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Merge tag 'l10n-2.13.0-rnd2.1' of git://github.com/git-l10n/git-po
[alt-git.git] / hashmap.c
blob7d1044eb5de0faf69a151ca16c1a21500d9d8a10
1 /*
2 * Generic implementation of hash-based key value mappings.
3 */
4 #include "cache.h"
5 #include "hashmap.h"
6
7 #define FNV32_BASE ((unsigned int) 0x811c9dc5)
8 #define FNV32_PRIME ((unsigned int) 0x01000193)
9
10 unsigned int strhash(const char *str)
11 {
12 unsigned int c, hash = FNV32_BASE;
13 while ((c = (unsigned char) *str++))
14 hash = (hash * FNV32_PRIME) ^ c;
15 return hash;
16 }
17
18 unsigned int strihash(const char *str)
19 {
20 unsigned int c, hash = FNV32_BASE;
21 while ((c = (unsigned char) *str++)) {
22 if (c >= 'a' && c <= 'z')
23 c -= 'a' - 'A';
24 hash = (hash * FNV32_PRIME) ^ c;
25 }
26 return hash;
27 }
28
29 unsigned int memhash(const void *buf, size_t len)
30 {
31 unsigned int hash = FNV32_BASE;
32 unsigned char *ucbuf = (unsigned char *) buf;
33 while (len--) {
34 unsigned int c = *ucbuf++;
35 hash = (hash * FNV32_PRIME) ^ c;
36 }
37 return hash;
38 }
39
40 unsigned int memihash(const void *buf, size_t len)
41 {
42 unsigned int hash = FNV32_BASE;
43 unsigned char *ucbuf = (unsigned char *) buf;
44 while (len--) {
45 unsigned int c = *ucbuf++;
46 if (c >= 'a' && c <= 'z')
47 c -= 'a' - 'A';
48 hash = (hash * FNV32_PRIME) ^ c;
49 }
50 return hash;
51 }
52
53 /*
54 * Incoporate another chunk of data into a memihash
55 * computation.
56 */
57 unsigned int memihash_cont(unsigned int hash_seed, const void *buf, size_t len)
58 {
59 unsigned int hash = hash_seed;
60 unsigned char *ucbuf = (unsigned char *) buf;
61 while (len--) {
62 unsigned int c = *ucbuf++;
63 if (c >= 'a' && c <= 'z')
64 c -= 'a' - 'A';
65 hash = (hash * FNV32_PRIME) ^ c;
66 }
67 return hash;
68 }
69
70 #define HASHMAP_INITIAL_SIZE 64
71 /* grow / shrink by 2^2 */
72 #define HASHMAP_RESIZE_BITS 2
73 /* load factor in percent */
74 #define HASHMAP_LOAD_FACTOR 80
75
76 static void alloc_table(struct hashmap *map, unsigned int size)
77 {
78 map->tablesize = size;
79 map->table = xcalloc(size, sizeof(struct hashmap_entry *));
80
81 /* calculate resize thresholds for new size */
82 map->grow_at = (unsigned int) ((uint64_t) size * HASHMAP_LOAD_FACTOR / 100);
83 if (size <= HASHMAP_INITIAL_SIZE)
84 map->shrink_at = 0;
85 else
86 /*
87 * The shrink-threshold must be slightly smaller than
88 * (grow-threshold / resize-factor) to prevent erratic resizing,
89 * thus we divide by (resize-factor + 1).
90 */
91 map->shrink_at = map->grow_at / ((1 << HASHMAP_RESIZE_BITS) + 1);
92 }
93
94 static inline int entry_equals(const struct hashmap *map,
95 const struct hashmap_entry *e1, const struct hashmap_entry *e2,
96 const void *keydata)
97 {
98 return (e1 == e2) || (e1->hash == e2->hash && !map->cmpfn(e1, e2, keydata));
99 }
100
101 static inline unsigned int bucket(const struct hashmap *map,
102 const struct hashmap_entry *key)
103 {
104 return key->hash & (map->tablesize - 1);
105 }
106
107 int hashmap_bucket(const struct hashmap *map, unsigned int hash)
108 {
109 return hash & (map->tablesize - 1);
110 }
111
112 static void rehash(struct hashmap *map, unsigned int newsize)
113 {
114 unsigned int i, oldsize = map->tablesize;
115 struct hashmap_entry **oldtable = map->table;
116
117 if (map->disallow_rehash)
118 return;
119
120 alloc_table(map, newsize);
121 for (i = 0; i < oldsize; i++) {
122 struct hashmap_entry *e = oldtable[i];
123 while (e) {
124 struct hashmap_entry *next = e->next;
125 unsigned int b = bucket(map, e);
126 e->next = map->table[b];
127 map->table[b] = e;
128 e = next;
129 }
130 }
131 free(oldtable);
132 }
133
134 static inline struct hashmap_entry **find_entry_ptr(const struct hashmap *map,
135 const struct hashmap_entry *key, const void *keydata)
136 {
137 struct hashmap_entry **e = &map->table[bucket(map, key)];
138 while (*e && !entry_equals(map, *e, key, keydata))
139 e = &(*e)->next;
140 return e;
141 }
142
143 static int always_equal(const void *unused1, const void *unused2, const void *unused3)
144 {
145 return 0;
146 }
147
148 void hashmap_init(struct hashmap *map, hashmap_cmp_fn equals_function,
149 size_t initial_size)
150 {
151 unsigned int size = HASHMAP_INITIAL_SIZE;
152
153 memset(map, 0, sizeof(*map));
154
155 map->cmpfn = equals_function ? equals_function : always_equal;
156
157 /* calculate initial table size and allocate the table */
158 initial_size = (unsigned int) ((uint64_t) initial_size * 100
159 / HASHMAP_LOAD_FACTOR);
160 while (initial_size > size)
161 size <<= HASHMAP_RESIZE_BITS;
162 alloc_table(map, size);
163 }
164
165 void hashmap_free(struct hashmap *map, int free_entries)
166 {
167 if (!map || !map->table)
168 return;
169 if (free_entries) {
170 struct hashmap_iter iter;
171 struct hashmap_entry *e;
172 hashmap_iter_init(map, &iter);
173 while ((e = hashmap_iter_next(&iter)))
174 free(e);
175 }
176 free(map->table);
177 memset(map, 0, sizeof(*map));
178 }
179
180 void *hashmap_get(const struct hashmap *map, const void *key, const void *keydata)
181 {
182 return *find_entry_ptr(map, key, keydata);
183 }
184
185 void *hashmap_get_next(const struct hashmap *map, const void *entry)
186 {
187 struct hashmap_entry *e = ((struct hashmap_entry *) entry)->next;
188 for (; e; e = e->next)
189 if (entry_equals(map, entry, e, NULL))
190 return e;
191 return NULL;
192 }
193
194 void hashmap_add(struct hashmap *map, void *entry)
195 {
196 unsigned int b = bucket(map, entry);
197
198 /* add entry */
199 ((struct hashmap_entry *) entry)->next = map->table[b];
200 map->table[b] = entry;
201
202 /* fix size and rehash if appropriate */
203 map->size++;
204 if (map->size > map->grow_at)
205 rehash(map, map->tablesize << HASHMAP_RESIZE_BITS);
206 }
207
208 void *hashmap_remove(struct hashmap *map, const void *key, const void *keydata)
209 {
210 struct hashmap_entry *old;
211 struct hashmap_entry **e = find_entry_ptr(map, key, keydata);
212 if (!*e)
213 return NULL;
214
215 /* remove existing entry */
216 old = *e;
217 *e = old->next;
218 old->next = NULL;
219
220 /* fix size and rehash if appropriate */
221 map->size--;
222 if (map->size < map->shrink_at)
223 rehash(map, map->tablesize >> HASHMAP_RESIZE_BITS);
224 return old;
225 }
226
227 void *hashmap_put(struct hashmap *map, void *entry)
228 {
229 struct hashmap_entry *old = hashmap_remove(map, entry, NULL);
230 hashmap_add(map, entry);
231 return old;
232 }
233
234 void hashmap_iter_init(struct hashmap *map, struct hashmap_iter *iter)
235 {
236 iter->map = map;
237 iter->tablepos = 0;
238 iter->next = NULL;
239 }
240
241 void *hashmap_iter_next(struct hashmap_iter *iter)
242 {
243 struct hashmap_entry *current = iter->next;
244 for (;;) {
245 if (current) {
246 iter->next = current->next;
247 return current;
248 }
249
250 if (iter->tablepos >= iter->map->tablesize)
251 return NULL;
252
253 current = iter->map->table[iter->tablepos++];
254 }
255 }
256
257 struct pool_entry {
258 struct hashmap_entry ent;
259 size_t len;
260 unsigned char data[FLEX_ARRAY];
261 };
262
263 static int pool_entry_cmp(const struct pool_entry *e1,
264 const struct pool_entry *e2,
265 const unsigned char *keydata)
266 {
267 return e1->data != keydata &&
268 (e1->len != e2->len || memcmp(e1->data, keydata, e1->len));
269 }
270
271 const void *memintern(const void *data, size_t len)
272 {
273 static struct hashmap map;
274 struct pool_entry key, *e;
275
276 /* initialize string pool hashmap */
277 if (!map.tablesize)
278 hashmap_init(&map, (hashmap_cmp_fn) pool_entry_cmp, 0);
279
280 /* lookup interned string in pool */
281 hashmap_entry_init(&key, memhash(data, len));
282 key.len = len;
283 e = hashmap_get(&map, &key, data);
284 if (!e) {
285 /* not found: create it */
286 FLEX_ALLOC_MEM(e, data, data, len);
287 hashmap_entry_init(e, key.ent.hash);
288 e->len = len;
289 hashmap_add(&map, e);
290 }
291 return e->data;
292 }
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