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[/] [openrisc/] [trunk/] [gnu-src/] [gcc-4.2.2/] [libcpp/] [symtab.c] - Blame information for rev 611

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1 38 julius
/* Hash tables.
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   Copyright (C) 2000, 2001, 2003, 2004 Free Software Foundation, Inc.
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This program is free software; you can redistribute it and/or modify it
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under the terms of the GNU General Public License as published by the
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Free Software Foundation; either version 2, or (at your option) any
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later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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 In other words, you are welcome to use, share and improve this program.
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 You are forbidden to forbid anyone else to use, share and improve
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 what you give them.   Help stamp out software-hoarding!  */
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#include "config.h"
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#include "system.h"
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#include "symtab.h"
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/* The code below is a specialization of Vladimir Makarov's expandable
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   hash tables (see libiberty/hashtab.c).  The abstraction penalty was
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   too high to continue using the generic form.  This code knows
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   intrinsically how to calculate a hash value, and how to compare an
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   existing entry with a potential new one.  Also, the ability to
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   delete members from the table has been removed.  */
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static unsigned int calc_hash (const unsigned char *, size_t);
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static void ht_expand (hash_table *);
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static double approx_sqrt (double);
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/* Calculate the hash of the string STR of length LEN.  */
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static unsigned int
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calc_hash (const unsigned char *str, size_t len)
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{
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  size_t n = len;
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  unsigned int r = 0;
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  while (n--)
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    r = HT_HASHSTEP (r, *str++);
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  return HT_HASHFINISH (r, len);
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}
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/* Initialize an identifier hashtable.  */
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hash_table *
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ht_create (unsigned int order)
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{
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  unsigned int nslots = 1 << order;
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  hash_table *table;
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59
  table = XCNEW (hash_table);
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  /* Strings need no alignment.  */
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  _obstack_begin (&table->stack, 0, 0,
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                  (void *(*) (long)) xmalloc,
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                  (void (*) (void *)) free);
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66
  obstack_alignment_mask (&table->stack) = 0;
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  table->entries = XCNEWVEC (hashnode, nslots);
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  table->entries_owned = true;
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  table->nslots = nslots;
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  return table;
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}
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/* Frees all memory associated with a hash table.  */
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76
void
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ht_destroy (hash_table *table)
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{
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  obstack_free (&table->stack, NULL);
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  if (table->entries_owned)
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    free (table->entries);
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  free (table);
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}
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/* Returns the hash entry for the a STR of length LEN.  If that string
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   already exists in the table, returns the existing entry, and, if
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   INSERT is CPP_ALLOCED, frees the last obstack object.  If the
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   identifier hasn't been seen before, and INSERT is CPP_NO_INSERT,
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   returns NULL.  Otherwise insert and returns a new entry.  A new
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   string is alloced if INSERT is CPP_ALLOC, otherwise INSERT is
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   CPP_ALLOCED and the item is assumed to be at the top of the
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   obstack.  */
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hashnode
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ht_lookup (hash_table *table, const unsigned char *str, size_t len,
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           enum ht_lookup_option insert)
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{
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  return ht_lookup_with_hash (table, str, len, calc_hash (str, len),
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                              insert);
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}
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hashnode
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ht_lookup_with_hash (hash_table *table, const unsigned char *str,
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                     size_t len, unsigned int hash,
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                     enum ht_lookup_option insert)
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{
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  unsigned int hash2;
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  unsigned int index;
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  size_t sizemask;
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  hashnode node;
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111
  sizemask = table->nslots - 1;
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  index = hash & sizemask;
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  table->searches++;
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115
  node = table->entries[index];
116
 
117
  if (node != NULL)
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    {
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      if (node->hash_value == hash
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          && HT_LEN (node) == (unsigned int) len
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          && !memcmp (HT_STR (node), str, len))
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        {
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          if (insert == HT_ALLOCED)
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            /* The string we search for was placed at the end of the
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               obstack.  Release it.  */
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            obstack_free (&table->stack, (void *) str);
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          return node;
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        }
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      /* hash2 must be odd, so we're guaranteed to visit every possible
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         location in the table during rehashing.  */
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      hash2 = ((hash * 17) & sizemask) | 1;
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134
      for (;;)
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        {
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          table->collisions++;
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          index = (index + hash2) & sizemask;
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          node = table->entries[index];
139
          if (node == NULL)
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            break;
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142
          if (node->hash_value == hash
143
              && HT_LEN (node) == (unsigned int) len
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              && !memcmp (HT_STR (node), str, len))
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            {
146
              if (insert == HT_ALLOCED)
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              /* The string we search for was placed at the end of the
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                 obstack.  Release it.  */
149
                obstack_free (&table->stack, (void *) str);
150
              return node;
151
            }
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        }
153
    }
154
 
155
  if (insert == HT_NO_INSERT)
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    return NULL;
157
 
158
  node = (*table->alloc_node) (table);
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  table->entries[index] = node;
160
 
161
  HT_LEN (node) = (unsigned int) len;
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  node->hash_value = hash;
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  if (insert == HT_ALLOC)
164
    HT_STR (node) = (const unsigned char *) obstack_copy0 (&table->stack,
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                                                           str, len);
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  else
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    HT_STR (node) = str;
168
 
169
  if (++table->nelements * 4 >= table->nslots * 3)
170
    /* Must expand the string table.  */
171
    ht_expand (table);
172
 
173
  return node;
174
}
175
 
176
/* Double the size of a hash table, re-hashing existing entries.  */
177
 
178
static void
179
ht_expand (hash_table *table)
180
{
181
  hashnode *nentries, *p, *limit;
182
  unsigned int size, sizemask;
183
 
184
  size = table->nslots * 2;
185
  nentries = XCNEWVEC (hashnode, size);
186
  sizemask = size - 1;
187
 
188
  p = table->entries;
189
  limit = p + table->nslots;
190
  do
191
    if (*p)
192
      {
193
        unsigned int index, hash, hash2;
194
 
195
        hash = (*p)->hash_value;
196
        index = hash & sizemask;
197
 
198
        if (nentries[index])
199
          {
200
            hash2 = ((hash * 17) & sizemask) | 1;
201
            do
202
              {
203
                index = (index + hash2) & sizemask;
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              }
205
            while (nentries[index]);
206
          }
207
        nentries[index] = *p;
208
      }
209
  while (++p < limit);
210
 
211
  if (table->entries_owned)
212
    free (table->entries);
213
  table->entries_owned = true;
214
  table->entries = nentries;
215
  table->nslots = size;
216
}
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218
/* For all nodes in TABLE, callback CB with parameters TABLE->PFILE,
219
   the node, and V.  */
220
void
221
ht_forall (hash_table *table, ht_cb cb, const void *v)
222
{
223
  hashnode *p, *limit;
224
 
225
  p = table->entries;
226
  limit = p + table->nslots;
227
  do
228
    if (*p)
229
      {
230
        if ((*cb) (table->pfile, *p, v) == 0)
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          break;
232
      }
233
  while (++p < limit);
234
}
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236
/* Restore the hash table.  */
237
void
238
ht_load (hash_table *ht, hashnode *entries,
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         unsigned int nslots, unsigned int nelements,
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         bool own)
241
{
242
  if (ht->entries_owned)
243
    free (ht->entries);
244
  ht->entries = entries;
245
  ht->nslots = nslots;
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  ht->nelements = nelements;
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  ht->entries_owned = own;
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}
249
 
250
/* Dump allocation statistics to stderr.  */
251
 
252
void
253
ht_dump_statistics (hash_table *table)
254
{
255
  size_t nelts, nids, overhead, headers;
256
  size_t total_bytes, longest;
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  double sum_of_squares, exp_len, exp_len2, exp2_len;
258
  hashnode *p, *limit;
259
 
260
#define SCALE(x) ((unsigned long) ((x) < 1024*10 \
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                  ? (x) \
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                  : ((x) < 1024*1024*10 \
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                     ? (x) / 1024 \
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                     : (x) / (1024*1024))))
265
#define LABEL(x) ((x) < 1024*10 ? ' ' : ((x) < 1024*1024*10 ? 'k' : 'M'))
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267
  total_bytes = longest = sum_of_squares = nids = 0;
268
  p = table->entries;
269
  limit = p + table->nslots;
270
  do
271
    if (*p)
272
      {
273
        size_t n = HT_LEN (*p);
274
 
275
        total_bytes += n;
276
        sum_of_squares += (double) n * n;
277
        if (n > longest)
278
          longest = n;
279
        nids++;
280
      }
281
  while (++p < limit);
282
 
283
  nelts = table->nelements;
284
  overhead = obstack_memory_used (&table->stack) - total_bytes;
285
  headers = table->nslots * sizeof (hashnode);
286
 
287
  fprintf (stderr, "\nString pool\nentries\t\t%lu\n",
288
           (unsigned long) nelts);
289
  fprintf (stderr, "identifiers\t%lu (%.2f%%)\n",
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           (unsigned long) nids, nids * 100.0 / nelts);
291
  fprintf (stderr, "slots\t\t%lu\n",
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           (unsigned long) table->nslots);
293
  fprintf (stderr, "bytes\t\t%lu%c (%lu%c overhead)\n",
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           SCALE (total_bytes), LABEL (total_bytes),
295
           SCALE (overhead), LABEL (overhead));
296
  fprintf (stderr, "table size\t%lu%c\n",
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           SCALE (headers), LABEL (headers));
298
 
299
  exp_len = (double)total_bytes / (double)nelts;
300
  exp2_len = exp_len * exp_len;
301
  exp_len2 = (double) sum_of_squares / (double) nelts;
302
 
303
  fprintf (stderr, "coll/search\t%.4f\n",
304
           (double) table->collisions / (double) table->searches);
305
  fprintf (stderr, "ins/search\t%.4f\n",
306
           (double) nelts / (double) table->searches);
307
  fprintf (stderr, "avg. entry\t%.2f bytes (+/- %.2f)\n",
308
           exp_len, approx_sqrt (exp_len2 - exp2_len));
309
  fprintf (stderr, "longest entry\t%lu\n",
310
           (unsigned long) longest);
311
#undef SCALE
312
#undef LABEL
313
}
314
 
315
/* Return the approximate positive square root of a number N.  This is for
316
   statistical reports, not code generation.  */
317
static double
318
approx_sqrt (double x)
319
{
320
  double s, d;
321
 
322
  if (x < 0)
323
    abort ();
324
  if (x == 0)
325
    return 0;
326
 
327
  s = x;
328
  do
329
    {
330
      d = (s * s - x) / (2 * s);
331
      s -= d;
332
    }
333
  while (d > .0001);
334
  return s;
335
}

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