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i have been asked a question about delegates, and i had some doubts about the right answer :

When you create your own protocol, what makes the difference between using a delegate, or just instantiating the class, and call a simple method?

I thought: with the delegate, you don't bother instantiate a new whole class, and you can set the delegate outside the class, and just call the method with the "delegate". Is it also a good thing to use delegates to avoid the unlimited imports? as when classA imports classB, and if you instantiate the class instead of using delegates, classB also imports classA, and it causes a crash?

Are there any other good reasons when you create your own protocol/delegate?

Thanks for sharing

share|improve this question
Sounds like you should probably scratch up on delegates as your question is pretty confused – Paul.s Aug 15 '12 at 10:25
@Paul.s is it really confusing? What would be your answer? – Paul Aug 15 '12 at 10:38
@Paul.s so just give it a try? if it is clear for you, maybe you could share? – Paul Aug 15 '12 at 11:07
@Paul.s come on... i did not expect this kind of answer in this topic. This is silly. You should just answer or just do not comment, and please don't put yourself on the same side as the "people" who help, i have been helping for a long time others in other languages, i have never answered to someone like you did. This is just unproductive. when you are not putting in your own leg work to find answers Come on... – Paul Aug 15 '12 at 11:21
@Paul.s : it's okay, i think it's time Paul.s, i won't stay more here with you discussing about the pros and cons of your comments. Others had good things to say. – Paul Aug 15 '12 at 11:49
up vote 1 down vote accepted

Well, look at an example.

Assume you have "something" that happens to display a window as part of whatever it's doing. Without delegates or a similar setup, you'd have to be a subclass of "Window" to be able to handle window stuff, and you'd have to be a subclass of something else to handle whatever else you're doing. So it's either not possible, or you get into all sorts of multiple inheritance weirdness.

Thus, you would probably end up making a subclass of whatever, and a sublcass of "Window", and instanciate objects for both, and have them communicate somehow. Which is exactly what a delegate does, except that you have to do it over and over again for all sorts of things. Like imagine a window with 10 buttons in it, each of which needs a button sublcass that doesn't really do all that much except for calling "ButtonXClicked" on your actual class. Again, see the "delegate" reimplemented here (yes, in Cocoa it's not a delegate; that would be the target/action. But it's not all that different from a delegate)?

Thus, delegates are pretty much a convenience to connect objects that don't really have a "kind of" relationship as implied by deriving classes.

It also allows you to connect objects that are "created elsewhere", like when you have something that creates an object and returns it to you: you can't really subsitute a subclass there, but the API might still allow you to do a "setDelegate:"-like thing to connect that object to your application.

Sometimes delegates are more appropiate, sometimes subclasses are better, and there's probably cases where it doesn't really matter.

share|improve this answer
thanks, alright, in your example with the 10 buttons, how would you use it : window.delegate = layer and delegate buttonXClicked:buttonNumber];? What about Layer *layer = ...alloc ] init]; and [layer buttonXClicked:buttonNumber];? (but anyway, i get your point, and there's probably cases where it doesn't really matter. ) – Paul Aug 15 '12 at 11:02

I suppose the main advantage of delegates is that they allow you to change the behaviour of objects at run time. They also help enforce separation between functional areas.

Let's look at a concrete example: NSTableView's data source. NSTableView provides the UI implementation for a table in OS X. The data source delegate provides functionality for getting hold of the data to populate the table.

In the olden days before I came to Objective-C and programmed in C++ and Java, I would have implemented a table view by having the UI class with some protected methods for managing the data which would be subclassed to create different tables views.

This approach is perfectly valid but it mixes up functionality for managing the data with functionality for display and is not very flexible. Once you have said widget X is a table view which accesses data in a certain way, that is all set in stone. If you want widget X to get its data in a different way, you have to either build that flexibility into the UI class or destroy it and recreate it from a different subclass.

On the other hand, the delegate pattern allows NSTableView to change its data source completely with a simple assignment and reload. Also, the UI class is not polluted with data handling code and the data handling class is not polluted with UI handling code.

You can do delegates without using protocols, and indeed, in pre-10.5 versions of Cocoa, this was the norm rather than the exception, but, if you use a protocol to define the delegate API you get compiler support for error checking your delegate implementation and a minimal level of documentation.

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thanks JeremyP for the answer, yes okay i agree with what you said, it is more clear now than it was before. Thanks! – Paul Aug 15 '12 at 11:52

The question is one of generalization. It's best to avoid unlimited imports.

Imagine this scenario. You have a timer (from a class called KDTimer) that runs, and expires at some point. Now you want to use it in 3 game modes A,B and C (which all correspond to 3 different classes). Now the different game modes will react differently to the expiration of the timer. The difference you get is:


You define your protocol in KDTimer, set a,b or c to be its delegate (actually a,b or c sets itself to be the timers delegate), and do

-(void) increaseProgress {
[_delegate timeExpired];

And you're golden.


#import "A"
#import "B"
#import "C"

@synthesize a,b,c;
-(void) increaseProgress {
[self.a timeExpired];
[self.b timeExpired];
[self.c timeExpired];
//we don't really know which instance should be messaged

The point is, not using delegates can result in complex code, by using them, you get more reusable components. The timer doesn't need to know about the the game modes, it's just trying tell that it has expired.

share|improve this answer
As someone who understands delegates and their uses I am struggling to see what use your example code has in illustrating and relevant concepts :S – Paul.s Aug 15 '12 at 10:37
@Kaan Dedeoglu : thanks, so it is a good way to organize the code, do you see anything else? – Paul Aug 15 '12 at 10:38
@Paul.s Maybe the code example is a very specific one and is not exactly in the sense that Cocoa uses it, but I think it explains the separation of code, and the loose coupling you get from it – Kaan Dedeoglu Aug 15 '12 at 10:51
I agree with @Paul.s. In the first case, you have one delegate, in the second, you effectively have three. You can eliminate the imports using a protocol, but that is not anything to do with delegates. – JeremyP Aug 15 '12 at 10:51
@JeremyP that's what I was looking to say but couldn't think how, this example is comparing Apples to Oranges as the code has been unnecessarily complicated in the middle. The only thing that needed to change was the imports – Paul.s Aug 15 '12 at 10:53

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