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[/] [openrisc/] [trunk/] [gnu-stable/] [gcc-4.5.1/] [gcc/] [alloc-pool.c] - Blame information for rev 856

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1 280 jeremybenn
/* Functions to support a pool of allocatable objects.
2
   Copyright (C) 1987, 1997, 1998, 1999, 2000, 2001, 2003, 2004, 2005, 2006,
3
   2007, 2008  Free Software Foundation, Inc.
4
   Contributed by Daniel Berlin <dan@cgsoftware.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
#include "config.h"
23
#include "system.h"
24
#include "alloc-pool.h"
25
#include "hashtab.h"
26
 
27
#define align_eight(x) (((x+7) >> 3) << 3)
28
 
29
/* The internal allocation object.  */
30
typedef struct allocation_object_def
31
{
32
#ifdef ENABLE_CHECKING
33
  /* The ID of alloc pool which the object was allocated from.  */
34
  ALLOC_POOL_ID_TYPE id;
35
#endif
36
 
37
  union
38
    {
39
      /* The data of the object.  */
40
      char data[1];
41
 
42
      /* Because we want any type of data to be well aligned after the ID,
43
         the following elements are here.  They are never accessed so
44
         the allocated object may be even smaller than this structure.
45
         We do not care about alignment for floating-point types.  */
46
      char *align_p;
47
      HOST_WIDEST_INT align_i;
48
    } u;
49
} allocation_object;
50
 
51
/* Convert a pointer to allocation_object from a pointer to user data.  */
52
#define ALLOCATION_OBJECT_PTR_FROM_USER_PTR(X)                          \
53
   ((allocation_object *) (((char *) (X))                               \
54
                           - offsetof (allocation_object, u.data)))
55
 
56
/* Convert a pointer to user data from a pointer to allocation_object.  */
57
#define USER_PTR_FROM_ALLOCATION_OBJECT_PTR(X)                          \
58
   ((void *) (((allocation_object *) (X))->u.data))
59
 
60
#ifdef ENABLE_CHECKING
61
/* Last used ID.  */
62
static ALLOC_POOL_ID_TYPE last_id;
63
#endif
64
 
65
#ifdef GATHER_STATISTICS
66
 
67
/* Store information about each particular alloc_pool.  Note that this
68
   will underestimate the amount the amount of storage used by a small amount:
69
   1) The overhead in a pool is not accounted for.
70
   2) The unallocated elements in a block are not accounted for.  Note
71
   that this can at worst case be one element smaller that the block
72
   size for that pool.  */
73
struct alloc_pool_descriptor
74
{
75
  const char *name;
76
  /* Number of pools allocated.  */
77
  unsigned long created;
78
  /* Gross allocated storage.  */
79
  unsigned long allocated;
80
  /* Amount of currently active storage. */
81
  unsigned long current;
82
  /* Peak amount of storage used.  */
83
  unsigned long peak;
84
  /* Size of element in the pool.  */
85
  int elt_size;
86
};
87
 
88
/* Hashtable mapping alloc_pool names to descriptors.  */
89
static htab_t alloc_pool_hash;
90
 
91
/* Hashtable helpers.  */
92
static hashval_t
93
hash_descriptor (const void *p)
94
{
95
  const struct alloc_pool_descriptor *const d =
96
    (const struct alloc_pool_descriptor * )p;
97
  return htab_hash_pointer (d->name);
98
}
99
static int
100
eq_descriptor (const void *p1, const void *p2)
101
{
102
  const struct alloc_pool_descriptor *const d =
103
    (const struct alloc_pool_descriptor *) p1;
104
  return d->name == p2;
105
}
106
 
107
/* For given name, return descriptor, create new if needed.  */
108
static struct alloc_pool_descriptor *
109
alloc_pool_descriptor (const char *name)
110
{
111
  struct alloc_pool_descriptor **slot;
112
 
113
  if (!alloc_pool_hash)
114
    alloc_pool_hash = htab_create (10, hash_descriptor, eq_descriptor, NULL);
115
 
116
  slot = (struct alloc_pool_descriptor **)
117
    htab_find_slot_with_hash (alloc_pool_hash, name,
118
                              htab_hash_pointer (name),
119
                              INSERT);
120
  if (*slot)
121
    return *slot;
122
  *slot = XCNEW (struct alloc_pool_descriptor);
123
  (*slot)->name = name;
124
  return *slot;
125
}
126
#endif
127
 
128
/* Create a pool of things of size SIZE, with NUM in each block we
129
   allocate.  */
130
 
131
alloc_pool
132
create_alloc_pool (const char *name, size_t size, size_t num)
133
{
134
  alloc_pool pool;
135
  size_t header_size;
136
#ifdef GATHER_STATISTICS
137
  struct alloc_pool_descriptor *desc;
138
#endif
139
 
140
  gcc_assert (name);
141
 
142
  /* Make size large enough to store the list header.  */
143
  if (size < sizeof (alloc_pool_list))
144
    size = sizeof (alloc_pool_list);
145
 
146
  /* Now align the size to a multiple of 4.  */
147
  size = align_eight (size);
148
 
149
#ifdef ENABLE_CHECKING
150
  /* Add the aligned size of ID.  */
151
  size += offsetof (allocation_object, u.data);
152
#endif
153
 
154
  /* Um, we can't really allocate 0 elements per block.  */
155
  gcc_assert (num);
156
 
157
  /* Allocate memory for the pool structure.  */
158
  pool = XNEW (struct alloc_pool_def);
159
 
160
  /* Now init the various pieces of our pool structure.  */
161
  pool->name = /*xstrdup (name)*/name;
162
#ifdef GATHER_STATISTICS
163
  desc = alloc_pool_descriptor (name);
164
  desc->elt_size = size;
165
  desc->created++;
166
#endif
167
  pool->elt_size = size;
168
  pool->elts_per_block = num;
169
 
170
  /* List header size should be a multiple of 8.  */
171
  header_size = align_eight (sizeof (struct alloc_pool_list_def));
172
 
173
  pool->block_size = (size * num) + header_size;
174
  pool->returned_free_list = NULL;
175
  pool->virgin_free_list = NULL;
176
  pool->virgin_elts_remaining = 0;
177
  pool->elts_allocated = 0;
178
  pool->elts_free = 0;
179
  pool->blocks_allocated = 0;
180
  pool->block_list = NULL;
181
 
182
#ifdef ENABLE_CHECKING
183
  /* Increase the last used ID and use it for this pool.
184
     ID == 0 is used for free elements of pool so skip it.  */
185
  last_id++;
186
  if (last_id == 0)
187
    last_id++;
188
 
189
  pool->id = last_id;
190
#endif
191
 
192
  return (pool);
193
}
194
 
195
/* Free all memory allocated for the given memory pool.  */
196
void
197
empty_alloc_pool (alloc_pool pool)
198
{
199
  alloc_pool_list block, next_block;
200
#ifdef GATHER_STATISTICS
201
  struct alloc_pool_descriptor *desc = alloc_pool_descriptor (pool->name);
202
#endif
203
 
204
  gcc_assert (pool);
205
 
206
  /* Free each block allocated to the pool.  */
207
  for (block = pool->block_list; block != NULL; block = next_block)
208
    {
209
      next_block = block->next;
210
      free (block);
211
    }
212
 
213
#ifdef GATHER_STATISTICS
214
  desc->current -= (pool->elts_allocated - pool->elts_free) * pool->elt_size;
215
#endif
216
  pool->returned_free_list = NULL;
217
  pool->virgin_free_list = NULL;
218
  pool->virgin_elts_remaining = 0;
219
  pool->elts_allocated = 0;
220
  pool->elts_free = 0;
221
  pool->blocks_allocated = 0;
222
  pool->block_list = NULL;
223
}
224
 
225
/* Free all memory allocated for the given memory pool and the pool itself.  */
226
void
227
free_alloc_pool (alloc_pool pool)
228
{
229
  /* First empty the pool.  */
230
  empty_alloc_pool (pool);
231
#ifdef ENABLE_CHECKING
232
  memset (pool, 0xaf, sizeof (*pool));
233
#endif
234
  /* Lastly, free the pool.  */
235
  free (pool);
236
}
237
 
238
/* Frees the alloc_pool, if it is empty and zero *POOL in this case.  */
239
void
240
free_alloc_pool_if_empty (alloc_pool *pool)
241
{
242
  if ((*pool)->elts_free == (*pool)->elts_allocated)
243
    {
244
      free_alloc_pool (*pool);
245
      *pool = NULL;
246
    }
247
}
248
 
249
/* Allocates one element from the pool specified.  */
250
void *
251
pool_alloc (alloc_pool pool)
252
{
253
  alloc_pool_list header;
254
#ifdef GATHER_STATISTICS
255
  struct alloc_pool_descriptor *desc = alloc_pool_descriptor (pool->name);
256
 
257
  desc->allocated += pool->elt_size;
258
  desc->current += pool->elt_size;
259
  if (desc->peak < desc->current)
260
    desc->peak = desc->current;
261
#endif
262
 
263
  gcc_assert (pool);
264
 
265
  /* If there are no more free elements, make some more!.  */
266
  if (!pool->returned_free_list)
267
    {
268
      char *block;
269
      if (!pool->virgin_elts_remaining)
270
        {
271
          alloc_pool_list block_header;
272
 
273
          /* Make the block.  */
274
          block = XNEWVEC (char, pool->block_size);
275
          block_header = (alloc_pool_list) block;
276
          block += align_eight (sizeof (struct alloc_pool_list_def));
277
 
278
          /* Throw it on the block list.  */
279
          block_header->next = pool->block_list;
280
          pool->block_list = block_header;
281
 
282
          /* Make the block available for allocation.  */
283
          pool->virgin_free_list = block;
284
          pool->virgin_elts_remaining = pool->elts_per_block;
285
 
286
          /* Also update the number of elements we have free/allocated, and
287
             increment the allocated block count.  */
288
          pool->elts_allocated += pool->elts_per_block;
289
          pool->elts_free += pool->elts_per_block;
290
          pool->blocks_allocated += 1;
291
        }
292
 
293
 
294
      /* We now know that we can take the first elt off the virgin list and
295
         put it on the returned list. */
296
      block = pool->virgin_free_list;
297
      header = (alloc_pool_list) USER_PTR_FROM_ALLOCATION_OBJECT_PTR (block);
298
      header->next = NULL;
299
#ifdef ENABLE_CHECKING
300
      /* Mark the element to be free.  */
301
      ((allocation_object *) block)->id = 0;
302
#endif
303
      pool->returned_free_list = header;
304
      pool->virgin_free_list += pool->elt_size;
305
      pool->virgin_elts_remaining--;
306
 
307
    }
308
 
309
  /* Pull the first free element from the free list, and return it.  */
310
  header = pool->returned_free_list;
311
  pool->returned_free_list = header->next;
312
  pool->elts_free--;
313
 
314
#ifdef ENABLE_CHECKING
315
  /* Set the ID for element.  */
316
  ALLOCATION_OBJECT_PTR_FROM_USER_PTR (header)->id = pool->id;
317
#endif
318
 
319
  return ((void *) header);
320
}
321
 
322
/* Puts PTR back on POOL's free list.  */
323
void
324
pool_free (alloc_pool pool, void *ptr)
325
{
326
  alloc_pool_list header;
327
#ifdef GATHER_STATISTICS
328
  struct alloc_pool_descriptor *desc = alloc_pool_descriptor (pool->name);
329
#endif
330
 
331
  gcc_assert (ptr);
332
 
333
#ifdef ENABLE_CHECKING
334
  /* Check whether the PTR was allocated from POOL.  */
335
  gcc_assert (pool->id == ALLOCATION_OBJECT_PTR_FROM_USER_PTR (ptr)->id);
336
 
337
  memset (ptr, 0xaf, pool->elt_size - offsetof (allocation_object, u.data));
338
 
339
  /* Mark the element to be free.  */
340
  ALLOCATION_OBJECT_PTR_FROM_USER_PTR (ptr)->id = 0;
341
#else
342
  /* Check if we free more than we allocated, which is Bad (TM).  */
343
  gcc_assert (pool->elts_free < pool->elts_allocated);
344
#endif
345
 
346
  header = (alloc_pool_list) ptr;
347
  header->next = pool->returned_free_list;
348
  pool->returned_free_list = header;
349
  pool->elts_free++;
350
 
351
#ifdef GATHER_STATISTICS
352
  desc->current -= pool->elt_size;
353
#endif
354
 
355
}
356
/* Output per-alloc_pool statistics.  */
357
#ifdef GATHER_STATISTICS
358
 
359
/* Used to accumulate statistics about alloc_pool sizes.  */
360
struct output_info
361
{
362
  unsigned long total_created;
363
  unsigned long total_allocated;
364
};
365
 
366
/* Called via htab_traverse.  Output alloc_pool descriptor pointed out by SLOT
367
   and update statistics.  */
368
static int
369
print_statistics (void **slot, void *b)
370
{
371
  struct alloc_pool_descriptor *d = (struct alloc_pool_descriptor *) *slot;
372
  struct output_info *i = (struct output_info *) b;
373
 
374
  if (d->allocated)
375
    {
376
      fprintf (stderr, "%-22s %6d %10lu %10lu(%10lu) %10lu(%10lu) %10lu(%10lu)\n", d->name,
377
               d->elt_size, d->created, d->allocated, d->allocated / d->elt_size,
378
               d->peak, d->peak / d->elt_size,
379
               d->current, d->current / d->elt_size);
380
      i->total_allocated += d->allocated;
381
      i->total_created += d->created;
382
    }
383
  return 1;
384
}
385
#endif
386
 
387
/* Output per-alloc_pool memory usage statistics.  */
388
void
389
dump_alloc_pool_statistics (void)
390
{
391
#ifdef GATHER_STATISTICS
392
  struct output_info info;
393
 
394
  if (!alloc_pool_hash)
395
    return;
396
 
397
  fprintf (stderr, "\nAlloc-pool Kind         Elt size  Pools  Allocated (elts)            Peak (elts)            Leak (elts)\n");
398
  fprintf (stderr, "--------------------------------------------------------------------------------------------------------------\n");
399
  info.total_created = 0;
400
  info.total_allocated = 0;
401
  htab_traverse (alloc_pool_hash, print_statistics, &info);
402
  fprintf (stderr, "--------------------------------------------------------------------------------------------------------------\n");
403
  fprintf (stderr, "%-22s           %7lu %10lu\n",
404
           "Total", info.total_created, info.total_allocated);
405
  fprintf (stderr, "--------------------------------------------------------------------------------------------------------------\n");
406
#endif
407
}

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