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Imagine the following situation: you have a background task (the term "task" here means a random computational unit, not an NSTask!), that is implemented using any of the modern technology such as Grand Central Dispatch or Operation Queues. Some controller object on main thread wants to monitor the progress of this background task and report it to a user.

Task progress can have following characteristics:

  • Be indeterminate or determinate
    Because controller object must know when to switch NSProgressIndicator to the appropriate style. We can use a convention that progress is treated as indeterminate until the actual progress value raises from zero.
  • Progress value itself
    A simple float value
  • Localized description of a current phase
    NSString, because communication with user is good

What design suits these requirements at best while being the most Cocoa-ish?

There can be variants.


Before firing up the task set your controller object as delegate.

@protocol MyBackgroundTaskDelegate
- (void) progress: (float) value; // 0.0…1.0
- (void) workingOn: (NSString*) msg; // @"Doing this, doing that…"

Actually, i successfully used this template many times, but it feels a little too verbose.

Block callback

Very similar to delegation, but keeps code in one place.

// Starting our background task...
[MyTask startComputationWithProgressHandler: ^(float progress, NSString* msg)
    // Switching to the main thread because all UI stuff should go there...
    dispatch_async(dispatch_get_main_queue(), ^()
        self.progressIndicator.progress = progress;
        self.informationalMessage = msg;

KVO or polling of a progress properties

In this case background task object must have two properties similar to these:

@property(readonly, atomic) float progress;
@property(readonly, atomic) NSString* message;

And a client (our controller object) should set itself as an observer of these properties. The major flaw i see in this solution is that KVO-notifications always arrive on the same thread that caused the change. While you can force your observer (callback) method to run on a particular GCD queue it may not be always appropriate.


Background task sends notifications and client listens to them.

Is there any other patterns applicable to this situation? What solution can be treated as a most modern and Cocoa-ish?

share|improve this question
+1 Well asked! I think you should also consider asking the background object itself (using atomic properties) periodically? – trojanfoe Sep 13 '12 at 9:30
@trojanfoe As far as i know, polling in programming is treated a bad practice, even if it doesn't bring with itself any performance issues. The task object is one that knows better when advancements in job are made, so its up to it to notify the interested parties. – Konstantin Pavlikhin Sep 13 '12 at 9:40
Sure, but it's still a consideration. You could possibly have some notification that says 'there is updated data to read' and have the actual retrieval of that data using calls into the background object. – trojanfoe Sep 13 '12 at 9:40
I agree with Konstantin Pavlikhin; modern apps don't poll. It's the programming equivalent of your kid asking "are we there yet?". The background operation should notify anyone that cares when it's got new state. And if that state can be part of the notification then that saves your other code the overhead of asking. – geowar Sep 14 '12 at 3:55

When it comes to What is the Cocoa-way of observing progress of a background task? I would say delegation and NSNotificationCenter because blocks and KVO were introduced later, and hence didn't originally exist in the first Cocoa code writting years. In fact optional protocol methods were not present in previous objc versions too, everything was required by default.

From that you can actually see that blocks are a simpler way of implementing adhoc delegates, where the receiver of the block declares what parameters are passed to the block, and you are free to do whatever you want with them in your block. And KVO seems to be a less boilerplate way of implementing NSNotification with a more standardized approach to properties, useful for joining the UI created in what previously was called Interface Bilder, and simplifying the "what the hell do I have to do to know when this value changes" which requires a lot of documentation with NSNotification and long constants.

But I still think that there are places for each of these techniques: blocks are nice for mini-adhoc protocols, but would be a serious bother if you need a medium or higher interface area or bidirectional interface, and KVO doesn't help with watching global variables or values outside of a class/object, or stuff you don't want to make part of your public interface.

So my definitive answer is:

  • 1 to 1 simple communication: blocks
  • 1 to 1 complex communication: delegates/protocols
  • 1 to many simple communication: KVO (where possible)
  • 1 to many complex communication: NSNotifications

As always, pick the best tool for each problem, and consider I'm guilty of implementing all of the above in none of the suggested ways!

share|improve this answer

For the type of task you describe, I feel that NSNotificationCenter is the best option for a generic pattern. The reason is that you can't know, generally, how many external observers there are. The notification system already supports an arbitrary number of observers for an event, whereas the other non-polling options (delegation and blocks) are more typically one-to-one unless you do extra work to support multiple registrations.

As you pointed out yourself, polling is a bad idea if you can avoid it.

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In my experience delegation or block callback are the best design choices. Choosing one over the other is mostly dictated by which one is more convenient to code and support for the particular situation. Both are asynchronous. Block callbacks usually reduce the necessity for additional instance variables since blocks capture variables within their scope. Of course for both it's necessary to be aware on which thread the call back is executed or delegate method is called.

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Surely the best design choice depends on specific requirements? Delegation or block callback are not useful in a one to many messaging situation, unless you manually implement an array of delegates beforehand. OTOH notifications and KVO allow multiple listeners easily. – Grzegorz Adam Hankiewicz Oct 4 '12 at 22:49
Agreed, specific requirements are always important. Notifications and KVO are great as long as you understand their semantics related to threading. Unless you use a notification queue, notifications are synchronous and are delivered on the same thread as the sender. Same is true of notifications sent via KVO. – Richard Stahl Oct 4 '12 at 23:56

I'd go with KVO because you get it for free when using @properties basically. BUT I would not recommend using plain KVO. because that will always call - observerValueOfKeyPath... and once you observe multiple keypaths it gets annoying to maintain. you have this mega function with lots of if(keyPath==bla)......

I recommend MAKVONotificationCenter by MikeAsh for this. It also saves you from many a crash when you forget to remove an observer when you dont need it anymore

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