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Is it possible to have blocks as properties using the standard property syntax?

Are there any changes for ARC?

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Well, because it would be very in handy. I wouldn't need to know what it is as long as I have the syntax right and it behaves like an NSObject. –  gurghet Oct 14 '10 at 17:09
If you don't know what it is, how do you know that it would be very handy? –  Stephen Canon Oct 14 '10 at 17:14
@Stephen Because I use them a lot :) –  gurghet Oct 14 '10 at 17:18
You shouldn't use them If you dont know what they are :) –  Richard J. Ross III Oct 14 '10 at 18:30
@Moshe here are some reasons that come to mind. Blocks are easier to implement than a full delegate class, blocks are lightweight, and you have access to variables that are in the context of that block. Event Callbacks can be done effectively using blocks (cocos2d uses them almost exclusively). –  Richard J. Ross III Feb 3 '12 at 21:40

8 Answers 8

up vote 178 down vote accepted

Here's an example of how you would accomplish such a task:

#import <Foundation/Foundation.h>
typedef int (^IntBlock)();

@interface myobj : NSObject
    IntBlock compare;

@property(readwrite, copy) IntBlock compare;


@implementation myobj

@synthesize compare;

- (void)dealloc 
   // need to release the block since the property was declared copy. (for heap
   // allocated blocks this prevents a potential leak, for compiler-optimized 
   // stack blocks it is a no-op)
   // Note that for ARC, this is unnecessary, as with all properties, the memory management is handled for you.
   [compare release];
   [super dealloc];

int main () {
    @autoreleasepool {
        myobj *ob = [[myobj alloc] init]; = ^
            return rand();
        // if not ARC
        [ob release];

    return 0;

Now, the only thing that would need to change if you needed to change the type of compare would be the typedef int (^IntBlock)(). If you need to pass two objects to it, change it to this: typedef int (^IntBlock)(id, id), and change your block to:

^ (id obj1, id obj2)
    return rand();

I hope this helps.

EDIT March 12, 2012:

For ARC, there are no specific changes required, as ARC will manage the blocks for you as long as they are defined as copy. You do not need to set the property to nil in your destructor, either.

For more reading, please check out this document:

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@property (nonatomic, copy) void (^simpleBlock)(void);
@property (nonatomic, copy) BOOL (^blockWithParamter)(NSString *input);
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With xCode 4.4 or newer you dont need to synthesize. That will make it even more concise. Apple Doc –  Eric Nov 8 '12 at 4:28
wow, I didn't know that, thanks! ... Although I often do @synthesize myProp = _myProp –  Robert Nov 8 '12 at 8:04
@Robert: You are in luck again, because without putting @synthesize the default is what you are doing @synthesize name = _name; –  Eric Nov 12 '12 at 3:58
@CharlieMonroe - Yes you are probably right, but dont you need a dealloc implementation to nil or release the block property without ARC? (its been a while since I used non-ARC) –  Robert Mar 31 '13 at 21:58
@imcaptor: Yes, it can cause memory leaks in case you don't release it in dealloc - just like with any other variable. –  Charlie Monroe Jun 15 '13 at 8:59

NOTE -- this is for Objective-c only.

If you are working with Swift, check out "Closures".

(Example QA. Indeed, here's the relevant Swift reference - and here's a humorously named short article explaining it.)

For the record...

Here's exactly how to do it from 2014 onwards...

with ARC, Xcode6, iOS7 or 8 onwards.

@property (copy)void (^doStuff)(void);

Do not use anything other than simply "copy". Do not synthesize.

It's that simple.

Here's a full and detailed example, with long explanatory comments:

In your .h file:

// Here is a block as a property:
// So for example:
// If someone passes you a block, you can "hold on to it",
// while you do other stuff. Later, you can use the block.
// So: Here is the property which will hold the "incoming block".
// We will name the property 'doStuff':

@property (copy)void (^doStuff)(void);

// So, here's some handy method in your class.
// When someone CALLS this method, they PASS IN a block of code
// which they want to be performed after the method is finished.
// The method refers to the incoming block of code as 'pleaseDoMeLater':


// Just as it says above, we will "hold on to" that block of code
// in our astounding block-property called "doStuff".

Full doco on why to use precisely "copy": WorkingwithBlocks.html from Apple

In your .m file:

Do not synthesize it.

    self.doStuff = pleaseDoMeLater;
    // Here you would do other long, complicated processes, perhaps
    // following one of many different paths and using many routines.
    // In our example let's say that, when "everything is finally done"
    // we will end up at the routine "_teste".
    // So, "_teste" needs the block that was passed in to us, and that
    // is exactly why you use a block property in this situation.
    [self _teste];
    NSLog(@"I am in _teste and it's 2014.");

    // And here's how to run the block:
    // (it is best to check that it is not nil)

    if ( self.doStuff != nil )

Beware of out-of-date example code for this topic.

On the internet there are many out of date examples of block properties. PLEASE BE CAREFUL.

With modern (2014+) systems, you need only do exactly what it shows here. Fortunately, it is that simple.

Hope it helps someone. Merry Christmas 2013!

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For posterity / completeness's sake… Here are two FULL examples of how to implement this ridiculously versatile "way of doing things". @Robert's answer is blissfully concise and correct, but here I want to also show ways to actually "define" the blocks.

@interface       ReusableClass : NSObject
@property (nonatomic,copy) CALayer*(^layerFromArray)(NSArray*);

@implementation  ResusableClass
static  NSString const * privateScope = @"Touch my monkey.";

- (CALayer*(^)(NSArray*)) layerFromArray { 
     return ^CALayer*(NSArray* array){
        CALayer *returnLayer = CALayer.layer
        for (id thing in array) {
            [returnLayer doSomethingCrazy];
            [returnLayer setValue:privateScope
        return list;

Silly? Yes. Useful? Hells yeah. Here is a different, "more atomic" way of setting the property.. and a class that is ridiculously useful…

@interface      CALayoutDelegator : NSObject
@property (nonatomic,strong) void(^layoutBlock)(CALayer*);

@implementation CALayoutDelegator
- (id) init { 
   return self = super.init ? 
         [self setLayoutBlock: ^(CALayer*layer){
          for (CALayer* sub in layer.sublayers)
            [sub someDefaultLayoutRoutine];
         }], self : nil;
- (void) layoutSublayersOfLayer:(CALayer*)layer {
   self.layoutBlock ? self.layoutBlock(layer) : nil;

This illustrates setting the block property via the accessor (albeit inside init, a debatably dicey practice..) vs the first example's "nonatomic" "getter" mechanism. In either case… the "hardcoded" implementations can always be overwritten, per instance.. a lá..

CALayoutDelegator *littleHelper =;
littleHelper.layoutBlock = ^(CALayer*layer){
  [layer.sublayers do:^(id sub){ [sub somethingElseEntirely]; }];
someLayer.layoutManager = littleHelper;

Also.. if you want to add a block property in a category... say you want to use a Block instead of some old-school target / action "action"... You can just use associated values to, well.. associate the blocks.

typedef    void(^NSControlActionBlock)(NSControl*); 
@interface       NSControl            (ActionBlocks)
@property (copy) NSControlActionBlock  actionBlock;    @end
@implementation  NSControl            (ActionBlocks)

- (NSControlActionBlock) actionBlock { 
    // use the "getter" method's selector to store/retrieve the block!
    return  objc_getAssociatedObject(self, _cmd); 
- (void) setActionBlock:(NSControlActionBlock)ab {

    objc_setAssociatedObject( // save (copy) the block associatively, as categories can't synthesize Ivars.
    self, @selector(actionBlock),ab ,OBJC_ASSOCIATION_COPY); = self;                  // set self as target (where you call the block)
    self.action = @selector(doItYourself); // this is where it's called.
- (void) doItYourself {

    if (self.actionBlock && == self) self.actionBlock(self);

Now, when you make a button, you don't have to set up some IBAction drama.. Just associate the work to be done at creation...

_button.actionBlock = ^(NSControl*thisButton){ 

     [doc open]; [thisButton setEnabled:NO]; 

This pattern can be applied OVER and OVER to Cocoa API's. Use properties to bring the relevant parts of your code closer together, eliminate convoluted delegation paradigms, and leverage the power of objects beyond that of just acting as dumb "containers".

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Beauty is in the eye of the beholder. "God" also made question marks and colons. And brevity… is just short… of Godliness. –  alex gray Jun 13 '13 at 22:36
Alex, great Associated example. You know, I'm wondering about the nonatomic. Thoughts? –  Joe Blow Feb 10 '14 at 9:12
It's very rare that "atomic" would be the right thing to do for a property. It would be a very strange thing to set a block property in one thread and read it in another thread at the same time, or to set the block property simultaneously from multiple threads. So the cost of "atomic" vs. "nonatomic" doesn't give you any real advantages. –  gnasher729 Mar 30 '14 at 21:13


This is not intended to be "the good answer", as this question ask explicitly for ObjectiveC. As Apple introduced Swift at the WWDC14, I'd like to share the different ways to use block (or closures) in Swift.

Hello, Swift

You have many ways offered to pass a block equivalent to function in Swift.

I found three.

To understand this I suggest you to test in playground this little piece of code.

func test(function:String -> String) -> String
    return function("test")

func funcStyle(s:String) -> String
    return "FUNC__" + s + "__FUNC"
let resultFunc = test(funcStyle)

let blockStyle:(String) -> String = {s in return "BLOCK__" + s + "__BLOCK"}
let resultBlock = test(blockStyle)

let resultAnon = test({(s:String) -> String in return "ANON_" + s + "__ANON" })


Swift, optimized for closures

As Swift is optimized for asynchronous development, Apple worked more on closures. The first is that function signature can be inferred so you don't have to rewrite it.

Access params by numbers

let resultShortAnon = test({return "ANON_" + $0 + "__ANON" })

Params inference with naming

let resultShortAnon2 = test({myParam in return "ANON_" + myParam + "__ANON" })

Trailing Closure

This special case works only if the block is the last argument, it's called trailing closure

Here is an example (merged with inferred signature to show Swift power)

let resultTrailingClosure = test { return "TRAILCLOS_" + $0 + "__TRAILCLOS" }


Using all this power what I'd do is mixing trailing closure and type inference (with naming for readability)

PFFacebookUtils.logInWithPermissions(permissions) {
    user, error in
    if (!user) {
        println("Uh oh. The user cancelled the Facebook login.")
    } else if (user.isNew) {
        println("User signed up and logged in through Facebook!")
    } else {
        println("User logged in through Facebook!")
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Hello, Swift

Complementing what @Francescu answered.

Adding extra parameters:

func test(function:String -> String, param1:String, param2:String) -> String
    return function("test"+param1 + param2)

func funcStyle(s:String) -> String
    return "FUNC__" + s + "__FUNC"
let resultFunc = test(funcStyle, "parameter 1", "parameter 2")

let blockStyle:(String) -> String = {s in return "BLOCK__" + s + "__BLOCK"}
let resultBlock = test(blockStyle, "parameter 1", "parameter 2")

let resultAnon = test({(s:String) -> String in return "ANON_" + s + "__ANON" }, "parameter 1", "parameter 2")

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thanks for this great Swift example... –  Joe Blow Dec 10 '14 at 5:21

Of course you could use blocks as properties. But make sure they are declared as @property(copy). For example:

typedef void(^TestBlock)(void);

@interface SecondViewController : UIViewController
@property (nonatomic, copy) TestBlock block;

In MRC, blocks capturing context variables are allocated in stack; they will be released when the stack frame is destroyed. If they are copied, a new block will be allocated in heap, which can be executed later on after the stack frame is poped.

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You can follow the format below and can use the testingObjectiveCBlock property in the class.

typedef void (^testingObjectiveCBlock)(NSString *errorMsg);

@interface MyClass : NSObject
@property (nonatomic, strong) testingObjectiveCBlock testingObjectiveCBlock;

For more info have a look here

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Does this answer really add anything more to the other answers already provided? –  Richard J. Ross III Jan 30 '14 at 1:32

protected by Richard J. Ross III Jan 30 '14 at 1:31

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