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CFDictionary.c
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CFDictionary.c
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/*
* Copyright (c) 2015 Apple Inc. All rights reserved.
*
* @APPLE_LICENSE_HEADER_START@
*
* This file contains Original Code and/or Modifications of Original Code
* as defined in and that are subject to the Apple Public Source License
* Version 2.0 (the 'License'). You may not use this file except in
* compliance with the License. Please obtain a copy of the License at
* http://www.opensource.apple.com/apsl/ and read it before using this
* file.
*
* The Original Code and all software distributed under the License are
* distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
* EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
* INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
* Please see the License for the specific language governing rights and
* limitations under the License.
*
* @APPLE_LICENSE_HEADER_END@
*/
/* CFDictionary.c
Copyright (c) 1998-2014, Apple Inc. All rights reserved.
Responsibility: Christopher Kane
Machine generated from Notes/HashingCode.template
*/
#include <CoreFoundation/CFDictionary.h>
#include "CFInternal.h"
#include "CFBasicHash.h"
#include <CoreFoundation/CFString.h>
#define CFDictionary 0
#define CFSet 0
#define CFBag 0
#undef CFDictionary
#define CFDictionary 1
#if CFDictionary
const CFDictionaryKeyCallBacks kCFTypeDictionaryKeyCallBacks = {0, __CFTypeCollectionRetain, __CFTypeCollectionRelease, CFCopyDescription, CFEqual, CFHash};
const CFDictionaryKeyCallBacks kCFCopyStringDictionaryKeyCallBacks = {0, __CFStringCollectionCopy, __CFTypeCollectionRelease, CFCopyDescription, CFEqual, CFHash};
const CFDictionaryValueCallBacks kCFTypeDictionaryValueCallBacks = {0, __CFTypeCollectionRetain, __CFTypeCollectionRelease, CFCopyDescription, CFEqual};
#define CFHashRef CFDictionaryRef
#define CFMutableHashRef CFMutableDictionaryRef
#define CFHashKeyCallBacks CFDictionaryKeyCallBacks
#define CFHashValueCallBacks CFDictionaryValueCallBacks
#endif
#if CFSet
const CFDictionaryCallBacks kCFTypeDictionaryCallBacks = {0, __CFTypeCollectionRetain, __CFTypeCollectionRelease, CFCopyDescription, CFEqual, CFHash};
const CFDictionaryCallBacks kCFCopyStringDictionaryCallBacks = {0, __CFStringCollectionCopy, __CFTypeCollectionRelease, CFCopyDescription, CFEqual, CFHash};
#define CFDictionaryKeyCallBacks CFDictionaryCallBacks
#define CFDictionaryValueCallBacks CFDictionaryCallBacks
#define kCFTypeDictionaryKeyCallBacks kCFTypeDictionaryCallBacks
#define kCFTypeDictionaryValueCallBacks kCFTypeDictionaryCallBacks
#define CFHashRef CFSetRef
#define CFMutableHashRef CFMutableSetRef
#define CFHashKeyCallBacks CFDictionaryCallBacks
#define CFHashValueCallBacks CFDictionaryCallBacks
#endif
#if CFBag
const CFDictionaryCallBacks kCFTypeDictionaryCallBacks = {0, __CFTypeCollectionRetain, __CFTypeCollectionRelease, CFCopyDescription, CFEqual, CFHash};
const CFDictionaryCallBacks kCFCopyStringDictionaryCallBacks = {0, __CFStringCollectionCopy, __CFTypeCollectionRelease, CFCopyDescription, CFEqual, CFHash};
#define CFDictionaryKeyCallBacks CFDictionaryCallBacks
#define CFDictionaryValueCallBacks CFDictionaryCallBacks
#define kCFTypeDictionaryKeyCallBacks kCFTypeDictionaryCallBacks
#define kCFTypeDictionaryValueCallBacks kCFTypeDictionaryCallBacks
#define CFHashRef CFBagRef
#define CFMutableHashRef CFMutableBagRef
#define CFHashKeyCallBacks CFDictionaryCallBacks
#define CFHashValueCallBacks CFDictionaryCallBacks
#endif
typedef uintptr_t any_t;
typedef const void * const_any_pointer_t;
typedef void * any_pointer_t;
static Boolean __CFDictionaryEqual(CFTypeRef cf1, CFTypeRef cf2) {
return __CFBasicHashEqual((CFBasicHashRef)cf1, (CFBasicHashRef)cf2);
}
static CFHashCode __CFDictionaryHash(CFTypeRef cf) {
return __CFBasicHashHash((CFBasicHashRef)cf);
}
static CFStringRef __CFDictionaryCopyDescription(CFTypeRef cf) {
return __CFBasicHashCopyDescription((CFBasicHashRef)cf);
}
static void __CFDictionaryDeallocate(CFTypeRef cf) {
__CFBasicHashDeallocate((CFBasicHashRef)cf);
}
static CFTypeID __kCFDictionaryTypeID = _kCFRuntimeNotATypeID;
static const CFRuntimeClass __CFDictionaryClass = {
_kCFRuntimeScannedObject,
"CFDictionary",
NULL, // init
NULL, // copy
__CFDictionaryDeallocate,
__CFDictionaryEqual,
__CFDictionaryHash,
NULL, //
__CFDictionaryCopyDescription
};
CFTypeID CFDictionaryGetTypeID(void) {
static dispatch_once_t initOnce;
dispatch_once(&initOnce, ^{ __kCFDictionaryTypeID = _CFRuntimeRegisterClass(&__CFDictionaryClass); });
return __kCFDictionaryTypeID;
}
static CFBasicHashRef __CFDictionaryCreateGeneric(CFAllocatorRef allocator, const CFHashKeyCallBacks *keyCallBacks, const CFHashValueCallBacks *valueCallBacks, Boolean useValueCB) {
CFOptionFlags flags = kCFBasicHashLinearHashing; // kCFBasicHashExponentialHashing
flags |= (CFDictionary ? kCFBasicHashHasKeys : 0) | (CFBag ? kCFBasicHashHasCounts : 0);
if (CF_IS_COLLECTABLE_ALLOCATOR(allocator)) { // all this crap is just for figuring out two flags for GC in the way done historically; it probably simplifies down to three lines, but we let the compiler worry about that
Boolean set_cb = false;
Boolean std_cb = false;
const_any_pointer_t (*key_retain)(CFAllocatorRef, const_any_pointer_t) = NULL;
void (*key_release)(CFAllocatorRef, const_any_pointer_t) = NULL;
const_any_pointer_t (*value_retain)(CFAllocatorRef, const_any_pointer_t) = NULL;
void (*value_release)(CFAllocatorRef, const_any_pointer_t) = NULL;
if ((NULL == keyCallBacks || 0 == keyCallBacks->version) && (!useValueCB || NULL == valueCallBacks || 0 == valueCallBacks->version)) {
Boolean keyRetainNull = NULL == keyCallBacks || NULL == keyCallBacks->retain;
Boolean keyReleaseNull = NULL == keyCallBacks || NULL == keyCallBacks->release;
Boolean keyEquateNull = NULL == keyCallBacks || NULL == keyCallBacks->equal;
Boolean keyHashNull = NULL == keyCallBacks || NULL == keyCallBacks->hash;
Boolean keyDescribeNull = NULL == keyCallBacks || NULL == keyCallBacks->copyDescription;
Boolean valueRetainNull = (useValueCB && (NULL == valueCallBacks || NULL == valueCallBacks->retain)) || (!useValueCB && keyRetainNull);
Boolean valueReleaseNull = (useValueCB && (NULL == valueCallBacks || NULL == valueCallBacks->release)) || (!useValueCB && keyReleaseNull);
Boolean valueEquateNull = (useValueCB && (NULL == valueCallBacks || NULL == valueCallBacks->equal)) || (!useValueCB && keyEquateNull);
Boolean valueDescribeNull = (useValueCB && (NULL == valueCallBacks || NULL == valueCallBacks->copyDescription)) || (!useValueCB && keyDescribeNull);
Boolean keyRetainStd = keyRetainNull || __CFTypeCollectionRetain == keyCallBacks->retain;
Boolean keyReleaseStd = keyReleaseNull || __CFTypeCollectionRelease == keyCallBacks->release;
Boolean keyEquateStd = keyEquateNull || CFEqual == keyCallBacks->equal;
Boolean keyHashStd = keyHashNull || CFHash == keyCallBacks->hash;
Boolean keyDescribeStd = keyDescribeNull || CFCopyDescription == keyCallBacks->copyDescription;
Boolean valueRetainStd = (useValueCB && (valueRetainNull || __CFTypeCollectionRetain == valueCallBacks->retain)) || (!useValueCB && keyRetainStd);
Boolean valueReleaseStd = (useValueCB && (valueReleaseNull || __CFTypeCollectionRelease == valueCallBacks->release)) || (!useValueCB && keyReleaseStd);
Boolean valueEquateStd = (useValueCB && (valueEquateNull || CFEqual == valueCallBacks->equal)) || (!useValueCB && keyEquateStd);
Boolean valueDescribeStd = (useValueCB && (valueDescribeNull || CFCopyDescription == valueCallBacks->copyDescription)) || (!useValueCB && keyDescribeStd);
if (keyRetainStd && keyReleaseStd && keyEquateStd && keyHashStd && keyDescribeStd && valueRetainStd && valueReleaseStd && valueEquateStd && valueDescribeStd) {
set_cb = true;
if (!(keyRetainNull || keyReleaseNull || keyEquateNull || keyHashNull || keyDescribeNull || valueRetainNull || valueReleaseNull || valueEquateNull || valueDescribeNull)) {
std_cb = true;
} else {
// just set these to tickle the GC Strong logic below in a way that mimics past practice
key_retain = keyCallBacks ? keyCallBacks->retain : NULL;
key_release = keyCallBacks ? keyCallBacks->release : NULL;
if (useValueCB) {
value_retain = valueCallBacks ? valueCallBacks->retain : NULL;
value_release = valueCallBacks ? valueCallBacks->release : NULL;
} else {
value_retain = key_retain;
value_release = key_release;
}
}
}
}
if (!set_cb) {
key_retain = keyCallBacks ? keyCallBacks->retain : NULL;
key_release = keyCallBacks ? keyCallBacks->release : NULL;
if (useValueCB) {
value_retain = valueCallBacks ? valueCallBacks->retain : NULL;
value_release = valueCallBacks ? valueCallBacks->release : NULL;
} else {
value_retain = key_retain;
value_release = key_release;
}
}
if (std_cb || value_retain != NULL || value_release != NULL) {
flags |= kCFBasicHashStrongValues;
}
if (std_cb || key_retain != NULL || key_release != NULL) {
flags |= kCFBasicHashStrongKeys;
}
}
CFBasicHashCallbacks callbacks;
callbacks.retainKey = keyCallBacks ? (uintptr_t (*)(CFAllocatorRef, uintptr_t))keyCallBacks->retain : NULL;
callbacks.releaseKey = keyCallBacks ? (void (*)(CFAllocatorRef, uintptr_t))keyCallBacks->release : NULL;
callbacks.equateKeys = keyCallBacks ? (Boolean (*)(uintptr_t, uintptr_t))keyCallBacks->equal : NULL;
callbacks.hashKey = keyCallBacks ? (CFHashCode (*)(uintptr_t))keyCallBacks->hash : NULL;
callbacks.getIndirectKey = NULL;
callbacks.copyKeyDescription = keyCallBacks ? (CFStringRef (*)(uintptr_t))keyCallBacks->copyDescription : NULL;
callbacks.retainValue = useValueCB ? (valueCallBacks ? (uintptr_t (*)(CFAllocatorRef, uintptr_t))valueCallBacks->retain : NULL) : (callbacks.retainKey);
callbacks.releaseValue = useValueCB ? (valueCallBacks ? (void (*)(CFAllocatorRef, uintptr_t))valueCallBacks->release : NULL) : (callbacks.releaseKey);
callbacks.equateValues = useValueCB ? (valueCallBacks ? (Boolean (*)(uintptr_t, uintptr_t))valueCallBacks->equal : NULL) : (callbacks.equateKeys);
callbacks.copyValueDescription = useValueCB ? (valueCallBacks ? (CFStringRef (*)(uintptr_t))valueCallBacks->copyDescription : NULL) : (callbacks.copyKeyDescription);
CFBasicHashRef ht = CFBasicHashCreate(allocator, flags, &callbacks);
return ht;
}
#if CFDictionary
CF_PRIVATE CFHashRef __CFDictionaryCreateTransfer(CFAllocatorRef allocator, const_any_pointer_t *klist, const_any_pointer_t *vlist, CFIndex numValues) {
#endif
#if CFSet || CFBag
CF_PRIVATE CFHashRef __CFDictionaryCreateTransfer(CFAllocatorRef allocator, const_any_pointer_t *klist, CFIndex numValues) {
const_any_pointer_t *vlist = klist;
#endif
CFTypeID typeID = CFDictionaryGetTypeID();
CFAssert2(0 <= numValues, __kCFLogAssertion, "%s(): numValues (%ld) cannot be less than zero", __PRETTY_FUNCTION__, numValues);
CFOptionFlags flags = kCFBasicHashLinearHashing; // kCFBasicHashExponentialHashing
flags |= (CFDictionary ? kCFBasicHashHasKeys : 0) | (CFBag ? kCFBasicHashHasCounts : 0);
CFBasicHashCallbacks callbacks;
callbacks.retainKey = (uintptr_t (*)(CFAllocatorRef, uintptr_t))kCFTypeDictionaryKeyCallBacks.retain;
callbacks.releaseKey = (void (*)(CFAllocatorRef, uintptr_t))kCFTypeDictionaryKeyCallBacks.release;
callbacks.equateKeys = (Boolean (*)(uintptr_t, uintptr_t))kCFTypeDictionaryKeyCallBacks.equal;
callbacks.hashKey = (CFHashCode (*)(uintptr_t))kCFTypeDictionaryKeyCallBacks.hash;
callbacks.getIndirectKey = NULL;
callbacks.copyKeyDescription = (CFStringRef (*)(uintptr_t))kCFTypeDictionaryKeyCallBacks.copyDescription;
callbacks.retainValue = CFDictionary ? (uintptr_t (*)(CFAllocatorRef, uintptr_t))kCFTypeDictionaryValueCallBacks.retain : callbacks.retainKey;
callbacks.releaseValue = CFDictionary ? (void (*)(CFAllocatorRef, uintptr_t))kCFTypeDictionaryValueCallBacks.release : callbacks.releaseKey;
callbacks.equateValues = CFDictionary ? (Boolean (*)(uintptr_t, uintptr_t))kCFTypeDictionaryValueCallBacks.equal : callbacks.equateKeys;
callbacks.copyValueDescription = CFDictionary ? (CFStringRef (*)(uintptr_t))kCFTypeDictionaryValueCallBacks.copyDescription : callbacks.copyKeyDescription;
CFBasicHashRef ht = CFBasicHashCreate(allocator, flags, &callbacks);
CFBasicHashSuppressRC(ht);
if (0 < numValues) CFBasicHashSetCapacity(ht, numValues);
for (CFIndex idx = 0; idx < numValues; idx++) {
CFBasicHashAddValue(ht, (uintptr_t)klist[idx], (uintptr_t)vlist[idx]);
}
CFBasicHashUnsuppressRC(ht);
CFBasicHashMakeImmutable(ht);
_CFRuntimeSetInstanceTypeIDAndIsa(ht, typeID);
if (__CFOASafe) __CFSetLastAllocationEventName(ht, "CFDictionary (immutable)");
return (CFHashRef)ht;
}
#if CFDictionary
CFHashRef CFDictionaryCreate(CFAllocatorRef allocator, const_any_pointer_t *klist, const_any_pointer_t *vlist, CFIndex numValues, const CFDictionaryKeyCallBacks *keyCallBacks, const CFDictionaryValueCallBacks *valueCallBacks) {
#endif
#if CFSet || CFBag
CFHashRef CFDictionaryCreate(CFAllocatorRef allocator, const_any_pointer_t *klist, CFIndex numValues, const CFDictionaryKeyCallBacks *keyCallBacks) {
const_any_pointer_t *vlist = klist;
const CFDictionaryValueCallBacks *valueCallBacks = 0;
#endif
CFTypeID typeID = CFDictionaryGetTypeID();
CFAssert2(0 <= numValues, __kCFLogAssertion, "%s(): numValues (%ld) cannot be less than zero", __PRETTY_FUNCTION__, numValues);
CFBasicHashRef ht = __CFDictionaryCreateGeneric(allocator, keyCallBacks, valueCallBacks, CFDictionary);
if (!ht) return NULL;
if (0 < numValues) CFBasicHashSetCapacity(ht, numValues);
for (CFIndex idx = 0; idx < numValues; idx++) {
CFBasicHashAddValue(ht, (uintptr_t)klist[idx], (uintptr_t)vlist[idx]);
}
CFBasicHashMakeImmutable(ht);
_CFRuntimeSetInstanceTypeIDAndIsa(ht, typeID);
if (__CFOASafe) __CFSetLastAllocationEventName(ht, "CFDictionary (immutable)");
return (CFHashRef)ht;
}
#if CFDictionary
CFMutableHashRef CFDictionaryCreateMutable(CFAllocatorRef allocator, CFIndex capacity, const CFDictionaryKeyCallBacks *keyCallBacks, const CFDictionaryValueCallBacks *valueCallBacks) {
#endif
#if CFSet || CFBag
CFMutableHashRef CFDictionaryCreateMutable(CFAllocatorRef allocator, CFIndex capacity, const CFDictionaryKeyCallBacks *keyCallBacks) {
const CFDictionaryValueCallBacks *valueCallBacks = 0;
#endif
CFTypeID typeID = CFDictionaryGetTypeID();
CFAssert2(0 <= capacity, __kCFLogAssertion, "%s(): capacity (%ld) cannot be less than zero", __PRETTY_FUNCTION__, capacity);
CFBasicHashRef ht = __CFDictionaryCreateGeneric(allocator, keyCallBacks, valueCallBacks, CFDictionary);
if (!ht) return NULL;
_CFRuntimeSetInstanceTypeIDAndIsa(ht, typeID);
if (__CFOASafe) __CFSetLastAllocationEventName(ht, "CFDictionary (mutable)");
return (CFMutableHashRef)ht;
}
CFHashRef CFDictionaryCreateCopy(CFAllocatorRef allocator, CFHashRef other) {
CFTypeID typeID = CFDictionaryGetTypeID();
CFAssert1(other, __kCFLogAssertion, "%s(): other CFDictionary cannot be NULL", __PRETTY_FUNCTION__);
__CFGenericValidateType(other, typeID);
CFBasicHashRef ht = NULL;
if (CF_IS_OBJC(typeID, other)) {
CFIndex numValues = CFDictionaryGetCount(other);
const_any_pointer_t vbuffer[256], kbuffer[256];
const_any_pointer_t *vlist = (numValues <= 256) ? vbuffer : (const_any_pointer_t *)CFAllocatorAllocate(kCFAllocatorSystemDefault, numValues * sizeof(const_any_pointer_t), 0);
#if CFSet || CFBag
const_any_pointer_t *klist = vlist;
CFDictionaryGetValues(other, vlist);
#endif
#if CFDictionary
const_any_pointer_t *klist = (numValues <= 256) ? kbuffer : (const_any_pointer_t *)CFAllocatorAllocate(kCFAllocatorSystemDefault, numValues * sizeof(const_any_pointer_t), 0);
CFDictionaryGetKeysAndValues(other, klist, vlist);
#endif
ht = __CFDictionaryCreateGeneric(allocator, & kCFTypeDictionaryKeyCallBacks, CFDictionary ? & kCFTypeDictionaryValueCallBacks : NULL, CFDictionary);
if (ht && 0 < numValues) CFBasicHashSetCapacity(ht, numValues);
for (CFIndex idx = 0; ht && idx < numValues; idx++) {
CFBasicHashAddValue(ht, (uintptr_t)klist[idx], (uintptr_t)vlist[idx]);
}
if (klist != kbuffer && klist != vlist) CFAllocatorDeallocate(kCFAllocatorSystemDefault, klist);
if (vlist != vbuffer) CFAllocatorDeallocate(kCFAllocatorSystemDefault, vlist);
} else {
ht = CFBasicHashCreateCopy(allocator, (CFBasicHashRef)other);
}
if (!ht) return NULL;
CFBasicHashMakeImmutable(ht);
_CFRuntimeSetInstanceTypeIDAndIsa(ht, typeID);
if (__CFOASafe) __CFSetLastAllocationEventName(ht, "CFDictionary (immutable)");
return (CFHashRef)ht;
}
CFMutableHashRef CFDictionaryCreateMutableCopy(CFAllocatorRef allocator, CFIndex capacity, CFHashRef other) {
CFTypeID typeID = CFDictionaryGetTypeID();
CFAssert1(other, __kCFLogAssertion, "%s(): other CFDictionary cannot be NULL", __PRETTY_FUNCTION__);
__CFGenericValidateType(other, typeID);
CFAssert2(0 <= capacity, __kCFLogAssertion, "%s(): capacity (%ld) cannot be less than zero", __PRETTY_FUNCTION__, capacity);
CFBasicHashRef ht = NULL;
if (CF_IS_OBJC(typeID, other)) {
CFIndex numValues = CFDictionaryGetCount(other);
const_any_pointer_t vbuffer[256], kbuffer[256];
const_any_pointer_t *vlist = (numValues <= 256) ? vbuffer : (const_any_pointer_t *)CFAllocatorAllocate(kCFAllocatorSystemDefault, numValues * sizeof(const_any_pointer_t), 0);
#if CFSet || CFBag
const_any_pointer_t *klist = vlist;
CFDictionaryGetValues(other, vlist);
#endif
#if CFDictionary
const_any_pointer_t *klist = (numValues <= 256) ? kbuffer : (const_any_pointer_t *)CFAllocatorAllocate(kCFAllocatorSystemDefault, numValues * sizeof(const_any_pointer_t), 0);
CFDictionaryGetKeysAndValues(other, klist, vlist);
#endif
ht = __CFDictionaryCreateGeneric(allocator, & kCFTypeDictionaryKeyCallBacks, CFDictionary ? & kCFTypeDictionaryValueCallBacks : NULL, CFDictionary);
if (ht && 0 < numValues) CFBasicHashSetCapacity(ht, numValues);
for (CFIndex idx = 0; ht && idx < numValues; idx++) {
CFBasicHashAddValue(ht, (uintptr_t)klist[idx], (uintptr_t)vlist[idx]);
}
if (klist != kbuffer && klist != vlist) CFAllocatorDeallocate(kCFAllocatorSystemDefault, klist);
if (vlist != vbuffer) CFAllocatorDeallocate(kCFAllocatorSystemDefault, vlist);
} else {
ht = CFBasicHashCreateCopy(allocator, (CFBasicHashRef)other);
}
if (!ht) return NULL;
_CFRuntimeSetInstanceTypeIDAndIsa(ht, typeID);
if (__CFOASafe) __CFSetLastAllocationEventName(ht, "CFDictionary (mutable)");
return (CFMutableHashRef)ht;
}
CFIndex CFDictionaryGetCount(CFHashRef hc) {
#if CFDictionary
if (CFDictionary) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), CFIndex, (NSDictionary *)hc, count);
#endif
#if CFSet
if (CFSet) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), CFIndex, (NSSet *)hc, count);
#endif
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
return CFBasicHashGetCount((CFBasicHashRef)hc);
}
#if CFDictionary
CFIndex CFDictionaryGetCountOfKey(CFHashRef hc, const_any_pointer_t key) {
#endif
#if CFSet || CFBag
CFIndex CFDictionaryGetCountOfValue(CFHashRef hc, const_any_pointer_t key) {
#endif
#if CFDictionary
if (CFDictionary) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), CFIndex, (NSDictionary *)hc, countForKey:(id)key);
#endif
#if CFSet
if (CFSet) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), CFIndex, (NSSet *)hc, countForObject:(id)key);
#endif
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
return CFBasicHashGetCountOfKey((CFBasicHashRef)hc, (uintptr_t)key);
}
#if CFDictionary
Boolean CFDictionaryContainsKey(CFHashRef hc, const_any_pointer_t key) {
#endif
#if CFSet || CFBag
Boolean CFDictionaryContainsValue(CFHashRef hc, const_any_pointer_t key) {
#endif
#if CFDictionary
if (CFDictionary) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), char, (NSDictionary *)hc, containsKey:(id)key);
#endif
#if CFSet
if (CFSet) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), char, (NSSet *)hc, containsObject:(id)key);
#endif
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
return (0 < CFBasicHashGetCountOfKey((CFBasicHashRef)hc, (uintptr_t)key));
}
const_any_pointer_t CFDictionaryGetValue(CFHashRef hc, const_any_pointer_t key) {
#if CFDictionary
if (CFDictionary) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), const_any_pointer_t, (NSDictionary *)hc, objectForKey:(id)key);
#endif
#if CFSet
if (CFSet) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), const_any_pointer_t, (NSSet *)hc, member:(id)key);
#endif
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
CFBasicHashBucket bkt = CFBasicHashFindBucket((CFBasicHashRef)hc, (uintptr_t)key);
return (0 < bkt.count ? (const_any_pointer_t)bkt.weak_value : 0);
}
Boolean CFDictionaryGetValueIfPresent(CFHashRef hc, const_any_pointer_t key, const_any_pointer_t *value) {
#if CFDictionary
if (CFDictionary) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), Boolean, (NSDictionary *)hc, __getValue:(id *)value forKey:(id)key);
#endif
#if CFSet
if (CFSet) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), Boolean, (NSSet *)hc, __getValue:(id *)value forObj:(id)key);
#endif
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
CFBasicHashBucket bkt = CFBasicHashFindBucket((CFBasicHashRef)hc, (uintptr_t)key);
if (0 < bkt.count) {
if (value) {
if (kCFUseCollectableAllocator && (CFBasicHashGetFlags((CFBasicHashRef)hc) & kCFBasicHashStrongValues)) {
__CFAssignWithWriteBarrier((void **)value, (void *)bkt.weak_value);
} else {
*value = (const_any_pointer_t)bkt.weak_value;
}
}
return true;
}
return false;
}
#if CFDictionary
CFIndex CFDictionaryGetCountOfValue(CFHashRef hc, const_any_pointer_t value) {
CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), CFIndex, (NSDictionary *)hc, countForObject:(id)value);
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
return CFBasicHashGetCountOfValue((CFBasicHashRef)hc, (uintptr_t)value);
}
Boolean CFDictionaryContainsValue(CFHashRef hc, const_any_pointer_t value) {
CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), char, (NSDictionary *)hc, containsObject:(id)value);
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
return (0 < CFBasicHashGetCountOfValue((CFBasicHashRef)hc, (uintptr_t)value));
}
CF_EXPORT Boolean CFDictionaryGetKeyIfPresent(CFHashRef hc, const_any_pointer_t key, const_any_pointer_t *actualkey) {
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
CFBasicHashBucket bkt = CFBasicHashFindBucket((CFBasicHashRef)hc, (uintptr_t)key);
if (0 < bkt.count) {
if (actualkey) {
if (kCFUseCollectableAllocator && (CFBasicHashGetFlags((CFBasicHashRef)hc) & kCFBasicHashStrongKeys)) {
__CFAssignWithWriteBarrier((void **)actualkey, (void *)bkt.weak_key);
} else {
*actualkey = (const_any_pointer_t)bkt.weak_key;
}
}
return true;
}
return false;
}
#endif
#if CFDictionary
void CFDictionaryGetKeysAndValues(CFHashRef hc, const_any_pointer_t *keybuf, const_any_pointer_t *valuebuf) {
#endif
#if CFSet || CFBag
void CFDictionaryGetValues(CFHashRef hc, const_any_pointer_t *keybuf) {
const_any_pointer_t *valuebuf = 0;
#endif
#if CFDictionary
if (CFDictionary) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), void, (NSDictionary *)hc, getObjects:(id *)valuebuf andKeys:(id *)keybuf);
#endif
#if CFSet
if (CFSet) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), void, (NSSet *)hc, getObjects:(id *)keybuf);
#endif
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
if (kCFUseCollectableAllocator) {
CFOptionFlags flags = CFBasicHashGetFlags((CFBasicHashRef)hc);
__block const_any_pointer_t *keys = keybuf;
__block const_any_pointer_t *values = valuebuf;
CFBasicHashApply((CFBasicHashRef)hc, ^(CFBasicHashBucket bkt) {
for (CFIndex cnt = bkt.count; cnt--;) {
if (keybuf && (flags & kCFBasicHashStrongKeys)) { __CFAssignWithWriteBarrier((void **)keys, (void *)bkt.weak_key); keys++; }
if (keybuf && !(flags & kCFBasicHashStrongKeys)) { *keys++ = (const_any_pointer_t)bkt.weak_key; }
if (valuebuf && (flags & kCFBasicHashStrongValues)) { __CFAssignWithWriteBarrier((void **)values, (void *)bkt.weak_value); values++; }
if (valuebuf && !(flags & kCFBasicHashStrongValues)) { *values++ = (const_any_pointer_t)bkt.weak_value; }
}
return (Boolean)true;
});
} else {
CFBasicHashGetElements((CFBasicHashRef)hc, CFDictionaryGetCount(hc), (uintptr_t *)valuebuf, (uintptr_t *)keybuf);
}
}
void CFDictionaryApplyFunction(CFHashRef hc, CFDictionaryApplierFunction applier, any_pointer_t context) {
FAULT_CALLBACK((void **)&(applier));
#if CFDictionary
if (CFDictionary) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), void, (NSDictionary *)hc, __apply:(void (*)(const void *, const void *, void *))applier context:(void *)context);
#endif
#if CFSet
if (CFSet) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), void, (NSSet *)hc, __applyValues:(void (*)(const void *, void *))applier context:(void *)context);
#endif
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
CFBasicHashApply((CFBasicHashRef)hc, ^(CFBasicHashBucket bkt) {
#if CFDictionary
INVOKE_CALLBACK3(applier, (const_any_pointer_t)bkt.weak_key, (const_any_pointer_t)bkt.weak_value, context);
#endif
#if CFSet
INVOKE_CALLBACK2(applier, (const_any_pointer_t)bkt.weak_value, context);
#endif
#if CFBag
for (CFIndex cnt = bkt.count; cnt--;) {
INVOKE_CALLBACK2(applier, (const_any_pointer_t)bkt.weak_value, context);
}
#endif
return (Boolean)true;
});
}
// This function is for Foundation's benefit; no one else should use it.
CF_EXPORT unsigned long _CFDictionaryFastEnumeration(CFHashRef hc, struct __objcFastEnumerationStateEquivalent *state, void *stackbuffer, unsigned long count) {
if (CF_IS_OBJC(CFDictionaryGetTypeID(), hc)) return 0;
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
return __CFBasicHashFastEnumeration((CFBasicHashRef)hc, (struct __objcFastEnumerationStateEquivalent2 *)state, stackbuffer, count);
}
// This function is for Foundation's benefit; no one else should use it.
CF_EXPORT Boolean _CFDictionaryIsMutable(CFHashRef hc) {
if (CF_IS_OBJC(CFDictionaryGetTypeID(), hc)) return false;
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
return CFBasicHashIsMutable((CFBasicHashRef)hc);
}
// This function is for Foundation's benefit; no one else should use it.
CF_EXPORT void _CFDictionarySetCapacity(CFMutableHashRef hc, CFIndex cap) {
if (CF_IS_OBJC(CFDictionaryGetTypeID(), hc)) return;
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
CFAssert2(CFBasicHashIsMutable((CFBasicHashRef)hc), __kCFLogAssertion, "%s(): immutable collection %p passed to mutating operation", __PRETTY_FUNCTION__, hc);
CFAssert3(CFDictionaryGetCount(hc) <= cap, __kCFLogAssertion, "%s(): desired capacity (%ld) is less than count (%ld)", __PRETTY_FUNCTION__, cap, CFDictionaryGetCount(hc));
CFBasicHashSetCapacity((CFBasicHashRef)hc, cap);
}
CF_INLINE CFIndex __CFDictionaryGetKVOBit(CFHashRef hc) {
return __CFBitfieldGetValue(((CFRuntimeBase *)hc)->_cfinfo[CF_INFO_BITS], 0, 0);
}
CF_INLINE void __CFDictionarySetKVOBit(CFHashRef hc, CFIndex bit) {
__CFBitfieldSetValue(((CFRuntimeBase *)hc)->_cfinfo[CF_INFO_BITS], 0, 0, ((uintptr_t)bit & 0x1));
}
// This function is for Foundation's benefit; no one else should use it.
CF_EXPORT CFIndex _CFDictionaryGetKVOBit(CFHashRef hc) {
return __CFDictionaryGetKVOBit(hc);
}
// This function is for Foundation's benefit; no one else should use it.
CF_EXPORT void _CFDictionarySetKVOBit(CFHashRef hc, CFIndex bit) {
__CFDictionarySetKVOBit(hc, bit);
}
#if !defined(CF_OBJC_KVO_WILLCHANGE)
#define CF_OBJC_KVO_WILLCHANGE(obj, key)
#define CF_OBJC_KVO_DIDCHANGE(obj, key)
#define CF_OBJC_KVO_WILLCHANGEALL(obj)
#define CF_OBJC_KVO_DIDCHANGEALL(obj)
#endif
#if CFDictionary
void CFDictionaryAddValue(CFMutableHashRef hc, const_any_pointer_t key, const_any_pointer_t value) {
#endif
#if CFSet || CFBag
void CFDictionaryAddValue(CFMutableHashRef hc, const_any_pointer_t key) {
const_any_pointer_t value = key;
#endif
#if CFDictionary
if (CFDictionary) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), void, (NSMutableDictionary *)hc, __addObject:(id)value forKey:(id)key);
#endif
#if CFSet
if (CFSet) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), void, (NSMutableSet *)hc, addObject:(id)key);
#endif
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
CFAssert2(CFBasicHashIsMutable((CFBasicHashRef)hc), __kCFLogAssertion, "%s(): immutable collection %p passed to mutating operation", __PRETTY_FUNCTION__, hc);
if (!CFBasicHashIsMutable((CFBasicHashRef)hc)) {
CFLog(3, CFSTR("%s(): immutable collection %p given to mutating function"), __PRETTY_FUNCTION__, hc);
}
CF_OBJC_KVO_WILLCHANGE(hc, key);
CFBasicHashAddValue((CFBasicHashRef)hc, (uintptr_t)key, (uintptr_t)value);
CF_OBJC_KVO_DIDCHANGE(hc, key);
}
#if CFDictionary
void CFDictionaryReplaceValue(CFMutableHashRef hc, const_any_pointer_t key, const_any_pointer_t value) {
#endif
#if CFSet || CFBag
void CFDictionaryReplaceValue(CFMutableHashRef hc, const_any_pointer_t key) {
const_any_pointer_t value = key;
#endif
#if CFDictionary
if (CFDictionary) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), void, (NSMutableDictionary *)hc, replaceObject:(id)value forKey:(id)key);
#endif
#if CFSet
if (CFSet) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), void, (NSMutableSet *)hc, replaceObject:(id)key);
#endif
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
CFAssert2(CFBasicHashIsMutable((CFBasicHashRef)hc), __kCFLogAssertion, "%s(): immutable collection %p passed to mutating operation", __PRETTY_FUNCTION__, hc);
if (!CFBasicHashIsMutable((CFBasicHashRef)hc)) {
CFLog(3, CFSTR("%s(): immutable collection %p given to mutating function"), __PRETTY_FUNCTION__, hc);
}
CF_OBJC_KVO_WILLCHANGE(hc, key);
CFBasicHashReplaceValue((CFBasicHashRef)hc, (uintptr_t)key, (uintptr_t)value);
CF_OBJC_KVO_DIDCHANGE(hc, key);
}
#if CFDictionary
void CFDictionarySetValue(CFMutableHashRef hc, const_any_pointer_t key, const_any_pointer_t value) {
#endif
#if CFSet || CFBag
void CFDictionarySetValue(CFMutableHashRef hc, const_any_pointer_t key) {
const_any_pointer_t value = key;
#endif
#if CFDictionary
if (CFDictionary) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), void, (NSMutableDictionary *)hc, __setObject:(id)value forKey:(id)key);
#endif
#if CFSet
if (CFSet) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), void, (NSMutableSet *)hc, setObject:(id)key);
#endif
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
CFAssert2(CFBasicHashIsMutable((CFBasicHashRef)hc), __kCFLogAssertion, "%s(): immutable collection %p passed to mutating operation", __PRETTY_FUNCTION__, hc);
if (!CFBasicHashIsMutable((CFBasicHashRef)hc)) {
CFLog(3, CFSTR("%s(): immutable collection %p given to mutating function"), __PRETTY_FUNCTION__, hc);
}
CF_OBJC_KVO_WILLCHANGE(hc, key);
//#warning this for a dictionary used to not replace the key
CFBasicHashSetValue((CFBasicHashRef)hc, (uintptr_t)key, (uintptr_t)value);
CF_OBJC_KVO_DIDCHANGE(hc, key);
}
void CFDictionaryRemoveValue(CFMutableHashRef hc, const_any_pointer_t key) {
#if CFDictionary
if (CFDictionary) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), void, (NSMutableDictionary *)hc, removeObjectForKey:(id)key);
#endif
#if CFSet
if (CFSet) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), void, (NSMutableSet *)hc, removeObject:(id)key);
#endif
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
CFAssert2(CFBasicHashIsMutable((CFBasicHashRef)hc), __kCFLogAssertion, "%s(): immutable collection %p passed to mutating operation", __PRETTY_FUNCTION__, hc);
if (!CFBasicHashIsMutable((CFBasicHashRef)hc)) {
CFLog(3, CFSTR("%s(): immutable collection %p given to mutating function"), __PRETTY_FUNCTION__, hc);
}
CF_OBJC_KVO_WILLCHANGE(hc, key);
CFBasicHashRemoveValue((CFBasicHashRef)hc, (uintptr_t)key);
CF_OBJC_KVO_DIDCHANGE(hc, key);
}
void CFDictionaryRemoveAllValues(CFMutableHashRef hc) {
#if CFDictionary
if (CFDictionary) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), void, (NSMutableDictionary *)hc, removeAllObjects);
#endif
#if CFSet
if (CFSet) CF_OBJC_FUNCDISPATCHV(CFDictionaryGetTypeID(), void, (NSMutableSet *)hc, removeAllObjects);
#endif
__CFGenericValidateType(hc, CFDictionaryGetTypeID());
CFAssert2(CFBasicHashIsMutable((CFBasicHashRef)hc), __kCFLogAssertion, "%s(): immutable collection %p passed to mutating operation", __PRETTY_FUNCTION__, hc);
if (!CFBasicHashIsMutable((CFBasicHashRef)hc)) {
CFLog(3, CFSTR("%s(): immutable collection %p given to mutating function"), __PRETTY_FUNCTION__, hc);
}
CF_OBJC_KVO_WILLCHANGEALL(hc);
CFBasicHashRemoveAllValues((CFBasicHashRef)hc);
CF_OBJC_KVO_DIDCHANGEALL(hc);
}
#undef CF_OBJC_KVO_WILLCHANGE
#undef CF_OBJC_KVO_DIDCHANGE
#undef CF_OBJC_KVO_WILLCHANGEALL
#undef CF_OBJC_KVO_DIDCHANGEALL