PR c++/38543
[official-gcc.git] / libcpp / symtab.c
blob48a5338b1f865d6a26b8d67fd7c009bdb96d49b6
1 /* Hash tables.
2 Copyright (C) 2000, 2001, 2003, 2004, 2008, 2009
3 Free Software Foundation, Inc.
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.
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.
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/>.
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! */
23 #include "config.h"
24 #include "system.h"
25 #include "symtab.h"
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. */
33 static unsigned int calc_hash (const unsigned char *, size_t);
34 static void ht_expand (hash_table *);
35 static double approx_sqrt (double);
37 /* A deleted entry. */
38 #define DELETED ((hashnode) -1)
40 /* Calculate the hash of the string STR of length LEN. */
42 static unsigned int
43 calc_hash (const unsigned char *str, size_t len)
45 size_t n = len;
46 unsigned int r = 0;
48 while (n--)
49 r = HT_HASHSTEP (r, *str++);
51 return HT_HASHFINISH (r, len);
54 /* Initialize an identifier hashtable. */
56 hash_table *
57 ht_create (unsigned int order)
59 unsigned int nslots = 1 << order;
60 hash_table *table;
62 table = XCNEW (hash_table);
64 /* Strings need no alignment. */
65 _obstack_begin (&table->stack, 0, 0,
66 (void *(*) (long)) xmalloc,
67 (void (*) (void *)) free);
69 obstack_alignment_mask (&table->stack) = 0;
71 table->entries = XCNEWVEC (hashnode, nslots);
72 table->entries_owned = true;
73 table->nslots = nslots;
74 return table;
77 /* Frees all memory associated with a hash table. */
79 void
80 ht_destroy (hash_table *table)
82 obstack_free (&table->stack, NULL);
83 if (table->entries_owned)
84 free (table->entries);
85 free (table);
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)
97 return ht_lookup_with_hash (table, str, len, calc_hash (str, len),
98 insert);
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)
106 unsigned int hash2;
107 unsigned int index;
108 unsigned int deleted_index = table->nslots;
109 size_t sizemask;
110 hashnode node;
112 sizemask = table->nslots - 1;
113 index = hash & sizemask;
114 table->searches++;
116 node = table->entries[index];
118 if (node != NULL)
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;
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;
131 for (;;)
133 table->collisions++;
134 index = (index + hash2) & sizemask;
135 node = table->entries[index];
136 if (node == NULL)
137 break;
139 if (node == DELETED)
141 if (deleted_index != table->nslots)
142 deleted_index = index;
144 else if (node->hash_value == hash
145 && HT_LEN (node) == (unsigned int) len
146 && !memcmp (HT_STR (node), str, len))
147 return node;
151 if (insert == HT_NO_INSERT)
152 return NULL;
154 /* We prefer to overwrite the first deleted slot we saw. */
155 if (deleted_index != table->nslots)
156 index = deleted_index;
158 node = (*table->alloc_node) (table);
159 table->entries[index] = node;
161 HT_LEN (node) = (unsigned int) len;
162 node->hash_value = hash;
164 if (table->alloc_subobject)
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;
171 else
172 HT_STR (node) = (const unsigned char *) obstack_copy0 (&table->stack,
173 str, len);
175 if (++table->nelements * 4 >= table->nslots * 3)
176 /* Must expand the string table. */
177 ht_expand (table);
179 return node;
182 /* Double the size of a hash table, re-hashing existing entries. */
184 static void
185 ht_expand (hash_table *table)
187 hashnode *nentries, *p, *limit;
188 unsigned int size, sizemask;
190 size = table->nslots * 2;
191 nentries = XCNEWVEC (hashnode, size);
192 sizemask = size - 1;
194 p = table->entries;
195 limit = p + table->nslots;
197 if (*p && *p != DELETED)
199 unsigned int index, hash, hash2;
201 hash = (*p)->hash_value;
202 index = hash & sizemask;
204 if (nentries[index])
206 hash2 = ((hash * 17) & sizemask) | 1;
209 index = (index + hash2) & sizemask;
211 while (nentries[index]);
213 nentries[index] = *p;
215 while (++p < limit);
217 if (table->entries_owned)
218 free (table->entries);
219 table->entries_owned = true;
220 table->entries = nentries;
221 table->nslots = size;
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)
229 hashnode *p, *limit;
231 p = table->entries;
232 limit = p + table->nslots;
234 if (*p && *p != DELETED)
236 if ((*cb) (table->pfile, *p, v) == 0)
237 break;
239 while (++p < limit);
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)
247 hashnode *p, *limit;
249 p = table->entries;
250 limit = p + table->nslots;
252 if (*p && *p != DELETED)
254 if ((*cb) (table->pfile, *p, v))
255 *p = DELETED;
257 while (++p < limit);
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)
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;
274 /* Dump allocation statistics to stderr. */
276 void
277 ht_dump_statistics (hash_table *table)
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;
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'))
291 total_bytes = longest = sum_of_squares = nids = 0;
292 p = table->entries;
293 limit = p + table->nslots;
295 if (*p == DELETED)
296 ++deleted;
297 else if (*p)
299 size_t n = HT_LEN (*p);
301 total_bytes += n;
302 sum_of_squares += (double) n * n;
303 if (n > longest)
304 longest = n;
305 nids++;
307 while (++p < limit);
309 nelts = table->nelements;
310 overhead = obstack_memory_used (&table->stack) - total_bytes;
311 headers = table->nslots * sizeof (hashnode);
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));
327 exp_len = (double)total_bytes / (double)nelts;
328 exp2_len = exp_len * exp_len;
329 exp_len2 = (double) sum_of_squares / (double) nelts;
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
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)
348 double s, d;
350 if (x < 0)
351 abort ();
352 if (x == 0)
353 return 0;
355 s = x;
358 d = (s * s - x) / (2 * s);
359 s -= d;
361 while (d > .0001);
362 return s;