_ref = NULL;
2796
  int regno = REGNO (GET_CODE (reg) == SUBREG ? SUBREG_REG (reg) : reg);
2797
  struct df_scan_problem_data *problem_data
2798
    = (struct df_scan_problem_data *) df_scan->problem_data;
2799
 
2800
  switch (cl)
2801
    {
2802
    case DF_REF_BASE:
2803
      this_ref = (df_ref) pool_alloc (problem_data->ref_base_pool);
2804
      gcc_assert (loc == NULL);
2805
      break;
2806
 
2807
    case DF_REF_ARTIFICIAL:
2808
      this_ref = (df_ref) pool_alloc (problem_data->ref_artificial_pool);
2809
      this_ref->artificial_ref.bb = bb;
2810
      gcc_assert (loc == NULL);
2811
      break;
2812
 
2813
    case DF_REF_REGULAR:
2814
      this_ref = (df_ref) pool_alloc (problem_data->ref_regular_pool);
2815
      this_ref->regular_ref.loc = loc;
2816
      gcc_assert (loc);
2817
      break;
2818
 
2819
    case DF_REF_EXTRACT:
2820
      this_ref = (df_ref) pool_alloc (problem_data->ref_extract_pool);
2821
      DF_REF_EXTRACT_WIDTH (this_ref) = width;
2822
      DF_REF_EXTRACT_OFFSET (this_ref) = offset;
2823
      DF_REF_EXTRACT_MODE (this_ref) = mode;
2824
      this_ref->regular_ref.loc = loc;
2825
      gcc_assert (loc);
2826
      break;
2827
    }
2828
 
2829
  DF_REF_CLASS (this_ref) = cl;
2830
  DF_REF_ID (this_ref) = -1;
2831
  DF_REF_REG (this_ref) = reg;
2832
  DF_REF_REGNO (this_ref) =  regno;
2833
  DF_REF_TYPE (this_ref) = ref_type;
2834
  DF_REF_INSN_INFO (this_ref) = info;
2835
  DF_REF_CHAIN (this_ref) = NULL;
2836
  DF_REF_FLAGS (this_ref) = ref_flags;
2837
  DF_REF_NEXT_REG (this_ref) = NULL;
2838
  DF_REF_PREV_REG (this_ref) = NULL;
2839
  DF_REF_ORDER (this_ref) = df->ref_order++;
2840
 
2841
  /* We need to clear this bit because fwprop, and in the future
2842
     possibly other optimizations sometimes create new refs using ond
2843
     refs as the model.  */
2844
  DF_REF_FLAGS_CLEAR (this_ref, DF_HARD_REG_LIVE);
2845
 
2846
  /* See if this ref needs to have DF_HARD_REG_LIVE bit set.  */
2847
  if ((regno < FIRST_PSEUDO_REGISTER)
2848
      && (!DF_REF_IS_ARTIFICIAL (this_ref)))
2849
    {
2850
      if (DF_REF_REG_DEF_P (this_ref))
2851
        {
2852
          if (!DF_REF_FLAGS_IS_SET (this_ref, DF_REF_MAY_CLOBBER))
2853
            DF_REF_FLAGS_SET (this_ref, DF_HARD_REG_LIVE);
2854
        }
2855
      else if (!(TEST_HARD_REG_BIT (elim_reg_set, regno)
2856
                 && (regno == FRAME_POINTER_REGNUM
2857
                     || regno == ARG_POINTER_REGNUM)))
2858
        DF_REF_FLAGS_SET (this_ref, DF_HARD_REG_LIVE);
2859
    }
2860
 
2861
  if (collection_rec)
2862
    {
2863
      if (DF_REF_REG_DEF_P (this_ref))
2864
        VEC_safe_push (df_ref, stack, collection_rec->def_vec, this_ref);
2865
      else if (DF_REF_FLAGS (this_ref) & DF_REF_IN_NOTE)
2866
        VEC_safe_push (df_ref, stack, collection_rec->eq_use_vec, this_ref);
2867
      else
2868
        VEC_safe_push (df_ref, stack, collection_rec->use_vec, this_ref);
2869
    }
2870
 
2871
  return this_ref;
2872
}
2873
 
2874
 
2875
/* Create new references of type DF_REF_TYPE for each part of register REG
2876
   at address LOC within INSN of BB.
2877
 
2878
   If the REF_FLAGS field contain DF_REF_SIGN_EXTRACT or
2879
   DF_REF_ZERO_EXTRACT.  WIDTH, OFFSET and MODE are used to access the
2880
   fields if they were constants.  Otherwise they should be -1 if
2881
   those flags were set.  */
2882
 
2883
 
2884
static void
2885
df_ref_record (enum df_ref_class cl,
2886
               struct df_collection_rec *collection_rec,
2887
               rtx reg, rtx *loc,
2888
               basic_block bb, struct df_insn_info *insn_info,
2889
               enum df_ref_type ref_type,
2890
               int ref_flags,
2891
               int width, int offset, enum machine_mode mode)
2892
{
2893
  unsigned int regno;
2894
 
2895
  gcc_assert (REG_P (reg) || GET_CODE (reg) == SUBREG);
2896
 
2897
  regno = REGNO (GET_CODE (reg) == SUBREG ? SUBREG_REG (reg) : reg);
2898
  if (regno < FIRST_PSEUDO_REGISTER)
2899
    {
2900
      struct df_mw_hardreg *hardreg = NULL;
2901
      struct df_scan_problem_data *problem_data
2902
        = (struct df_scan_problem_data *) df_scan->problem_data;
2903
      unsigned int i;
2904
      unsigned int endregno;
2905
      df_ref ref;
2906
 
2907
      if (GET_CODE (reg) == SUBREG)
2908
        {
2909
          regno += subreg_regno_offset (regno, GET_MODE (SUBREG_REG (reg)),
2910
                                        SUBREG_BYTE (reg), GET_MODE (reg));
2911
          endregno = regno + subreg_nregs (reg);
2912
        }
2913
      else
2914
        endregno = END_HARD_REGNO (reg);
2915
 
2916
      /*  If this is a multiword hardreg, we create some extra
2917
          datastructures that will enable us to easily build REG_DEAD
2918
          and REG_UNUSED notes.  */
2919
      if ((endregno != regno + 1) && insn_info)
2920
        {
2921
          /* Sets to a subreg of a multiword register are partial.
2922
             Sets to a non-subreg of a multiword register are not.  */
2923
          if (GET_CODE (reg) == SUBREG)
2924
            ref_flags |= DF_REF_PARTIAL;
2925
          ref_flags |= DF_REF_MW_HARDREG;
2926
 
2927
          hardreg = (struct df_mw_hardreg *) pool_alloc (problem_data->mw_reg_pool);
2928
          hardreg->type = ref_type;
2929
          hardreg->flags = ref_flags;
2930
          hardreg->mw_reg = reg;
2931
          hardreg->start_regno = regno;
2932
          hardreg->end_regno = endregno - 1;
2933
          hardreg->mw_order = df->ref_order++;
2934
          VEC_safe_push (df_mw_hardreg_ptr, stack, collection_rec->mw_vec,
2935
                         hardreg);
2936
        }
2937
 
2938
      for (i = regno; i < endregno; i++)
2939
        {
2940
          ref = df_ref_create_structure (cl, collection_rec, regno_reg_rtx[i], loc,
2941
                                         bb, insn_info, ref_type, ref_flags,
2942
                                         width, offset, mode);
2943
 
2944
          gcc_assert (ORIGINAL_REGNO (DF_REF_REG (ref)) == i);
2945
        }
2946
    }
2947
  else
2948
    {
2949
      df_ref_create_structure (cl, collection_rec, reg, loc, bb, insn_info,
2950
                               ref_type, ref_flags, width, offset, mode);
2951
    }
2952
}
2953
 
2954
 
2955
/* A set to a non-paradoxical SUBREG for which the number of word_mode units
2956
   covered by the outer mode is smaller than that covered by the inner mode,
2957
   is a read-modify-write operation.
2958
   This function returns true iff the SUBREG X is such a SUBREG.  */
2959
 
2960
bool
2961
df_read_modify_subreg_p (rtx x)
2962
{
2963
  unsigned int isize, osize;
2964
  if (GET_CODE (x) != SUBREG)
2965
    return false;
2966
  isize = GET_MODE_SIZE (GET_MODE (SUBREG_REG (x)));
2967
  osize = GET_MODE_SIZE (GET_MODE (x));
2968
  return isize > osize
2969
         && isize > REGMODE_NATURAL_SIZE (GET_MODE (SUBREG_REG (x)));
2970
}
2971
 
2972
 
2973
/* Process all the registers defined in the rtx, X.
2974
   Autoincrement/decrement definitions will be picked up by
2975
   df_uses_record.  */
2976
 
2977
static void
2978
df_def_record_1 (struct df_collection_rec *collection_rec,
2979
                 rtx x, basic_block bb, struct df_insn_info *insn_info,
2980
                 int flags)
2981
{
2982
  rtx *loc;
2983
  rtx dst;
2984
  int offset = -1;
2985
  int width = -1;
2986
  enum machine_mode mode = VOIDmode;
2987
  enum df_ref_class cl = DF_REF_REGULAR;
2988
 
2989
 /* We may recursively call ourselves on EXPR_LIST when dealing with PARALLEL
2990
     construct.  */
2991
  if (GET_CODE (x) == EXPR_LIST || GET_CODE (x) == CLOBBER)
2992
    loc = &XEXP (x, 0);
2993
  else
2994
    loc = &SET_DEST (x);
2995
  dst = *loc;
2996
 
2997
  /* It is legal to have a set destination be a parallel. */
2998
  if (GET_CODE (dst) == PARALLEL)
2999
    {
3000
      int i;
3001
 
3002
      for (i = XVECLEN (dst, 0) - 1; i >= 0; i--)
3003
        {
3004
          rtx temp = XVECEXP (dst, 0, i);
3005
          if (GET_CODE (temp) == EXPR_LIST || GET_CODE (temp) == CLOBBER
3006
              || GET_CODE (temp) == SET)
3007
            df_def_record_1 (collection_rec,
3008
                             temp, bb, insn_info,
3009
                             GET_CODE (temp) == CLOBBER
3010
                             ? flags | DF_REF_MUST_CLOBBER : flags);
3011
        }
3012
      return;
3013
    }
3014
 
3015
  if (GET_CODE (dst) == STRICT_LOW_PART)
3016
    {
3017
      flags |= DF_REF_READ_WRITE | DF_REF_PARTIAL | DF_REF_STRICT_LOW_PART;
3018
 
3019
      loc = &XEXP (dst, 0);
3020
      dst = *loc;
3021
    }
3022
 
3023
  if (GET_CODE (dst) == ZERO_EXTRACT)
3024
    {
3025
      flags |= DF_REF_READ_WRITE | DF_REF_PARTIAL | DF_REF_ZERO_EXTRACT;
3026
 
3027
      if (CONST_INT_P (XEXP (dst, 1))
3028
          && CONST_INT_P (XEXP (dst, 2)))
3029
        {
3030
          width = INTVAL (XEXP (dst, 1));
3031
          offset = INTVAL (XEXP (dst, 2));
3032
          mode = GET_MODE (dst);
3033
          cl = DF_REF_EXTRACT;
3034
        }
3035
 
3036
      loc = &XEXP (dst, 0);
3037
      dst = *loc;
3038
    }
3039
 
3040
  /* At this point if we do not have a reg or a subreg, just return.  */
3041
  if (REG_P (dst))
3042
    {
3043
      df_ref_record (cl, collection_rec,
3044
                     dst, loc, bb, insn_info, DF_REF_REG_DEF, flags,
3045
                     width, offset, mode);
3046
 
3047
      /* We want to keep sp alive everywhere - by making all
3048
         writes to sp also use of sp. */
3049
      if (REGNO (dst) == STACK_POINTER_REGNUM)
3050
        df_ref_record (DF_REF_BASE, collection_rec,
3051
                       dst, NULL, bb, insn_info, DF_REF_REG_USE, flags,
3052
                       width, offset, mode);
3053
    }
3054
  else if (GET_CODE (dst) == SUBREG && REG_P (SUBREG_REG (dst)))
3055
    {
3056
      if (df_read_modify_subreg_p (dst))
3057
        flags |= DF_REF_READ_WRITE | DF_REF_PARTIAL;
3058
 
3059
      flags |= DF_REF_SUBREG;
3060
 
3061
      df_ref_record (cl, collection_rec,
3062
                     dst, loc, bb, insn_info, DF_REF_REG_DEF, flags,
3063
                     width, offset, mode);
3064
    }
3065
}
3066
 
3067
 
3068
/* Process all the registers defined in the pattern rtx, X.  */
3069
 
3070
static void
3071
df_defs_record (struct df_collection_rec *collection_rec,
3072
                rtx x, basic_block bb, struct df_insn_info *insn_info,
3073
                int flags)
3074
{
3075
  RTX_CODE code = GET_CODE (x);
3076
 
3077
  if (code == SET || code == CLOBBER)
3078
    {
3079
      /* Mark the single def within the pattern.  */
3080
      int clobber_flags = flags;
3081
      clobber_flags |= (code == CLOBBER) ? DF_REF_MUST_CLOBBER : 0;
3082
      df_def_record_1 (collection_rec, x, bb, insn_info, clobber_flags);
3083
    }
3084
  else if (code == COND_EXEC)
3085
    {
3086
      df_defs_record (collection_rec, COND_EXEC_CODE (x),
3087
                      bb, insn_info, DF_REF_CONDITIONAL);
3088
    }
3089
  else if (code == PARALLEL)
3090
    {
3091
      int i;
3092
 
3093
      /* Mark the multiple defs within the pattern.  */
3094
      for (i = XVECLEN (x, 0) - 1; i >= 0; i--)
3095
        df_defs_record (collection_rec, XVECEXP (x, 0, i), bb, insn_info, flags);
3096
    }
3097
}
3098
 
3099
 
3100
/* Process all the registers used in the rtx at address LOC.
3101
 
3102
   If the REF_FLAGS field contain DF_REF_SIGN_EXTRACT or
3103
   DF_REF_ZERO_EXTRACT.  WIDTH, OFFSET and MODE are used to access the
3104
   fields if they were constants.  Otherwise they should be -1 if
3105
   those flags were set.  */
3106
 
3107
static void
3108
df_uses_record (enum df_ref_class cl, struct df_collection_rec *collection_rec,
3109
                rtx *loc, enum df_ref_type ref_type,
3110
                basic_block bb, struct df_insn_info *insn_info,
3111
                int flags,
3112
                int width, int offset, enum machine_mode mode)
3113
{
3114
  RTX_CODE code;
3115
  rtx x;
3116
 
3117
 retry:
3118
  x = *loc;
3119
  if (!x)
3120
    return;
3121
  code = GET_CODE (x);
3122
  switch (code)
3123
    {
3124
    case LABEL_REF:
3125
    case SYMBOL_REF:
3126
    case CONST_INT:
3127
    case CONST:
3128
    case CONST_DOUBLE:
3129
    case CONST_FIXED:
3130
    case CONST_VECTOR:
3131
    case PC:
3132
    case CC0:
3133
    case ADDR_VEC:
3134
    case ADDR_DIFF_VEC:
3135
      return;
3136
 
3137
    case CLOBBER:
3138
      /* If we are clobbering a MEM, mark any registers inside the address
3139
         as being used.  */
3140
      if (MEM_P (XEXP (x, 0)))
3141
        df_uses_record (cl, collection_rec,
3142
                        &XEXP (XEXP (x, 0), 0),
3143
                        DF_REF_REG_MEM_STORE,
3144
                        bb, insn_info,
3145
                        flags, width, offset, mode);
3146
 
3147
      /* If we're clobbering a REG then we have a def so ignore.  */
3148
      return;
3149
 
3150
    case MEM:
3151
      df_uses_record (cl, collection_rec,
3152
                      &XEXP (x, 0), DF_REF_REG_MEM_LOAD,
3153
                      bb, insn_info, flags & DF_REF_IN_NOTE,
3154
                      width, offset, mode);
3155
      return;
3156
 
3157
    case SUBREG:
3158
      /* While we're here, optimize this case.  */
3159
      flags |= DF_REF_PARTIAL;
3160
      /* In case the SUBREG is not of a REG, do not optimize.  */
3161
      if (!REG_P (SUBREG_REG (x)))
3162
        {
3163
          loc = &SUBREG_REG (x);
3164
          df_uses_record (cl, collection_rec, loc, ref_type, bb, insn_info, flags,
3165
                          width, offset, mode);
3166
          return;
3167
        }
3168
      /* ... Fall through ...  */
3169
 
3170
    case REG:
3171
      df_ref_record (cl, collection_rec,
3172
                     x, loc, bb, insn_info,
3173
                     ref_type, flags,
3174
                     width, offset, mode);
3175
      return;
3176
 
3177
    case SIGN_EXTRACT:
3178
    case ZERO_EXTRACT:
3179
      {
3180
        /* If the parameters to the zero or sign extract are
3181
           constants, strip them off and recurse, otherwise there is
3182
           no information that we can gain from this operation.  */
3183
        if (CONST_INT_P (XEXP (x, 1))
3184
            && CONST_INT_P (XEXP (x, 2)))
3185
          {
3186
            width = INTVAL (XEXP (x, 1));
3187
            offset = INTVAL (XEXP (x, 2));
3188
            mode = GET_MODE (x);
3189
 
3190
            if (code == ZERO_EXTRACT)
3191
              flags |= DF_REF_ZERO_EXTRACT;
3192
            else
3193
              flags |= DF_REF_SIGN_EXTRACT;
3194
 
3195
            df_uses_record (DF_REF_EXTRACT, collection_rec,
3196
                            &XEXP (x, 0), ref_type, bb, insn_info, flags,
3197
                            width, offset, mode);
3198
            return;
3199
          }
3200
      }
3201
      break;
3202
 
3203
    case SET:
3204
      {
3205
        rtx dst = SET_DEST (x);
3206
        gcc_assert (!(flags & DF_REF_IN_NOTE));
3207
        df_uses_record (cl, collection_rec,
3208
                        &SET_SRC (x), DF_REF_REG_USE, bb, insn_info, flags,
3209
                        width, offset, mode);
3210
 
3211
        switch (GET_CODE (dst))
3212
          {
3213
            case SUBREG:
3214
              if (df_read_modify_subreg_p (dst))
3215
                {
3216
                  df_uses_record (cl, collection_rec, &SUBREG_REG (dst),
3217
                                  DF_REF_REG_USE, bb, insn_info,
3218
                                  flags | DF_REF_READ_WRITE | DF_REF_SUBREG,
3219
                                  width, offset, mode);
3220
                  break;
3221
                }
3222
              /* Fall through.  */
3223
            case REG:
3224
            case PARALLEL:
3225
            case SCRATCH:
3226
            case PC:
3227
            case CC0:
3228
                break;
3229
            case MEM:
3230
              df_uses_record (cl, collection_rec, &XEXP (dst, 0),
3231
                              DF_REF_REG_MEM_STORE, bb, insn_info, flags,
3232
                              width, offset, mode);
3233
              break;
3234
            case STRICT_LOW_PART:
3235
              {
3236
                rtx *temp = &XEXP (dst, 0);
3237
                /* A strict_low_part uses the whole REG and not just the
3238
                 SUBREG.  */
3239
                dst = XEXP (dst, 0);
3240
                df_uses_record (cl, collection_rec,
3241
                                (GET_CODE (dst) == SUBREG) ? &SUBREG_REG (dst) : temp,
3242
                                DF_REF_REG_USE, bb, insn_info,
3243
                                DF_REF_READ_WRITE | DF_REF_STRICT_LOW_PART,
3244
                                width, offset, mode);
3245
              }
3246
              break;
3247
            case ZERO_EXTRACT:
3248
              {
3249
                if (CONST_INT_P (XEXP (dst, 1))
3250
                    && CONST_INT_P (XEXP (dst, 2)))
3251
                  {
3252
                    width = INTVAL (XEXP (dst, 1));
3253
                    offset = INTVAL (XEXP (dst, 2));
3254
                    mode = GET_MODE (dst);
3255
                    if (GET_CODE (XEXP (dst,0)) == MEM)
3256
                      {
3257
                        /* Handle the case of zero_extract(mem(...)) in the set dest.
3258
                           This special case is allowed only if the mem is a single byte and
3259
                           is useful to set a bitfield in memory.  */
3260
                        df_uses_record (DF_REF_EXTRACT, collection_rec, &XEXP (XEXP (dst,0), 0),
3261
                                        DF_REF_REG_MEM_STORE, bb, insn_info,
3262
                                        DF_REF_ZERO_EXTRACT,
3263
                                        width, offset, mode);
3264
                      }
3265
                    else
3266
                      {
3267
                        df_uses_record (DF_REF_EXTRACT, collection_rec, &XEXP (dst, 0),
3268
                                        DF_REF_REG_USE, bb, insn_info,
3269
                                        DF_REF_READ_WRITE | DF_REF_ZERO_EXTRACT,
3270
                                        width, offset, mode);
3271
                      }
3272
                  }
3273
                else
3274
                  {
3275
                    df_uses_record (cl, collection_rec, &XEXP (dst, 1),
3276
                                    DF_REF_REG_USE, bb, insn_info, flags,
3277
                                    width, offset, mode);
3278
                    df_uses_record (cl, collection_rec, &XEXP (dst, 2),
3279
                                    DF_REF_REG_USE, bb, insn_info, flags,
3280
                                    width, offset, mode);
3281
                    df_uses_record (cl, collection_rec, &XEXP (dst, 0),
3282
                                    DF_REF_REG_USE, bb, insn_info,
3283
                                    DF_REF_READ_WRITE | DF_REF_ZERO_EXTRACT,
3284
                                    width, offset, mode);
3285
                  }
3286
 
3287
              }
3288
              break;
3289
 
3290
            default:
3291
              gcc_unreachable ();
3292
          }
3293
        return;
3294
      }
3295
 
3296
    case RETURN:
3297
      break;
3298
 
3299
    case ASM_OPERANDS:
3300
    case UNSPEC_VOLATILE:
3301
    case TRAP_IF:
3302
    case ASM_INPUT:
3303
      {
3304
        /* Traditional and volatile asm instructions must be
3305
           considered to use and clobber all hard registers, all
3306
           pseudo-registers and all of memory.  So must TRAP_IF and
3307
           UNSPEC_VOLATILE operations.
3308
 
3309
           Consider for instance a volatile asm that changes the fpu
3310
           rounding mode.  An insn should not be moved across this
3311
           even if it only uses pseudo-regs because it might give an
3312
           incorrectly rounded result.
3313
 
3314
           However, flow.c's liveness computation did *not* do this,
3315
           giving the reasoning as " ?!? Unfortunately, marking all
3316
           hard registers as live causes massive problems for the
3317
           register allocator and marking all pseudos as live creates
3318
           mountains of uninitialized variable warnings."
3319
 
3320
           In order to maintain the status quo with regard to liveness
3321
           and uses, we do what flow.c did and just mark any regs we
3322
           can find in ASM_OPERANDS as used.  In global asm insns are
3323
           scanned and regs_asm_clobbered is filled out.
3324
 
3325
           For all ASM_OPERANDS, we must traverse the vector of input
3326
           operands.  We can not just fall through here since then we
3327
           would be confused by the ASM_INPUT rtx inside ASM_OPERANDS,
3328
           which do not indicate traditional asms unlike their normal
3329
           usage.  */
3330
        if (code == ASM_OPERANDS)
3331
          {
3332
            int j;
3333
 
3334
            for (j = 0; j < ASM_OPERANDS_INPUT_LENGTH (x); j++)
3335
              df_uses_record (cl, collection_rec, &ASM_OPERANDS_INPUT (x, j),
3336
                              DF_REF_REG_USE, bb, insn_info, flags,
3337
                              width, offset, mode);
3338
            return;
3339
          }
3340
        break;
3341
      }
3342
 
3343
    case VAR_LOCATION:
3344
      df_uses_record (cl, collection_rec,
3345
                      &PAT_VAR_LOCATION_LOC (x),
3346
                      DF_REF_REG_USE, bb, insn_info,
3347
                      flags, width, offset, mode);
3348
      return;
3349
 
3350
    case PRE_DEC:
3351
    case POST_DEC:
3352
    case PRE_INC:
3353
    case POST_INC:
3354
    case PRE_MODIFY:
3355
    case POST_MODIFY:
3356
      gcc_assert (!DEBUG_INSN_P (insn_info->insn));
3357
      /* Catch the def of the register being modified.  */
3358
      df_ref_record (cl, collection_rec, XEXP (x, 0), &XEXP (x, 0),
3359
                     bb, insn_info,
3360
                     DF_REF_REG_DEF,
3361
                     flags | DF_REF_READ_WRITE | DF_REF_PRE_POST_MODIFY,
3362
                     width, offset, mode);
3363
 
3364
      /* ... Fall through to handle uses ...  */
3365
 
3366
    default:
3367
      break;
3368
    }
3369
 
3370
  /* Recursively scan the operands of this expression.  */
3371
  {
3372
    const char *fmt = GET_RTX_FORMAT (code);
3373
    int i;
3374
 
3375
    for (i = GET_RTX_LENGTH (code) - 1; i >= 0; i--)
3376
      {
3377
        if (fmt[i] == 'e')
3378
          {
3379
            /* Tail recursive case: save a function call level.  */
3380
            if (i == 0)
3381
              {
3382
                loc = &XEXP (x, 0);
3383
                goto retry;
3384
              }
3385
            df_uses_record (cl, collection_rec, &XEXP (x, i), ref_type,
3386
                            bb, insn_info, flags,
3387
                            width, offset, mode);
3388
          }
3389
        else if (fmt[i] == 'E')
3390
          {
3391
            int j;
3392
            for (j = 0; j < XVECLEN (x, i); j++)
3393
              df_uses_record (cl, collection_rec,
3394
                              &XVECEXP (x, i, j), ref_type,
3395
                              bb, insn_info, flags,
3396
                              width, offset, mode);
3397
          }
3398
      }
3399
  }
3400
 
3401
  return;
3402
}
3403
 
3404
 
3405
/* For all DF_REF_CONDITIONAL defs, add a corresponding uses.  */
3406
 
3407
static void
3408
df_get_conditional_uses (struct df_collection_rec *collection_rec)
3409
{
3410
  unsigned int ix;
3411
  df_ref ref;
3412
 
3413
  for (ix = 0; VEC_iterate (df_ref, collection_rec->def_vec, ix, ref); ++ix)
3414
    {
3415
      if (DF_REF_FLAGS_IS_SET (ref, DF_REF_CONDITIONAL))
3416
        {
3417
          int width = -1;
3418
          int offset = -1;
3419
          enum machine_mode mode = VOIDmode;
3420
          df_ref use;
3421
 
3422
          if (DF_REF_FLAGS_IS_SET (ref, DF_REF_SIGN_EXTRACT | DF_REF_ZERO_EXTRACT))
3423
            {
3424
              width = DF_REF_EXTRACT_WIDTH (ref);
3425
              offset = DF_REF_EXTRACT_OFFSET (ref);
3426
              mode = DF_REF_EXTRACT_MODE (ref);
3427
            }
3428
 
3429
          use = df_ref_create_structure (DF_REF_CLASS (ref), collection_rec, DF_REF_REG (ref),
3430
                                         DF_REF_LOC (ref), DF_REF_BB (ref),
3431
                                         DF_REF_INSN_INFO (ref), DF_REF_REG_USE,
3432
                                         DF_REF_FLAGS (ref) & ~DF_REF_CONDITIONAL,
3433
                                         width, offset, mode);
3434
          DF_REF_REGNO (use) = DF_REF_REGNO (ref);
3435
        }
3436
    }
3437
}
3438
 
3439
 
3440
/* Get call's extra defs and uses. */
3441
 
3442
static void
3443
df_get_call_refs (struct df_collection_rec * collection_rec,
3444
                  basic_block bb,
3445
                  struct df_insn_info *insn_info,
3446
                  int flags)
3447
{
3448
  rtx note;
3449
  bitmap_iterator bi;
3450
  unsigned int ui;
3451
  bool is_sibling_call;
3452
  unsigned int i;
3453
  df_ref def;
3454
  bitmap defs_generated = BITMAP_ALLOC (&df_bitmap_obstack);
3455
 
3456
  /* Do not generate clobbers for registers that are the result of the
3457
     call.  This causes ordering problems in the chain building code
3458
     depending on which def is seen first.  */
3459
  for (i = 0; VEC_iterate (df_ref, collection_rec->def_vec, i, def); ++i)
3460
    bitmap_set_bit (defs_generated, DF_REF_REGNO (def));
3461
 
3462
  /* Record the registers used to pass arguments, and explicitly
3463
     noted as clobbered.  */
3464
  for (note = CALL_INSN_FUNCTION_USAGE (insn_info->insn); note;
3465
       note = XEXP (note, 1))
3466
    {
3467
      if (GET_CODE (XEXP (note, 0)) == USE)
3468
        df_uses_record (DF_REF_REGULAR, collection_rec, &XEXP (XEXP (note, 0), 0),
3469
                        DF_REF_REG_USE, bb, insn_info, flags, -1, -1,
3470
                        VOIDmode);
3471
      else if (GET_CODE (XEXP (note, 0)) == CLOBBER)
3472
        {
3473
          if (REG_P (XEXP (XEXP (note, 0), 0)))
3474
            {
3475
              unsigned int regno = REGNO (XEXP (XEXP (note, 0), 0));
3476
              if (!bitmap_bit_p (defs_generated, regno))
3477
                df_defs_record (collection_rec, XEXP (note, 0), bb,
3478
                                insn_info, flags);
3479
            }
3480
          else
3481
            df_uses_record (DF_REF_REGULAR, collection_rec, &XEXP (note, 0),
3482
                            DF_REF_REG_USE, bb, insn_info, flags, -1, -1,
3483
                            VOIDmode);
3484
        }
3485
    }
3486
 
3487
  /* The stack ptr is used (honorarily) by a CALL insn.  */
3488
  df_ref_record (DF_REF_BASE, collection_rec, regno_reg_rtx[STACK_POINTER_REGNUM],
3489
                 NULL, bb, insn_info, DF_REF_REG_USE,
3490
                 DF_REF_CALL_STACK_USAGE | flags,
3491
                 -1, -1, VOIDmode);
3492
 
3493
  /* Calls may also reference any of the global registers,
3494
     so they are recorded as used.  */
3495
  for (i = 0; i < FIRST_PSEUDO_REGISTER; i++)
3496
    if (global_regs[i])
3497
      {
3498
        df_ref_record (DF_REF_BASE, collection_rec, regno_reg_rtx[i],
3499
                       NULL, bb, insn_info, DF_REF_REG_USE, flags, -1, -1,
3500
                       VOIDmode);
3501
        df_ref_record (DF_REF_BASE, collection_rec, regno_reg_rtx[i],
3502
                       NULL, bb, insn_info, DF_REF_REG_DEF, flags, -1, -1,
3503
                       VOIDmode);
3504
      }
3505
 
3506
  is_sibling_call = SIBLING_CALL_P (insn_info->insn);
3507
  EXECUTE_IF_SET_IN_BITMAP (regs_invalidated_by_call_regset, 0, ui, bi)
3508
    {
3509
      if (!global_regs[ui]
3510
          && (!bitmap_bit_p (defs_generated, ui))
3511
          && (!is_sibling_call
3512
              || !bitmap_bit_p (df->exit_block_uses, ui)
3513
              || refers_to_regno_p (ui, ui+1,
3514
                                    crtl->return_rtx, NULL)))
3515
        df_ref_record (DF_REF_BASE, collection_rec, regno_reg_rtx[ui],
3516
                       NULL, bb, insn_info, DF_REF_REG_DEF,
3517
                       DF_REF_MAY_CLOBBER | flags,
3518
                       -1, -1, VOIDmode);
3519
    }
3520
 
3521
  BITMAP_FREE (defs_generated);
3522
  return;
3523
}
3524
 
3525
/* Collect all refs in the INSN. This function is free of any
3526
   side-effect - it will create and return a lists of df_ref's in the
3527
   COLLECTION_REC without putting those refs into existing ref chains
3528
   and reg chains. */
3529
 
3530
static void
3531
df_insn_refs_collect (struct df_collection_rec* collection_rec,
3532
                      basic_block bb, struct df_insn_info *insn_info)
3533
{
3534
  rtx note;
3535
  bool is_cond_exec = (GET_CODE (PATTERN (insn_info->insn)) == COND_EXEC);
3536
 
3537
  /* Clear out the collection record.  */
3538
  VEC_truncate (df_ref, collection_rec->def_vec, 0);
3539
  VEC_truncate (df_ref, collection_rec->use_vec, 0);
3540
  VEC_truncate (df_ref, collection_rec->eq_use_vec, 0);
3541
  VEC_truncate (df_mw_hardreg_ptr, collection_rec->mw_vec, 0);
3542
 
3543
  /* Record register defs.  */
3544
  df_defs_record (collection_rec, PATTERN (insn_info->insn), bb, insn_info, 0);
3545
 
3546
  /* Process REG_EQUIV/REG_EQUAL notes.  */
3547
  for (note = REG_NOTES (insn_info->insn); note;
3548
       note = XEXP (note, 1))
3549
    {
3550
      switch (REG_NOTE_KIND (note))
3551
        {
3552
        case REG_EQUIV:
3553
        case REG_EQUAL:
3554
          df_uses_record (DF_REF_REGULAR, collection_rec,
3555
                          &XEXP (note, 0), DF_REF_REG_USE,
3556
                          bb, insn_info, DF_REF_IN_NOTE, -1, -1, VOIDmode);
3557
          break;
3558
        case REG_NON_LOCAL_GOTO:
3559
          /* The frame ptr is used by a non-local goto.  */
3560
          df_ref_record (DF_REF_BASE, collection_rec,
3561
                         regno_reg_rtx[FRAME_POINTER_REGNUM],
3562
                         NULL, bb, insn_info,
3563
                         DF_REF_REG_USE, 0, -1, -1, VOIDmode);
3564
#if FRAME_POINTER_REGNUM != HARD_FRAME_POINTER_REGNUM
3565
          df_ref_record (DF_REF_BASE, collection_rec,
3566
                         regno_reg_rtx[HARD_FRAME_POINTER_REGNUM],
3567
                         NULL, bb, insn_info,
3568
                         DF_REF_REG_USE, 0, -1, -1, VOIDmode);
3569
#endif
3570
          break;
3571
        default:
3572
          break;
3573
        }
3574
    }
3575
 
3576
  if (CALL_P (insn_info->insn))
3577
    df_get_call_refs (collection_rec, bb, insn_info,
3578
                      (is_cond_exec) ? DF_REF_CONDITIONAL : 0);
3579
 
3580
  /* Record the register uses.  */
3581
  df_uses_record (DF_REF_REGULAR, collection_rec,
3582
                  &PATTERN (insn_info->insn), DF_REF_REG_USE, bb, insn_info, 0,
3583
                  -1, -1, VOIDmode);
3584
 
3585
  /* DF_REF_CONDITIONAL needs corresponding USES. */
3586
  if (is_cond_exec)
3587
    df_get_conditional_uses (collection_rec);
3588
 
3589
  df_canonize_collection_rec (collection_rec);
3590
}
3591
 
3592
/* Recompute the luids for the insns in BB.  */
3593
 
3594
void
3595
df_recompute_luids (basic_block bb)
3596
{
3597
  rtx insn;
3598
  int luid = 0;
3599
 
3600
  df_grow_insn_info ();
3601
 
3602
  /* Scan the block an insn at a time from beginning to end.  */
3603
  FOR_BB_INSNS (bb, insn)
3604
    {
3605
      struct df_insn_info *insn_info = DF_INSN_INFO_GET (insn);
3606
      /* Inserting labels does not always trigger the incremental
3607
         rescanning.  */
3608
      if (!insn_info)
3609
        {
3610
          gcc_assert (!INSN_P (insn));
3611
          insn_info = df_insn_create_insn_record (insn);
3612
        }
3613
 
3614
      DF_INSN_INFO_LUID (insn_info) = luid;
3615
      if (INSN_P (insn))
3616
        luid++;
3617
    }
3618
}
3619
 
3620
 
3621
/* Collect all artificial refs at the block level for BB and add them
3622
   to COLLECTION_REC.  */
3623
 
3624
static void
3625
df_bb_refs_collect (struct df_collection_rec *collection_rec, basic_block bb)
3626
{
3627
  VEC_truncate (df_ref, collection_rec->def_vec, 0);
3628
  VEC_truncate (df_ref, collection_rec->use_vec, 0);
3629
  VEC_truncate (df_ref, collection_rec->eq_use_vec, 0);
3630
  VEC_truncate (df_mw_hardreg_ptr, collection_rec->mw_vec, 0);
3631
 
3632
  if (bb->index == ENTRY_BLOCK)
3633
    {
3634
      df_entry_block_defs_collect (collection_rec, df->entry_block_defs);
3635
      return;
3636
    }
3637
  else if (bb->index == EXIT_BLOCK)
3638
    {
3639
      df_exit_block_uses_collect (collection_rec, df->exit_block_uses);
3640
      return;
3641
    }
3642
 
3643
#ifdef EH_RETURN_DATA_REGNO
3644
  if (bb_has_eh_pred (bb))
3645
    {
3646
      unsigned int i;
3647
      /* Mark the registers that will contain data for the handler.  */
3648
      for (i = 0; ; ++i)
3649
        {
3650
          unsigned regno = EH_RETURN_DATA_REGNO (i);
3651
          if (regno == INVALID_REGNUM)
3652
            break;
3653
          df_ref_record (DF_REF_ARTIFICIAL, collection_rec, regno_reg_rtx[regno], NULL,
3654
                         bb, NULL, DF_REF_REG_DEF, DF_REF_AT_TOP, -1, -1,
3655
                         VOIDmode);
3656
        }
3657
    }
3658
#endif
3659
 
3660
  /* Add the hard_frame_pointer if this block is the target of a
3661
     non-local goto.  */
3662
  if (bb->flags & BB_NON_LOCAL_GOTO_TARGET)
3663
    df_ref_record (DF_REF_ARTIFICIAL, collection_rec, hard_frame_pointer_rtx, NULL,
3664
                   bb, NULL, DF_REF_REG_DEF, DF_REF_AT_TOP, -1, -1, VOIDmode);
3665
 
3666
  /* Add the artificial uses.  */
3667
  if (bb->index >= NUM_FIXED_BLOCKS)
3668
    {
3669
      bitmap_iterator bi;
3670
      unsigned int regno;
3671
      bitmap au = bb_has_eh_pred (bb)
3672
        ? df->eh_block_artificial_uses
3673
        : df->regular_block_artificial_uses;
3674
 
3675
      EXECUTE_IF_SET_IN_BITMAP (au, 0, regno, bi)
3676
        {
3677
          df_ref_record (DF_REF_ARTIFICIAL, collection_rec, regno_reg_rtx[regno], NULL,
3678
                         bb, NULL, DF_REF_REG_USE, 0, -1, -1, VOIDmode);
3679
        }
3680
    }
3681
 
3682
  df_canonize_collection_rec (collection_rec);
3683
}
3684
 
3685
 
3686
/* Record all the refs within the basic block BB_INDEX and scan the instructions if SCAN_INSNS.  */
3687
 
3688
void
3689
df_bb_refs_record (int bb_index, bool scan_insns)
3690
{
3691
  basic_block bb = BASIC_BLOCK (bb_index);
3692
  rtx insn;
3693
  int luid = 0;
3694
  struct df_scan_bb_info *bb_info;
3695
  struct df_collection_rec collection_rec;
3696
 
3697
  if (!df)
3698
    return;
3699
 
3700
  bb_info = df_scan_get_bb_info (bb_index);
3701
 
3702
  /* Need to make sure that there is a record in the basic block info. */
3703
  if (!bb_info)
3704
    {
3705
      bb_info = (struct df_scan_bb_info *) pool_alloc (df_scan->block_pool);
3706
      df_scan_set_bb_info (bb_index, bb_info);
3707
      bb_info->artificial_defs = NULL;
3708
      bb_info->artificial_uses = NULL;
3709
    }
3710
 
3711
  collection_rec.def_vec = VEC_alloc (df_ref, stack, 128);
3712
  collection_rec.use_vec = VEC_alloc (df_ref, stack, 32);
3713
  collection_rec.eq_use_vec = VEC_alloc (df_ref, stack, 32);
3714
  collection_rec.mw_vec = VEC_alloc (df_mw_hardreg_ptr, stack, 32);
3715
 
3716
  if (scan_insns)
3717
    /* Scan the block an insn at a time from beginning to end.  */
3718
    FOR_BB_INSNS (bb, insn)
3719
      {
3720
        struct df_insn_info *insn_info = DF_INSN_INFO_GET (insn);
3721
        gcc_assert (!insn_info);
3722
 
3723
        insn_info = df_insn_create_insn_record (insn);
3724
        if (INSN_P (insn))
3725
          {
3726
            /* Record refs within INSN.  */
3727
            DF_INSN_INFO_LUID (insn_info) = luid++;
3728
            df_insn_refs_collect (&collection_rec, bb, DF_INSN_INFO_GET (insn));
3729
            df_refs_add_to_chains (&collection_rec, bb, insn);
3730
          }
3731
        DF_INSN_INFO_LUID (insn_info) = luid;
3732
      }
3733
 
3734
  /* Other block level artificial refs */
3735
  df_bb_refs_collect (&collection_rec, bb);
3736
  df_refs_add_to_chains (&collection_rec, bb, NULL);
3737
 
3738
  VEC_free (df_ref, stack, collection_rec.def_vec);
3739
  VEC_free (df_ref, stack, collection_rec.use_vec);
3740
  VEC_free (df_ref, stack, collection_rec.eq_use_vec);
3741
  VEC_free (df_mw_hardreg_ptr, stack, collection_rec.mw_vec);
3742
 
3743
  /* Now that the block has been processed, set the block as dirty so
3744
     LR and LIVE will get it processed.  */
3745
  df_set_bb_dirty (bb);
3746
}
3747
 
3748
 
3749
/* Get the artificial use set for a regular (i.e. non-exit/non-entry)
3750
   block. */
3751
 
3752
static void
3753
df_get_regular_block_artificial_uses (bitmap regular_block_artificial_uses)
3754
{
3755
#ifdef EH_USES
3756
  unsigned int i;
3757
#endif
3758
 
3759
  bitmap_clear (regular_block_artificial_uses);
3760
 
3761
  if (reload_completed)
3762
    {
3763
      if (frame_pointer_needed)
3764
        bitmap_set_bit (regular_block_artificial_uses, HARD_FRAME_POINTER_REGNUM);
3765
    }
3766
  else
3767
    /* Before reload, there are a few registers that must be forced
3768
       live everywhere -- which might not already be the case for
3769
       blocks within infinite loops.  */
3770
    {
3771
      /* Any reference to any pseudo before reload is a potential
3772
         reference of the frame pointer.  */
3773
      bitmap_set_bit (regular_block_artificial_uses, FRAME_POINTER_REGNUM);
3774
 
3775
#if FRAME_POINTER_REGNUM != HARD_FRAME_POINTER_REGNUM
3776
      bitmap_set_bit (regular_block_artificial_uses, HARD_FRAME_POINTER_REGNUM);
3777
#endif
3778
 
3779
#if FRAME_POINTER_REGNUM != ARG_POINTER_REGNUM
3780
      /* Pseudos with argument area equivalences may require
3781
         reloading via the argument pointer.  */
3782
      if (fixed_regs[ARG_POINTER_REGNUM])
3783
        bitmap_set_bit (regular_block_artificial_uses, ARG_POINTER_REGNUM);
3784
#endif
3785
 
3786
      /* Any constant, or pseudo with constant equivalences, may
3787
         require reloading from memory using the pic register.  */
3788
      if ((unsigned) PIC_OFFSET_TABLE_REGNUM != INVALID_REGNUM
3789
          && fixed_regs[PIC_OFFSET_TABLE_REGNUM])
3790
        bitmap_set_bit (regular_block_artificial_uses, PIC_OFFSET_TABLE_REGNUM);
3791
    }
3792
  /* The all-important stack pointer must always be live.  */
3793
  bitmap_set_bit (regular_block_artificial_uses, STACK_POINTER_REGNUM);
3794
 
3795
#ifdef EH_USES
3796
  /* EH_USES registers are used:
3797
     1) at all insns that might throw (calls or with -fnon-call-exceptions
3798
        trapping insns)
3799
     2) in all EH edges
3800
     3) to support backtraces and/or debugging, anywhere between their
3801
        initialization and where they the saved registers are restored
3802
        from them, including the cases where we don't reach the epilogue
3803
        (noreturn call or infinite loop).  */
3804
  for (i = 0; i < FIRST_PSEUDO_REGISTER; i++)
3805
    if (EH_USES (i))
3806
      bitmap_set_bit (regular_block_artificial_uses, i);
3807
#endif
3808
}
3809
 
3810
 
3811
/* Get the artificial use set for an eh block. */
3812
 
3813
static void
3814
df_get_eh_block_artificial_uses (bitmap eh_block_artificial_uses)
3815
{
3816
  bitmap_clear (eh_block_artificial_uses);
3817
 
3818
  /* The following code (down thru the arg_pointer setting APPEARS
3819
     to be necessary because there is nothing that actually
3820
     describes what the exception handling code may actually need
3821
     to keep alive.  */
3822
  if (reload_completed)
3823
    {
3824
      if (frame_pointer_needed)
3825
        {
3826
          bitmap_set_bit (eh_block_artificial_uses, FRAME_POINTER_REGNUM);
3827
#if FRAME_POINTER_REGNUM != HARD_FRAME_POINTER_REGNUM
3828
          bitmap_set_bit (eh_block_artificial_uses, HARD_FRAME_POINTER_REGNUM);
3829
#endif
3830
        }
3831
#if FRAME_POINTER_REGNUM != ARG_POINTER_REGNUM
3832
      if (fixed_regs[ARG_POINTER_REGNUM])
3833
        bitmap_set_bit (eh_block_artificial_uses, ARG_POINTER_REGNUM);
3834
#endif
3835
    }
3836
}
3837
 
3838
 
3839
 
3840
/*----------------------------------------------------------------------------
3841
   Specialized hard register scanning functions.
3842
----------------------------------------------------------------------------*/
3843
 
3844
 
3845
/* Mark a register in SET.  Hard registers in large modes get all
3846
   of their component registers set as well.  */
3847
 
3848
static void
3849
df_mark_reg (rtx reg, void *vset)
3850
{
3851
  bitmap set = (bitmap) vset;
3852
  int regno = REGNO (reg);
3853
 
3854
  gcc_assert (GET_MODE (reg) != BLKmode);
3855
 
3856
  if (regno < FIRST_PSEUDO_REGISTER)
3857
    {
3858
      int n = hard_regno_nregs[regno][GET_MODE (reg)];
3859
      bitmap_set_range (set, regno, n);
3860
    }
3861
  else
3862
    bitmap_set_bit (set, regno);
3863
}
3864
 
3865
 
3866
/* Set the bit for regs that are considered being defined at the entry. */
3867
 
3868
static void
3869
df_get_entry_block_def_set (bitmap entry_block_defs)
3870
{
3871
  rtx r;
3872
  int i;
3873
 
3874
  bitmap_clear (entry_block_defs);
3875
 
3876
  for (i = 0; i < FIRST_PSEUDO_REGISTER; i++)
3877
    {
3878
      if (FUNCTION_ARG_REGNO_P (i))
3879
#ifdef INCOMING_REGNO
3880
        bitmap_set_bit (entry_block_defs, INCOMING_REGNO (i));
3881
#else
3882
        bitmap_set_bit (entry_block_defs, i);
3883
#endif
3884
    }
3885
 
3886
  /* The always important stack pointer.  */
3887
  bitmap_set_bit (entry_block_defs, STACK_POINTER_REGNUM);
3888
 
3889
  /* Once the prologue has been generated, all of these registers
3890
     should just show up in the first regular block.  */
3891
  if (HAVE_prologue && epilogue_completed)
3892
    {
3893
      /* Defs for the callee saved registers are inserted so that the
3894
         pushes have some defining location.  */
3895
      for (i = 0; i < FIRST_PSEUDO_REGISTER; i++)
3896
        if ((call_used_regs[i] == 0) && (df_regs_ever_live_p (i)))
3897
          bitmap_set_bit (entry_block_defs, i);
3898
    }
3899
 
3900
  r = targetm.calls.struct_value_rtx (current_function_decl, true);
3901
  if (r && REG_P (r))
3902
    bitmap_set_bit (entry_block_defs, REGNO (r));
3903
 
3904
  /* If the function has an incoming STATIC_CHAIN, it has to show up
3905
     in the entry def set.  */
3906
  r = targetm.calls.static_chain (current_function_decl, true);
3907
  if (r && REG_P (r))
3908
    bitmap_set_bit (entry_block_defs, REGNO (r));
3909
 
3910
  if ((!reload_completed) || frame_pointer_needed)
3911
    {
3912
      /* Any reference to any pseudo before reload is a potential
3913
         reference of the frame pointer.  */
3914
      bitmap_set_bit (entry_block_defs, FRAME_POINTER_REGNUM);
3915
#if FRAME_POINTER_REGNUM != HARD_FRAME_POINTER_REGNUM
3916
      /* If they are different, also mark the hard frame pointer as live.  */
3917
      if (!LOCAL_REGNO (HARD_FRAME_POINTER_REGNUM))
3918
        bitmap_set_bit (entry_block_defs, HARD_FRAME_POINTER_REGNUM);
3919
#endif
3920
    }
3921
 
3922
  /* These registers are live everywhere.  */
3923
  if (!reload_completed)
3924
    {
3925
#if FRAME_POINTER_REGNUM != ARG_POINTER_REGNUM
3926
      /* Pseudos with argument area equivalences may require
3927
         reloading via the argument pointer.  */
3928
      if (fixed_regs[ARG_POINTER_REGNUM])
3929
        bitmap_set_bit (entry_block_defs, ARG_POINTER_REGNUM);
3930
#endif
3931
 
3932
#ifdef PIC_OFFSET_TABLE_REGNUM
3933
      /* Any constant, or pseudo with constant equivalences, may
3934
         require reloading from memory using the pic register.  */
3935
      if ((unsigned) PIC_OFFSET_TABLE_REGNUM != INVALID_REGNUM
3936
          && fixed_regs[PIC_OFFSET_TABLE_REGNUM])
3937
        bitmap_set_bit (entry_block_defs, PIC_OFFSET_TABLE_REGNUM);
3938
#endif
3939
    }
3940
 
3941
#ifdef INCOMING_RETURN_ADDR_RTX
3942
  if (REG_P (INCOMING_RETURN_ADDR_RTX))
3943
    bitmap_set_bit (entry_block_defs, REGNO (INCOMING_RETURN_ADDR_RTX));
3944
#endif
3945
 
3946
  targetm.live_on_entry (entry_block_defs);
3947
}
3948
 
3949
 
3950
/* Return the (conservative) set of hard registers that are defined on
3951
   entry to the function.
3952
   It uses df->entry_block_defs to determine which register
3953
   reference to include.  */
3954
 
3955
static void
3956
df_entry_block_defs_collect (struct df_collection_rec *collection_rec,
3957
                             bitmap entry_block_defs)
3958
{
3959
  unsigned int i;
3960
  bitmap_iterator bi;
3961
 
3962
  EXECUTE_IF_SET_IN_BITMAP (entry_block_defs, 0, i, bi)
3963
    {
3964
      df_ref_record (DF_REF_ARTIFICIAL, collection_rec, regno_reg_rtx[i], NULL,
3965
                     ENTRY_BLOCK_PTR, NULL, DF_REF_REG_DEF, 0, -1, -1,
3966
                     VOIDmode);
3967
    }
3968
 
3969
  df_canonize_collection_rec (collection_rec);
3970
}
3971
 
3972
 
3973
/* Record the (conservative) set of hard registers that are defined on
3974
   entry to the function.  */
3975
 
3976
static void
3977
df_record_entry_block_defs (bitmap entry_block_defs)
3978
{
3979
  struct df_collection_rec collection_rec;
3980
  memset (&collection_rec, 0, sizeof (struct df_collection_rec));
3981
  collection_rec.def_vec = VEC_alloc (df_ref, stack, FIRST_PSEUDO_REGISTER);
3982
  df_entry_block_defs_collect (&collection_rec, entry_block_defs);
3983
 
3984
  /* Process bb_refs chain */
3985
  df_refs_add_to_chains (&collection_rec, BASIC_BLOCK (ENTRY_BLOCK), NULL);
3986
  VEC_free (df_ref, stack, collection_rec.def_vec);
3987
}
3988
 
3989
 
3990
/* Update the defs in the entry block.  */
3991
 
3992
void
3993
df_update_entry_block_defs (void)
3994
{
3995
  bitmap refs = BITMAP_ALLOC (&df_bitmap_obstack);
3996
  bool changed = false;
3997
 
3998
  df_get_entry_block_def_set (refs);
3999
  if (df->entry_block_defs)
4000
    {
4001
      if (!bitmap_equal_p (df->entry_block_defs, refs))
4002
        {
4003
          struct df_scan_bb_info *bb_info = df_scan_get_bb_info (ENTRY_BLOCK);
4004
          df_ref_chain_delete_du_chain (bb_info->artificial_defs);
4005
          df_ref_chain_delete (bb_info->artificial_defs);
4006
          bb_info->artificial_defs = NULL;
4007
          changed = true;
4008
        }
4009
    }
4010
  else
4011
    {
4012
      struct df_scan_problem_data *problem_data
4013
        = (struct df_scan_problem_data *) df_scan->problem_data;
4014
      df->entry_block_defs = BITMAP_ALLOC (&problem_data->reg_bitmaps);
4015
      changed = true;
4016
    }
4017
 
4018
  if (changed)
4019
    {
4020
      df_record_entry_block_defs (refs);
4021
      bitmap_copy (df->entry_block_defs, refs);
4022
      df_set_bb_dirty (BASIC_BLOCK (ENTRY_BLOCK));
4023
    }
4024
  BITMAP_FREE (refs);
4025
}
4026
 
4027
 
4028
/* Set the bit for regs that are considered being used at the exit. */
4029
 
4030
static void
4031
df_get_exit_block_use_set (bitmap exit_block_uses)
4032
{
4033
  unsigned int i;
4034
 
4035
  bitmap_clear (exit_block_uses);
4036
 
4037
  /* Stack pointer is always live at the exit.  */
4038
  bitmap_set_bit (exit_block_uses, STACK_POINTER_REGNUM);
4039
 
4040
  /* Mark the frame pointer if needed at the end of the function.
4041
     If we end up eliminating it, it will be removed from the live
4042
     list of each basic block by reload.  */
4043
 
4044
  if ((!reload_completed) || frame_pointer_needed)
4045
    {
4046
      bitmap_set_bit (exit_block_uses, FRAME_POINTER_REGNUM);
4047
#if FRAME_POINTER_REGNUM != HARD_FRAME_POINTER_REGNUM
4048
      /* If they are different, also mark the hard frame pointer as live.  */
4049
      if (!LOCAL_REGNO (HARD_FRAME_POINTER_REGNUM))
4050
        bitmap_set_bit (exit_block_uses, HARD_FRAME_POINTER_REGNUM);
4051
#endif
4052
    }
4053
 
4054
#ifndef PIC_OFFSET_TABLE_REG_CALL_CLOBBERED
4055
  /* Many architectures have a GP register even without flag_pic.
4056
     Assume the pic register is not in use, or will be handled by
4057
     other means, if it is not fixed.  */
4058
  if ((unsigned) PIC_OFFSET_TABLE_REGNUM != INVALID_REGNUM
4059
      && fixed_regs[PIC_OFFSET_TABLE_REGNUM])
4060
    bitmap_set_bit (exit_block_uses, PIC_OFFSET_TABLE_REGNUM);
4061
#endif
4062
 
4063
  /* Mark all global registers, and all registers used by the
4064
     epilogue as being live at the end of the function since they
4065
     may be referenced by our caller.  */
4066
  for (i = 0; i < FIRST_PSEUDO_REGISTER; i++)
4067
    if (global_regs[i] || EPILOGUE_USES (i))
4068
      bitmap_set_bit (exit_block_uses, i);
4069
 
4070
  if (HAVE_epilogue && epilogue_completed)
4071
    {
4072
      /* Mark all call-saved registers that we actually used.  */
4073
      for (i = 0; i < FIRST_PSEUDO_REGISTER; i++)
4074
        if (df_regs_ever_live_p (i) && !LOCAL_REGNO (i)
4075
            && !TEST_HARD_REG_BIT (regs_invalidated_by_call, i))
4076
          bitmap_set_bit (exit_block_uses, i);
4077
    }
4078
 
4079
#ifdef EH_RETURN_DATA_REGNO
4080
  /* Mark the registers that will contain data for the handler.  */
4081
  if (reload_completed && crtl->calls_eh_return)
4082
    for (i = 0; ; ++i)
4083
      {
4084
        unsigned regno = EH_RETURN_DATA_REGNO (i);
4085
        if (regno == INVALID_REGNUM)
4086
          break;
4087
        bitmap_set_bit (exit_block_uses, regno);
4088
      }
4089
#endif
4090
 
4091
#ifdef EH_RETURN_STACKADJ_RTX
4092
  if ((!HAVE_epilogue || ! epilogue_completed)
4093
      && crtl->calls_eh_return)
4094
    {
4095
      rtx tmp = EH_RETURN_STACKADJ_RTX;
4096
      if (tmp && REG_P (tmp))
4097
        df_mark_reg (tmp, exit_block_uses);
4098
    }
4099
#endif
4100
 
4101
#ifdef EH_RETURN_HANDLER_RTX
4102
  if ((!HAVE_epilogue || ! epilogue_completed)
4103
      && crtl->calls_eh_return)
4104
    {
4105
      rtx tmp = EH_RETURN_HANDLER_RTX;
4106
      if (tmp && REG_P (tmp))
4107
        df_mark_reg (tmp, exit_block_uses);
4108
    }
4109
#endif
4110
 
4111
  /* Mark function return value.  */
4112
  diddle_return_value (df_mark_reg, (void*) exit_block_uses);
4113
}
4114
 
4115
 
4116
/* Return the refs of hard registers that are used in the exit block.
4117
   It uses df->exit_block_uses to determine register to include.  */
4118
 
4119
static void
4120
df_exit_block_uses_collect (struct df_collection_rec *collection_rec, bitmap exit_block_uses)
4121
{
4122
  unsigned int i;
4123
  bitmap_iterator bi;
4124
 
4125
  EXECUTE_IF_SET_IN_BITMAP (exit_block_uses, 0, i, bi)
4126
    df_ref_record (DF_REF_ARTIFICIAL, collection_rec, regno_reg_rtx[i], NULL,
4127
                   EXIT_BLOCK_PTR, NULL, DF_REF_REG_USE, 0, -1, -1, VOIDmode);
4128
 
4129
#if FRAME_POINTER_REGNUM != ARG_POINTER_REGNUM
4130
  /* It is deliberate that this is not put in the exit block uses but
4131
     I do not know why.  */
4132
  if (reload_completed
4133
      && !bitmap_bit_p (exit_block_uses, ARG_POINTER_REGNUM)
4134
      && bb_has_eh_pred (EXIT_BLOCK_PTR)
4135
      && fixed_regs[ARG_POINTER_REGNUM])
4136
    df_ref_record (DF_REF_ARTIFICIAL, collection_rec, regno_reg_rtx[ARG_POINTER_REGNUM], NULL,
4137
                   EXIT_BLOCK_PTR, NULL, DF_REF_REG_USE, 0, -1, -1, VOIDmode);
4138
#endif
4139
 
4140
  df_canonize_collection_rec (collection_rec);
4141
}
4142
 
4143
 
4144
/* Record the set of hard registers that are used in the exit block.
4145
   It uses df->exit_block_uses to determine which bit to include.  */
4146
 
4147
static void
4148
df_record_exit_block_uses (bitmap exit_block_uses)
4149
{
4150
  struct df_collection_rec collection_rec;
4151
  memset (&collection_rec, 0, sizeof (struct df_collection_rec));
4152
  collection_rec.use_vec = VEC_alloc (df_ref, stack, FIRST_PSEUDO_REGISTER);
4153
 
4154
  df_exit_block_uses_collect (&collection_rec, exit_block_uses);
4155
 
4156
  /* Process bb_refs chain */
4157
  df_refs_add_to_chains (&collection_rec, BASIC_BLOCK (EXIT_BLOCK), NULL);
4158
  VEC_free (df_ref, stack, collection_rec.use_vec);
4159
}
4160
 
4161
 
4162
/* Update the uses in the exit block.  */
4163
 
4164
void
4165
df_update_exit_block_uses (void)
4166
{
4167
  bitmap refs = BITMAP_ALLOC (&df_bitmap_obstack);
4168
  bool changed = false;
4169
 
4170
  df_get_exit_block_use_set (refs);
4171
  if (df->exit_block_uses)
4172
    {
4173
      if (!bitmap_equal_p (df->exit_block_uses, refs))
4174
        {
4175
          struct df_scan_bb_info *bb_info = df_scan_get_bb_info (EXIT_BLOCK);
4176
          df_ref_chain_delete_du_chain (bb_info->artificial_uses);
4177
          df_ref_chain_delete (bb_info->artificial_uses);
4178
          bb_info->artificial_uses = NULL;
4179
          changed = true;
4180
        }
4181
    }
4182
  else
4183
    {
4184
      struct df_scan_problem_data *problem_data
4185
        = (struct df_scan_problem_data *) df_scan->problem_data;
4186
      df->exit_block_uses = BITMAP_ALLOC (&problem_data->reg_bitmaps);
4187
      changed = true;
4188
    }
4189
 
4190
  if (changed)
4191
    {
4192
      df_record_exit_block_uses (refs);
4193
      bitmap_copy (df->exit_block_uses, refs);
4194
      df_set_bb_dirty (BASIC_BLOCK (EXIT_BLOCK));
4195
    }
4196
  BITMAP_FREE (refs);
4197
}
4198
 
4199
static bool initialized = false;
4200
 
4201
 
4202
/* Initialize some platform specific structures.  */
4203
 
4204
void
4205
df_hard_reg_init (void)
4206
{
4207
#ifdef ELIMINABLE_REGS
4208
  int i;
4209
  static const struct {const int from, to; } eliminables[] = ELIMINABLE_REGS;
4210
#endif
4211
  if (initialized)
4212
    return;
4213
 
4214
  /* Record which registers will be eliminated.  We use this in
4215
     mark_used_regs.  */
4216
  CLEAR_HARD_REG_SET (elim_reg_set);
4217
 
4218
#ifdef ELIMINABLE_REGS
4219
  for (i = 0; i < (int) ARRAY_SIZE (eliminables); i++)
4220
    SET_HARD_REG_BIT (elim_reg_set, eliminables[i].from);
4221
#else
4222
  SET_HARD_REG_BIT (elim_reg_set, FRAME_POINTER_REGNUM);
4223
#endif
4224
 
4225
  initialized = true;
4226
}
4227
 
4228
 
4229
/* Recompute the parts of scanning that are based on regs_ever_live
4230
   because something changed in that array.  */
4231
 
4232
void
4233
df_update_entry_exit_and_calls (void)
4234
{
4235
  basic_block bb;
4236
 
4237
  df_update_entry_block_defs ();
4238
  df_update_exit_block_uses ();
4239
 
4240
  /* The call insns need to be rescanned because there may be changes
4241
     in the set of registers clobbered across the call.  */
4242
  FOR_EACH_BB (bb)
4243
    {
4244
      rtx insn;
4245
      FOR_BB_INSNS (bb, insn)
4246
        {
4247
          if (INSN_P (insn) && CALL_P (insn))
4248
            df_insn_rescan (insn);
4249
        }
4250
    }
4251
}
4252
 
4253
 
4254
/* Return true if hard REG is actually used in the some instruction.
4255
   There are a fair number of conditions that affect the setting of
4256
   this array.  See the comment in df.h for df->hard_regs_live_count
4257
   for the conditions that this array is set. */
4258
 
4259
bool
4260
df_hard_reg_used_p (unsigned int reg)
4261
{
4262
  return df->hard_regs_live_count[reg] != 0;
4263
}
4264
 
4265
 
4266
/* A count of the number of times REG is actually used in the some
4267
   instruction.  There are a fair number of conditions that affect the
4268
   setting of this array.  See the comment in df.h for
4269
   df->hard_regs_live_count for the conditions that this array is
4270
   set. */
4271
 
4272
 
4273
unsigned int
4274
df_hard_reg_used_count (unsigned int reg)
4275
{
4276
  return df->hard_regs_live_count[reg];
4277
}
4278
 
4279
 
4280
/* Get the value of regs_ever_live[REGNO].  */
4281
 
4282
bool
4283
df_regs_ever_live_p (unsigned int regno)
4284
{
4285
  return regs_ever_live[regno];
4286
}
4287
 
4288
 
4289
/* Set regs_ever_live[REGNO] to VALUE.  If this cause regs_ever_live
4290
   to change, schedule that change for the next update.  */
4291
 
4292
void
4293
df_set_regs_ever_live (unsigned int regno, bool value)
4294
{
4295
  if (regs_ever_live[regno] == value)
4296
    return;
4297
 
4298
  regs_ever_live[regno] = value;
4299
  if (df)
4300
    df->redo_entry_and_exit = true;
4301
}
4302
 
4303
 
4304
/* Compute "regs_ever_live" information from the underlying df
4305
   information.  Set the vector to all false if RESET.  */
4306
 
4307
void
4308
df_compute_regs_ever_live (bool reset)
4309
{
4310
  unsigned int i;
4311
  bool changed = df->redo_entry_and_exit;
4312
 
4313
  if (reset)
4314
    memset (regs_ever_live, 0, sizeof (regs_ever_live));
4315
 
4316
  for (i = 0; i < FIRST_PSEUDO_REGISTER; i++)
4317
    if ((!regs_ever_live[i]) && df_hard_reg_used_p (i))
4318
      {
4319
        regs_ever_live[i] = true;
4320
        changed = true;
4321
      }
4322
  if (changed)
4323
    df_update_entry_exit_and_calls ();
4324
  df->redo_entry_and_exit = false;
4325
}
4326
 
4327
 
4328
/*----------------------------------------------------------------------------
4329
  Dataflow ref information verification functions.
4330
 
4331
  df_reg_chain_mark (refs, regno, is_def, is_eq_use)
4332
  df_reg_chain_verify_unmarked (refs)
4333
  df_refs_verify (VEC(stack,df_ref)*, ref*, bool)
4334
  df_mws_verify (mw*, mw*, bool)
4335
  df_insn_refs_verify (collection_rec, bb, insn, bool)
4336
  df_bb_refs_verify (bb, refs, bool)
4337
  df_bb_verify (bb)
4338
  df_exit_block_bitmap_verify (bool)
4339
  df_entry_block_bitmap_verify (bool)
4340
  df_scan_verify ()
4341
----------------------------------------------------------------------------*/
4342
 
4343
 
4344
/* Mark all refs in the reg chain.  Verify that all of the registers
4345
are in the correct chain.  */
4346
 
4347
static unsigned int
4348
df_reg_chain_mark (df_ref refs, unsigned int regno,
4349
                   bool is_def, bool is_eq_use)
4350
{
4351
  unsigned int count = 0;
4352
  df_ref ref;
4353
  for (ref = refs; ref; ref = DF_REF_NEXT_REG (ref))
4354
    {
4355
      gcc_assert (!DF_REF_IS_REG_MARKED (ref));
4356
 
4357
      /* If there are no def-use or use-def chains, make sure that all
4358
         of the chains are clear.  */
4359
      if (!df_chain)
4360
        gcc_assert (!DF_REF_CHAIN (ref));
4361
 
4362
      /* Check to make sure the ref is in the correct chain.  */
4363
      gcc_assert (DF_REF_REGNO (ref) == regno);
4364
      if (is_def)
4365
        gcc_assert (DF_REF_REG_DEF_P (ref));
4366
      else
4367
        gcc_assert (!DF_REF_REG_DEF_P (ref));
4368
 
4369
      if (is_eq_use)
4370
        gcc_assert ((DF_REF_FLAGS (ref) & DF_REF_IN_NOTE));
4371
      else
4372
        gcc_assert ((DF_REF_FLAGS (ref) & DF_REF_IN_NOTE) == 0);
4373
 
4374
      if (DF_REF_NEXT_REG (ref))
4375
        gcc_assert (DF_REF_PREV_REG (DF_REF_NEXT_REG (ref)) == ref);
4376
      count++;
4377
      DF_REF_REG_MARK (ref);
4378
    }
4379
  return count;
4380
}
4381
 
4382
 
4383
/* Verify that all of the registers in the chain are unmarked.  */
4384
 
4385
static void
4386
df_reg_chain_verify_unmarked (df_ref refs)
4387
{
4388
  df_ref ref;
4389
  for (ref = refs; ref; ref = DF_REF_NEXT_REG (ref))
4390
    gcc_assert (!DF_REF_IS_REG_MARKED (ref));
4391
}
4392
 
4393
 
4394
/* Verify that NEW_REC and OLD_REC have exactly the same members. */
4395
 
4396
static bool
4397
df_refs_verify (VEC(df_ref,stack) *new_rec, df_ref *old_rec,
4398
                bool abort_if_fail)
4399
{
4400
  unsigned int ix;
4401
  df_ref new_ref;
4402
 
4403
  for (ix = 0; VEC_iterate (df_ref, new_rec, ix, new_ref); ++ix)
4404
    {
4405
      if (*old_rec == NULL || !df_ref_equal_p (new_ref, *old_rec))
4406
        {
4407
          if (abort_if_fail)
4408
            gcc_assert (0);
4409
          else
4410
            return false;
4411
        }
4412
 
4413
      /* Abort if fail is called from the function level verifier.  If
4414
         that is the context, mark this reg as being seem.  */
4415
      if (abort_if_fail)
4416
        {
4417
          gcc_assert (DF_REF_IS_REG_MARKED (*old_rec));
4418
          DF_REF_REG_UNMARK (*old_rec);
4419
        }
4420
 
4421
      old_rec++;
4422
    }
4423
 
4424
  if (abort_if_fail)
4425
    gcc_assert (*old_rec == NULL);
4426
  else
4427
    return *old_rec == NULL;
4428
  return false;
4429
}
4430
 
4431
 
4432
/* Verify that NEW_REC and OLD_REC have exactly the same members. */
4433
 
4434
static bool
4435
df_mws_verify (VEC(df_mw_hardreg_ptr,stack) *new_rec,
4436
               struct df_mw_hardreg **old_rec,
4437
               bool abort_if_fail)
4438
{
4439
  unsigned int ix;
4440
  struct df_mw_hardreg *new_reg;
4441
 
4442
  for (ix = 0; VEC_iterate (df_mw_hardreg_ptr, new_rec, ix, new_reg); ++ix)
4443
    {
4444
      if (*old_rec == NULL || !df_mw_equal_p (new_reg, *old_rec))
4445
        {
4446
          if (abort_if_fail)
4447
            gcc_assert (0);
4448
          else
4449
            return false;
4450
        }
4451
      old_rec++;
4452
    }
4453
 
4454
  if (abort_if_fail)
4455
    gcc_assert (*old_rec == NULL);
4456
  else
4457
    return *old_rec == NULL;
4458
  return false;
4459
}
4460
 
4461
 
4462
/* Return true if the existing insn refs information is complete and
4463
   correct. Otherwise (i.e. if there's any missing or extra refs),
4464
   return the correct df_ref chain in REFS_RETURN.
4465
 
4466
   If ABORT_IF_FAIL, leave the refs that are verified (already in the
4467
   ref chain) as DF_REF_MARKED(). If it's false, then it's a per-insn
4468
   verification mode instead of the whole function, so unmark
4469
   everything.
4470
 
4471
   If ABORT_IF_FAIL is set, this function never returns false.  */
4472
 
4473
static bool
4474
df_insn_refs_verify (struct df_collection_rec *collection_rec,
4475
                     basic_block bb,
4476
                     rtx insn,
4477
                     bool abort_if_fail)
4478
{
4479
  bool ret1, ret2, ret3, ret4;
4480
  unsigned int uid = INSN_UID (insn);
4481
  struct df_insn_info *insn_info = DF_INSN_INFO_GET (insn);
4482
 
4483
  df_insn_refs_collect (collection_rec, bb, insn_info);
4484
 
4485
  if (!DF_INSN_UID_DEFS (uid))
4486
    {
4487
      /* The insn_rec was created but it was never filled out.  */
4488
      if (abort_if_fail)
4489
        gcc_assert (0);
4490
      else
4491
        return false;
4492
    }
4493
 
4494
  /* Unfortunately we cannot opt out early if one of these is not
4495
     right because the marks will not get cleared.  */
4496
  ret1 = df_refs_verify (collection_rec->def_vec, DF_INSN_UID_DEFS (uid),
4497
                         abort_if_fail);
4498
  ret2 = df_refs_verify (collection_rec->use_vec, DF_INSN_UID_USES (uid),
4499
                         abort_if_fail);
4500
  ret3 = df_refs_verify (collection_rec->eq_use_vec, DF_INSN_UID_EQ_USES (uid),
4501
                         abort_if_fail);
4502
  ret4 = df_mws_verify (collection_rec->mw_vec, DF_INSN_UID_MWS (uid),
4503
                       abort_if_fail);
4504
  return (ret1 && ret2 && ret3 && ret4);
4505
}
4506
 
4507
 
4508
/* Return true if all refs in the basic block are correct and complete.
4509
   Due to df_ref_chain_verify, it will cause all refs
4510
   that are verified to have DF_REF_MARK bit set.  */
4511
 
4512
static bool
4513
df_bb_verify (basic_block bb)
4514
{
4515
  rtx insn;
4516
  struct df_scan_bb_info *bb_info = df_scan_get_bb_info (bb->index);
4517
  struct df_collection_rec collection_rec;
4518
 
4519
  memset (&collection_rec, 0, sizeof (struct df_collection_rec));
4520
  collection_rec.def_vec = VEC_alloc (df_ref, stack, 128);
4521
  collection_rec.use_vec = VEC_alloc (df_ref, stack, 32);
4522
  collection_rec.eq_use_vec = VEC_alloc (df_ref, stack, 32);
4523
  collection_rec.mw_vec = VEC_alloc (df_mw_hardreg_ptr, stack, 32);
4524
 
4525
  gcc_assert (bb_info);
4526
 
4527
  /* Scan the block, one insn at a time, from beginning to end.  */
4528
  FOR_BB_INSNS_REVERSE (bb, insn)
4529
    {
4530
      if (!INSN_P (insn))
4531
        continue;
4532
      df_insn_refs_verify (&collection_rec, bb, insn, true);
4533
      df_free_collection_rec (&collection_rec);
4534
    }
4535
 
4536
  /* Do the artificial defs and uses.  */
4537
  df_bb_refs_collect (&collection_rec, bb);
4538
  df_refs_verify (collection_rec.def_vec, df_get_artificial_defs (bb->index), true);
4539
  df_refs_verify (collection_rec.use_vec, df_get_artificial_uses (bb->index), true);
4540
  df_free_collection_rec (&collection_rec);
4541
 
4542
  return true;
4543
}
4544
 
4545
 
4546
/* Returns true if the entry block has correct and complete df_ref set.
4547
   If not it either aborts if ABORT_IF_FAIL is true or returns false.  */
4548
 
4549
static bool
4550
df_entry_block_bitmap_verify (bool abort_if_fail)
4551
{
4552
  bitmap entry_block_defs = BITMAP_ALLOC (&df_bitmap_obstack);
4553
  bool is_eq;
4554
 
4555
  df_get_entry_block_def_set (entry_block_defs);
4556
 
4557
  is_eq = bitmap_equal_p (entry_block_defs, df->entry_block_defs);
4558
 
4559
  if (!is_eq && abort_if_fail)
4560
    {
4561
      print_current_pass (stderr);
4562
      fprintf (stderr, "entry_block_defs = ");
4563
      df_print_regset (stderr, entry_block_defs);
4564
      fprintf (stderr, "df->entry_block_defs = ");
4565
      df_print_regset (stderr, df->entry_block_defs);
4566
      gcc_assert (0);
4567
    }
4568
 
4569
  BITMAP_FREE (entry_block_defs);
4570
 
4571
  return is_eq;
4572
}
4573
 
4574
 
4575
/* Returns true if the exit block has correct and complete df_ref set.
4576
   If not it either aborts if ABORT_IF_FAIL is true or returns false. */
4577
 
4578
static bool
4579
df_exit_block_bitmap_verify (bool abort_if_fail)
4580
{
4581
  bitmap exit_block_uses = BITMAP_ALLOC (&df_bitmap_obstack);
4582
  bool is_eq;
4583
 
4584
  df_get_exit_block_use_set (exit_block_uses);
4585
 
4586
  is_eq = bitmap_equal_p (exit_block_uses, df->exit_block_uses);
4587
 
4588
  if (!is_eq && abort_if_fail)
4589
    {
4590
      print_current_pass (stderr);
4591
      fprintf (stderr, "exit_block_uses = ");
4592
      df_print_regset (stderr, exit_block_uses);
4593
      fprintf (stderr, "df->exit_block_uses = ");
4594
      df_print_regset (stderr, df->exit_block_uses);
4595
      gcc_assert (0);
4596
    }
4597
 
4598
  BITMAP_FREE (exit_block_uses);
4599
 
4600
  return is_eq;
4601
}
4602
 
4603
 
4604
/* Return true if df_ref information for all insns in all blocks are
4605
   correct and complete.  */
4606
 
4607
void
4608
df_scan_verify (void)
4609
{
4610
  unsigned int i;
4611
  basic_block bb;
4612
  bitmap regular_block_artificial_uses;
4613
  bitmap eh_block_artificial_uses;
4614
 
4615
  if (!df)
4616
    return;
4617
 
4618
  /* Verification is a 4 step process. */
4619
 
4620
  /* (1) All of the refs are marked by going thru the reg chains.  */
4621
  for (i = 0; i < DF_REG_SIZE (df); i++)
4622
    {
4623
      gcc_assert (df_reg_chain_mark (DF_REG_DEF_CHAIN (i), i, true, false)
4624
                  == DF_REG_DEF_COUNT(i));
4625
      gcc_assert (df_reg_chain_mark (DF_REG_USE_CHAIN (i), i, false, false)
4626
                  == DF_REG_USE_COUNT(i));
4627
      gcc_assert (df_reg_chain_mark (DF_REG_EQ_USE_CHAIN (i), i, false, true)
4628
                  == DF_REG_EQ_USE_COUNT(i));
4629
    }
4630
 
4631
  /* (2) There are various bitmaps whose value may change over the
4632
     course of the compilation.  This step recomputes them to make
4633
     sure that they have not slipped out of date.  */
4634
  regular_block_artificial_uses = BITMAP_ALLOC (&df_bitmap_obstack);
4635
  eh_block_artificial_uses = BITMAP_ALLOC (&df_bitmap_obstack);
4636
 
4637
  df_get_regular_block_artificial_uses (regular_block_artificial_uses);
4638
  df_get_eh_block_artificial_uses (eh_block_artificial_uses);
4639
 
4640
  bitmap_ior_into (eh_block_artificial_uses,
4641
                   regular_block_artificial_uses);
4642
 
4643
  /* Check artificial_uses bitmaps didn't change. */
4644
  gcc_assert (bitmap_equal_p (regular_block_artificial_uses,
4645
                              df->regular_block_artificial_uses));
4646
  gcc_assert (bitmap_equal_p (eh_block_artificial_uses,
4647
                              df->eh_block_artificial_uses));
4648
 
4649
  BITMAP_FREE (regular_block_artificial_uses);
4650
  BITMAP_FREE (eh_block_artificial_uses);
4651
 
4652
  /* Verify entry block and exit block. These only verify the bitmaps,
4653
     the refs are verified in df_bb_verify.  */
4654
  df_entry_block_bitmap_verify (true);
4655
  df_exit_block_bitmap_verify (true);
4656
 
4657
  /* (3) All of the insns in all of the blocks are traversed and the
4658
     marks are cleared both in the artificial refs attached to the
4659
     blocks and the real refs inside the insns.  It is a failure to
4660
     clear a mark that has not been set as this means that the ref in
4661
     the block or insn was not in the reg chain.  */
4662
 
4663
  FOR_ALL_BB (bb)
4664
    df_bb_verify (bb);
4665
 
4666
  /* (4) See if all reg chains are traversed a second time.  This time
4667
     a check is made that the marks are clear. A set mark would be a
4668
     from a reg that is not in any insn or basic block.  */
4669
 
4670
  for (i = 0; i < DF_REG_SIZE (df); i++)
4671
    {
4672
      df_reg_chain_verify_unmarked (DF_REG_DEF_CHAIN (i));
4673
      df_reg_chain_verify_unmarked (DF_REG_USE_CHAIN (i));
4674
      df_reg_chain_verify_unmarked (DF_REG_EQ_USE_CHAIN (i));
4675
    }
4676
}

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