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I'm getting the following warning by the ARC compiler:

"performSelector may cause a leak because its selector is unknown".

Here's what I'm doing:

[_controller performSelector:NSSelectorFromString(@"someMethod")];

Why do I get this warning? I understand the compiler can't check if the selector exists or not, but why would that cause a leak? And how can I change my code so that I don't get this warning anymore?

share|improve this question
The name of the variable is dynamic, it depends on a lot of other things. There's the risk that I call something that doesn't exist, but that's not the problem. –  Eduardo Scoz Aug 10 '11 at 20:35
Hmm I guess you're right. Does this clear the warning? SEL mySelector = NSSelectorFromString(@"someMethod"); if (mySelector != nil) { [_controller performSelector:mySelector]; } –  mattacular Aug 10 '11 at 20:43
You should/could also test [_controller respondsToSelector:mySelector] before setting it via performSelector: –  mattacular Aug 10 '11 at 20:48
@mattacular Wish I could vote down: "That... is bad practice." –  ctpenrose Apr 11 '12 at 18:44
If you know the string is a literal, just use @selector() so the compiler can tell what the selector name is. If your actual code is calling NSSelectorFromString() with a string that’s constructed or provided at runtime, then you must use NSSelectorFromString(). –  Chris Page May 22 '12 at 23:25

16 Answers 16

up vote 598 down vote accepted


The compiler is warning about this for a reason. It's very rare that this warning should simply be ignored, and it's easy to work around. Here's how:

SEL selector = NSSelectorFromString(@"someMethod");
IMP imp = [_controller methodForSelector:selector];
void (*func)(id, SEL) = (void *)imp;
func(_controller, selector);

Or more tersely (though hard to read):

SEL selector = NSSelectorFromString(@"someMethod");
((void (*)(id, SEL))[_controller methodForSelector:selector])(_controller, selector);


What's going on here is you're asking the controller for the C function pointer for the method corresponding to the controller. All NSObjects respond to methodForSelector:, but you can also use class_getMethodImplementation in the Objective-C runtime (useful if you only have a protocol reference, like id<SomeProto>). These function pointers are called IMPs, and are simple typedefed function pointers (id (*IMP)(id, SEL, ...))1. This may be close to the actual method signature of the method, but will not always match exactly.

Once you have the IMP, you need to cast it to a function pointer that includes all of the details that ARC needs (including the two implicit hidden arguments self and _cmd of every Objective-C method call). This is handled in the third line (the (void *) on the right hand side simply tells the compiler that you know what you're doing and not to generate a warning since the pointer types don't match).

Finally, you call the function pointer.

Complex Example

When the selector takes arguments or returns a value, you'll have to change things a bit:

SEL selector = NSSelectorFromString(@"processRegion:ofView:");
IMP imp = [_controller methodForSelector:selector];
CGRect (*func)(id, SEL, CGRect, UIView *) = (void *)imp;
CGRect result = func(_controller, selector, someRect, someView);

Reasoning for Warning

The reason for this warning is that with ARC, the runtime needs to know what to do with the result of the method you're calling. The result could be anything: void, int, char, NSString *, id, etc. ARC normally gets this information from the header of the object type you're working with.2

There are really only 4 things that ARC would consider for the return value:3

  1. Ignore non-object types (void, int, etc)
  2. Retain object value, then release when it is no longer used (standard assumption)
  3. Release new object values when no longer used (methods in the init/ copy family or attributed with ns_returns_retained)
  4. Do nothing & assume returned object value will be valid in local scope (until inner most release pool is drained, attributed with ns_returns_autoreleased)

The call to methodForSelector: assumes that the return value of the method it's calling is an object, but does not retain/release it. So you could end up creating a leak if your object is supposed to be released as in #3 above (that is, the method you're calling returns a new object).

For selectors you're trying to call that return void or other non-objects, you could enable compiler features to ignore the warning, but it may be dangerous. I've seen Clang go through a few iterations of how it handles return values that aren't assigned to local variables. There's no reason that with ARC enabled that it can't retain and release the object value that's returned from methodForSelector: even though you don't want to use it. From the compiler's perspective, it is an object after all. That means that if the method you're calling, someMethod, is returning a non object (including void), you could end up with a garbage pointer value being retained/released and crash.

Additional Arguments

One consideration is that this is the same warning will occur with performSelector:withObject: and you could run into similar problems with not declaring how that method consumes parameters. ARC allows for declaring consumed parameters, and if the method consumes the parameter, you'll probably eventually send a message to a zombie and crash. There are ways to work around this with bridged casting, but really it'd be better to simply use the IMP and function pointer methodology above. Since consumed parameters are rarely an issue, this isn't likely to come up.

Static Selectors

Interestingly, the compiler will not complain about selectors declared statically:

[_controller performSelector:@selector(someMethod)];

The reason for this is because the compiler actually is able to record all of the information about the selector and the object during compilation. It doesn't need to make any assumptions about anything. (I checked this a year a so ago by looking at the source, but don't have a reference right now.)


In trying to think of a situation where suppression of this warning would be necessary and good code design, I'm coming up blank. Someone please share if they have had an experience where silencing this warning was necessary (and the above doesn't handle things properly).


It's possible to build up an NSMethodInvocation to handle this as well, but doing so requires a lot more typing and is also slower, so there's little reason to do it.


When the performSelector: family of methods was first added to Objective-C, ARC did not exist. While creating ARC, Apple decided that a warning should be generated for these methods as a way of guiding developers toward using other means to explicitly define how memory should be handled when sending arbitrary messages via a named selector. In Objective-C, developers are able to do this by using C style casts on raw function pointers.

With the introduction of Swift, Apple has documented the performSelector: family of methods as "inherently unsafe" and they are not available to Swift.

Over time, we have seen this progression:

  1. Early versions of Objective-C allow performSelector: (manual memory management)
  2. Objective-C with ARC warns for use of performSelector:
  3. Swift does not have access to performSelector: and documents these methods as "inherently unsafe"

The idea of sending messages based on a named selector is not, however, an "inherently unsafe" feature. This idea has been used successfully for a long time in Objective-C as well as many other programming languages.

1 All Objective-C methods have two hidden arguments, self and _cmd that are implicitly added when you call a method.

2 Actually, it's possible for it to get the wrong info if declare you objects as id and you're not importing all headers. You could end up with crashes in code that the compiler thinks is fine. This is very rare, but could happen. Usually you'll just get a warning that it doesn't know which of two method signatures to choose from.

3 See the ARC reference on retained return values and unretained return values for more details.

share|improve this answer
Nice answer, but it’s basically better to just turn the warning off and don’t use it to call +new, -copy or +alloc or any that return retained object. –  iMartin Nov 18 '13 at 21:51
Ridiculously complete answer, @wbyoung, thanks so much! I just learned about ns_consumed, had no idea it existed. –  Eduardo Scoz Nov 18 '13 at 21:53
@iMartin that certainly silences the warnings, but if you're not working alone, you run the risk of silencing warnings for someone who doesn't know better. I like to enable a lot of warnings for projects (which tends to increases my code quality). Also, while it may be more stable now, see the part about Clang and return values that aren't assigned to local variables. Finally, all methods can return objects with a +1 retain count. Few do, and post-ARC the semantics for this are generally better defined by everyone through method naming conventions, but you never know… –  wbyoung Nov 18 '13 at 22:40
@iMartin understood & in complete agreement. Continuing my previous example, one could pass capitalizedString and copy through the same invocation of performSelector:. In order to properly handle this (memory-wise) both with ARC and with manual memory management, you have to have more logic in your code. One code path will release the resulting object, and one won't. It's certainly an issue in both cases. With ARC, the warning helps encourage the programmer to think about it and is important because it's one of few cases where you really need to consider memory management. –  wbyoung Nov 20 '13 at 21:28
The "Complex Example" gives an error Cannot initialize a variable of type 'CGRect (*)(__strong id, SEL, CGRect, UIView *__strong)' with an rvalue of type 'void *' when using latest Xcode. (5.1.1) Still, I learned a lot! –  Stan James May 20 '14 at 1:44

In the LLVM 3.0 compiler in Xcode 4.2 you can suppress the warning as follows:

#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Warc-performSelector-leaks"
    [self.ticketTarget performSelector: self.ticketAction withObject: self];
#pragma clang diagnostic pop

If you're getting the error in several places, you can define a macro to make it easier to suppress the warning:

#define SuppressPerformSelectorLeakWarning(Stuff) \
    do { \
        _Pragma("clang diagnostic push") \
        _Pragma("clang diagnostic ignored \"-Warc-performSelector-leaks\"") \
        Stuff; \
        _Pragma("clang diagnostic pop") \
    } while (0)

You can use the macro like this:

    [_target performSelector:_action withObject:self]

If you need the result of the performed message, you can do this:

id result;
    result = [_target performSelector:_action withObject:self]
share|improve this answer
+1 for showing how to use it properly (i.e. without turning it off for the entire project). –  Rob Napier Feb 16 '12 at 15:14
Good clean push/pop. IMHO this should be the new accepted/best answer to this question. –  Eric Goldberg Feb 24 '12 at 18:21
@Eric No it cannot, unless you're invoking funny methods like "initSomething" or "newSomething" or "somethingCopy". –  Andrey Tarantsov Aug 20 '12 at 1:56
@Julian That does work, but that turns off the warning for the entire file – you might not need or want that. Wrappping it with the pop and push-pragmas are much cleaner and more secure. –  Emil Jan 10 '13 at 19:52
Using your macro is OK only for cases where you don't need to handle the expression result. Suppose you have id result = [target performSelector:action]. You cannot do id result = SuppressPerformSelectorLeakWarning(...), nor SuppressPerformSelectorLeakWarning(id result = ...). One can come up with a better macro, but I'd still advocate against it. –  jweyrich Jan 27 '13 at 1:19

My guess about this is this: since the selector is unknown to the compiler, ARC cannot enforce proper memory management.

In fact, there are times when memory management is tied to the name of the method by a specific convention. Specifically, I am thinking of convenience constructors versus make methods; the former return by convention an autoreleased object; the latter a retained object. The convention is based on the names of the selector, so if the compiler does not know the selector, then it cannot enforce the proper memory management rule.

If this is correct, I think that you can safely use your code, provided you make sure that everything is ok as to memory management (e.g., that your methods do not return objects that they allocate).

share|improve this answer
Thanks for the answer, I'll look more into this to see what is going on. Any idea on how I can bypass the warning though and make it disappear? I would hate to have the warning sitting in my code forever for what is a safe call. –  Eduardo Scoz Aug 10 '11 at 20:46
So I got confirmation from somebody at Apple in their forums that this is indeed the case. They'll be adding a forgotten override to allow people to disable this warning in future releases. Thanks. –  Eduardo Scoz Aug 11 '11 at 20:20
This answer raises some questions, like if ARC tries to make determinations on when to release something based upon convention and method names, then how is it "reference counting"? The behavior you describe sounds only marginally better than completely arbitrary, if ARC is assuming the code follows a certain convention as opposed to actually keeping track of the references no matter what convention is followed. –  aroth Feb 4 '12 at 14:38
ARC automates the process of adding retains and releases at compile. It is not garbage collection (which is why it is so incredibly fast and low overhead). It is not arbitrary at all. The default rules are based on well-established ObjC conventions that have been consistently applied for decades. This avoids the need to explicitly add an __attribute to every method explaining its memory management. But it also makes it impossible for the complier to properly handle this pattern (a pattern which used to be very common, but has been replaced with more robust patterns in recent years). –  Rob Napier Feb 16 '12 at 15:13
So we can no longer have an ivar of type SEL and assign different selectors depending on the situation? Way to go, dynamic language... –  NicolasMiari Jun 22 '12 at 12:16

In your project Build Settings, under Other Warning Flags (WARNING_CFLAGS), add

Now just make sure that the selector you are calling does not cause your object to be retained or copied.

share|improve this answer
Thanks a lot for the answer. Great that they added the setting to disable the warning, and great to know you can disable it system-wide. –  Eduardo Scoz Oct 31 '11 at 14:07
Note you can add the same flag for specific files rather than the entire project. If you look under Build Phases->Compile Sources, you can set per file Compiler Flags (just like you want to do for excluding files from ARC). In my project just one file should use selectors this way, so I just excluded it and left the others. –  Michael Jan 5 '12 at 10:37
This is especially handy for test targets. –  Rudolf Adamkovic Jan 4 '14 at 11:59
Thanks this solved the issue project wide! –  loretoparisi Jun 26 '14 at 23:38

As a workaround until the compiler allows overriding the warning, you can use the runtime

objc_msgSend(_controller, NSSelectorFromString(@"someMethod"));

instead of

[_controller performSelector:NSSelectorFromString(@"someMethod")];

You'll have to

#import <objc/message.h>

share|improve this answer
ARC recognizes Cocoa conventions and then adds retains and releases based on those conventions. Because C does not follow those conventions, ARC forces you to use manual memory management techniques. If you create a CF object, you must CFRelease() it. If you dispatch_queue_create(), you must dispatch_release(). Bottom line, if you want to avoid the ARC warnings, you can avoid them by using C objects and manual memory management. Also, you can disable ARC on a per-file basis by using the -fno-objc-arc compiler flag on that file. –  jluckyiv Aug 19 '11 at 2:58
Not without casting, you can't. Varargs is not the same as an explicitly typed argument list. It'll generally work by coincidence, but I don't consider "by coincidence" to be correct. –  bbum Sep 27 '11 at 20:16
Don't do that, [_controller performSelector:NSSelectorFromString(@"someMethod")]; and objc_msgSend(_controller, NSSelectorFromString(@"someMethod")); are not equivalent! Have a look at Method Signature Mismatches and A big weakness in Objective-C's weak typing they are explaining the problem in depth. –  0xced Nov 16 '11 at 9:40
@0xced In this case, it's fine. objc_msgSend will not create a method signature mismatch for any selector that would have worked correctly in performSelector: or its variants since they only ever take objects as parameters. As long as all your parameters are pointers (incl. objects), doubles and NSInteger/long, and your return type is void, pointer or long, then objc_msgSend will work correctly. –  Matt Gallagher Feb 17 '12 at 8:47
And Apple will eventually disable ObjC old dispatch prototypes and as a result this code will simply stop to compile. Fun times ahead for all those who blindly copy-pasted this solution in their code to disable the warning. –  0xced Aug 27 '13 at 14:57

To ignore the error only in the file with the perform selector, add a #pragma as follows:

#pragma clang diagnostic ignored "-Warc-performSelector-leaks"

This would ignore the warning on this line, but still allow it throughout the rest of your project.

share|improve this answer
I gather that you can also turn the warning back on immediately after the method in question with #pragma clang diagnostic warning "-Warc-performSelector-leaks". I know if I turn off a warning, I like to turn it back on at the soonest possible moment, so I don't accidentally let another unanticipated warning slip by. It's unlikely that this is a problem, but it's just my practice whenever I turn off a warning. –  Rob Apr 8 '12 at 3:06
You can also restore your previous compiler configuration state by using #pragma clang diagnostic warning push before you make any changes and #pragma clang diagnostic warning pop to restore the previous state. Useful if you are turning off loads and don't want to have lots of re-enable pragma lines in your code. –  deanWombourne Jul 11 '12 at 10:42
It will only ignore the following line? –  hfossli Dec 10 '12 at 10:39

Strange but true: if acceptable (i.e. result is void and you don't mind letting the runloop cycle once), add a delay, even if this is zero:

[_controller performSelector:NSSelectorFromString(@"someMethod")

This removes the warning, presumably because it reassures the compiler that no object can be returned and somehow mismanaged.

share|improve this answer
Do you know if this actually resolves the related memory management issues, or does it have the same issues but Xcode isn't smart enough to warn you with this code? –  Aaron Brager Jan 15 '13 at 19:18
This is semantically not the same thing! Using performSelector:withObject:AfterDelay: will perform the selector in the next run of the runloop. Therefore, this method returns immediately. –  Florian Apr 9 '13 at 6:52
@Florian Of course it's not the same! Read my answer: I say if acceptable, because the result is void and the runloop cycles. That's the first sentence of my answer. –  matt Apr 9 '13 at 14:26
Amazing. So: if we're not returning an object in the first place, the warning could be ignored or suppressed safely? –  Yar Mar 9 at 19:08

Here is an updated macro based on the answer given above. This one should allow you to wrap your code even with a return statement.

#define SUPPRESS_PERFORM_SELECTOR_LEAK_WARNING(code)                        \
    _Pragma("clang diagnostic push")                                        \
    _Pragma("clang diagnostic ignored \"-Warc-performSelector-leaks\"")     \
    code;                                                                   \
    _Pragma("clang diagnostic pop")                                         \

    return [_target performSelector:_action withObject:self]
share|improve this answer
return doesn't have to be inside the macro; return SUPPRESS_PERFORM_SELECTOR_LEAK_WARNING([_target performSelector:_action withObject:self]); also works and looks saner. –  uasi Oct 15 '13 at 9:14

This code doesn't involve compiler flags or direct runtime calls:

SEL selector = @selector(zeroArgumentMethod);
NSMethodSignature *methodSig = [[self class] instanceMethodSignatureForSelector:selector];
NSInvocation *invocation = [NSInvocation invocationWithMethodSignature:methodSig];
[invocation setSelector:selector];
[invocation setTarget:self];
[invocation invoke];

NSInvocation allows multiple arguments to be set so unlike performSelector this will work on any method.

share|improve this answer
Do you know if this actually resolves the related memory management issues, or does it have the same issues but Xcode isn't smart enough to warn you with this code? –  Aaron Brager Jan 15 '13 at 19:17
You could say it solves the memory management issues; but this is because it basically lets you specify the behavior. For example, you can choose to let invocation retain the arguments or not. To my current knowledge, it attempts to fix the signature mismatch problems that might appear by trusting that you know what you are doing and don't provide it with incorrect data. I'm not sure if all the checks can be performed at runtime. As mentiones in another comment, mikeash.com/pyblog/… nicely explaines what mismatches can do. –  Mihai Timar Apr 9 '13 at 21:26

Matt Galloway's answer on this thread explains the why:

Consider the following:

id anotherObject1 = [someObject performSelector:@selector(copy)];
id anotherObject2 = [someObject performSelector:@selector(giveMeAnotherNonRetainedObject)];

Now, how can ARC know that the first returns an object with a retain count of 1 but the second returns an object which is autoreleased?

It seems that it is generally safe to suppress the warning if you are ignoring the return value. I'm not sure what the best practice is if you really need to get a retained object from performSelector -- other than "don't do that".

share|improve this answer

For posterity's sake, I've decided to throw my hat into the ring :)

Recently I've been seeing more and more restructuring away from the target/selector paradigm, in favor of things such as protocols, blocks, etc. However, there is one drop-in replacement for performSelector that I've used a few times now:

[NSApp sendAction: NSSelectorFromString(@"someMethod") to: _controller from: nil];

These seem to be a clean, ARC-safe, and nearly identical replacement for performSelector without having to much about with objc_msgSend().

Though, I have no idea if there is an analog available on iOS.

share|improve this answer
Thanks for including this.. It is available in iOS: [[UIApplication sharedApplication] sendAction: to: from: forEvent:]. I looked into it once, but it kind of feels awkward to use a UI-related class in the middle of your domain or service just to do a dynamic call.. Thanks for including this though! –  Eduardo Scoz Feb 26 '12 at 16:21
Ew! It'll have more overhead (since it needs to check whether the method is available and walk up the responder chain if it isn't) and have different error behaviour (walking up the responder chain and returning NO if it can't find anything which responds to the method, instead of simply crashing). It also doesn't work when you want the id from -performSelector:... –  tc. May 11 '12 at 12:27
@tc. It doesn't "walk up the responder chain" unless to: is nil, which it isn't. It just goes straight to the targeted object with no checking beforehand. So there isn't "more overhead". It's not a great solution, but the reason you give isn't the reason. :) –  matt Oct 17 '12 at 21:37
Thanks! This worked for me. It was otherwise crashing with a obj_msgRetain as the 'selector' was probably leaking and pre-maturely releasing an object for me. The above did the trick. –  strange Aug 21 '13 at 19:17

@c-road provides the right link with problem description here. Below you can see my example, when performSelector causes a memory leak.

@interface Dummy : NSObject <NSCopying>

@implementation Dummy

- (id)copyWithZone:(NSZone *)zone {
  return [[Dummy alloc] init];

- (id)clone {
  return [[Dummy alloc] init];


void CopyDummy(Dummy *dummy) {
  __unused Dummy *dummyClone = [dummy copy];

void CloneDummy(Dummy *dummy) {
  __unused Dummy *dummyClone = [dummy clone];

void CopyDummyWithLeak(Dummy *dummy, SEL copySelector) {
  __unused Dummy *dummyClone = [dummy performSelector:copySelector];

void CloneDummyWithoutLeak(Dummy *dummy, SEL cloneSelector) {
  __unused Dummy *dummyClone = [dummy performSelector:cloneSelector];

int main(int argc, const char * argv[]) {
  @autoreleasepool {
    Dummy *dummy = [[Dummy alloc] init];
    for (;;) { @autoreleasepool {
      //CloneDummyWithoutLeak(dummy, @selector(clone));
      CopyDummyWithLeak(dummy, @selector(copy));
      [NSThread sleepForTimeInterval:1];
  return 0;

The only method, which causes memory leak in my example is CopyDummyWithLeak. The reason is that ARC doesn't know, that copySelector returns retained object.

If you'll run Memory Leak Tool you can see the following picture: enter image description here ...and there are no memory leaks in any other case: enter image description here

share|improve this answer

Well, lots of answers here, but since this is a little different, combining a few answers I thought I'd put it in. I'm using an NSObject category which checks to make sure the selector returns void, and also suppresses the compiler warning.

#import <Foundation/Foundation.h>
#import <objc/runtime.h>
#import "Debug.h" // not given; just an assert

@interface NSObject (Extras)

// Enforce the rule that the selector used must return void.
- (void) performVoidReturnSelector:(SEL)aSelector withObject:(id)object;
- (void) performVoidReturnSelector:(SEL)aSelector;


@implementation NSObject (Extras)

// Apparently the reason the regular performSelect gives a compile time warning is that the system doesn't know the return type. I'm going to (a) make sure that the return type is void, and (b) disable this warning
// See http://stackoverflow.com/questions/7017281/performselector-may-cause-a-leak-because-its-selector-is-unknown

- (void) checkSelector:(SEL)aSelector {
    // See http://stackoverflow.com/questions/14602854/objective-c-is-there-a-way-to-check-a-selector-return-value
    Method m = class_getInstanceMethod([self class], aSelector);
    char type[128];
    method_getReturnType(m, type, sizeof(type));

    NSString *message = [[NSString alloc] initWithFormat:@"NSObject+Extras.performVoidReturnSelector: %@.%@ selector (type: %s)", [self class], NSStringFromSelector(aSelector), type];
    NSLog(@"%@", message);

    if (type[0] != 'v') {
        message = [[NSString alloc] initWithFormat:@"%@ was not void", message];
        [Debug assertTrue:FALSE withMessage:message];

- (void) performVoidReturnSelector:(SEL)aSelector withObject:(id)object {
    [self checkSelector:aSelector];

#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Warc-performSelector-leaks"
    // Since the selector (aSelector) is returning void, it doesn't make sense to try to obtain the return result of performSelector. In fact, if we do, it crashes the app.
    [self performSelector: aSelector withObject: object];
#pragma clang diagnostic pop    

- (void) performVoidReturnSelector:(SEL)aSelector {
    [self checkSelector:aSelector];

#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Warc-performSelector-leaks"
    [self performSelector: aSelector];
#pragma clang diagnostic pop

share|improve this answer

Because you are using ARC you must be using iOS 4.0 or later. This means you could use blocks. If instead of remembering the selector to perform you instead took a block, ARC would be able to better track what is actually going on and you wouldn't have to run the risk of accidentally introducing a memory leak.

share|improve this answer
Actually, blocks make it very easy to accidentally create a retain cycle which ARC does not solve. I still wish that there was a compiler warning when you implicitly used self via an ivar (e.g. ivar instead of self->ivar). –  tc. May 11 '12 at 12:32

There is one more way to bypass this warning.

<del>[instanceSelector performSelector:stopSelector];</del>

Use afterDelay overloaded method

[instanceSelector performSelector:stopSelector withObject:self afterDelay:0.0];
share|improve this answer
This is wrong, because performSelector:afterDelay executes asynchronously on the current runloop, while performSelector executes a simple synchronous method call. –  Tamás Zahola Jan 15 at 9:56
Why wrong? the question is about compiler warning and not about thread model and/or asynchronous processing. –  antonio Jan 20 at 1:53

You could also use a protocol here. So, create a protocol like so:

@protocol MyProtocol

In your class that needs to call your selector, you then have a @property.

@interface MyObject
    @property (strong) id<MyProtocol> source;

When you need to call @selector(doSomethingWithObject:) in an instance of MyObject, do this:

[self.source doSomethingWithObject:object];
share|improve this answer
Hey Wu, thanks, but the point of using the NSSelectorFromString is when you don't know which selector you want to call during runtime. –  Eduardo Scoz Aug 5 '13 at 1:42

protected by chown Dec 13 '12 at 14:28

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