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1 /*
2 * Copyright (c) 1999 Apple Computer, Inc. All rights reserved.
3 *
4 * @APPLE_LICENSE_HEADER_START@
5 *
6 * Copyright (c) 1999-2003 Apple Computer, Inc. All Rights Reserved.
7 *
8 * This file contains Original Code and/or Modifications of Original Code
9 * as defined in and that are subject to the Apple Public Source License
10 * Version 2.0 (the 'License'). You may not use this file except in
11 * compliance with the License. Please obtain a copy of the License at
12 * http://www.opensource.apple.com/apsl/ and read it before using this
13 * file.
14 *
15 * The Original Code and all software distributed under the License are
16 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
17 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
18 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
19 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
20 * Please see the License for the specific language governing rights and
21 * limitations under the License.
22 *
23 * @APPLE_LICENSE_HEADER_END@
24 */
25 /*
26 hashtable2.m
27 Copyright 1989-1996 NeXT Software, Inc.
28 Created by Bertrand Serlet, Feb 89
29 */
30
31 #import <objc/hashtable2.h>
32 #import "objc-private.h"
33
34 /* Is this in the right spot ? <jf> */
35 #if defined(__osf__)
36 #include <stdarg.h>
37 #endif
38
39 #import <mach/mach.h>
40 #import <pthread.h>
41
42 /* In order to improve efficiency, buckets contain a pointer to an array or directly the data when the array size is 1 */
43 typedef union {
44 const void *one;
45 const void **many;
46 } oneOrMany;
47 /* an optimization consists of storing directly data when count = 1 */
48
49 typedef struct {
50 unsigned count;
51 oneOrMany elements;
52 } HashBucket;
53 /* private data structure; may change */
54
55 /*************************************************************************
56 *
57 * Macros and utilities
58 *
59 *************************************************************************/
60
61 static unsigned log2 (unsigned x) { return (x<2) ? 0 : log2 (x>>1)+1; };
62
63 static unsigned exp2m1 (unsigned x) { return (1 << x) - 1; };
64
65 #define PTRSIZE sizeof(void *)
66
67 #define ALLOCTABLE(z) ((NXHashTable *) malloc_zone_malloc (z,sizeof (NXHashTable)))
68 #define ALLOCBUCKETS(z,nb)((HashBucket *) malloc_zone_calloc (z, nb, sizeof (HashBucket)))
69 #define ALLOCPAIRS(z,nb) ((const void **) malloc_zone_calloc (z, nb, sizeof (void *)))
70
71 /* iff necessary this modulo can be optimized since the nbBuckets is of the form 2**n-1 */
72 #define BUCKETOF(table, data) (((HashBucket *)table->buckets)+((*table->prototype->hash)(table->info, data) % table->nbBuckets))
73
74 #define ISEQUAL(table, data1, data2) ((data1 == data2) || (*table->prototype->isEqual)(table->info, data1, data2))
75 /* beware of double evaluation */
76
77 /*************************************************************************
78 *
79 * Global data and bootstrap
80 *
81 *************************************************************************/
82
83 static int isEqualPrototype (const void *info, const void *data1, const void *data2) {
84 NXHashTablePrototype *proto1 = (NXHashTablePrototype *) data1;
85 NXHashTablePrototype *proto2 = (NXHashTablePrototype *) data2;
86
87 return (proto1->hash == proto2->hash) && (proto1->isEqual == proto2->isEqual) && (proto1->free == proto2->free) && (proto1->style == proto2->style);
88 };
89
90 static uarith_t hashPrototype (const void *info, const void *data) {
91 NXHashTablePrototype *proto = (NXHashTablePrototype *) data;
92
93 return NXPtrHash(info, proto->hash) ^ NXPtrHash(info, proto->isEqual) ^ NXPtrHash(info, proto->free) ^ (uarith_t) proto->style;
94 };
95
96 void NXNoEffectFree (const void *info, void *data) {};
97
98 static NXHashTablePrototype protoPrototype = {
99 hashPrototype, isEqualPrototype, NXNoEffectFree, 0
100 };
101
102 static NXHashTable *prototypes NOBSS = NULL;
103 /* table of all prototypes */
104
105 static void bootstrap (void) {
106 free(malloc(8));
107 prototypes = ALLOCTABLE (malloc_default_zone());
108 prototypes->prototype = &protoPrototype;
109 prototypes->count = 1;
110 prototypes->nbBuckets = 1; /* has to be 1 so that the right bucket is 0 */
111 prototypes->buckets = ALLOCBUCKETS(malloc_default_zone(), 1);
112 prototypes->info = NULL;
113 ((HashBucket *) prototypes->buckets)[0].count = 1;
114 ((HashBucket *) prototypes->buckets)[0].elements.one = &protoPrototype;
115 };
116
117 int NXPtrIsEqual (const void *info, const void *data1, const void *data2) {
118 return data1 == data2;
119 };
120
121 /*************************************************************************
122 *
123 * On z'y va
124 *
125 *************************************************************************/
126
127 NXHashTable *NXCreateHashTable (NXHashTablePrototype prototype, unsigned capacity, const void *info) {
128 return NXCreateHashTableFromZone(prototype, capacity, info, malloc_default_zone());
129 }
130
131 NXHashTable *NXCreateHashTableFromZone (NXHashTablePrototype prototype, unsigned capacity, const void *info, void *z) {
132 NXHashTable *table;
133 NXHashTablePrototype *proto;
134
135 table = ALLOCTABLE(z);
136 if (! prototypes) bootstrap ();
137 if (! prototype.hash) prototype.hash = NXPtrHash;
138 if (! prototype.isEqual) prototype.isEqual = NXPtrIsEqual;
139 if (! prototype.free) prototype.free = NXNoEffectFree;
140 if (prototype.style) {
141 _objc_syslog ("*** NXCreateHashTable: invalid style\n");
142 return NULL;
143 };
144 proto = NXHashGet (prototypes, &prototype);
145 if (! proto) {
146 proto
147 = (NXHashTablePrototype *) malloc_zone_malloc (malloc_default_zone(),
148 sizeof (NXHashTablePrototype));
149 bcopy ((const char*)&prototype, (char*)proto, sizeof (NXHashTablePrototype));
150 (void) NXHashInsert (prototypes, proto);
151 proto = NXHashGet (prototypes, &prototype);
152 if (! proto) {
153 _objc_syslog ("*** NXCreateHashTable: bug\n");
154 return NULL;
155 };
156 };
157 table->prototype = proto; table->count = 0; table->info = info;
158 table->nbBuckets = exp2m1 (log2 (capacity)+1);
159 table->buckets = ALLOCBUCKETS(z, table->nbBuckets);
160 return table;
161 }
162
163 static void freeBucketPairs (void (*freeProc)(const void *info, void *data), HashBucket bucket, const void *info) {
164 unsigned j = bucket.count;
165 const void **pairs;
166
167 if (j == 1) {
168 (*freeProc) (info, (void *) bucket.elements.one);
169 return;
170 };
171 pairs = bucket.elements.many;
172 while (j--) {
173 (*freeProc) (info, (void *) *pairs);
174 pairs ++;
175 };
176 free (bucket.elements.many);
177 };
178
179 static void freeBuckets (NXHashTable *table, int freeObjects) {
180 unsigned i = table->nbBuckets;
181 HashBucket *buckets = (HashBucket *) table->buckets;
182
183 while (i--) {
184 if (buckets->count) {
185 freeBucketPairs ((freeObjects) ? table->prototype->free : NXNoEffectFree, *buckets, table->info);
186 buckets->count = 0;
187 buckets->elements.one = NULL;
188 };
189 buckets++;
190 };
191 };
192
193 void NXFreeHashTable (NXHashTable *table) {
194 freeBuckets (table, YES);
195 free (table->buckets);
196 free (table);
197 };
198
199 void NXEmptyHashTable (NXHashTable *table) {
200 freeBuckets (table, NO);
201 table->count = 0;
202 }
203
204 void NXResetHashTable (NXHashTable *table) {
205 freeBuckets (table, YES);
206 table->count = 0;
207 }
208
209 BOOL NXIsEqualHashTable (NXHashTable *table1, NXHashTable *table2) {
210 if (table1 == table2) return YES;
211 if (NXCountHashTable (table1) != NXCountHashTable (table2)) return NO;
212 else {
213 void *data;
214 NXHashState state = NXInitHashState (table1);
215 while (NXNextHashState (table1, &state, &data)) {
216 if (! NXHashMember (table2, data)) return NO;
217 }
218 return YES;
219 }
220 }
221
222 BOOL NXCompareHashTables (NXHashTable *table1, NXHashTable *table2) {
223 if (table1 == table2) return YES;
224 if (NXCountHashTable (table1) != NXCountHashTable (table2)) return NO;
225 else {
226 void *data;
227 NXHashState state = NXInitHashState (table1);
228 while (NXNextHashState (table1, &state, &data)) {
229 if (! NXHashMember (table2, data)) return NO;
230 }
231 return YES;
232 }
233 }
234
235 NXHashTable *NXCopyHashTable (NXHashTable *table) {
236 NXHashTable *new;
237 NXHashState state = NXInitHashState (table);
238 void *data;
239 void *z = malloc_zone_from_ptr(table);
240
241 new = ALLOCTABLE(z);
242 new->prototype = table->prototype; new->count = 0;
243 new->info = table->info;
244 new->nbBuckets = table->nbBuckets;
245 new->buckets = ALLOCBUCKETS(z, new->nbBuckets);
246 while (NXNextHashState (table, &state, &data))
247 (void) NXHashInsert (new, data);
248 return new;
249 }
250
251 unsigned NXCountHashTable (NXHashTable *table) {
252 return table->count;
253 }
254
255 int NXHashMember (NXHashTable *table, const void *data) {
256 HashBucket *bucket = BUCKETOF(table, data);
257 unsigned j = bucket->count;
258 const void **pairs;
259
260 if (! j) return 0;
261 if (j == 1) {
262 return ISEQUAL(table, data, bucket->elements.one);
263 };
264 pairs = bucket->elements.many;
265 while (j--) {
266 /* we don't cache isEqual because lists are short */
267 if (ISEQUAL(table, data, *pairs)) return 1;
268 pairs ++;
269 };
270 return 0;
271 }
272
273 void *NXHashGet (NXHashTable *table, const void *data) {
274 HashBucket *bucket = BUCKETOF(table, data);
275 unsigned j = bucket->count;
276 const void **pairs;
277
278 if (! j) return NULL;
279 if (j == 1) {
280 return ISEQUAL(table, data, bucket->elements.one)
281 ? (void *) bucket->elements.one : NULL;
282 };
283 pairs = bucket->elements.many;
284 while (j--) {
285 /* we don't cache isEqual because lists are short */
286 if (ISEQUAL(table, data, *pairs)) return (void *) *pairs;
287 pairs ++;
288 };
289 return NULL;
290 }
291
292 __private_extern__ unsigned _NXHashCapacity (NXHashTable *table) {
293 return table->nbBuckets;
294 }
295
296 __private_extern__ void _NXHashRehashToCapacity (NXHashTable *table, unsigned newCapacity) {
297 /* Rehash: we create a pseudo table pointing really to the old guys,
298 extend self, copy the old pairs, and free the pseudo table */
299 NXHashTable *old;
300 NXHashState state;
301 void *aux;
302 void *z = malloc_zone_from_ptr(table);
303
304 old = ALLOCTABLE(z);
305 old->prototype = table->prototype; old->count = table->count;
306 old->nbBuckets = table->nbBuckets; old->buckets = table->buckets;
307 table->nbBuckets = newCapacity;
308 table->count = 0; table->buckets = ALLOCBUCKETS(z, table->nbBuckets);
309 state = NXInitHashState (old);
310 while (NXNextHashState (old, &state, &aux))
311 (void) NXHashInsert (table, aux);
312 freeBuckets (old, NO);
313 if (old->count != table->count)
314 _objc_syslog("*** hashtable: count differs after rehashing; probably indicates a broken invariant: there are x and y such as isEqual(x, y) is TRUE but hash(x) != hash (y)\n");
315 free (old->buckets);
316 free (old);
317 }
318
319 static void _NXHashRehash (NXHashTable *table) {
320 _NXHashRehashToCapacity (table, table->nbBuckets*2 + 1);
321 }
322
323 void *NXHashInsert (NXHashTable *table, const void *data) {
324 HashBucket *bucket = BUCKETOF(table, data);
325 unsigned j = bucket->count;
326 const void **pairs;
327 const void **new;
328 void *z = malloc_zone_from_ptr(table);
329
330 if (! j) {
331 bucket->count++; bucket->elements.one = data;
332 table->count++;
333 return NULL;
334 };
335 if (j == 1) {
336 if (ISEQUAL(table, data, bucket->elements.one)) {
337 const void *old = bucket->elements.one;
338 bucket->elements.one = data;
339 return (void *) old;
340 };
341 new = ALLOCPAIRS(z, 2);
342 new[1] = bucket->elements.one;
343 *new = data;
344 bucket->count++; bucket->elements.many = new;
345 table->count++;
346 if (table->count > table->nbBuckets) _NXHashRehash (table);
347 return NULL;
348 };
349 pairs = bucket->elements.many;
350 while (j--) {
351 /* we don't cache isEqual because lists are short */
352 if (ISEQUAL(table, data, *pairs)) {
353 const void *old = *pairs;
354 *pairs = data;
355 return (void *) old;
356 };
357 pairs ++;
358 };
359 /* we enlarge this bucket; and put new data in front */
360 new = ALLOCPAIRS(z, bucket->count+1);
361 if (bucket->count) bcopy ((const char*)bucket->elements.many, (char*)(new+1), bucket->count * PTRSIZE);
362 *new = data;
363 free (bucket->elements.many);
364 bucket->count++; bucket->elements.many = new;
365 table->count++;
366 if (table->count > table->nbBuckets) _NXHashRehash (table);
367 return NULL;
368 }
369
370 void *NXHashInsertIfAbsent (NXHashTable *table, const void *data) {
371 HashBucket *bucket = BUCKETOF(table, data);
372 unsigned j = bucket->count;
373 const void **pairs;
374 const void **new;
375 void *z = malloc_zone_from_ptr(table);
376
377 if (! j) {
378 bucket->count++; bucket->elements.one = data;
379 table->count++;
380 return (void *) data;
381 };
382 if (j == 1) {
383 if (ISEQUAL(table, data, bucket->elements.one))
384 return (void *) bucket->elements.one;
385 new = ALLOCPAIRS(z, 2);
386 new[1] = bucket->elements.one;
387 *new = data;
388 bucket->count++; bucket->elements.many = new;
389 table->count++;
390 if (table->count > table->nbBuckets) _NXHashRehash (table);
391 return (void *) data;
392 };
393 pairs = bucket->elements.many;
394 while (j--) {
395 /* we don't cache isEqual because lists are short */
396 if (ISEQUAL(table, data, *pairs))
397 return (void *) *pairs;
398 pairs ++;
399 };
400 /* we enlarge this bucket; and put new data in front */
401 new = ALLOCPAIRS(z, bucket->count+1);
402 if (bucket->count) bcopy ((const char*)bucket->elements.many, (char*)(new+1), bucket->count * PTRSIZE);
403 *new = data;
404 free (bucket->elements.many);
405 bucket->count++; bucket->elements.many = new;
406 table->count++;
407 if (table->count > table->nbBuckets) _NXHashRehash (table);
408 return (void *) data;
409 }
410
411 void *NXHashRemove (NXHashTable *table, const void *data) {
412 HashBucket *bucket = BUCKETOF(table, data);
413 unsigned j = bucket->count;
414 const void **pairs;
415 const void **new;
416 void *z = malloc_zone_from_ptr(table);
417
418 if (! j) return NULL;
419 if (j == 1) {
420 if (! ISEQUAL(table, data, bucket->elements.one)) return NULL;
421 data = bucket->elements.one;
422 table->count--; bucket->count--; bucket->elements.one = NULL;
423 return (void *) data;
424 };
425 pairs = bucket->elements.many;
426 if (j == 2) {
427 if (ISEQUAL(table, data, pairs[0])) {
428 bucket->elements.one = pairs[1]; data = pairs[0];
429 }
430 else if (ISEQUAL(table, data, pairs[1])) {
431 bucket->elements.one = pairs[0]; data = pairs[1];
432 }
433 else return NULL;
434 free (pairs);
435 table->count--; bucket->count--;
436 return (void *) data;
437 };
438 while (j--) {
439 if (ISEQUAL(table, data, *pairs)) {
440 data = *pairs;
441 /* we shrink this bucket */
442 new = (bucket->count-1)
443 ? ALLOCPAIRS(z, bucket->count-1) : NULL;
444 if (bucket->count-1 != j)
445 bcopy ((const char*)bucket->elements.many, (char*)new, PTRSIZE*(bucket->count-j-1));
446 if (j)
447 bcopy ((const char*)(bucket->elements.many + bucket->count-j), (char*)(new+bucket->count-j-1), PTRSIZE*j);
448 free (bucket->elements.many);
449 table->count--; bucket->count--; bucket->elements.many = new;
450 return (void *) data;
451 };
452 pairs ++;
453 };
454 return NULL;
455 }
456
457 NXHashState NXInitHashState (NXHashTable *table) {
458 NXHashState state;
459
460 state.i = table->nbBuckets;
461 state.j = 0;
462 return state;
463 };
464
465 int NXNextHashState (NXHashTable *table, NXHashState *state, void **data) {
466 HashBucket *buckets = (HashBucket *) table->buckets;
467
468 while (state->j == 0) {
469 if (state->i == 0) return NO;
470 state->i--; state->j = buckets[state->i].count;
471 }
472 state->j--;
473 buckets += state->i;
474 *data = (void *) ((buckets->count == 1)
475 ? buckets->elements.one : buckets->elements.many[state->j]);
476 return YES;
477 };
478
479 /*************************************************************************
480 *
481 * Conveniences
482 *
483 *************************************************************************/
484
485 uarith_t NXPtrHash (const void *info, const void *data) {
486 return (((uarith_t) data) >> 16) ^ ((uarith_t) data);
487 };
488
489 uarith_t NXStrHash (const void *info, const void *data) {
490 register uarith_t hash = 0;
491 register unsigned char *s = (unsigned char *) data;
492 /* unsigned to avoid a sign-extend */
493 /* unroll the loop */
494 if (s) for (; ; ) {
495 if (*s == '\0') break;
496 hash ^= (uarith_t) *s++;
497 if (*s == '\0') break;
498 hash ^= (uarith_t) *s++ << 8;
499 if (*s == '\0') break;
500 hash ^= (uarith_t) *s++ << 16;
501 if (*s == '\0') break;
502 hash ^= (uarith_t) *s++ << 24;
503 }
504 return hash;
505 };
506
507 int NXStrIsEqual (const void *info, const void *data1, const void *data2) {
508 if (data1 == data2) return YES;
509 if (! data1) return ! strlen ((char *) data2);
510 if (! data2) return ! strlen ((char *) data1);
511 if (((char *) data1)[0] != ((char *) data2)[0]) return NO;
512 return (strcmp ((char *) data1, (char *) data2)) ? NO : YES;
513 };
514
515 void NXReallyFree (const void *info, void *data) {
516 free (data);
517 };
518
519 /* All the following functions are really private, made non-static only for the benefit of shlibs */
520 static uarith_t hashPtrStructKey (const void *info, const void *data) {
521 return NXPtrHash(info, *((void **) data));
522 };
523
524 static int isEqualPtrStructKey (const void *info, const void *data1, const void *data2) {
525 return NXPtrIsEqual (info, *((void **) data1), *((void **) data2));
526 };
527
528 static uarith_t hashStrStructKey (const void *info, const void *data) {
529 return NXStrHash(info, *((char **) data));
530 };
531
532 static int isEqualStrStructKey (const void *info, const void *data1, const void *data2) {
533 return NXStrIsEqual (info, *((char **) data1), *((char **) data2));
534 };
535
536 const NXHashTablePrototype NXPtrPrototype = {
537 NXPtrHash, NXPtrIsEqual, NXNoEffectFree, 0
538 };
539
540 const NXHashTablePrototype NXStrPrototype = {
541 NXStrHash, NXStrIsEqual, NXNoEffectFree, 0
542 };
543
544 const NXHashTablePrototype NXPtrStructKeyPrototype = {
545 hashPtrStructKey, isEqualPtrStructKey, NXReallyFree, 0
546 };
547
548 const NXHashTablePrototype NXStrStructKeyPrototype = {
549 hashStrStructKey, isEqualStrStructKey, NXReallyFree, 0
550 };
551
552 /*************************************************************************
553 *
554 * Unique strings
555 *
556 *************************************************************************/
557
558 /* the implementation could be made faster at the expense of memory if the size of the strings were kept around */
559 static NXHashTable *uniqueStrings = NULL;
560
561 /* this is based on most apps using a few K of strings, and an average string size of 15 using sqrt(2*dataAlloced*perChunkOverhead) */
562 #define CHUNK_SIZE 360
563
564 static int accessUniqueString = 0;
565
566 static char *z = NULL;
567 static vm_size_t zSize = 0;
568 static mutex_t lock = (mutex_t)0;
569
570 static const char *CopyIntoReadOnly (const char *str) {
571 unsigned int len = strlen (str) + 1;
572 char *new;
573
574 if (len > CHUNK_SIZE/2) { /* dont let big strings waste space */
575 new = malloc (len);
576 bcopy (str, new, len);
577 return new;
578 }
579
580 if (! lock) {
581 lock = (mutex_t)mutex_alloc ();
582 mutex_init (lock);
583 };
584
585 mutex_lock (lock);
586 if (zSize < len) {
587 zSize = CHUNK_SIZE *((len + CHUNK_SIZE - 1) / CHUNK_SIZE);
588 /* not enough room, we try to allocate. If no room left, too bad */
589 z = malloc (zSize);
590 };
591
592 new = z;
593 bcopy (str, new, len);
594 z += len;
595 zSize -= len;
596 mutex_unlock (lock);
597 return new;
598 };
599
600 NXAtom NXUniqueString (const char *buffer) {
601 const char *previous;
602
603 if (! buffer) return buffer;
604 accessUniqueString++;
605 if (! uniqueStrings)
606 uniqueStrings = NXCreateHashTable (NXStrPrototype, 0, NULL);
607 previous = (const char *) NXHashGet (uniqueStrings, buffer);
608 if (previous) return previous;
609 previous = CopyIntoReadOnly (buffer);
610 if (NXHashInsert (uniqueStrings, previous)) {
611 _objc_syslog ("*** NXUniqueString: invariant broken\n");
612 return NULL;
613 };
614 return previous;
615 };
616
617 NXAtom NXUniqueStringNoCopy (const char *string) {
618 accessUniqueString++;
619 if (! uniqueStrings)
620 uniqueStrings = NXCreateHashTable (NXStrPrototype, 0, NULL);
621 return (const char *) NXHashInsertIfAbsent (uniqueStrings, string);
622 };
623
624 #define BUF_SIZE 256
625
626 NXAtom NXUniqueStringWithLength (const char *buffer, int length) {
627 NXAtom atom;
628 char *nullTermStr;
629 char stackBuf[BUF_SIZE];
630
631 if (length+1 > BUF_SIZE)
632 nullTermStr = malloc (length+1);
633 else
634 nullTermStr = stackBuf;
635 bcopy (buffer, nullTermStr, length);
636 nullTermStr[length] = '\0';
637 atom = NXUniqueString (nullTermStr);
638 if (length+1 > BUF_SIZE)
639 free (nullTermStr);
640 return atom;
641 };
642
643 char *NXCopyStringBufferFromZone (const char *str, void *z) {
644 return strcpy ((char *) malloc_zone_malloc(z, strlen (str) + 1), str);
645 };
646
647 char *NXCopyStringBuffer (const char *str) {
648 return NXCopyStringBufferFromZone(str, malloc_default_zone());
649 };
650