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1 /*
2 * Copyright (c) 2008 Apple Inc. All rights reserved.
3 *
4 * @APPLE_LICENSE_HEADER_START@
5 *
6 * This file contains Original Code and/or Modifications of Original Code
7 * as defined in and that are subject to the Apple Public Source License
8 * Version 2.0 (the 'License'). You may not use this file except in
9 * compliance with the License. Please obtain a copy of the License at
10 * http://www.opensource.apple.com/apsl/ and read it before using this
11 * file.
12 *
13 * The Original Code and all software distributed under the License are
14 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
15 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
16 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
17 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
18 * Please see the License for the specific language governing rights and
19 * limitations under the License.
20 *
21 * @APPLE_LICENSE_HEADER_END@
22 */
23 /* CFDictionary.c
24 Copyright 1998-2006, Apple, Inc. All rights reserved.
25 Responsibility: Christopher Kane
26 Machine generated from Notes/HashingCode.template
27 */
28
29
30
31
32 #include <CoreFoundation/CFDictionary.h>
33 #include "CFInternal.h"
34 #include <mach-o/dyld.h>
35
36 #define CFDictionary 0
37 #define CFSet 0
38 #define CFBag 0
39 #undef CFDictionary
40 #define CFDictionary 1
41
42 #if CFDictionary
43 const CFDictionaryKeyCallBacks kCFTypeDictionaryKeyCallBacks = {0, __CFTypeCollectionRetain, __CFTypeCollectionRelease, CFCopyDescription, CFEqual, CFHash};
44 const CFDictionaryKeyCallBacks kCFCopyStringDictionaryKeyCallBacks = {0, __CFStringCollectionCopy, __CFTypeCollectionRelease, CFCopyDescription, CFEqual, CFHash};
45 const CFDictionaryValueCallBacks kCFTypeDictionaryValueCallBacks = {0, __CFTypeCollectionRetain, __CFTypeCollectionRelease, CFCopyDescription, CFEqual};
46 static const CFDictionaryKeyCallBacks __kCFNullDictionaryKeyCallBacks = {0, NULL, NULL, NULL, NULL, NULL};
47 static const CFDictionaryValueCallBacks __kCFNullDictionaryValueCallBacks = {0, NULL, NULL, NULL, NULL};
48
49 #define CFHashRef CFDictionaryRef
50 #define CFMutableHashRef CFMutableDictionaryRef
51 #define __kCFHashTypeID __kCFDictionaryTypeID
52 #endif
53
54 #if CFSet
55 const CFDictionaryCallBacks kCFTypeDictionaryCallBacks = {0, __CFTypeCollectionRetain, __CFTypeCollectionRelease, CFCopyDescription, CFEqual, CFHash};
56 const CFDictionaryCallBacks kCFCopyStringDictionaryCallBacks = {0, __CFStringCollectionCopy, __CFTypeCollectionRelease, CFCopyDescription, CFEqual, CFHash};
57 static const CFDictionaryCallBacks __kCFNullDictionaryCallBacks = {0, NULL, NULL, NULL, NULL, NULL};
58
59 #define CFDictionaryKeyCallBacks CFDictionaryCallBacks
60 #define CFDictionaryValueCallBacks CFDictionaryCallBacks
61 #define kCFTypeDictionaryKeyCallBacks kCFTypeDictionaryCallBacks
62 #define kCFTypeDictionaryValueCallBacks kCFTypeDictionaryCallBacks
63 #define __kCFNullDictionaryKeyCallBacks __kCFNullDictionaryCallBacks
64 #define __kCFNullDictionaryValueCallBacks __kCFNullDictionaryCallBacks
65
66 #define CFHashRef CFSetRef
67 #define CFMutableHashRef CFMutableSetRef
68 #define __kCFHashTypeID __kCFSetTypeID
69 #endif
70
71 #if CFBag
72 const CFDictionaryCallBacks kCFTypeDictionaryCallBacks = {0, __CFTypeCollectionRetain, __CFTypeCollectionRelease, CFCopyDescription, CFEqual, CFHash};
73 const CFDictionaryCallBacks kCFCopyStringDictionaryCallBacks = {0, __CFStringCollectionCopy, __CFTypeCollectionRelease, CFCopyDescription, CFEqual, CFHash};
74 static const CFDictionaryCallBacks __kCFNullDictionaryCallBacks = {0, NULL, NULL, NULL, NULL, NULL};
75
76 #define CFDictionaryKeyCallBacks CFDictionaryCallBacks
77 #define CFDictionaryValueCallBacks CFDictionaryCallBacks
78 #define kCFTypeDictionaryKeyCallBacks kCFTypeDictionaryCallBacks
79 #define kCFTypeDictionaryValueCallBacks kCFTypeDictionaryCallBacks
80 #define __kCFNullDictionaryKeyCallBacks __kCFNullDictionaryCallBacks
81 #define __kCFNullDictionaryValueCallBacks __kCFNullDictionaryCallBacks
82
83 #define CFHashRef CFBagRef
84 #define CFMutableHashRef CFMutableBagRef
85 #define __kCFHashTypeID __kCFBagTypeID
86 #endif
87
88 #define GETNEWKEY(newKey, oldKey) \
89 any_t (*kretain)(CFAllocatorRef, any_t, any_pointer_t) = \
90 !hasBeenFinalized(hc) \
91 ? (any_t (*)(CFAllocatorRef,any_t,any_pointer_t))__CFDictionaryGetKeyCallBacks(hc)->retain \
92 : (any_t (*)(CFAllocatorRef,any_t,any_pointer_t))0; \
93 any_t newKey = kretain ? (any_t)INVOKE_CALLBACK3(kretain, allocator, (any_t)key, hc->_context) : (any_t)oldKey
94
95 #define RELEASEKEY(oldKey) \
96 void (*krelease)(CFAllocatorRef, any_t, any_pointer_t) = \
97 !hasBeenFinalized(hc) \
98 ? (void (*)(CFAllocatorRef,any_t,any_pointer_t))__CFDictionaryGetKeyCallBacks(hc)->release \
99 : (void (*)(CFAllocatorRef,any_t,any_pointer_t))0; \
100 if (krelease) INVOKE_CALLBACK3(krelease, allocator, oldKey, hc->_context)
101
102 #if CFDictionary
103 #define GETNEWVALUE(newValue) \
104 any_t (*vretain)(CFAllocatorRef, any_t, any_pointer_t) = \
105 !hasBeenFinalized(hc) \
106 ? (any_t (*)(CFAllocatorRef,any_t,any_pointer_t))__CFDictionaryGetValueCallBacks(hc)->retain \
107 : (any_t (*)(CFAllocatorRef,any_t,any_pointer_t))0; \
108 any_t newValue = vretain ? (any_t)INVOKE_CALLBACK3(vretain, allocator, (any_t)value, hc->_context) : (any_t)value
109
110 #define RELEASEVALUE(oldValue) \
111 void (*vrelease)(CFAllocatorRef, any_t, any_pointer_t) = \
112 !hasBeenFinalized(hc) \
113 ? (void (*)(CFAllocatorRef,any_t,any_pointer_t))__CFDictionaryGetValueCallBacks(hc)->release \
114 : (void (*)(CFAllocatorRef,any_t,any_pointer_t))0; \
115 if (vrelease) INVOKE_CALLBACK3(vrelease, allocator, oldValue, hc->_context)
116
117 #endif
118
119 static void __CFDictionaryHandleOutOfMemory(CFTypeRef obj, CFIndex numBytes) {
120 CFStringRef msg = CFStringCreateWithFormat(kCFAllocatorSystemDefault, NULL, CFSTR("Attempt to allocate %ld bytes for NS/CFDictionary failed"), numBytes);
121 CFBadErrorCallBack cb = _CFGetOutOfMemoryErrorCallBack();
122 if (NULL == cb || !cb(obj, CFSTR("NS/CFDictionary"), msg)) {
123 CFLog(kCFLogLevelCritical, CFSTR("%@"), msg);
124 HALT;
125 }
126 CFRelease(msg);
127 }
128
129
130 // Max load is 3/4 number of buckets
131 CF_INLINE CFIndex __CFHashRoundUpCapacity(CFIndex capacity) {
132 return 3 * ((CFIndex)1 << (flsl((capacity - 1) / 3)));
133 }
134
135 // Returns next power of two higher than the capacity
136 // threshold for the given input capacity.
137 CF_INLINE CFIndex __CFHashNumBucketsForCapacity(CFIndex capacity) {
138 return 4 * ((CFIndex)1 << (flsl((capacity - 1) / 3)));
139 }
140
141 enum { /* Bits 1-0 */
142 __kCFHashImmutable = 0, /* unchangable and fixed capacity */
143 __kCFHashMutable = 1, /* changeable and variable capacity */
144 };
145
146 enum { /* Bits 5-4 (value), 3-2 (key) */
147 __kCFHashHasNullCallBacks = 0,
148 __kCFHashHasCFTypeCallBacks = 1,
149 __kCFHashHasCustomCallBacks = 3 /* callbacks are at end of header */
150 };
151
152 // Under GC, we fudge the key/value memory in two ways
153 // First, if we had null callbacks or null for both retain/release, we use unscanned memory and get
154 // standard 'dangling' references.
155 // This means that if people were doing addValue:[xxx new] and never removing, well, that doesn't work
156 //
157 // Second, if we notice standard retain/release implementations we use scanned memory, and fudge the
158 // standard callbacks to generally do nothing if the collection was allocated in GC memory. On special
159 // CF objects, however, like those used for precious resources like video-card buffers, we do indeed
160 // do CFRetain on input and CFRelease on output. The tricky case is GC finalization; we need to remember
161 // that we did the CFReleases so that subsequent collection operations, like removal, don't double CFRelease.
162 // (In fact we don't really use CFRetain/CFRelease but go directly to the collector)
163 //
164
165 enum {
166 __kCFHashFinalized = (1 << 7),
167 __kCFHashWeakKeys = (1 << 8),
168 __kCFHashWeakValues = (1 << 9)
169 };
170
171 typedef uintptr_t any_t;
172 typedef const void * const_any_pointer_t;
173 typedef void * any_pointer_t;
174
175 struct __CFDictionary {
176 CFRuntimeBase _base;
177 CFIndex _count; /* number of values */
178 CFIndex _bucketsNum; /* number of buckets */
179 CFIndex _bucketsUsed; /* number of used buckets */
180 CFIndex _bucketsCap; /* maximum number of used buckets */
181 CFIndex _mutations;
182 CFIndex _deletes;
183 any_pointer_t _context; /* private */
184 CFOptionFlags _xflags;
185 any_t _marker;
186 any_t *_keys; /* can be NULL if not allocated yet */
187 any_t *_values; /* can be NULL if not allocated yet */
188 };
189
190 /* Bits 1-0 of the _xflags are used for mutability variety */
191 /* Bits 3-2 of the _xflags are used for key callback indicator bits */
192 /* Bits 5-4 of the _xflags are used for value callback indicator bits */
193 /* Bit 6 of the _xflags is special KVO actions bit */
194 /* Bits 7,8,9 are GC use */
195
196 CF_INLINE bool hasBeenFinalized(CFTypeRef collection) {
197 return __CFBitfieldGetValue(((const struct __CFDictionary *)collection)->_xflags, 7, 7) != 0;
198 }
199
200 CF_INLINE void markFinalized(CFTypeRef collection) {
201 __CFBitfieldSetValue(((struct __CFDictionary *)collection)->_xflags, 7, 7, 1);
202 }
203
204
205 CF_INLINE CFIndex __CFHashGetType(CFHashRef hc) {
206 return __CFBitfieldGetValue(hc->_xflags, 1, 0);
207 }
208
209 CF_INLINE CFIndex __CFDictionaryGetSizeOfType(CFIndex t) {
210 CFIndex size = sizeof(struct __CFDictionary);
211 if (__CFBitfieldGetValue(t, 3, 2) == __kCFHashHasCustomCallBacks) {
212 size += sizeof(CFDictionaryKeyCallBacks);
213 }
214 if (__CFBitfieldGetValue(t, 5, 4) == __kCFHashHasCustomCallBacks) {
215 size += sizeof(CFDictionaryValueCallBacks);
216 }
217 return size;
218 }
219
220 CF_INLINE const CFDictionaryKeyCallBacks *__CFDictionaryGetKeyCallBacks(CFHashRef hc) {
221 CFDictionaryKeyCallBacks *result = NULL;
222 switch (__CFBitfieldGetValue(hc->_xflags, 3, 2)) {
223 case __kCFHashHasNullCallBacks:
224 return &__kCFNullDictionaryKeyCallBacks;
225 case __kCFHashHasCFTypeCallBacks:
226 return &kCFTypeDictionaryKeyCallBacks;
227 case __kCFHashHasCustomCallBacks:
228 break;
229 }
230 result = (CFDictionaryKeyCallBacks *)((uint8_t *)hc + sizeof(struct __CFDictionary));
231 return result;
232 }
233
234 CF_INLINE Boolean __CFDictionaryKeyCallBacksMatchNull(const CFDictionaryKeyCallBacks *c) {
235 return (NULL == c ||
236 (c->retain == __kCFNullDictionaryKeyCallBacks.retain &&
237 c->release == __kCFNullDictionaryKeyCallBacks.release &&
238 c->copyDescription == __kCFNullDictionaryKeyCallBacks.copyDescription &&
239 c->equal == __kCFNullDictionaryKeyCallBacks.equal &&
240 c->hash == __kCFNullDictionaryKeyCallBacks.hash));
241 }
242
243 CF_INLINE Boolean __CFDictionaryKeyCallBacksMatchCFType(const CFDictionaryKeyCallBacks *c) {
244 return (&kCFTypeDictionaryKeyCallBacks == c ||
245 (c->retain == kCFTypeDictionaryKeyCallBacks.retain &&
246 c->release == kCFTypeDictionaryKeyCallBacks.release &&
247 c->copyDescription == kCFTypeDictionaryKeyCallBacks.copyDescription &&
248 c->equal == kCFTypeDictionaryKeyCallBacks.equal &&
249 c->hash == kCFTypeDictionaryKeyCallBacks.hash));
250 }
251
252 CF_INLINE const CFDictionaryValueCallBacks *__CFDictionaryGetValueCallBacks(CFHashRef hc) {
253 CFDictionaryValueCallBacks *result = NULL;
254 switch (__CFBitfieldGetValue(hc->_xflags, 5, 4)) {
255 case __kCFHashHasNullCallBacks:
256 return &__kCFNullDictionaryValueCallBacks;
257 case __kCFHashHasCFTypeCallBacks:
258 return &kCFTypeDictionaryValueCallBacks;
259 case __kCFHashHasCustomCallBacks:
260 break;
261 }
262 if (__CFBitfieldGetValue(hc->_xflags, 3, 2) == __kCFHashHasCustomCallBacks) {
263 result = (CFDictionaryValueCallBacks *)((uint8_t *)hc + sizeof(struct __CFDictionary) + sizeof(CFDictionaryKeyCallBacks));
264 } else {
265 result = (CFDictionaryValueCallBacks *)((uint8_t *)hc + sizeof(struct __CFDictionary));
266 }
267 return result;
268 }
269
270 CF_INLINE Boolean __CFDictionaryValueCallBacksMatchNull(const CFDictionaryValueCallBacks *c) {
271 return (NULL == c ||
272 (c->retain == __kCFNullDictionaryValueCallBacks.retain &&
273 c->release == __kCFNullDictionaryValueCallBacks.release &&
274 c->copyDescription == __kCFNullDictionaryValueCallBacks.copyDescription &&
275 c->equal == __kCFNullDictionaryValueCallBacks.equal));
276 }
277
278 CF_INLINE Boolean __CFDictionaryValueCallBacksMatchCFType(const CFDictionaryValueCallBacks *c) {
279 return (&kCFTypeDictionaryValueCallBacks == c ||
280 (c->retain == kCFTypeDictionaryValueCallBacks.retain &&
281 c->release == kCFTypeDictionaryValueCallBacks.release &&
282 c->copyDescription == kCFTypeDictionaryValueCallBacks.copyDescription &&
283 c->equal == kCFTypeDictionaryValueCallBacks.equal));
284 }
285
286 CFIndex _CFDictionaryGetKVOBit(CFHashRef hc) {
287 return __CFBitfieldGetValue(hc->_xflags, 6, 6);
288 }
289
290 void _CFDictionarySetKVOBit(CFHashRef hc, CFIndex bit) {
291 __CFBitfieldSetValue(((CFMutableHashRef)hc)->_xflags, 6, 6, ((uintptr_t)bit & 0x1));
292 }
293
294 CF_INLINE Boolean __CFDictionaryShouldShrink(CFHashRef hc) {
295 return (__kCFHashMutable == __CFHashGetType(hc)) &&
296 !(CF_USING_COLLECTABLE_MEMORY && auto_zone_is_finalized(__CFCollectableZone, hc)) && /* GC: don't shrink finalizing hcs! */
297 (hc->_bucketsNum < 4 * hc->_deletes || (256 <= hc->_bucketsCap && hc-> _bucketsUsed < 3 * hc->_bucketsCap / 16));
298 }
299
300 CF_INLINE CFIndex __CFHashGetOccurrenceCount(CFHashRef hc, CFIndex idx) {
301 #if CFBag
302 return hc->_values[idx];
303 #endif
304 return 1;
305 }
306
307 CF_INLINE Boolean __CFHashKeyIsValue(CFHashRef hc, any_t key) {
308 return (hc->_marker != key && ~hc->_marker != key) ? true : false;
309 }
310
311 CF_INLINE Boolean __CFHashKeyIsMagic(CFHashRef hc, any_t key) {
312 return (hc->_marker == key || ~hc->_marker == key) ? true : false;
313 }
314
315
316 #if !defined(CF_OBJC_KVO_WILLCHANGE)
317 #define CF_OBJC_KVO_WILLCHANGE(obj, key)
318 #define CF_OBJC_KVO_DIDCHANGE(obj, key)
319 #endif
320
321 CF_INLINE uintptr_t __CFDictionaryScrambleHash(uintptr_t k) {
322 #if 0
323 return k;
324 #else
325 #if __LP64__
326 uintptr_t a = 0x4368726973746F70ULL;
327 uintptr_t b = 0x686572204B616E65ULL;
328 #else
329 uintptr_t a = 0x4B616E65UL;
330 uintptr_t b = 0x4B616E65UL;
331 #endif
332 uintptr_t c = 1;
333 a += k;
334 #if __LP64__
335 a -= b; a -= c; a ^= (c >> 43);
336 b -= c; b -= a; b ^= (a << 9);
337 c -= a; c -= b; c ^= (b >> 8);
338 a -= b; a -= c; a ^= (c >> 38);
339 b -= c; b -= a; b ^= (a << 23);
340 c -= a; c -= b; c ^= (b >> 5);
341 a -= b; a -= c; a ^= (c >> 35);
342 b -= c; b -= a; b ^= (a << 49);
343 c -= a; c -= b; c ^= (b >> 11);
344 a -= b; a -= c; a ^= (c >> 12);
345 b -= c; b -= a; b ^= (a << 18);
346 c -= a; c -= b; c ^= (b >> 22);
347 #else
348 a -= b; a -= c; a ^= (c >> 13);
349 b -= c; b -= a; b ^= (a << 8);
350 c -= a; c -= b; c ^= (b >> 13);
351 a -= b; a -= c; a ^= (c >> 12);
352 b -= c; b -= a; b ^= (a << 16);
353 c -= a; c -= b; c ^= (b >> 5);
354 a -= b; a -= c; a ^= (c >> 3);
355 b -= c; b -= a; b ^= (a << 10);
356 c -= a; c -= b; c ^= (b >> 15);
357 #endif
358 return c;
359 #endif
360 }
361
362 static CFIndex __CFDictionaryFindBuckets1a(CFHashRef hc, any_t key) {
363 CFHashCode keyHash = (CFHashCode)key;
364 keyHash = __CFDictionaryScrambleHash(keyHash);
365 any_t *keys = hc->_keys;
366 any_t marker = hc->_marker;
367 CFIndex probe = keyHash & (hc->_bucketsNum - 1);
368 CFIndex probeskip = 1; // See RemoveValue() for notes before changing this value
369 CFIndex start = probe;
370 for (;;) {
371 any_t currKey = keys[probe];
372 if (marker == currKey) { /* empty */
373 return kCFNotFound;
374 } else if (~marker == currKey) { /* deleted */
375 /* do nothing */
376 } else if (currKey == key) {
377 return probe;
378 }
379 probe = probe + probeskip;
380 // This alternative to probe % buckets assumes that
381 // probeskip is always positive and less than the
382 // number of buckets.
383 if (hc->_bucketsNum <= probe) {
384 probe -= hc->_bucketsNum;
385 }
386 if (start == probe) {
387 return kCFNotFound;
388 }
389 }
390 }
391
392 static CFIndex __CFDictionaryFindBuckets1b(CFHashRef hc, any_t key) {
393 const CFDictionaryKeyCallBacks *cb = __CFDictionaryGetKeyCallBacks(hc);
394 CFHashCode keyHash = cb->hash ? (CFHashCode)INVOKE_CALLBACK2(((CFHashCode (*)(any_t, any_pointer_t))cb->hash), key, hc->_context) : (CFHashCode)key;
395 keyHash = __CFDictionaryScrambleHash(keyHash);
396 any_t *keys = hc->_keys;
397 any_t marker = hc->_marker;
398 CFIndex probe = keyHash & (hc->_bucketsNum - 1);
399 CFIndex probeskip = 1; // See RemoveValue() for notes before changing this value
400 CFIndex start = probe;
401 for (;;) {
402 any_t currKey = keys[probe];
403 if (marker == currKey) { /* empty */
404 return kCFNotFound;
405 } else if (~marker == currKey) { /* deleted */
406 /* do nothing */
407 } else if (currKey == key || (cb->equal && INVOKE_CALLBACK3((Boolean (*)(any_t, any_t, any_pointer_t))cb->equal, currKey, key, hc->_context))) {
408 return probe;
409 }
410 probe = probe + probeskip;
411 // This alternative to probe % buckets assumes that
412 // probeskip is always positive and less than the
413 // number of buckets.
414 if (hc->_bucketsNum <= probe) {
415 probe -= hc->_bucketsNum;
416 }
417 if (start == probe) {
418 return kCFNotFound;
419 }
420 }
421 }
422
423 CF_INLINE CFIndex __CFDictionaryFindBuckets1(CFHashRef hc, any_t key) {
424 if (__kCFHashHasNullCallBacks == __CFBitfieldGetValue(hc->_xflags, 3, 2)) {
425 return __CFDictionaryFindBuckets1a(hc, key);
426 }
427 return __CFDictionaryFindBuckets1b(hc, key);
428 }
429
430 static void __CFDictionaryFindBuckets2(CFHashRef hc, any_t key, CFIndex *match, CFIndex *nomatch) {
431 const CFDictionaryKeyCallBacks *cb = __CFDictionaryGetKeyCallBacks(hc);
432 CFHashCode keyHash = cb->hash ? (CFHashCode)INVOKE_CALLBACK2(((CFHashCode (*)(any_t, any_pointer_t))cb->hash), key, hc->_context) : (CFHashCode)key;
433 keyHash = __CFDictionaryScrambleHash(keyHash);
434 any_t *keys = hc->_keys;
435 any_t marker = hc->_marker;
436 CFIndex probe = keyHash & (hc->_bucketsNum - 1);
437 CFIndex probeskip = 1; // See RemoveValue() for notes before changing this value
438 CFIndex start = probe;
439 *match = kCFNotFound;
440 *nomatch = kCFNotFound;
441 for (;;) {
442 any_t currKey = keys[probe];
443 if (marker == currKey) { /* empty */
444 if (nomatch) *nomatch = probe;
445 return;
446 } else if (~marker == currKey) { /* deleted */
447 if (nomatch) {
448 *nomatch = probe;
449 nomatch = NULL;
450 }
451 } else if (currKey == key || (cb->equal && INVOKE_CALLBACK3((Boolean (*)(any_t, any_t, any_pointer_t))cb->equal, currKey, key, hc->_context))) {
452 *match = probe;
453 return;
454 }
455 probe = probe + probeskip;
456 // This alternative to probe % buckets assumes that
457 // probeskip is always positive and less than the
458 // number of buckets.
459 if (hc->_bucketsNum <= probe) {
460 probe -= hc->_bucketsNum;
461 }
462 if (start == probe) {
463 return;
464 }
465 }
466 }
467
468 static void __CFDictionaryFindNewMarker(CFHashRef hc) {
469 any_t *keys = hc->_keys;
470 any_t newMarker;
471 CFIndex idx, nbuckets;
472 Boolean hit;
473
474 nbuckets = hc->_bucketsNum;
475 newMarker = hc->_marker;
476 do {
477 newMarker--;
478 hit = false;
479 for (idx = 0; idx < nbuckets; idx++) {
480 if (newMarker == keys[idx] || ~newMarker == keys[idx]) {
481 hit = true;
482 break;
483 }
484 }
485 } while (hit);
486 for (idx = 0; idx < nbuckets; idx++) {
487 if (hc->_marker == keys[idx]) {
488 keys[idx] = newMarker;
489 } else if (~hc->_marker == keys[idx]) {
490 keys[idx] = ~newMarker;
491 }
492 }
493 ((struct __CFDictionary *)hc)->_marker = newMarker;
494 }
495
496 static Boolean __CFDictionaryEqual(CFTypeRef cf1, CFTypeRef cf2) {
497 CFHashRef hc1 = (CFHashRef)cf1;
498 CFHashRef hc2 = (CFHashRef)cf2;
499 const CFDictionaryKeyCallBacks *cb1, *cb2;
500 const CFDictionaryValueCallBacks *vcb1, *vcb2;
501 any_t *keys;
502 CFIndex idx, nbuckets;
503 if (hc1 == hc2) return true;
504 if (hc1->_count != hc2->_count) return false;
505 cb1 = __CFDictionaryGetKeyCallBacks(hc1);
506 cb2 = __CFDictionaryGetKeyCallBacks(hc2);
507 if (cb1->equal != cb2->equal) return false;
508 vcb1 = __CFDictionaryGetValueCallBacks(hc1);
509 vcb2 = __CFDictionaryGetValueCallBacks(hc2);
510 if (vcb1->equal != vcb2->equal) return false;
511 if (0 == hc1->_bucketsUsed) return true; /* after function comparison! */
512 keys = hc1->_keys;
513 nbuckets = hc1->_bucketsNum;
514 for (idx = 0; idx < nbuckets; idx++) {
515 if (hc1->_marker != keys[idx] && ~hc1->_marker != keys[idx]) {
516 #if CFDictionary
517 const_any_pointer_t value;
518 if (!CFDictionaryGetValueIfPresent(hc2, (any_pointer_t)keys[idx], &value)) return false;
519 if (hc1->_values[idx] != (any_t)value) {
520 if (NULL == vcb1->equal) return false;
521 if (!INVOKE_CALLBACK3((Boolean (*)(any_t, any_t, any_pointer_t))vcb1->equal, hc1->_values[idx], (any_t)value, hc1->_context)) return false;
522 }
523 #endif
524 #if CFSet
525 const_any_pointer_t value;
526 if (!CFDictionaryGetValueIfPresent(hc2, (any_pointer_t)keys[idx], &value)) return false;
527 #endif
528 #if CFBag
529 if (hc1->_values[idx] != CFDictionaryGetCountOfValue(hc2, (any_pointer_t)keys[idx])) return false;
530 #endif
531 }
532 }
533 return true;
534 }
535
536 static CFHashCode __CFDictionaryHash(CFTypeRef cf) {
537 CFHashRef hc = (CFHashRef)cf;
538 return hc->_count;
539 }
540
541 static CFStringRef __CFDictionaryCopyDescription(CFTypeRef cf) {
542 CFHashRef hc = (CFHashRef)cf;
543 CFAllocatorRef allocator;
544 const CFDictionaryKeyCallBacks *cb;
545 const CFDictionaryValueCallBacks *vcb;
546 any_t *keys;
547 CFIndex idx, nbuckets;
548 CFMutableStringRef result;
549 cb = __CFDictionaryGetKeyCallBacks(hc);
550 vcb = __CFDictionaryGetValueCallBacks(hc);
551 keys = hc->_keys;
552 nbuckets = hc->_bucketsNum;
553 allocator = CFGetAllocator(hc);
554 result = CFStringCreateMutable(allocator, 0);
555 const char *type = "?";
556 switch (__CFHashGetType(hc)) {
557 case __kCFHashImmutable: type = "immutable"; break;
558 case __kCFHashMutable: type = "mutable"; break;
559 }
560 CFStringAppendFormat(result, NULL, CFSTR("<CFDictionary %p [%p]>{type = %s, count = %u, capacity = %u, pairs = (\n"), cf, allocator, type, hc->_count, hc->_bucketsCap);
561 for (idx = 0; idx < nbuckets; idx++) {
562 if (__CFHashKeyIsValue(hc, keys[idx])) {
563 CFStringRef kDesc = NULL, vDesc = NULL;
564 if (NULL != cb->copyDescription) {
565 kDesc = (CFStringRef)INVOKE_CALLBACK2(((CFStringRef (*)(any_t, any_pointer_t))cb->copyDescription), keys[idx], hc->_context);
566 }
567 if (NULL != vcb->copyDescription) {
568 vDesc = (CFStringRef)INVOKE_CALLBACK2(((CFStringRef (*)(any_t, any_pointer_t))vcb->copyDescription), hc->_values[idx], hc->_context);
569 }
570 #if CFDictionary
571 if (NULL != kDesc && NULL != vDesc) {
572 CFStringAppendFormat(result, NULL, CFSTR("\t%u : %@ = %@\n"), idx, kDesc, vDesc);
573 CFRelease(kDesc);
574 CFRelease(vDesc);
575 } else if (NULL != kDesc) {
576 CFStringAppendFormat(result, NULL, CFSTR("\t%u : %@ = <%p>\n"), idx, kDesc, hc->_values[idx]);
577 CFRelease(kDesc);
578 } else if (NULL != vDesc) {
579 CFStringAppendFormat(result, NULL, CFSTR("\t%u : <%p> = %@\n"), idx, keys[idx], vDesc);
580 CFRelease(vDesc);
581 } else {
582 CFStringAppendFormat(result, NULL, CFSTR("\t%u : <%p> = <%p>\n"), idx, keys[idx], hc->_values[idx]);
583 }
584 #endif
585 #if CFSet
586 if (NULL != kDesc) {
587 CFStringAppendFormat(result, NULL, CFSTR("\t%u : %@\n"), idx, kDesc);
588 CFRelease(kDesc);
589 } else {
590 CFStringAppendFormat(result, NULL, CFSTR("\t%u : <%p>\n"), idx, keys[idx]);
591 }
592 #endif
593 #if CFBag
594 if (NULL != kDesc) {
595 CFStringAppendFormat(result, NULL, CFSTR("\t%u : %@ (%ld)\n"), idx, kDesc, hc->_values[idx]);
596 CFRelease(kDesc);
597 } else {
598 CFStringAppendFormat(result, NULL, CFSTR("\t%u : <%p> (%ld)\n"), idx, keys[idx], hc->_values[idx]);
599 }
600 #endif
601 }
602 }
603 CFStringAppend(result, CFSTR(")}"));
604 return result;
605 }
606
607 static void __CFDictionaryDeallocate(CFTypeRef cf) {
608 CFMutableHashRef hc = (CFMutableHashRef)cf;
609 CFAllocatorRef allocator = __CFGetAllocator(hc);
610 const CFDictionaryKeyCallBacks *cb = __CFDictionaryGetKeyCallBacks(hc);
611 const CFDictionaryValueCallBacks *vcb = __CFDictionaryGetValueCallBacks(hc);
612
613 // mark now in case any callout somehow tries to add an entry back in
614 markFinalized(cf);
615 if (vcb->release || cb->release) {
616 any_t *keys = hc->_keys;
617 CFIndex idx, nbuckets = hc->_bucketsNum;
618 for (idx = 0; idx < nbuckets; idx++) {
619 any_t oldkey = keys[idx];
620 if (hc->_marker != oldkey && ~hc->_marker != oldkey) {
621 if (vcb->release) {
622 INVOKE_CALLBACK3(((void (*)(CFAllocatorRef, any_t, any_pointer_t))vcb->release), allocator, hc->_values[idx], hc->_context);
623 }
624 if (cb->release) {
625 INVOKE_CALLBACK3(((void (*)(CFAllocatorRef, any_t, any_pointer_t))cb->release), allocator, oldkey, hc->_context);
626 }
627 }
628 }
629 }
630
631 if (CF_IS_COLLECTABLE_ALLOCATOR(allocator)) {
632 // return early so that contents are preserved after finalization
633 return;
634 }
635
636 _CFAllocatorDeallocateGC(allocator, hc->_keys);
637 #if CFDictionary || CFBag
638 _CFAllocatorDeallocateGC(allocator, hc->_values);
639 #endif
640 hc->_keys = NULL;
641 hc->_values = NULL;
642 hc->_count = 0; // GC: also zero count, so the hc will appear empty.
643 hc->_bucketsUsed = 0;
644 hc->_bucketsNum = 0;
645 }
646
647 static CFTypeID __kCFDictionaryTypeID = _kCFRuntimeNotATypeID;
648
649 static const CFRuntimeClass __CFDictionaryClass = {
650 _kCFRuntimeScannedObject,
651 "CFDictionary",
652 NULL, // init
653 NULL, // copy
654 __CFDictionaryDeallocate,
655 __CFDictionaryEqual,
656 __CFDictionaryHash,
657 NULL, //
658 __CFDictionaryCopyDescription
659 };
660
661 __private_extern__ void __CFDictionaryInitialize(void) {
662 __kCFHashTypeID = _CFRuntimeRegisterClass(&__CFDictionaryClass);
663 }
664
665 CFTypeID CFDictionaryGetTypeID(void) {
666 return __kCFHashTypeID;
667 }
668
669 static CFMutableHashRef __CFDictionaryInit(CFAllocatorRef allocator, CFOptionFlags flags, CFIndex capacity, const CFDictionaryKeyCallBacks *keyCallBacks
670 #if CFDictionary
671 , const CFDictionaryValueCallBacks *valueCallBacks
672 #endif
673 ) {
674 struct __CFDictionary *hc;
675 CFIndex size;
676 __CFBitfieldSetValue(flags, 31, 2, 0);
677 CFOptionFlags xflags = 0;
678 if (CF_IS_COLLECTABLE_ALLOCATOR(allocator)) {
679 // preserve NULL for key or value CB, otherwise fix up.
680 if (!keyCallBacks || (keyCallBacks->retain == NULL && keyCallBacks->release == NULL)) {
681 xflags = __kCFHashWeakKeys;
682 }
683 #if CFDictionary
684 if (!valueCallBacks || (valueCallBacks->retain == NULL && valueCallBacks->release == NULL)) {
685 xflags |= __kCFHashWeakValues;
686 }
687 #endif
688 #if CFBag
689 xflags |= __kCFHashWeakValues;
690 #endif
691 }
692 if (__CFDictionaryKeyCallBacksMatchNull(keyCallBacks)) {
693 __CFBitfieldSetValue(flags, 3, 2, __kCFHashHasNullCallBacks);
694 } else if (__CFDictionaryKeyCallBacksMatchCFType(keyCallBacks)) {
695 __CFBitfieldSetValue(flags, 3, 2, __kCFHashHasCFTypeCallBacks);
696 } else {
697 __CFBitfieldSetValue(flags, 3, 2, __kCFHashHasCustomCallBacks);
698 }
699 #if CFDictionary
700 if (__CFDictionaryValueCallBacksMatchNull(valueCallBacks)) {
701 __CFBitfieldSetValue(flags, 5, 4, __kCFHashHasNullCallBacks);
702 } else if (__CFDictionaryValueCallBacksMatchCFType(valueCallBacks)) {
703 __CFBitfieldSetValue(flags, 5, 4, __kCFHashHasCFTypeCallBacks);
704 } else {
705 __CFBitfieldSetValue(flags, 5, 4, __kCFHashHasCustomCallBacks);
706 }
707 #endif
708 size = __CFDictionaryGetSizeOfType(flags) - sizeof(CFRuntimeBase);
709 hc = (struct __CFDictionary *)_CFRuntimeCreateInstance(allocator, __kCFHashTypeID, size, NULL);
710 if (NULL == hc) {
711 return NULL;
712 }
713 hc->_count = 0;
714 hc->_bucketsUsed = 0;
715 hc->_marker = (any_t)0xa1b1c1d3;
716 hc->_context = NULL;
717 hc->_deletes = 0;
718 hc->_mutations = 1;
719 hc->_xflags = xflags | flags;
720 switch (__CFBitfieldGetValue(flags, 1, 0)) {
721 case __kCFHashImmutable:
722 if (__CFOASafe) __CFSetLastAllocationEventName(hc, "CFDictionary (immutable)");
723 break;
724 case __kCFHashMutable:
725 if (__CFOASafe) __CFSetLastAllocationEventName(hc, "CFDictionary (mutable-variable)");
726 break;
727 }
728 hc->_bucketsCap = __CFHashRoundUpCapacity(1);
729 hc->_bucketsNum = 0;
730 hc->_keys = NULL;
731 hc->_values = NULL;
732 if (__kCFHashHasCustomCallBacks == __CFBitfieldGetValue(flags, 3, 2)) {
733 CFDictionaryKeyCallBacks *cb = (CFDictionaryKeyCallBacks *)__CFDictionaryGetKeyCallBacks((CFHashRef)hc);
734 *cb = *keyCallBacks;
735 FAULT_CALLBACK((void **)&(cb->retain));
736 FAULT_CALLBACK((void **)&(cb->release));
737 FAULT_CALLBACK((void **)&(cb->copyDescription));
738 FAULT_CALLBACK((void **)&(cb->equal));
739 FAULT_CALLBACK((void **)&(cb->hash));
740 }
741 #if CFDictionary
742 if (__kCFHashHasCustomCallBacks == __CFBitfieldGetValue(flags, 5, 4)) {
743 CFDictionaryValueCallBacks *vcb = (CFDictionaryValueCallBacks *)__CFDictionaryGetValueCallBacks((CFHashRef)hc);
744 *vcb = *valueCallBacks;
745 FAULT_CALLBACK((void **)&(vcb->retain));
746 FAULT_CALLBACK((void **)&(vcb->release));
747 FAULT_CALLBACK((void **)&(vcb->copyDescription));
748 FAULT_CALLBACK((void **)&(vcb->equal));
749 }
750 #endif
751 return hc;
752 }
753
754 #if CFDictionary
755 CFHashRef CFDictionaryCreate(CFAllocatorRef allocator, const_any_pointer_t *keys, const_any_pointer_t *values, CFIndex numValues, const CFDictionaryKeyCallBacks *keyCallBacks, const CFDictionaryValueCallBacks *valueCallBacks) {
756 #endif
757 #if CFSet || CFBag
758 CFHashRef CFDictionaryCreate(CFAllocatorRef allocator, const_any_pointer_t *keys, CFIndex numValues, const CFDictionaryKeyCallBacks *keyCallBacks) {
759 #endif
760 CFAssert2(0 <= numValues, __kCFLogAssertion, "%s(): numValues (%ld) cannot be less than zero", __PRETTY_FUNCTION__, numValues);
761 #if CFDictionary
762 CFMutableHashRef hc = __CFDictionaryInit(allocator, __kCFHashImmutable, numValues, keyCallBacks, valueCallBacks);
763 #endif
764 #if CFSet || CFBag
765 CFMutableHashRef hc = __CFDictionaryInit(allocator, __kCFHashImmutable, numValues, keyCallBacks);
766 #endif
767 __CFBitfieldSetValue(hc->_xflags, 1, 0, __kCFHashMutable);
768 for (CFIndex idx = 0; idx < numValues; idx++) {
769 #if CFDictionary
770 CFDictionaryAddValue(hc, keys[idx], values[idx]);
771 #endif
772 #if CFSet || CFBag
773 CFDictionaryAddValue(hc, keys[idx]);
774 #endif
775 }
776 __CFBitfieldSetValue(hc->_xflags, 1, 0, __kCFHashImmutable);
777 return (CFHashRef)hc;
778 }
779
780 #if CFDictionary
781 CFMutableHashRef CFDictionaryCreateMutable(CFAllocatorRef allocator, CFIndex capacity, const CFDictionaryKeyCallBacks *keyCallBacks, const CFDictionaryValueCallBacks *valueCallBacks) {
782 #endif
783 #if CFSet || CFBag
784 CFMutableHashRef CFDictionaryCreateMutable(CFAllocatorRef allocator, CFIndex capacity, const CFDictionaryKeyCallBacks *keyCallBacks) {
785 #endif
786 CFAssert2(0 <= capacity, __kCFLogAssertion, "%s(): capacity (%ld) cannot be less than zero", __PRETTY_FUNCTION__, capacity);
787 #if CFDictionary
788 CFMutableHashRef hc = __CFDictionaryInit(allocator, __kCFHashMutable, capacity, keyCallBacks, valueCallBacks);
789 #endif
790 #if CFSet || CFBag
791 CFMutableHashRef hc = __CFDictionaryInit(allocator, __kCFHashMutable, capacity, keyCallBacks);
792 #endif
793 return hc;
794 }
795
796 #if CFDictionary || CFSet
797 // does not have Add semantics for Bag; it has Set semantics ... is that best?
798 static void __CFDictionaryGrow(CFMutableHashRef hc, CFIndex numNewValues);
799
800 // This creates a hc which is for CFTypes or NSObjects, with a CFRetain style ownership transfer;
801 // the hc does not take a retain (since it claims 1), and the caller does not need to release the inserted objects (since we do it).
802 // The incoming objects must also be collectable if allocated out of a collectable allocator - and are neither released nor retained.
803 #if CFDictionary
804 CFHashRef _CFDictionaryCreate_ex(CFAllocatorRef allocator, Boolean isMutable, const_any_pointer_t *keys, const_any_pointer_t *values, CFIndex numValues) {
805 #endif
806 #if CFSet || CFBag
807 CFHashRef _CFDictionaryCreate_ex(CFAllocatorRef allocator, Boolean isMutable, const_any_pointer_t *keys, CFIndex numValues) {
808 #endif
809 CFAssert2(0 <= numValues, __kCFLogAssertion, "%s(): numValues (%ld) cannot be less than zero", __PRETTY_FUNCTION__, numValues);
810 #if CFDictionary
811 CFMutableHashRef hc = __CFDictionaryInit(allocator, __kCFHashMutable, numValues, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks);
812 #endif
813 #if CFSet || CFBag
814 CFMutableHashRef hc = __CFDictionaryInit(allocator, __kCFHashMutable, numValues, &kCFTypeDictionaryKeyCallBacks);
815 #endif
816 __CFDictionaryGrow(hc, numValues);
817 for (CFIndex idx = 0; idx < numValues; idx++) {
818 CFIndex match, nomatch;
819 __CFDictionaryFindBuckets2(hc, (any_t)keys[idx], &match, &nomatch);
820 if (kCFNotFound == match) {
821 CFAllocatorRef allocator = __CFGetAllocator(hc);
822 any_t newKey = (any_t)keys[idx];
823 if (__CFHashKeyIsMagic(hc, newKey)) {
824 __CFDictionaryFindNewMarker(hc);
825 }
826 if (hc->_keys[nomatch] == ~hc->_marker) {
827 hc->_deletes--;
828 }
829 CFAllocatorRef keysAllocator = (hc->_xflags & __kCFHashWeakKeys) ? kCFAllocatorNull : allocator;
830 CF_WRITE_BARRIER_ASSIGN(keysAllocator, hc->_keys[nomatch], newKey);
831 #if CFDictionary
832 any_t newValue = (any_t)values[idx];
833 CFAllocatorRef valuesAllocator = (hc->_xflags & __kCFHashWeakValues) ? kCFAllocatorNull : allocator;
834 CF_WRITE_BARRIER_ASSIGN(valuesAllocator, hc->_values[nomatch], newValue);
835 #endif
836 #if CFBag
837 hc->_values[nomatch] = 1;
838 #endif
839 hc->_bucketsUsed++;
840 hc->_count++;
841 } else {
842 CFAllocatorRef allocator = __CFGetAllocator(hc);
843 #if CFSet || CFBag
844 any_t oldKey = hc->_keys[match];
845 any_t newKey = (any_t)keys[idx];
846 CFAllocatorRef keysAllocator = (hc->_xflags & __kCFHashWeakKeys) ? kCFAllocatorNull : allocator;
847 CF_WRITE_BARRIER_ASSIGN(keysAllocator, hc->_keys[match], ~hc->_marker);
848 if (__CFHashKeyIsMagic(hc, newKey)) {
849 __CFDictionaryFindNewMarker(hc);
850 }
851 CF_WRITE_BARRIER_ASSIGN(keysAllocator, hc->_keys[match], newKey);
852 RELEASEKEY(oldKey);
853 #endif
854 #if CFDictionary
855 any_t oldValue = hc->_values[match];
856 any_t newValue = (any_t)values[idx];
857 CFAllocatorRef valuesAllocator = (hc->_xflags & __kCFHashWeakValues) ? kCFAllocatorNull : allocator;
858 CF_WRITE_BARRIER_ASSIGN(valuesAllocator, hc->_values[match], newValue);
859 RELEASEVALUE(oldValue);
860 #endif
861 }
862 }
863 if (!isMutable) __CFBitfieldSetValue(hc->_xflags, 1, 0, __kCFHashImmutable);
864 return (CFHashRef)hc;
865 }
866 #endif
867
868 CFHashRef CFDictionaryCreateCopy(CFAllocatorRef allocator, CFHashRef other) {
869 CFMutableHashRef hc = CFDictionaryCreateMutableCopy(allocator, CFDictionaryGetCount(other), other);
870 __CFBitfieldSetValue(hc->_xflags, 1, 0, __kCFHashImmutable);
871 if (__CFOASafe) __CFSetLastAllocationEventName(hc, "CFDictionary (immutable)");
872 return hc;
873 }
874
875 CFMutableHashRef CFDictionaryCreateMutableCopy(CFAllocatorRef allocator, CFIndex capacity, CFHashRef other) {
876 CFIndex numValues = CFDictionaryGetCount(other);
877 const_any_pointer_t *list, buffer[256];
878 list = (numValues <= 256) ? buffer : (const_any_pointer_t *)CFAllocatorAllocate(allocator, numValues * sizeof(const_any_pointer_t), 0);
879 if (list != buffer && __CFOASafe) __CFSetLastAllocationEventName(list, "CFDictionary (temp)");
880 #if CFDictionary
881 const_any_pointer_t *vlist, vbuffer[256];
882 vlist = (numValues <= 256) ? vbuffer : (const_any_pointer_t *)CFAllocatorAllocate(allocator, numValues * sizeof(const_any_pointer_t), 0);
883 if (vlist != vbuffer && __CFOASafe) __CFSetLastAllocationEventName(vlist, "CFDictionary (temp)");
884 #endif
885 #if CFSet || CFBag
886 CFDictionaryGetValues(other, list);
887 #endif
888 #if CFDictionary
889 CFDictionaryGetKeysAndValues(other, list, vlist);
890 #endif
891 const CFDictionaryKeyCallBacks *kcb;
892 const CFDictionaryValueCallBacks *vcb;
893 if (CF_IS_OBJC(__kCFHashTypeID, other)) {
894 kcb = &kCFTypeDictionaryKeyCallBacks;
895 vcb = &kCFTypeDictionaryValueCallBacks;
896 } else {
897 kcb = __CFDictionaryGetKeyCallBacks(other);
898 vcb = __CFDictionaryGetValueCallBacks(other);
899 }
900 #if CFDictionary
901 CFMutableHashRef hc = __CFDictionaryInit(allocator, __kCFHashMutable, capacity, kcb, vcb);
902 #endif
903 #if CFSet || CFBag
904 CFMutableHashRef hc = __CFDictionaryInit(allocator, __kCFHashMutable, capacity, kcb);
905 #endif
906 if (0 == capacity) _CFDictionarySetCapacity(hc, numValues);
907 for (CFIndex idx = 0; idx < numValues; idx++) {
908 #if CFDictionary
909 CFDictionaryAddValue(hc, list[idx], vlist[idx]);
910 #endif
911 #if CFSet || CFBag
912 CFDictionaryAddValue(hc, list[idx]);
913 #endif
914 }
915 if (list != buffer) CFAllocatorDeallocate(allocator, list);
916 #if CFDictionary
917 if (vlist != vbuffer) CFAllocatorDeallocate(allocator, vlist);
918 #endif
919 return hc;
920 }
921
922 // Used by NSHashTables/NSMapTables and KVO
923 void _CFDictionarySetContext(CFHashRef hc, any_pointer_t context) {
924 __CFGenericValidateType(hc, __kCFHashTypeID);
925 CF_WRITE_BARRIER_BASE_ASSIGN(__CFGetAllocator(hc), hc, hc->_context, context);
926 }
927
928 any_pointer_t _CFDictionaryGetContext(CFHashRef hc) {
929 __CFGenericValidateType(hc, __kCFHashTypeID);
930 return hc->_context;
931 }
932
933 CFIndex CFDictionaryGetCount(CFHashRef hc) {
934 if (CFDictionary || CFSet) CF_OBJC_FUNCDISPATCH0(__kCFHashTypeID, CFIndex, hc, "count");
935 __CFGenericValidateType(hc, __kCFHashTypeID);
936 return hc->_count;
937 }
938
939 #if CFDictionary
940 CFIndex CFDictionaryGetCountOfKey(CFHashRef hc, const_any_pointer_t key) {
941 #endif
942 #if CFSet || CFBag
943 CFIndex CFDictionaryGetCountOfValue(CFHashRef hc, const_any_pointer_t key) {
944 #endif
945 if (CFDictionary) CF_OBJC_FUNCDISPATCH1(__kCFHashTypeID, CFIndex, hc, "countForKey:", key);
946 if (CFSet) CF_OBJC_FUNCDISPATCH1(__kCFHashTypeID, CFIndex, hc, "countForObject:", key);
947 __CFGenericValidateType(hc, __kCFHashTypeID);
948 if (0 == hc->_bucketsUsed) return 0;
949 CFIndex match = __CFDictionaryFindBuckets1(hc, (any_t)key);
950 return (kCFNotFound != match ? __CFHashGetOccurrenceCount(hc, match) : 0);
951 }
952
953 #if CFDictionary
954 Boolean CFDictionaryContainsKey(CFHashRef hc, const_any_pointer_t key) {
955 #endif
956 #if CFSet || CFBag
957 Boolean CFDictionaryContainsValue(CFHashRef hc, const_any_pointer_t key) {
958 #endif
959 if (CFDictionary) CF_OBJC_FUNCDISPATCH1(__kCFHashTypeID, char, hc, "containsKey:", key);
960 if (CFSet) CF_OBJC_FUNCDISPATCH1(__kCFHashTypeID, char, hc, "containsObject:", key);
961 __CFGenericValidateType(hc, __kCFHashTypeID);
962 if (0 == hc->_bucketsUsed) return false;
963 CFIndex match = __CFDictionaryFindBuckets1(hc, (any_t)key);
964 return (kCFNotFound != match ? true : false);
965 }
966
967 #if CFDictionary
968 CFIndex CFDictionaryGetCountOfValue(CFHashRef hc, const_any_pointer_t value) {
969 CF_OBJC_FUNCDISPATCH1(__kCFHashTypeID, CFIndex, hc, "countForObject:", value);
970 __CFGenericValidateType(hc, __kCFHashTypeID);
971 if (0 == hc->_bucketsUsed) return 0;
972 any_t *keys = hc->_keys;
973 Boolean (*equal)(any_t, any_t, any_pointer_t) = (Boolean (*)(any_t, any_t, any_pointer_t))__CFDictionaryGetValueCallBacks(hc)->equal;
974 CFIndex cnt = 0;
975 for (CFIndex idx = 0, nbuckets = hc->_bucketsNum; idx < nbuckets; idx++) {
976 if (__CFHashKeyIsValue(hc, keys[idx])) {
977 if ((hc->_values[idx] == (any_t)value) || (equal && INVOKE_CALLBACK3(equal, hc->_values[idx], (any_t)value, hc->_context))) {
978 cnt++;
979 }
980 }
981 }
982 return cnt;
983 }
984
985 Boolean CFDictionaryContainsValue(CFHashRef hc, const_any_pointer_t value) {
986 CF_OBJC_FUNCDISPATCH1(__kCFHashTypeID, char, hc, "containsObject:", value);
987 __CFGenericValidateType(hc, __kCFHashTypeID);
988 if (0 == hc->_bucketsUsed) return false;
989 any_t *keys = hc->_keys;
990 Boolean (*equal)(any_t, any_t, any_pointer_t) = (Boolean (*)(any_t, any_t, any_pointer_t))__CFDictionaryGetValueCallBacks(hc)->equal;
991 for (CFIndex idx = 0, nbuckets = hc->_bucketsNum; idx < nbuckets; idx++) {
992 if (__CFHashKeyIsValue(hc, keys[idx])) {
993 if ((hc->_values[idx] == (any_t)value) || (equal && INVOKE_CALLBACK3(equal, hc->_values[idx], (any_t)value, hc->_context))) {
994 return true;
995 }
996 }
997 }
998 return false;
999 }
1000 #endif
1001
1002 const_any_pointer_t CFDictionaryGetValue(CFHashRef hc, const_any_pointer_t key) {
1003 if (CFDictionary) CF_OBJC_FUNCDISPATCH1(__kCFHashTypeID, const_any_pointer_t, hc, "objectForKey:", key);
1004 if (CFSet) CF_OBJC_FUNCDISPATCH1(__kCFHashTypeID, const_any_pointer_t, hc, "member:", key);
1005 __CFGenericValidateType(hc, __kCFHashTypeID);
1006 if (0 == hc->_bucketsUsed) return 0;
1007 CFIndex match = __CFDictionaryFindBuckets1(hc, (any_t)key);
1008 return (kCFNotFound != match ? (const_any_pointer_t)(CFDictionary ? hc->_values[match] : hc->_keys[match]) : 0);
1009 }
1010
1011 Boolean CFDictionaryGetValueIfPresent(CFHashRef hc, const_any_pointer_t key, const_any_pointer_t *value) {
1012 if (CFDictionary) CF_OBJC_FUNCDISPATCH2(__kCFHashTypeID, Boolean, hc, "_getValue:forKey:", (any_t *)value, key);
1013 if (CFSet) CF_OBJC_FUNCDISPATCH2(__kCFHashTypeID, Boolean, hc, "_getValue:forObj:", (any_t *)value, key);
1014 __CFGenericValidateType(hc, __kCFHashTypeID);
1015 if (0 == hc->_bucketsUsed) return false;
1016 CFIndex match = __CFDictionaryFindBuckets1(hc, (any_t)key);
1017 return (kCFNotFound != match ? ((value ? __CFObjCStrongAssign((const_any_pointer_t)(CFDictionary ? hc->_values[match] : hc->_keys[match]), value) : 0), true) : false);
1018 }
1019
1020 #if CFDictionary
1021 Boolean CFDictionaryGetKeyIfPresent(CFHashRef hc, const_any_pointer_t key, const_any_pointer_t *actualkey) {
1022 CF_OBJC_FUNCDISPATCH2(__kCFHashTypeID, Boolean, hc, "getActualKey:forKey:", actualkey, key);
1023 __CFGenericValidateType(hc, __kCFHashTypeID);
1024 if (0 == hc->_bucketsUsed) return false;
1025 CFIndex match = __CFDictionaryFindBuckets1(hc, (any_t)key);
1026 return (kCFNotFound != match ? ((actualkey ? __CFObjCStrongAssign((const_any_pointer_t)hc->_keys[match], actualkey) : NULL), true) : false);
1027 }
1028 #endif
1029
1030 #if CFDictionary
1031 void CFDictionaryGetKeysAndValues(CFHashRef hc, const_any_pointer_t *keybuf, const_any_pointer_t *valuebuf) {
1032 #endif
1033 #if CFSet || CFBag
1034 void CFDictionaryGetValues(CFHashRef hc, const_any_pointer_t *keybuf) {
1035 const_any_pointer_t *valuebuf = 0;
1036 #endif
1037 if (CFDictionary) CF_OBJC_FUNCDISPATCH2(__kCFHashTypeID, void, hc, "getObjects:andKeys:", (any_t *)valuebuf, (any_t *)keybuf);
1038 if (CFSet) CF_OBJC_FUNCDISPATCH1(__kCFHashTypeID, void, hc, "getObjects:", (any_t *)keybuf);
1039 __CFGenericValidateType(hc, __kCFHashTypeID);
1040 if (CF_USING_COLLECTABLE_MEMORY) {
1041 // GC: speculatively issue a write-barrier on the copied to buffers
1042 __CFObjCWriteBarrierRange(keybuf, hc->_count * sizeof(any_t));
1043 __CFObjCWriteBarrierRange(valuebuf, hc->_count * sizeof(any_t));
1044 }
1045 any_t *keys = hc->_keys;
1046 for (CFIndex idx = 0, nbuckets = hc->_bucketsNum; idx < nbuckets; idx++) {
1047 if (__CFHashKeyIsValue(hc, keys[idx])) {
1048 for (CFIndex cnt = __CFHashGetOccurrenceCount(hc, idx); cnt--;) {
1049 if (keybuf) *keybuf++ = (const_any_pointer_t)keys[idx];
1050 if (valuebuf) *valuebuf++ = (const_any_pointer_t)hc->_values[idx];
1051 }
1052 }
1053 }
1054 }
1055
1056 #if CFDictionary || CFSet
1057 unsigned long _CFDictionaryFastEnumeration(CFHashRef hc, struct __objcFastEnumerationStateEquivalent *state, void *stackbuffer, unsigned long count) {
1058 /* copy as many as count items over */
1059 if (0 == state->state) { /* first time */
1060 state->mutationsPtr = (unsigned long *)&hc->_mutations;
1061 }
1062 state->itemsPtr = (unsigned long *)stackbuffer;
1063 CFIndex cnt = 0;
1064 any_t *keys = hc->_keys;
1065 for (CFIndex idx = (CFIndex)state->state, nbuckets = hc->_bucketsNum; idx < nbuckets && cnt < (CFIndex)count; idx++) {
1066 if (__CFHashKeyIsValue(hc, keys[idx])) {
1067 state->itemsPtr[cnt++] = (unsigned long)keys[idx];
1068 }
1069 state->state++;
1070 }
1071 return cnt;
1072 }
1073 #endif
1074
1075 void CFDictionaryApplyFunction(CFHashRef hc, CFDictionaryApplierFunction applier, any_pointer_t context) {
1076 FAULT_CALLBACK((void **)&(applier));
1077 if (CFDictionary) CF_OBJC_FUNCDISPATCH2(__kCFHashTypeID, void, hc, "_apply:context:", applier, context);
1078 if (CFSet) CF_OBJC_FUNCDISPATCH2(__kCFHashTypeID, void, hc, "_applyValues:context:", applier, context);
1079 __CFGenericValidateType(hc, __kCFHashTypeID);
1080 any_t *keys = hc->_keys;
1081 for (CFIndex idx = 0, nbuckets = hc->_bucketsNum; idx < nbuckets; idx++) {
1082 if (__CFHashKeyIsValue(hc, keys[idx])) {
1083 for (CFIndex cnt = __CFHashGetOccurrenceCount(hc, idx); cnt--;) {
1084 #if CFDictionary
1085 INVOKE_CALLBACK3(applier, (const_any_pointer_t)keys[idx], (const_any_pointer_t)hc->_values[idx], context);
1086 #endif
1087 #if CFSet || CFBag
1088 INVOKE_CALLBACK2(applier, (const_any_pointer_t)keys[idx], context);
1089 #endif
1090 }
1091 }
1092 }
1093 }
1094
1095 static void __CFDictionaryGrow(CFMutableHashRef hc, CFIndex numNewValues) {
1096 any_t *oldkeys = hc->_keys;
1097 any_t *oldvalues = hc->_values;
1098 CFIndex nbuckets = hc->_bucketsNum;
1099 hc->_bucketsCap = __CFHashRoundUpCapacity(hc->_bucketsUsed + numNewValues);
1100 hc->_bucketsNum = __CFHashNumBucketsForCapacity(hc->_bucketsCap);
1101 hc->_deletes = 0;
1102 CFAllocatorRef allocator = __CFGetAllocator(hc);
1103 CFOptionFlags weakOrStrong = (hc->_xflags & __kCFHashWeakKeys) ? 0 : __kCFAllocatorGCScannedMemory;
1104 any_t *mem = (any_t *)_CFAllocatorAllocateGC(allocator, hc->_bucketsNum * sizeof(any_t), weakOrStrong);
1105 if (NULL == mem) __CFDictionaryHandleOutOfMemory(hc, hc->_bucketsNum * sizeof(any_t));
1106 if (__CFOASafe) __CFSetLastAllocationEventName(mem, "CFDictionary (key-store)");
1107 CF_WRITE_BARRIER_BASE_ASSIGN(allocator, hc, hc->_keys, mem);
1108 CFAllocatorRef keysAllocator = (hc->_xflags & __kCFHashWeakKeys) ? kCFAllocatorNull : allocator; // GC: avoids write-barrier in weak case.
1109 any_t *keysBase = mem;
1110 #if CFDictionary || CFBag
1111 weakOrStrong = (hc->_xflags & __kCFHashWeakValues) ? 0 : __kCFAllocatorGCScannedMemory;
1112 mem = (any_t *)_CFAllocatorAllocateGC(allocator, hc->_bucketsNum * sizeof(any_t), weakOrStrong);
1113 if (NULL == mem) __CFDictionaryHandleOutOfMemory(hc, hc->_bucketsNum * sizeof(any_t));
1114 if (__CFOASafe) __CFSetLastAllocationEventName(mem, "CFDictionary (value-store)");
1115 CF_WRITE_BARRIER_BASE_ASSIGN(allocator, hc, hc->_values, mem);
1116 #endif
1117 #if CFDictionary
1118 CFAllocatorRef valuesAllocator = (hc->_xflags & __kCFHashWeakValues) ? kCFAllocatorNull : allocator; // GC: avoids write-barrier in weak case.
1119 any_t *valuesBase = mem;
1120 #endif
1121 for (CFIndex idx = 0, nbuckets = hc->_bucketsNum; idx < nbuckets; idx++) {
1122 hc->_keys[idx] = hc->_marker;
1123 #if CFDictionary || CFBag
1124 hc->_values[idx] = 0;
1125 #endif
1126 }
1127 if (NULL == oldkeys) return;
1128 for (CFIndex idx = 0; idx < nbuckets; idx++) {
1129 if (__CFHashKeyIsValue(hc, oldkeys[idx])) {
1130 CFIndex match, nomatch;
1131 __CFDictionaryFindBuckets2(hc, oldkeys[idx], &match, &nomatch);
1132 CFAssert3(kCFNotFound == match, __kCFLogAssertion, "%s(): two values (%p, %p) now hash to the same slot; mutable value changed while in table or hash value is not immutable", __PRETTY_FUNCTION__, oldkeys[idx], hc->_keys[match]);
1133 if (kCFNotFound != nomatch) {
1134 CF_WRITE_BARRIER_BASE_ASSIGN(keysAllocator, keysBase, hc->_keys[nomatch], oldkeys[idx]);
1135 #if CFDictionary
1136 CF_WRITE_BARRIER_BASE_ASSIGN(valuesAllocator, valuesBase, hc->_values[nomatch], oldvalues[idx]);
1137 #endif
1138 #if CFBag
1139 hc->_values[nomatch] = oldvalues[idx];
1140 #endif
1141 }
1142 }
1143 }
1144 _CFAllocatorDeallocateGC(allocator, oldkeys);
1145 _CFAllocatorDeallocateGC(allocator, oldvalues);
1146 }
1147
1148 // This function is for Foundation's benefit; no one else should use it.
1149 void _CFDictionarySetCapacity(CFMutableHashRef hc, CFIndex cap) {
1150 if (CF_IS_OBJC(__kCFHashTypeID, hc)) return;
1151 __CFGenericValidateType(hc, __kCFHashTypeID);
1152 CFAssert1(__CFHashGetType(hc) != __kCFHashImmutable, __kCFLogAssertion, "%s(): collection is immutable", __PRETTY_FUNCTION__);
1153 CFAssert3(hc->_bucketsUsed <= cap, __kCFLogAssertion, "%s(): desired capacity (%ld) is less than bucket count (%ld)", __PRETTY_FUNCTION__, cap, hc->_bucketsUsed);
1154 __CFDictionaryGrow(hc, cap - hc->_bucketsUsed);
1155 }
1156
1157
1158 #if CFDictionary
1159 void CFDictionaryAddValue(CFMutableHashRef hc, const_any_pointer_t key, const_any_pointer_t value) {
1160 #endif
1161 #if CFSet || CFBag
1162 void CFDictionaryAddValue(CFMutableHashRef hc, const_any_pointer_t key) {
1163 #define value 0
1164 #endif
1165 if (CFDictionary) CF_OBJC_FUNCDISPATCH2(__kCFHashTypeID, void, hc, "_addObject:forKey:", value, key);
1166 if (CFSet) CF_OBJC_FUNCDISPATCH1(__kCFHashTypeID, void, hc, "addObject:", key);
1167 __CFGenericValidateType(hc, __kCFHashTypeID);
1168 switch (__CFHashGetType(hc)) {
1169 case __kCFHashMutable:
1170 if (hc->_bucketsUsed == hc->_bucketsCap || NULL == hc->_keys) {
1171 __CFDictionaryGrow(hc, 1);
1172 }
1173 break;
1174 default:
1175 CFAssert2(__CFHashGetType(hc) != __kCFHashImmutable, __kCFLogAssertion, "%s(): immutable collection %p passed to mutating operation", __PRETTY_FUNCTION__, hc);
1176 break;
1177 }
1178 hc->_mutations++;
1179 CFIndex match, nomatch;
1180 __CFDictionaryFindBuckets2(hc, (any_t)key, &match, &nomatch);
1181 if (kCFNotFound != match) {
1182 #if CFBag
1183 CF_OBJC_KVO_WILLCHANGE(hc, hc->_keys[match]);
1184 hc->_values[match]++;
1185 hc->_count++;
1186 CF_OBJC_KVO_DIDCHANGE(hc, hc->_keys[match]);
1187 #endif
1188 } else {
1189 CFAllocatorRef allocator = __CFGetAllocator(hc);
1190 GETNEWKEY(newKey, key);
1191 #if CFDictionary
1192 GETNEWVALUE(newValue);
1193 #endif
1194 if (__CFHashKeyIsMagic(hc, newKey)) {
1195 __CFDictionaryFindNewMarker(hc);
1196 }
1197 if (hc->_keys[nomatch] == ~hc->_marker) {
1198 hc->_deletes--;
1199 }
1200 CF_OBJC_KVO_WILLCHANGE(hc, key);
1201 CFAllocatorRef keysAllocator = (hc->_xflags & __kCFHashWeakKeys) ? kCFAllocatorNull : allocator;
1202 CF_WRITE_BARRIER_ASSIGN(keysAllocator, hc->_keys[nomatch], newKey);
1203 #if CFDictionary
1204 CFAllocatorRef valuesAllocator = (hc->_xflags & __kCFHashWeakValues) ? kCFAllocatorNull : allocator;
1205 CF_WRITE_BARRIER_ASSIGN(valuesAllocator, hc->_values[nomatch], newValue);
1206 #endif
1207 #if CFBag
1208 hc->_values[nomatch] = 1;
1209 #endif
1210 hc->_bucketsUsed++;
1211 hc->_count++;
1212 CF_OBJC_KVO_DIDCHANGE(hc, key);
1213 }
1214 }
1215
1216 #if CFDictionary
1217 void CFDictionaryReplaceValue(CFMutableHashRef hc, const_any_pointer_t key, const_any_pointer_t value) {
1218 #endif
1219 #if CFSet || CFBag
1220 void CFDictionaryReplaceValue(CFMutableHashRef hc, const_any_pointer_t key) {
1221 #define value 0
1222 #endif
1223 if (CFDictionary) CF_OBJC_FUNCDISPATCH2(__kCFHashTypeID, void, hc, "_replaceObject:forKey:", value, key);
1224 if (CFSet) CF_OBJC_FUNCDISPATCH1(__kCFHashTypeID, void, hc, "_replaceObject:", key);
1225 __CFGenericValidateType(hc, __kCFHashTypeID);
1226 switch (__CFHashGetType(hc)) {
1227 case __kCFHashMutable:
1228 break;
1229 default:
1230 CFAssert2(__CFHashGetType(hc) != __kCFHashImmutable, __kCFLogAssertion, "%s(): immutable collection %p passed to mutating operation", __PRETTY_FUNCTION__, hc);
1231 break;
1232 }
1233 hc->_mutations++;
1234 if (0 == hc->_bucketsUsed) return;
1235 CFIndex match = __CFDictionaryFindBuckets1(hc, (any_t)key);
1236 if (kCFNotFound == match) return;
1237 CFAllocatorRef allocator = __CFGetAllocator(hc);
1238 #if CFSet || CFBag
1239 GETNEWKEY(newKey, key);
1240 #endif
1241 #if CFDictionary
1242 GETNEWVALUE(newValue);
1243 #endif
1244 any_t oldKey = hc->_keys[match];
1245 CF_OBJC_KVO_WILLCHANGE(hc, oldKey);
1246 #if CFSet || CFBag
1247 CFAllocatorRef keysAllocator = (hc->_xflags & __kCFHashWeakKeys) ? kCFAllocatorNull : allocator;
1248 CF_WRITE_BARRIER_ASSIGN(keysAllocator, hc->_keys[match], ~hc->_marker);
1249 if (__CFHashKeyIsMagic(hc, newKey)) {
1250 __CFDictionaryFindNewMarker(hc);
1251 }
1252 CF_WRITE_BARRIER_ASSIGN(keysAllocator, hc->_keys[match], newKey);
1253 #endif
1254 #if CFDictionary
1255 any_t oldValue = hc->_values[match];
1256 CFAllocatorRef valuesAllocator = (hc->_xflags & __kCFHashWeakValues) ? kCFAllocatorNull : allocator;
1257 CF_WRITE_BARRIER_ASSIGN(valuesAllocator, hc->_values[match], newValue);
1258 #endif
1259 CF_OBJC_KVO_DIDCHANGE(hc, oldKey);
1260 #if CFSet || CFBag
1261 RELEASEKEY(oldKey);
1262 #endif
1263 #if CFDictionary
1264 RELEASEVALUE(oldValue);
1265 #endif
1266 }
1267
1268 #if CFDictionary
1269 void CFDictionarySetValue(CFMutableHashRef hc, const_any_pointer_t key, const_any_pointer_t value) {
1270 #endif
1271 #if CFSet || CFBag
1272 void CFDictionarySetValue(CFMutableHashRef hc, const_any_pointer_t key) {
1273 #define value 0
1274 #endif
1275 if (CFDictionary) CF_OBJC_FUNCDISPATCH2(__kCFHashTypeID, void, hc, "setObject:forKey:", value, key);
1276 if (CFSet) CF_OBJC_FUNCDISPATCH1(__kCFHashTypeID, void, hc, "_setObject:", key);
1277 __CFGenericValidateType(hc, __kCFHashTypeID);
1278 switch (__CFHashGetType(hc)) {
1279 case __kCFHashMutable:
1280 if (hc->_bucketsUsed == hc->_bucketsCap || NULL == hc->_keys) {
1281 __CFDictionaryGrow(hc, 1);
1282 }
1283 break;
1284 default:
1285 CFAssert2(__CFHashGetType(hc) != __kCFHashImmutable, __kCFLogAssertion, "%s(): immutable collection %p passed to mutating operation", __PRETTY_FUNCTION__, hc);
1286 break;
1287 }
1288 hc->_mutations++;
1289 CFIndex match, nomatch;
1290 __CFDictionaryFindBuckets2(hc, (any_t)key, &match, &nomatch);
1291 if (kCFNotFound == match) {
1292 CFAllocatorRef allocator = __CFGetAllocator(hc);
1293 GETNEWKEY(newKey, key);
1294 #if CFDictionary
1295 GETNEWVALUE(newValue);
1296 #endif
1297 if (__CFHashKeyIsMagic(hc, newKey)) {
1298 __CFDictionaryFindNewMarker(hc);
1299 }
1300 if (hc->_keys[nomatch] == ~hc->_marker) {
1301 hc->_deletes--;
1302 }
1303 CF_OBJC_KVO_WILLCHANGE(hc, key);
1304 CFAllocatorRef keysAllocator = (hc->_xflags & __kCFHashWeakKeys) ? kCFAllocatorNull : allocator;
1305 CF_WRITE_BARRIER_ASSIGN(keysAllocator, hc->_keys[nomatch], newKey);
1306 #if CFDictionary
1307 CFAllocatorRef valuesAllocator = (hc->_xflags & __kCFHashWeakValues) ? kCFAllocatorNull : allocator;
1308 CF_WRITE_BARRIER_ASSIGN(valuesAllocator, hc->_values[nomatch], newValue);
1309 #endif
1310 #if CFBag
1311 hc->_values[nomatch] = 1;
1312 #endif
1313 hc->_bucketsUsed++;
1314 hc->_count++;
1315 CF_OBJC_KVO_DIDCHANGE(hc, key);
1316 } else {
1317 CFAllocatorRef allocator = __CFGetAllocator(hc);
1318 #if CFSet || CFBag
1319 GETNEWKEY(newKey, key);
1320 #endif
1321 #if CFDictionary
1322 GETNEWVALUE(newValue);
1323 #endif
1324 any_t oldKey = hc->_keys[match];
1325 CF_OBJC_KVO_WILLCHANGE(hc, oldKey);
1326 #if CFSet || CFBag
1327 CFAllocatorRef keysAllocator = (hc->_xflags & __kCFHashWeakKeys) ? kCFAllocatorNull : allocator;
1328 CF_WRITE_BARRIER_ASSIGN(keysAllocator, hc->_keys[match], ~hc->_marker);
1329 if (__CFHashKeyIsMagic(hc, newKey)) {
1330 __CFDictionaryFindNewMarker(hc);
1331 }
1332 CF_WRITE_BARRIER_ASSIGN(keysAllocator, hc->_keys[match], newKey);
1333 #endif
1334 #if CFDictionary
1335 any_t oldValue = hc->_values[match];
1336 CFAllocatorRef valuesAllocator = (hc->_xflags & __kCFHashWeakValues) ? kCFAllocatorNull : allocator;
1337 CF_WRITE_BARRIER_ASSIGN(valuesAllocator, hc->_values[match], newValue);
1338 #endif
1339 CF_OBJC_KVO_DIDCHANGE(hc, oldKey);
1340 #if CFSet || CFBag
1341 RELEASEKEY(oldKey);
1342 #endif
1343 #if CFDictionary
1344 RELEASEVALUE(oldValue);
1345 #endif
1346 }
1347 }
1348
1349 void CFDictionaryRemoveValue(CFMutableHashRef hc, const_any_pointer_t key) {
1350 if (CFDictionary) CF_OBJC_FUNCDISPATCH1(__kCFHashTypeID, void, hc, "removeObjectForKey:", key);
1351 if (CFSet) CF_OBJC_FUNCDISPATCH1(__kCFHashTypeID, void, hc, "removeObject:", key);
1352 __CFGenericValidateType(hc, __kCFHashTypeID);
1353 switch (__CFHashGetType(hc)) {
1354 case __kCFHashMutable:
1355 break;
1356 default:
1357 CFAssert2(__CFHashGetType(hc) != __kCFHashImmutable, __kCFLogAssertion, "%s(): immutable collection %p passed to mutating operation", __PRETTY_FUNCTION__, hc);
1358 break;
1359 }
1360 hc->_mutations++;
1361 if (0 == hc->_bucketsUsed) return;
1362 CFIndex match = __CFDictionaryFindBuckets1(hc, (any_t)key);
1363 if (kCFNotFound == match) return;
1364 if (1 < __CFHashGetOccurrenceCount(hc, match)) {
1365 #if CFBag
1366 CF_OBJC_KVO_WILLCHANGE(hc, hc->_keys[match]);
1367 hc->_values[match]--;
1368 hc->_count--;
1369 CF_OBJC_KVO_DIDCHANGE(hc, hc->_keys[match]);
1370 #endif
1371 } else {
1372 CFAllocatorRef allocator = __CFGetAllocator(hc);
1373 any_t oldKey = hc->_keys[match];
1374 CF_OBJC_KVO_WILLCHANGE(hc, oldKey);
1375 CFAllocatorRef keysAllocator = (hc->_xflags & __kCFHashWeakKeys) ? kCFAllocatorNull : allocator;
1376 CF_WRITE_BARRIER_ASSIGN(keysAllocator, hc->_keys[match], ~hc->_marker);
1377 #if CFDictionary
1378 any_t oldValue = hc->_values[match];
1379 CFAllocatorRef valuesAllocator = (hc->_xflags & __kCFHashWeakValues) ? kCFAllocatorNull : allocator;
1380 CF_WRITE_BARRIER_ASSIGN(valuesAllocator, hc->_values[match], 0);
1381 #endif
1382 #if CFBag
1383 hc->_values[match] = 0;
1384 #endif
1385 hc->_count--;
1386 hc->_bucketsUsed--;
1387 hc->_deletes++;
1388 CF_OBJC_KVO_DIDCHANGE(hc, oldKey);
1389 RELEASEKEY(oldKey);
1390 #if CFDictionary
1391 RELEASEVALUE(oldValue);
1392 #endif
1393 if (__CFDictionaryShouldShrink(hc)) {
1394 __CFDictionaryGrow(hc, 0);
1395 } else {
1396 // When the probeskip == 1 always and only, a DELETED slot followed by an EMPTY slot
1397 // can be converted to an EMPTY slot. By extension, a chain of DELETED slots followed
1398 // by an EMPTY slot can be converted to EMPTY slots, which is what we do here.
1399 if (match < hc->_bucketsNum - 1 && hc->_keys[match + 1] == hc->_marker) {
1400 while (0 <= match && hc->_keys[match] == ~hc->_marker) {
1401 hc->_keys[match] = hc->_marker;
1402 hc->_deletes--;
1403 match--;
1404 }
1405 }
1406 }
1407 }
1408 }
1409
1410 void CFDictionaryRemoveAllValues(CFMutableHashRef hc) {
1411 if (CFDictionary) CF_OBJC_FUNCDISPATCH0(__kCFHashTypeID, void, hc, "removeAllObjects");
1412 if (CFSet) CF_OBJC_FUNCDISPATCH0(__kCFHashTypeID, void, hc, "removeAllObjects");
1413 __CFGenericValidateType(hc, __kCFHashTypeID);
1414 switch (__CFHashGetType(hc)) {
1415 case __kCFHashMutable:
1416 break;
1417 default:
1418 CFAssert2(__CFHashGetType(hc) != __kCFHashImmutable, __kCFLogAssertion, "%s(): immutable collection %p passed to mutating operation", __PRETTY_FUNCTION__, hc);
1419 break;
1420 }
1421 hc->_mutations++;
1422 if (0 == hc->_bucketsUsed) return;
1423 CFAllocatorRef allocator = __CFGetAllocator(hc);
1424 any_t *keys = hc->_keys;
1425 for (CFIndex idx = 0, nbuckets = hc->_bucketsNum; idx < nbuckets; idx++) {
1426 if (__CFHashKeyIsValue(hc, keys[idx])) {
1427 any_t oldKey = keys[idx];
1428 CF_OBJC_KVO_WILLCHANGE(hc, oldKey);
1429 #if CFDictionary || CFSet
1430 hc->_count--;
1431 #endif
1432 #if CFBag
1433 hc->_count -= hc->_values[idx];
1434 #endif
1435 CFAllocatorRef keysAllocator = (hc->_xflags & __kCFHashWeakKeys) ? kCFAllocatorNull : allocator;
1436 CF_WRITE_BARRIER_ASSIGN(keysAllocator, hc->_keys[idx], ~hc->_marker);
1437 #if CFDictionary
1438 any_t oldValue = hc->_values[idx];
1439 CFAllocatorRef valuesAllocator = (hc->_xflags & __kCFHashWeakValues) ? kCFAllocatorNull : allocator;
1440 CF_WRITE_BARRIER_ASSIGN(valuesAllocator, hc->_values[idx], 0);
1441 #endif
1442 #if CFBag
1443 hc->_values[idx] = 0;
1444 #endif
1445 hc->_bucketsUsed--;
1446 hc->_deletes++;
1447 CF_OBJC_KVO_DIDCHANGE(hc, oldKey);
1448 RELEASEKEY(oldKey);
1449 #if CFDictionary
1450 RELEASEVALUE(oldValue);
1451 #endif
1452 }
1453 }
1454 for (CFIndex idx = 0, nbuckets = hc->_bucketsNum; idx < nbuckets; idx++) {
1455 keys[idx] = hc->_marker;
1456 }
1457 hc->_deletes = 0;
1458 hc->_bucketsUsed = 0;
1459 hc->_count = 0;
1460 if (__CFDictionaryShouldShrink(hc) && (256 <= hc->_bucketsCap)) {
1461 __CFDictionaryGrow(hc, 128);
1462 }
1463 }
1464
1465 #undef CF_OBJC_KVO_WILLCHANGE
1466 #undef CF_OBJC_KVO_DIDCHANGE
1467