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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [vec.c] - Blame information for rev 755

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1 684 jeremybenn
/* Vector API for GNU compiler.
2
   Copyright (C) 2004, 2005, 2006, 2007, 2008, 2010
3
   Free Software Foundation, Inc.
4
   Contributed by Nathan Sidwell <nathan@codesourcery.com>
5
 
6
This file is part of GCC.
7
 
8
GCC is free software; you can redistribute it and/or modify it under
9
the terms of the GNU General Public License as published by the Free
10
Software Foundation; either version 3, or (at your option) any later
11
version.
12
 
13
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
14
WARRANTY; without even the implied warranty of MERCHANTABILITY or
15
FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
16
for more details.
17
 
18
You should have received a copy of the GNU General Public License
19
along with GCC; see the file COPYING3.  If not see
20
<http://www.gnu.org/licenses/>.  */
21
 
22
/* This file is compiled twice: once for the generator programs
23
   once for the compiler.  */
24
#ifdef GENERATOR_FILE
25
#include "bconfig.h"
26
#else
27
#include "config.h"
28
#endif
29
 
30
#include "system.h"
31
#include "coretypes.h"
32
#include "ggc.h"
33
#include "vec.h"
34
#include "diagnostic-core.h"
35
#include "hashtab.h"
36
 
37
#ifdef GATHER_STATISTICS
38
 
39
/* Store information about each particular vector.  */
40
struct vec_descriptor
41
{
42
  const char *function;
43
  const char *file;
44
  int line;
45
  size_t allocated;
46
  size_t times;
47
  size_t peak;
48
};
49
 
50
 
51
/* Hashtable mapping vec addresses to descriptors.  */
52
static htab_t vec_desc_hash;
53
 
54
/* Hashtable helpers.  */
55
static hashval_t
56
hash_descriptor (const void *p)
57
{
58
  const struct vec_descriptor *const d =
59
    (const struct vec_descriptor *) p;
60
  return htab_hash_pointer (d->file) + d->line;
61
}
62
static int
63
eq_descriptor (const void *p1, const void *p2)
64
{
65
  const struct vec_descriptor *const d = (const struct vec_descriptor *) p1;
66
  const struct vec_descriptor *const l = (const struct vec_descriptor *) p2;
67
  return d->file == l->file && d->function == l->function && d->line == l->line;
68
}
69
 
70
/* Hashtable converting address of allocated field to loc descriptor.  */
71
static htab_t ptr_hash;
72
struct ptr_hash_entry
73
{
74
  void *ptr;
75
  struct vec_descriptor *loc;
76
  size_t allocated;
77
};
78
 
79
/* Hash table helpers functions.  */
80
static hashval_t
81
hash_ptr (const void *p)
82
{
83
  const struct ptr_hash_entry *const d = (const struct ptr_hash_entry *) p;
84
 
85
  return htab_hash_pointer (d->ptr);
86
}
87
 
88
static int
89
eq_ptr (const void *p1, const void *p2)
90
{
91
  const struct ptr_hash_entry *const p = (const struct ptr_hash_entry *) p1;
92
 
93
  return (p->ptr == p2);
94
}
95
 
96
/* Return descriptor for given call site, create new one if needed.  */
97
static struct vec_descriptor *
98
vec_descriptor (const char *name, int line, const char *function)
99
{
100
  struct vec_descriptor loc;
101
  struct vec_descriptor **slot;
102
 
103
  loc.file = name;
104
  loc.line = line;
105
  loc.function = function;
106
  if (!vec_desc_hash)
107
    vec_desc_hash = htab_create (10, hash_descriptor, eq_descriptor, NULL);
108
 
109
  slot = (struct vec_descriptor **) htab_find_slot (vec_desc_hash, &loc,
110
                                                    INSERT);
111
  if (*slot)
112
    return *slot;
113
  *slot = XCNEW (struct vec_descriptor);
114
  (*slot)->file = name;
115
  (*slot)->line = line;
116
  (*slot)->function = function;
117
  (*slot)->allocated = 0;
118
  (*slot)->peak = 0;
119
  return *slot;
120
}
121
 
122
/* Account the overhead.  */
123
static void
124
register_overhead (struct vec_prefix *ptr, size_t size,
125
                   const char *name, int line, const char *function)
126
{
127
  struct vec_descriptor *loc = vec_descriptor (name, line, function);
128
  struct ptr_hash_entry *p = XNEW (struct ptr_hash_entry);
129
  PTR *slot;
130
 
131
  p->ptr = ptr;
132
  p->loc = loc;
133
  p->allocated = size;
134
  if (!ptr_hash)
135
    ptr_hash = htab_create (10, hash_ptr, eq_ptr, NULL);
136
  slot = htab_find_slot_with_hash (ptr_hash, ptr, htab_hash_pointer (ptr), INSERT);
137
  gcc_assert (!*slot);
138
  *slot = p;
139
 
140
  loc->allocated += size;
141
  if (loc->peak < loc->allocated)
142
    loc->peak += loc->allocated;
143
  loc->times++;
144
}
145
 
146
/* Notice that the pointer has been freed.  */
147
static void
148
free_overhead (struct vec_prefix *ptr)
149
{
150
  PTR *slot = htab_find_slot_with_hash (ptr_hash, ptr, htab_hash_pointer (ptr),
151
                                        NO_INSERT);
152
  struct ptr_hash_entry *p = (struct ptr_hash_entry *) *slot;
153
  p->loc->allocated -= p->allocated;
154
  htab_clear_slot (ptr_hash, slot);
155
  free (p);
156
}
157
 
158
void
159
vec_heap_free (void *ptr)
160
{
161
  free_overhead ((struct vec_prefix *)ptr);
162
  free (ptr);
163
}
164
#endif
165
 
166
/* Calculate the new ALLOC value, making sure that RESERVE slots are
167
   free.  If EXACT grow exactly, otherwise grow exponentially.  */
168
 
169
static inline unsigned
170
calculate_allocation (const struct vec_prefix *pfx, int reserve, bool exact)
171
{
172
  unsigned alloc = 0;
173
  unsigned num = 0;
174
 
175
  gcc_assert (reserve >= 0);
176
 
177
  if (pfx)
178
    {
179
      alloc = pfx->alloc;
180
      num = pfx->num;
181
    }
182
  else if (!reserve)
183
    /* If there's no prefix, and we've not requested anything, then we
184
       will create a NULL vector.  */
185
    return 0;
186
 
187
  /* We must have run out of room.  */
188
  gcc_assert (alloc - num < (unsigned) reserve);
189
 
190
  if (exact)
191
    /* Exact size.  */
192
    alloc = num + reserve;
193
  else
194
    {
195
      /* Exponential growth. */
196
      if (!alloc)
197
        alloc = 4;
198
      else if (alloc < 16)
199
        /* Double when small.  */
200
        alloc = alloc * 2;
201
      else
202
        /* Grow slower when large.  */
203
        alloc = (alloc * 3 / 2);
204
 
205
      /* If this is still too small, set it to the right size. */
206
      if (alloc < num + reserve)
207
        alloc = num + reserve;
208
    }
209
  return alloc;
210
}
211
 
212
/* Ensure there are at least RESERVE free slots in VEC.  If EXACT grow
213
   exactly, else grow exponentially.  As a special case, if VEC is
214
   NULL and RESERVE is 0, no vector will be created.  The vector's
215
   trailing array is at VEC_OFFSET offset and consists of ELT_SIZE
216
   sized elements.  */
217
 
218
static void *
219
vec_gc_o_reserve_1 (void *vec, int reserve, size_t vec_offset, size_t elt_size,
220
                    bool exact MEM_STAT_DECL)
221
{
222
  struct vec_prefix *pfx = (struct vec_prefix *) vec;
223
  unsigned alloc = calculate_allocation (pfx, reserve, exact);
224
  size_t size;
225
 
226
  if (!alloc)
227
    {
228
      if (pfx)
229
        ggc_free (pfx);
230
      return NULL;
231
    }
232
 
233
  /* Calculate the amount of space we want.  */
234
  size = vec_offset + alloc * elt_size;
235
  /* Ask the allocator how much space it will really give us.  */
236
  size = ggc_round_alloc_size (size);
237
  /* Adjust the number of slots accordingly.  */
238
  alloc = (size - vec_offset) / elt_size;
239
  /* And finally, recalculate the amount of space we ask for.  */
240
  size = vec_offset + alloc * elt_size;
241
 
242
  vec = ggc_realloc_stat (vec, size PASS_MEM_STAT);
243
 
244
  ((struct vec_prefix *)vec)->alloc = alloc;
245
  if (!pfx)
246
    ((struct vec_prefix *)vec)->num = 0;
247
 
248
  return vec;
249
}
250
 
251
/* Ensure there are at least RESERVE free slots in VEC, growing
252
   exponentially.  If RESERVE < 0 grow exactly, else grow
253
   exponentially.  As a special case, if VEC is NULL, and RESERVE is
254
   0, no vector will be created. */
255
 
256
void *
257
vec_gc_p_reserve (void *vec, int reserve MEM_STAT_DECL)
258
{
259
  return vec_gc_o_reserve_1 (vec, reserve,
260
                             sizeof (struct vec_prefix),
261
                             sizeof (void *), false
262
                             PASS_MEM_STAT);
263
}
264
 
265
/* Ensure there are at least RESERVE free slots in VEC, growing
266
   exactly.  If RESERVE < 0 grow exactly, else grow exponentially.  As
267
   a special case, if VEC is NULL, and RESERVE is 0, no vector will be
268
   created. */
269
 
270
void *
271
vec_gc_p_reserve_exact (void *vec, int reserve MEM_STAT_DECL)
272
{
273
  return vec_gc_o_reserve_1 (vec, reserve,
274
                             sizeof (struct vec_prefix),
275
                             sizeof (void *), true
276
                             PASS_MEM_STAT);
277
}
278
 
279
/* As for vec_gc_p_reserve, but for object vectors.  The vector's
280
   trailing array is at VEC_OFFSET offset and consists of ELT_SIZE
281
   sized elements.  */
282
 
283
void *
284
vec_gc_o_reserve (void *vec, int reserve, size_t vec_offset, size_t elt_size
285
                  MEM_STAT_DECL)
286
{
287
  return vec_gc_o_reserve_1 (vec, reserve, vec_offset, elt_size, false
288
                             PASS_MEM_STAT);
289
}
290
 
291
/* As for vec_gc_p_reserve_exact, but for object vectors.  The
292
   vector's trailing array is at VEC_OFFSET offset and consists of
293
   ELT_SIZE sized elements.  */
294
 
295
void *
296
vec_gc_o_reserve_exact (void *vec, int reserve, size_t vec_offset,
297
                        size_t elt_size MEM_STAT_DECL)
298
{
299
  return vec_gc_o_reserve_1 (vec, reserve, vec_offset, elt_size, true
300
                             PASS_MEM_STAT);
301
}
302
 
303
/* As for vec_gc_o_reserve_1, but for heap allocated vectors.  */
304
 
305
static void *
306
vec_heap_o_reserve_1 (void *vec, int reserve, size_t vec_offset,
307
                      size_t elt_size, bool exact MEM_STAT_DECL)
308
{
309
  struct vec_prefix *pfx = (struct vec_prefix *) vec;
310
  unsigned alloc = calculate_allocation (pfx, reserve, exact);
311
 
312
  if (!alloc)
313
    {
314
      if (pfx)
315
        vec_heap_free (pfx);
316
      return NULL;
317
    }
318
 
319
#ifdef GATHER_STATISTICS
320
  if (vec)
321
    free_overhead (pfx);
322
#endif
323
 
324
  vec = xrealloc (vec, vec_offset + alloc * elt_size);
325
  ((struct vec_prefix *)vec)->alloc = alloc;
326
  if (!pfx)
327
    ((struct vec_prefix *)vec)->num = 0;
328
#ifdef GATHER_STATISTICS
329
  if (vec)
330
    register_overhead ((struct vec_prefix *)vec,
331
                       vec_offset + alloc * elt_size PASS_MEM_STAT);
332
#endif
333
 
334
  return vec;
335
}
336
 
337
/* As for vec_gc_p_reserve, but for heap allocated vectors.  */
338
 
339
void *
340
vec_heap_p_reserve (void *vec, int reserve MEM_STAT_DECL)
341
{
342
  return vec_heap_o_reserve_1 (vec, reserve,
343
                               sizeof (struct vec_prefix),
344
                               sizeof (void *), false
345
                               PASS_MEM_STAT);
346
}
347
 
348
/* As for vec_gc_p_reserve_exact, but for heap allocated vectors.  */
349
 
350
void *
351
vec_heap_p_reserve_exact (void *vec, int reserve MEM_STAT_DECL)
352
{
353
  return vec_heap_o_reserve_1 (vec, reserve,
354
                               sizeof (struct vec_prefix),
355
                               sizeof (void *), true
356
                               PASS_MEM_STAT);
357
}
358
 
359
/* As for vec_gc_o_reserve, but for heap allocated vectors.  */
360
 
361
void *
362
vec_heap_o_reserve (void *vec, int reserve, size_t vec_offset, size_t elt_size
363
                    MEM_STAT_DECL)
364
{
365
  return vec_heap_o_reserve_1 (vec, reserve, vec_offset, elt_size, false
366
                               PASS_MEM_STAT);
367
}
368
 
369
/* As for vec_gc_o_reserve_exact, but for heap allocated vectors.  */
370
 
371
void *
372
vec_heap_o_reserve_exact (void *vec, int reserve, size_t vec_offset,
373
                          size_t elt_size MEM_STAT_DECL)
374
{
375
  return vec_heap_o_reserve_1 (vec, reserve, vec_offset, elt_size, true
376
                               PASS_MEM_STAT);
377
}
378
 
379
/* Stack vectors are a little different.  VEC_alloc turns into a call
380
   to vec_stack_p_reserve_exact1 and passes in space allocated via a
381
   call to alloca.  We record that pointer so that we know that we
382
   shouldn't free it.  If the vector is resized, we resize it on the
383
   heap.  We record the pointers in a vector and search it in LIFO
384
   order--i.e., we look for the newest stack vectors first.  We don't
385
   expect too many stack vectors at any one level, and searching from
386
   the end should normally be efficient even if they are used in a
387
   recursive function.  */
388
 
389
typedef void *void_p;
390
DEF_VEC_P(void_p);
391
DEF_VEC_ALLOC_P(void_p,heap);
392
 
393
static VEC(void_p,heap) *stack_vecs;
394
 
395
/* Allocate a vector which uses alloca for the initial allocation.
396
   SPACE is space allocated using alloca, ALLOC is the number of
397
   entries allocated.  */
398
 
399
void *
400
vec_stack_p_reserve_exact_1 (int alloc, void *space)
401
{
402
  struct vec_prefix *pfx = (struct vec_prefix *) space;
403
 
404
  VEC_safe_push (void_p, heap, stack_vecs, space);
405
 
406
  pfx->num = 0;
407
  pfx->alloc = alloc;
408
 
409
  return space;
410
}
411
 
412
/* Grow a vector allocated using alloca.  When this happens, we switch
413
   back to heap allocation.  We remove the vector from stack_vecs, if
414
   it is there, since we no longer need to avoid freeing it.  */
415
 
416
static void *
417
vec_stack_o_reserve_1 (void *vec, int reserve, size_t vec_offset,
418
                       size_t elt_size, bool exact MEM_STAT_DECL)
419
{
420
  bool found;
421
  unsigned int ix;
422
  void *newvec;
423
 
424
  found = false;
425
  for (ix = VEC_length (void_p, stack_vecs); ix > 0; --ix)
426
    {
427
      if (VEC_index (void_p, stack_vecs, ix - 1) == vec)
428
        {
429
          VEC_unordered_remove (void_p, stack_vecs, ix - 1);
430
          found = true;
431
          break;
432
        }
433
    }
434
 
435
  if (!found)
436
    {
437
      /* VEC is already on the heap.  */
438
      return vec_heap_o_reserve_1 (vec, reserve, vec_offset, elt_size,
439
                                   exact PASS_MEM_STAT);
440
    }
441
 
442
  /* Move VEC to the heap.  */
443
  reserve += ((struct vec_prefix *) vec)->num;
444
  newvec = vec_heap_o_reserve_1 (NULL, reserve, vec_offset, elt_size,
445
                                 exact PASS_MEM_STAT);
446
  if (newvec && vec)
447
    {
448
      ((struct vec_prefix *) newvec)->num = ((struct vec_prefix *) vec)->num;
449
      memcpy (((struct vec_prefix *) newvec)+1,
450
              ((struct vec_prefix *) vec)+1,
451
              ((struct vec_prefix *) vec)->num * elt_size);
452
    }
453
  return newvec;
454
}
455
 
456
/* Grow a vector allocated on the stack.  */
457
 
458
void *
459
vec_stack_p_reserve (void *vec, int reserve MEM_STAT_DECL)
460
{
461
  return vec_stack_o_reserve_1 (vec, reserve,
462
                                sizeof (struct vec_prefix),
463
                                sizeof (void *), false
464
                                PASS_MEM_STAT);
465
}
466
 
467
/* Exact version of vec_stack_p_reserve.  */
468
 
469
void *
470
vec_stack_p_reserve_exact (void *vec, int reserve MEM_STAT_DECL)
471
{
472
  return vec_stack_o_reserve_1 (vec, reserve,
473
                                sizeof (struct vec_prefix),
474
                                sizeof (void *), true
475
                                PASS_MEM_STAT);
476
}
477
 
478
/* Like vec_stack_p_reserve, but for objects.  */
479
 
480
void *
481
vec_stack_o_reserve (void *vec, int reserve, size_t vec_offset,
482
                     size_t elt_size MEM_STAT_DECL)
483
{
484
  return vec_stack_o_reserve_1 (vec, reserve, vec_offset, elt_size, false
485
                                PASS_MEM_STAT);
486
}
487
 
488
/* Like vec_stack_p_reserve_exact, but for objects.  */
489
 
490
void *
491
vec_stack_o_reserve_exact (void *vec, int reserve, size_t vec_offset,
492
                            size_t elt_size MEM_STAT_DECL)
493
{
494
  return vec_stack_o_reserve_1 (vec, reserve, vec_offset, elt_size, true
495
                                PASS_MEM_STAT);
496
}
497
 
498
/* Free a vector allocated on the stack.  Don't actually free it if we
499
   find it in the hash table.  */
500
 
501
void
502
vec_stack_free (void *vec)
503
{
504
  unsigned int ix;
505
 
506
  for (ix = VEC_length (void_p, stack_vecs); ix > 0; --ix)
507
    {
508
      if (VEC_index (void_p, stack_vecs, ix - 1) == vec)
509
        {
510
          VEC_unordered_remove (void_p, stack_vecs, ix - 1);
511
          return;
512
        }
513
    }
514
 
515
  /* VEC was not on the list of vecs allocated on the stack, so it
516
     must be allocated on the heap.  */
517
  vec_heap_free (vec);
518
}
519
 
520
#if ENABLE_CHECKING
521
/* Issue a vector domain error, and then fall over.  */
522
 
523
void
524
vec_assert_fail (const char *op, const char *struct_name,
525
                 const char *file, unsigned int line, const char *function)
526
{
527
  internal_error ("vector %s %s domain error, in %s at %s:%u",
528
                  struct_name, op, function, trim_filename (file), line);
529
}
530
#endif
531
 
532
#ifdef GATHER_STATISTICS
533
/* Helper for qsort; sort descriptors by amount of memory consumed.  */
534
static int
535
cmp_statistic (const void *loc1, const void *loc2)
536
{
537
  const struct vec_descriptor *const l1 =
538
    *(const struct vec_descriptor *const *) loc1;
539
  const struct vec_descriptor *const l2 =
540
    *(const struct vec_descriptor *const *) loc2;
541
  long diff;
542
  diff = l1->allocated - l2->allocated;
543
  if (!diff)
544
    diff = l1->peak - l2->peak;
545
  if (!diff)
546
    diff = l1->times - l2->times;
547
  return diff > 0 ? 1 : diff < 0 ? -1 : 0;
548
}
549
/* Collect array of the descriptors from hashtable.  */
550
static struct vec_descriptor **loc_array;
551
static int
552
add_statistics (void **slot, void *b)
553
{
554
  int *n = (int *)b;
555
  loc_array[*n] = (struct vec_descriptor *) *slot;
556
  (*n)++;
557
  return 1;
558
}
559
 
560
/* Dump per-site memory statistics.  */
561
#endif
562
void
563
dump_vec_loc_statistics (void)
564
{
565
#ifdef GATHER_STATISTICS
566
  int nentries = 0;
567
  char s[4096];
568
  size_t allocated = 0;
569
  size_t times = 0;
570
  int i;
571
 
572
  loc_array = XCNEWVEC (struct vec_descriptor *, vec_desc_hash->n_elements);
573
  fprintf (stderr, "Heap vectors:\n");
574
  fprintf (stderr, "\n%-48s %10s       %10s       %10s\n",
575
           "source location", "Leak", "Peak", "Times");
576
  fprintf (stderr, "-------------------------------------------------------\n");
577
  htab_traverse (vec_desc_hash, add_statistics, &nentries);
578
  qsort (loc_array, nentries, sizeof (*loc_array), cmp_statistic);
579
  for (i = 0; i < nentries; i++)
580
    {
581
      struct vec_descriptor *d = loc_array[i];
582
      allocated += d->allocated;
583
      times += d->times;
584
    }
585
  for (i = 0; i < nentries; i++)
586
    {
587
      struct vec_descriptor *d = loc_array[i];
588
      const char *s1 = d->file;
589
      const char *s2;
590
      while ((s2 = strstr (s1, "gcc/")))
591
        s1 = s2 + 4;
592
      sprintf (s, "%s:%i (%s)", s1, d->line, d->function);
593
      s[48] = 0;
594
      fprintf (stderr, "%-48s %10li:%4.1f%% %10li      %10li:%4.1f%% \n", s,
595
               (long)d->allocated,
596
               (d->allocated) * 100.0 / allocated,
597
               (long)d->peak,
598
               (long)d->times,
599
               (d->times) * 100.0 / times);
600
    }
601
  fprintf (stderr, "%-48s %10ld                        %10ld\n",
602
           "Total", (long)allocated, (long)times);
603
  fprintf (stderr, "\n%-48s %10s       %10s       %10s\n",
604
           "source location", "Leak", "Peak", "Times");
605
  fprintf (stderr, "-------------------------------------------------------\n");
606
#endif
607
}

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