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How can I get an array of zeroing weak references under ARC? I don't want the array to retain the objects. And I'd like the array elements either to remove themselves when they're deallocated, or set those entries to nil.

Similarly, how can I do that with a dictionary? I don't want the dictionary to retain the values. And again, I'd like the dictionary elements either to remove themselves when the values are deallocated, or set the values to nil. (I need to retain the keys, which are the unique identifiers, at least until the corresponding values are deallocated.)

These two questions cover similar ground:

But neither is asking for zeroing references.

Per the documentation, neither NSPointerArray nor NSHashMap support weak references under ARC. NSValue's nonretainedObjectValue will not work either, as it is non-zeroing.

The only solution I see is to create my own NSValue-like wrapper class with a (weak) property, as this answer mentions, near the end. Is there a better way I'm not seeing?

I'm developing for OS X 10.7 and iOS 6.0.

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I don't think you need a value wrapper class; you need your own collection class if you want things to be removed when they're deallocated. –  Josh Caswell Jan 8 '13 at 6:30
That's true and a good point about removing them, though not true for setting them to nil. –  noa Jan 8 '13 at 6:45
I'd suggest to not-fight-the-framework and use NSPointerArray with the NSPointerFunctionsWeakMemory NSPointerFunctionOption. –  leviathan Jun 6 '13 at 8:17
Per the documentation, that works under 10.8 but not 10.7. –  noa Jun 6 '13 at 15:03
why not using NSPointerFunctionsWeakMemory argument for [NSPointerArray initWithOptions:]? According to this doc: developer.apple.com/library/ios/documentation/cocoa/reference/… it's supported from iOS 6 –  Denis Jun 3 at 9:37

6 Answers 6

Zeroing weak references require OS X 10.7 or iOS 5.

You can only define weak variables in code, ivars or blocks. AFAIK there is no way to dynamically (at runtime) to create a weak variable because ARC takes effect during compile time. When you run the code it already has the retains and releases added for you.

Having said that you can probably abuse blocks to achieve an effect like this.

Have a block that simply returns the reference.

__weak id weakref = strongref;
[weakrefArray addObject:[^{ return weakref; } copy]];

Note that you need to copy the block to get it copied to the heap.

Now you can walk the array anytime you like, dealloc'ed objects in blocks will return nil. You can then remove those.

You cannot have code automatically be executed when the weak ref is zeroed. If this is what you want then you can make use of the function of associated objects. Those get deallocated at the same time as the object they are associated to. So you could have your own sentry tag which informs the weak collection about the objects demise.

You would have one associated object to watch for the dealloc (if the association is the only reference) and the associated object would have a pointer to the collection watching. Then in the sentry dealloc you call the weak collection to inform it that the watched object has gone.

Here's my writeup on associated objects: http://www.cocoanetics.com/2012/06/associated-objects/

Here's my implementation:

---- DTWeakCollection.h

@interface DTWeakCollection : NSObject

- (void)checkInObject:(id)object;

- (NSSet *)allObjects;


---- DTWeakCollection.m

#import "DTWeakCollection.h"
#import "DTWeakCollectionSentry.h"
#import <objc/runtime.h>

static char DTWeakCollectionSentryKey;

@implementation DTWeakCollection
    NSMutableSet *_entries;

- (id)init
    self = [super init];
    if (self)
        _entries = [NSMutableSet set];
    return self;

- (void)checkInObject:(id)object
    NSUInteger hash = (NSUInteger)object;

    // make weak reference
    NSNumber *value = [NSNumber numberWithUnsignedInteger:hash];
    [_entries addObject:value];

    // make sentry
    DTWeakCollectionSentry *sentry = [[DTWeakCollectionSentry alloc] initWithWeakCollection:self forObjectWithHash:hash];
    objc_setAssociatedObject(object, &DTWeakCollectionSentryKey, sentry, OBJC_ASSOCIATION_RETAIN);

- (void)checkOutObjectWithHash:(NSUInteger)hash
    NSNumber *value = [NSNumber numberWithUnsignedInteger:hash];
    [_entries removeObject:value];

- (NSSet *)allObjects
    NSMutableSet *tmpSet = [NSMutableSet set];

    for (NSNumber *oneHash in _entries)
        // hash is actually a pointer to the object
        id object = (__bridge id)(void *)[oneHash unsignedIntegerValue];
        [tmpSet addObject:object];

    return [tmpSet copy];


---- DTWeakCollectionSentry.h

#import <Foundation/Foundation.h>
@class DTWeakCollection;

@interface DTWeakCollectionSentry : NSObject

- (id)initWithWeakCollection:(DTWeakCollection *)weakCollection forObjectWithHash:(NSUInteger)hash;


--- DTWeakCollectionSentry.m

#import "DTWeakCollectionSentry.h"
#import "DTWeakCollection.h"

@interface DTWeakCollection (private)

- (void)checkOutObjectWithHash:(NSUInteger)hash;


@implementation DTWeakCollectionSentry
    __weak DTWeakCollection *_weakCollection;
    NSUInteger _hash;

- (id)initWithWeakCollection:(DTWeakCollection *)weakCollection forObjectWithHash:(NSUInteger)hash
    self = [super init];

    if (self)
        _weakCollection = weakCollection;
        _hash = hash;

    return self;

- (void)dealloc
    [_weakCollection checkOutObjectWithHash:_hash];


This would be used like this:

NSString *string = @"bla";

@autoreleasepool {
_weakCollection = [[DTWeakCollection alloc] init];
    [_weakCollection checkInObject:string];

__object = [NSNumber numberWithInteger:1123333];

[_weakCollection checkInObject:__object];

if you output allObjects inside the autorelease pool block then you have two objects in there. Outside you only have the string.

I found that in the dealloc of the entry the object reference is already nil, so you cannot use __weak. Instead I am using the memory address of the object as hash. While these are still in _entries you can treat them as actual object and the allObjects returns an autoreleased array of strong references.

Note: this is not thread safe. Do deal with dealloc's on non-main queues/threads you would need to be careful to synchronize accessing and mutating the internal _entries set.

Note 2: This currently only works with objects checking into a single weak collection since a second check in would overwrite the associated sentry. If you needed this with multiple weak collections then the sentry instead should have an array of those collections.

Note 3: I changed the sentry's reference to the collection to weak as well to avoid a retain cycle.

Note 4: Here are a typedef and helper functions which handle the block syntax for you:

typedef id (^WeakReference)(void);

WeakReference MakeWeakReference (id object) {
    __weak id weakref = object;
    return [^{ return weakref; } copy];

id WeakReferenceNonretainedObjectValue (WeakReference ref) {
    if (ref == nil)
        return nil;
        return ref ();
share|improve this answer
Re note 2: you only ever set an associated object, the key is never used again, so could you not use sentry itself as the key? Would that not cope with an object being entered into a collection twice or into different collections? –  CRD Jan 8 '13 at 9:12
Thanks for this answer! Using a block as a wrapper is working well. I wrote a typedef and a couple helper functions to make it a little easier to use. I can paste those into the end of your answer if you'd like. –  noa Jan 8 '13 at 17:21
@CRD No, the key needs to be in static memory. –  Cocoanetics Jan 8 '13 at 17:34
@Cocoanetics - The key doesn't need to be static, it is just that a static is usually used. The docs state "The key is a void pointer. The key for each association must be unique. A typical pattern is to use a static variable." This makes sense, it is probably just using a unique 64-bit value as the key. I think in your case as you never need to retrieve the association you don't need to actually know the key... –  CRD Jan 8 '13 at 18:07
@Cocoanetics, the code for the self-updating collection is more than I need for this particular application. I was glad to try out the block-based solution which does work, but the wrapper object is easier for me to understand. –  noa Jan 8 '13 at 18:27
up vote 10 down vote accepted

Here's code for an a zeroing weak-referencing wrapper class. It works correctly with NSArray, NSSet, and NSDictionary.

The advantage of this solution is that it's compatible with older OS's and that's it simple. The disadvantage is that when iterating, you likely need to verify that -nonretainedObjectValue is non-nil before using it.

It's the same idea as the wrapper in the first part of Cocoanetics' answer, which uses blocks to accomplish the same thing.


@interface WeakReference : NSObject {
    __weak id nonretainedObjectValue;
    __unsafe_unretained id originalObjectValue;

+ (WeakReference *) weakReferenceWithObject:(id) object;

- (id) nonretainedObjectValue;
- (void *) originalObjectValue;



@implementation WeakReference

- (id) initWithObject:(id) object {
    if (self = [super init]) {
        nonretainedObjectValue = originalObjectValue = object;
    return self;

+ (WeakReference *) weakReferenceWithObject:(id) object {
    return [[self alloc] initWithObject:object];

- (id) nonretainedObjectValue { return nonretainedObjectValue; }
- (void *) originalObjectValue { return (__bridge void *) originalObjectValue; }

// To work appropriately with NSSet
- (BOOL) isEqual:(WeakReference *) object {
    if (![object isKindOfClass:[WeakReference class]]) return NO;
    return object.originalObjectValue == self.originalObjectValue;

share|improve this answer
You actually don't need the blocks in this case because you have weak ivars. –  Cocoanetics Jan 8 '13 at 17:48
Right. Same idea, without blocks. –  noa Jan 8 '13 at 18:15
No, you misunderstand. You don't need those block wrappers at all. Just use the ivars/properties! –  Cocoanetics Jan 9 '13 at 5:48
I do understand, that's what I'm saying too! Either use blocks or these wrapper objects. –  noa Jan 9 '13 at 17:46
@David I worked into the answer a description of the disadvantage. Cocoanetics is way more complicated so it's not obviously better. If you're going to downvote the answer perhaps you'd at least upvote the question since you seem to find it useful. –  noa May 31 '13 at 15:59

NSMapTable should work for you. Available in iOS 6.

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The 10.7 docs explicitly state that NSMapTable does not support weak references under ARC. It is available in 10.8, however – see the NSMapTableWeakMemory option. –  noa Apr 4 '13 at 3:26
@interface Car : NSObject
@implementation Car
-(void) dealloc {

int main(int argc, char *argv[])
    @autoreleasepool {
        Car *car = [Car new];

        NSUInteger capacity = 10;
        id __weak *_objs = (id __weak *)calloc(capacity,sizeof(*_objs));
        _objs[0] = car;
        car = nil;

        return EXIT_SUCCESS;


2013-01-08 10:00:19.171 X[6515:c07] deallocing
2013-01-08 10:00:19.172 X[6515:c07] 0x0

edit: I created a sample weak map collection from scratch based on this idea. It works, but it's ugly for several reasons:

I used a category on NSObject to add @properties for the key,next map bucket, and a reference to the collection owning the object.

Once you nil the object it disappears from the collection.

BUT, for the map to have a dynamic capacity, it needs to receive an update the number of elements to calculate the load factor and expand capacity if needed. That is, unless you want to perform a Θ(n) update iterating the whole array each time you add an element. I did this with a callback on the dealloc method of the sample object I'm adding to the collection. I could edit the original object (which I did for brevity) or inherit from a superclass, or swizzle the dealloc. In any case, ugly.

However, if you don't mind having a fixed capacity collection, you don't need the callbacks. The collection uses separate chaining and assuming an uniform distribution of the hash function, performance will be Θ(1+n/m) being n=elements,m=capacity. But (more buts) to avoid breaking the chaining you would need to add a previous link as a category @property and link it to the next element in the dealloc of the element. And once we are touching the dealloc, it's just as good to notify the collection that the element is being removed (which is what is doing now).

Finally, note that the test in the project is minimal and I could have overlooked something.

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Nice answer! The C-style array of weak references could be particularly nice in certain circumstances. –  noa Jan 8 '13 at 17:26
I haven't tried using your map collection, for my purposes it's more than I need. –  noa Jan 8 '13 at 18:17

I just create non-threadsafe weak ref version of NSMutableDictionary and NSMutableSet. Code here: https://gist.github.com/4492283

For NSMutableArray, things is more complicated because it cannot contain nil and an object may be added to the array multiple times. But it is feasible to implemented one.

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Just add a category for NSMutableSet with following code:

@interface WeakReferenceObj : NSObject
@property (nonatomic, weak) id weakRef;

@implementation WeakReferenceObj
+ (id)weakReferenceWithObj:(id)obj{
    WeakReferenceObj *weakObj = [[WeakReferenceObj alloc] init];
    weakObj.weakRef = obj;
    return weakObj;

@implementation NSMutableSet(WeakReferenceObj)
- (void)removeDeallocRef{
    NSMutableSet *deallocSet = nil;
    for (WeakReferenceObj *weakRefObj in self) {
        if (!weakRefObj.weakRef) {
            if (!deallocSet) {
                deallocSet = [NSMutableSet set];
            [deallocSet addObject:weakRefObj];
    if (deallocSet) {
        [self minusSet:deallocSet];

- (void)addWeakReference:(id)obj{
    [self removeDeallocRef];
    [self addObject:[WeakReferenceObj weakReferenceWithObj:obj]];

Same way to create a category for NSMutableArray and NSMutableDictionary.

Remove dealloc reference in didReceiveMemoryWarning will be better.

- (void)didReceiveMemoryWarning{
    [yourWeakReferenceSet removeDeallocRef];

Then, what you should do is to invoke addWeakReference: for your container class.

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