OpenCores
URL https://opencores.org/ocsvn/openrisc/openrisc/trunk

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libcpp/] [symtab.c] - Blame information for rev 801

Go to most recent revision | Details | Compare with Previous | View Log

Line No. Rev Author Line
1 730 jeremybenn
/* Hash tables.
2
   Copyright (C) 2000, 2001, 2003, 2004, 2008, 2009
3
   Free Software Foundation, Inc.
4
 
5
This program is free software; you can redistribute it and/or modify it
6
under the terms of the GNU General Public License as published by the
7
Free Software Foundation; either version 3, or (at your option) any
8
later version.
9
 
10
This program is distributed in the hope that it will be useful,
11
but WITHOUT ANY WARRANTY; without even the implied warranty of
12
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
13
GNU General Public License for more details.
14
 
15
You should have received a copy of the GNU General Public License
16
along with this program; see the file COPYING3.  If not see
17
<http://www.gnu.org/licenses/>.
18
 
19
 In other words, you are welcome to use, share and improve this program.
20
 You are forbidden to forbid anyone else to use, share and improve
21
 what you give them.   Help stamp out software-hoarding!  */
22
 
23
#include "config.h"
24
#include "system.h"
25
#include "symtab.h"
26
 
27
/* The code below is a specialization of Vladimir Makarov's expandable
28
   hash tables (see libiberty/hashtab.c).  The abstraction penalty was
29
   too high to continue using the generic form.  This code knows
30
   intrinsically how to calculate a hash value, and how to compare an
31
   existing entry with a potential new one.  */
32
 
33
static unsigned int calc_hash (const unsigned char *, size_t);
34
static void ht_expand (hash_table *);
35
static double approx_sqrt (double);
36
 
37
/* A deleted entry.  */
38
#define DELETED ((hashnode) -1)
39
 
40
/* Calculate the hash of the string STR of length LEN.  */
41
 
42
static unsigned int
43
calc_hash (const unsigned char *str, size_t len)
44
{
45
  size_t n = len;
46
  unsigned int r = 0;
47
 
48
  while (n--)
49
    r = HT_HASHSTEP (r, *str++);
50
 
51
  return HT_HASHFINISH (r, len);
52
}
53
 
54
/* Initialize an identifier hashtable.  */
55
 
56
hash_table *
57
ht_create (unsigned int order)
58
{
59
  unsigned int nslots = 1 << order;
60
  hash_table *table;
61
 
62
  table = XCNEW (hash_table);
63
 
64
  /* Strings need no alignment.  */
65
  _obstack_begin (&table->stack, 0, 0,
66
                  (void *(*) (long)) xmalloc,
67
                  (void (*) (void *)) free);
68
 
69
  obstack_alignment_mask (&table->stack) = 0;
70
 
71
  table->entries = XCNEWVEC (hashnode, nslots);
72
  table->entries_owned = true;
73
  table->nslots = nslots;
74
  return table;
75
}
76
 
77
/* Frees all memory associated with a hash table.  */
78
 
79
void
80
ht_destroy (hash_table *table)
81
{
82
  obstack_free (&table->stack, NULL);
83
  if (table->entries_owned)
84
    free (table->entries);
85
  free (table);
86
}
87
 
88
/* Returns the hash entry for the a STR of length LEN.  If that string
89
   already exists in the table, returns the existing entry.  If the
90
   identifier hasn't been seen before, and INSERT is CPP_NO_INSERT,
91
   returns NULL.  Otherwise insert and returns a new entry.  A new
92
   string is allocated.  */
93
hashnode
94
ht_lookup (hash_table *table, const unsigned char *str, size_t len,
95
           enum ht_lookup_option insert)
96
{
97
  return ht_lookup_with_hash (table, str, len, calc_hash (str, len),
98
                              insert);
99
}
100
 
101
hashnode
102
ht_lookup_with_hash (hash_table *table, const unsigned char *str,
103
                     size_t len, unsigned int hash,
104
                     enum ht_lookup_option insert)
105
{
106
  unsigned int hash2;
107
  unsigned int index;
108
  unsigned int deleted_index = table->nslots;
109
  size_t sizemask;
110
  hashnode node;
111
 
112
  sizemask = table->nslots - 1;
113
  index = hash & sizemask;
114
  table->searches++;
115
 
116
  node = table->entries[index];
117
 
118
  if (node != NULL)
119
    {
120
      if (node == DELETED)
121
        deleted_index = index;
122
      else if (node->hash_value == hash
123
               && HT_LEN (node) == (unsigned int) len
124
               && !memcmp (HT_STR (node), str, len))
125
        return node;
126
 
127
      /* hash2 must be odd, so we're guaranteed to visit every possible
128
         location in the table during rehashing.  */
129
      hash2 = ((hash * 17) & sizemask) | 1;
130
 
131
      for (;;)
132
        {
133
          table->collisions++;
134
          index = (index + hash2) & sizemask;
135
          node = table->entries[index];
136
          if (node == NULL)
137
            break;
138
 
139
          if (node == DELETED)
140
            {
141
              if (deleted_index != table->nslots)
142
                deleted_index = index;
143
            }
144
          else if (node->hash_value == hash
145
                   && HT_LEN (node) == (unsigned int) len
146
                   && !memcmp (HT_STR (node), str, len))
147
            return node;
148
        }
149
    }
150
 
151
  if (insert == HT_NO_INSERT)
152
    return NULL;
153
 
154
  /* We prefer to overwrite the first deleted slot we saw.  */
155
  if (deleted_index != table->nslots)
156
    index = deleted_index;
157
 
158
  node = (*table->alloc_node) (table);
159
  table->entries[index] = node;
160
 
161
  HT_LEN (node) = (unsigned int) len;
162
  node->hash_value = hash;
163
 
164
  if (table->alloc_subobject)
165
    {
166
      char *chars = (char *) table->alloc_subobject (len + 1);
167
      memcpy (chars, str, len);
168
      chars[len] = '\0';
169
      HT_STR (node) = (const unsigned char *) chars;
170
    }
171
  else
172
    HT_STR (node) = (const unsigned char *) obstack_copy0 (&table->stack,
173
                                                           str, len);
174
 
175
  if (++table->nelements * 4 >= table->nslots * 3)
176
    /* Must expand the string table.  */
177
    ht_expand (table);
178
 
179
  return node;
180
}
181
 
182
/* Double the size of a hash table, re-hashing existing entries.  */
183
 
184
static void
185
ht_expand (hash_table *table)
186
{
187
  hashnode *nentries, *p, *limit;
188
  unsigned int size, sizemask;
189
 
190
  size = table->nslots * 2;
191
  nentries = XCNEWVEC (hashnode, size);
192
  sizemask = size - 1;
193
 
194
  p = table->entries;
195
  limit = p + table->nslots;
196
  do
197
    if (*p && *p != DELETED)
198
      {
199
        unsigned int index, hash, hash2;
200
 
201
        hash = (*p)->hash_value;
202
        index = hash & sizemask;
203
 
204
        if (nentries[index])
205
          {
206
            hash2 = ((hash * 17) & sizemask) | 1;
207
            do
208
              {
209
                index = (index + hash2) & sizemask;
210
              }
211
            while (nentries[index]);
212
          }
213
        nentries[index] = *p;
214
      }
215
  while (++p < limit);
216
 
217
  if (table->entries_owned)
218
    free (table->entries);
219
  table->entries_owned = true;
220
  table->entries = nentries;
221
  table->nslots = size;
222
}
223
 
224
/* For all nodes in TABLE, callback CB with parameters TABLE->PFILE,
225
   the node, and V.  */
226
void
227
ht_forall (hash_table *table, ht_cb cb, const void *v)
228
{
229
  hashnode *p, *limit;
230
 
231
  p = table->entries;
232
  limit = p + table->nslots;
233
  do
234
    if (*p && *p != DELETED)
235
      {
236
        if ((*cb) (table->pfile, *p, v) == 0)
237
          break;
238
      }
239
  while (++p < limit);
240
}
241
 
242
/* Like ht_forall, but a nonzero return from the callback means that
243
   the entry should be removed from the table.  */
244
void
245
ht_purge (hash_table *table, ht_cb cb, const void *v)
246
{
247
  hashnode *p, *limit;
248
 
249
  p = table->entries;
250
  limit = p + table->nslots;
251
  do
252
    if (*p && *p != DELETED)
253
      {
254
        if ((*cb) (table->pfile, *p, v))
255
          *p = DELETED;
256
      }
257
  while (++p < limit);
258
}
259
 
260
/* Restore the hash table.  */
261
void
262
ht_load (hash_table *ht, hashnode *entries,
263
         unsigned int nslots, unsigned int nelements,
264
         bool own)
265
{
266
  if (ht->entries_owned)
267
    free (ht->entries);
268
  ht->entries = entries;
269
  ht->nslots = nslots;
270
  ht->nelements = nelements;
271
  ht->entries_owned = own;
272
}
273
 
274
/* Dump allocation statistics to stderr.  */
275
 
276
void
277
ht_dump_statistics (hash_table *table)
278
{
279
  size_t nelts, nids, overhead, headers;
280
  size_t total_bytes, longest, deleted = 0;
281
  double sum_of_squares, exp_len, exp_len2, exp2_len;
282
  hashnode *p, *limit;
283
 
284
#define SCALE(x) ((unsigned long) ((x) < 1024*10 \
285
                  ? (x) \
286
                  : ((x) < 1024*1024*10 \
287
                     ? (x) / 1024 \
288
                     : (x) / (1024*1024))))
289
#define LABEL(x) ((x) < 1024*10 ? ' ' : ((x) < 1024*1024*10 ? 'k' : 'M'))
290
 
291
  total_bytes = longest = sum_of_squares = nids = 0;
292
  p = table->entries;
293
  limit = p + table->nslots;
294
  do
295
    if (*p == DELETED)
296
      ++deleted;
297
    else if (*p)
298
      {
299
        size_t n = HT_LEN (*p);
300
 
301
        total_bytes += n;
302
        sum_of_squares += (double) n * n;
303
        if (n > longest)
304
          longest = n;
305
        nids++;
306
      }
307
  while (++p < limit);
308
 
309
  nelts = table->nelements;
310
  overhead = obstack_memory_used (&table->stack) - total_bytes;
311
  headers = table->nslots * sizeof (hashnode);
312
 
313
  fprintf (stderr, "\nString pool\nentries\t\t%lu\n",
314
           (unsigned long) nelts);
315
  fprintf (stderr, "identifiers\t%lu (%.2f%%)\n",
316
           (unsigned long) nids, nids * 100.0 / nelts);
317
  fprintf (stderr, "slots\t\t%lu\n",
318
           (unsigned long) table->nslots);
319
  fprintf (stderr, "deleted\t\t%lu\n",
320
           (unsigned long) deleted);
321
  fprintf (stderr, "bytes\t\t%lu%c (%lu%c overhead)\n",
322
           SCALE (total_bytes), LABEL (total_bytes),
323
           SCALE (overhead), LABEL (overhead));
324
  fprintf (stderr, "table size\t%lu%c\n",
325
           SCALE (headers), LABEL (headers));
326
 
327
  exp_len = (double)total_bytes / (double)nelts;
328
  exp2_len = exp_len * exp_len;
329
  exp_len2 = (double) sum_of_squares / (double) nelts;
330
 
331
  fprintf (stderr, "coll/search\t%.4f\n",
332
           (double) table->collisions / (double) table->searches);
333
  fprintf (stderr, "ins/search\t%.4f\n",
334
           (double) nelts / (double) table->searches);
335
  fprintf (stderr, "avg. entry\t%.2f bytes (+/- %.2f)\n",
336
           exp_len, approx_sqrt (exp_len2 - exp2_len));
337
  fprintf (stderr, "longest entry\t%lu\n",
338
           (unsigned long) longest);
339
#undef SCALE
340
#undef LABEL
341
}
342
 
343
/* Return the approximate positive square root of a number N.  This is for
344
   statistical reports, not code generation.  */
345
static double
346
approx_sqrt (double x)
347
{
348
  double s, d;
349
 
350
  if (x < 0)
351
    abort ();
352
  if (x == 0)
353
    return 0;
354
 
355
  s = x;
356
  do
357
    {
358
      d = (s * s - x) / (2 * s);
359
      s -= d;
360
    }
361
  while (d > .0001);
362
  return s;
363
}

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.