1 /* hash.c -- hash table maintenance
2 Copyright (C) 1995, 1999, 2002 Free Software Foundation, Inc.
3 Written by Greg McGary <gkm@gnu.org> <greg@mcgary.org>
5 GNU Make is free software; you can redistribute it and/or modify it under the
6 terms of the GNU General Public License as published by the Free Software
7 Foundation; either version 3 of the License, or (at your option) any later
10 GNU Make is distributed in the hope that it will be useful, but WITHOUT ANY
11 WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
12 A PARTICULAR PURPOSE. See the GNU General Public License for more details.
14 You should have received a copy of the GNU General Public License along with
15 this program. If not, see <http://www.gnu.org/licenses/>. */
20 #define CALLOC(t, n) ((t *) calloc (sizeof (t), (n)))
21 #define MALLOC(t, n) ((t *) xmalloc (sizeof (t) * (n)))
22 #define REALLOC(o, t, n) ((t *) xrealloc ((o), sizeof (t) * (n)))
23 #define CLONE(o, t, n) ((t *) memcpy (MALLOC (t, (n)), (o), sizeof (t) * (n)))
25 static void hash_rehash
__P((struct hash_table
* ht
));
26 static unsigned long round_up_2
__P((unsigned long rough
));
28 /* Implement double hashing with open addressing. The table size is
29 always a power of two. The secondary (`increment') hash function
30 is forced to return an odd-value, in order to be relatively prime
31 to the table size. This guarantees that the increment can
32 potentially hit every slot in the table during collision
35 void *hash_deleted_item
= &hash_deleted_item
;
37 /* Force the table size to be a power of two, possibly rounding up the
41 hash_init (struct hash_table
*ht
, unsigned long size
,
42 hash_func_t hash_1
, hash_func_t hash_2
, hash_cmp_func_t hash_cmp
)
44 ht
->ht_size
= round_up_2 (size
);
45 ht
->ht_empty_slots
= ht
->ht_size
;
46 ht
->ht_vec
= (void**) CALLOC (struct token
*, ht
->ht_size
);
49 fprintf (stderr
, _("can't allocate %ld bytes for hash table: memory exhausted"),
50 ht
->ht_size
* sizeof(struct token
*));
54 ht
->ht_capacity
= ht
->ht_size
- (ht
->ht_size
/ 16); /* 93.75% loading factor */
56 ht
->ht_collisions
= 0;
59 ht
->ht_hash_1
= hash_1
;
60 ht
->ht_hash_2
= hash_2
;
61 ht
->ht_compare
= hash_cmp
;
64 /* Load an array of items into `ht'. */
67 hash_load (struct hash_table
*ht
, void *item_table
,
68 unsigned long cardinality
, unsigned long size
)
70 char *items
= (char *) item_table
;
73 hash_insert (ht
, items
);
78 /* Returns the address of the table slot matching `key'. If `key' is
79 not found, return the address of an empty slot suitable for
80 inserting `key'. The caller is responsible for incrementing
81 ht_fill on insertion. */
84 hash_find_slot (struct hash_table
*ht
, const void *key
)
87 void **deleted_slot
= 0;
88 unsigned int hash_2
= 0;
89 unsigned int hash_1
= (*ht
->ht_hash_1
) (key
);
94 hash_1
&= (ht
->ht_size
- 1);
95 slot
= &ht
->ht_vec
[hash_1
];
98 return (deleted_slot
? deleted_slot
: slot
);
99 if (*slot
== hash_deleted_item
)
101 if (deleted_slot
== 0)
108 if ((*ht
->ht_compare
) (key
, *slot
) == 0)
113 hash_2
= (*ht
->ht_hash_2
) (key
) | 1;
119 hash_find_item (struct hash_table
*ht
, const void *key
)
121 void **slot
= hash_find_slot (ht
, key
);
122 return ((HASH_VACANT (*slot
)) ? 0 : *slot
);
126 hash_insert (struct hash_table
*ht
, const void *item
)
128 void **slot
= hash_find_slot (ht
, item
);
129 const void *old_item
= slot
? *slot
: 0;
130 hash_insert_at (ht
, item
, slot
);
131 return (void *)((HASH_VACANT (old_item
)) ? 0 : old_item
);
135 hash_insert_at (struct hash_table
*ht
, const void *item
, const void *slot
)
137 const void *old_item
= *(void **) slot
;
138 if (HASH_VACANT (old_item
))
142 ht
->ht_empty_slots
--;
145 *(void const **) slot
= item
;
146 if (ht
->ht_empty_slots
< ht
->ht_size
- ht
->ht_capacity
)
149 return (void *) hash_find_slot (ht
, item
);
152 return (void *) slot
;
156 hash_delete (struct hash_table
*ht
, const void *item
)
158 void **slot
= hash_find_slot (ht
, item
);
159 return hash_delete_at (ht
, slot
);
163 hash_delete_at (struct hash_table
*ht
, const void *slot
)
165 void *item
= *(void **) slot
;
166 if (!HASH_VACANT (item
))
168 *(void const **) slot
= hash_deleted_item
;
177 hash_free_items (struct hash_table
*ht
)
179 void **vec
= ht
->ht_vec
;
180 void **end
= &vec
[ht
->ht_size
];
181 for (; vec
< end
; vec
++)
184 if (!HASH_VACANT (item
))
189 ht
->ht_empty_slots
= ht
->ht_size
;
193 hash_delete_items (struct hash_table
*ht
)
195 void **vec
= ht
->ht_vec
;
196 void **end
= &vec
[ht
->ht_size
];
197 for (; vec
< end
; vec
++)
200 ht
->ht_collisions
= 0;
203 ht
->ht_empty_slots
= ht
->ht_size
;
207 hash_free (struct hash_table
*ht
, int free_items
)
210 hash_free_items (ht
);
214 ht
->ht_empty_slots
= ht
->ht_size
;
222 hash_map (struct hash_table
*ht
, hash_map_func_t map
)
225 void **end
= &ht
->ht_vec
[ht
->ht_size
];
227 for (slot
= ht
->ht_vec
; slot
< end
; slot
++)
229 if (!HASH_VACANT (*slot
))
235 hash_map_arg (struct hash_table
*ht
, hash_map_arg_func_t map
, void *arg
)
238 void **end
= &ht
->ht_vec
[ht
->ht_size
];
240 for (slot
= ht
->ht_vec
; slot
< end
; slot
++)
242 if (!HASH_VACANT (*slot
))
247 /* Double the size of the hash table in the event of overflow... */
250 hash_rehash (struct hash_table
*ht
)
252 unsigned long old_ht_size
= ht
->ht_size
;
253 void **old_vec
= ht
->ht_vec
;
256 if (ht
->ht_fill
>= ht
->ht_capacity
)
259 ht
->ht_capacity
= ht
->ht_size
- (ht
->ht_size
>> 4);
262 ht
->ht_vec
= (void **) CALLOC (struct token
*, ht
->ht_size
);
264 for (ovp
= old_vec
; ovp
< &old_vec
[old_ht_size
]; ovp
++)
266 if (! HASH_VACANT (*ovp
))
268 void **slot
= hash_find_slot (ht
, *ovp
);
272 ht
->ht_empty_slots
= ht
->ht_size
- ht
->ht_fill
;
277 hash_print_stats (struct hash_table
*ht
, FILE *out_FILE
)
279 /* GKM FIXME: honor NO_FLOAT */
280 fprintf (out_FILE
, _("Load=%ld/%ld=%.0f%%, "), ht
->ht_fill
, ht
->ht_size
,
281 100.0 * (double) ht
->ht_fill
/ (double) ht
->ht_size
);
282 fprintf (out_FILE
, _("Rehash=%d, "), ht
->ht_rehashes
);
283 fprintf (out_FILE
, _("Collisions=%ld/%ld=%.0f%%"), ht
->ht_collisions
, ht
->ht_lookups
,
285 ? (100.0 * (double) ht
->ht_collisions
/ (double) ht
->ht_lookups
)
289 /* Dump all items into a NULL-terminated vector. Use the
290 user-supplied vector, or malloc one. */
293 hash_dump (struct hash_table
*ht
, void **vector_0
, qsort_cmp_t compare
)
297 void **end
= &ht
->ht_vec
[ht
->ht_size
];
300 vector_0
= MALLOC (void *, ht
->ht_fill
+ 1);
303 for (slot
= ht
->ht_vec
; slot
< end
; slot
++)
304 if (!HASH_VACANT (*slot
))
309 qsort (vector_0
, ht
->ht_fill
, sizeof (void *), compare
);
313 /* Round a given number up to the nearest power of 2. */
316 round_up_2 (unsigned long n
)
324 #if !defined(HAVE_LIMITS_H) || ULONG_MAX > 4294967295
325 /* We only need this on systems where unsigned long is >32 bits. */