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Im posting this question because I have seen a lot of confusion over this topic and I spent several hours debugging NSOperation subclasses as a result.

The problem is that NSOperation doesnt do you much good when you execute Asynchronous methods which are not actually complete until the asynchronous callback completes.

If the NSOperation itself is the callback delegate it may not even be sufficient to properly complete the operation due to the callback occurring on a different thread.

Lets say you are in the main thread and you create an NSOperation and add it to an NSOperationQueue the code inside the NSOperation fires an Asynchronous call which calls back to some method on the AppDelegate or a view controller.

You cant block the main thread or the UI will lock up, so you have two options.

1) Create an NSOperation and add it to the NSOperationQueue with the following signature:

[NSOperationQueue addOperations:@[myOp] waitUntilFinished:?]

Good luck with that. Asynchronous operations usually require a runloop so it wont work unless you subclass NSOperation or use a block, but even a block wont work if you have to "complete" the NSOperation by telling it when the callback has finished.

So...you subclass NSOperation with something akin to the following so the callback can tell the operation when its finished:

//you create an NSOperation subclass it includes a main method that
//keeps the runloop going as follows
//your NSOperation subclass has a BOOL field called "complete"

-(void) main
{

    NSRunLoop *runLoop = [NSRunLoop currentRunLoop];

    //I do some stuff which has async callbacks to the appDelegate or any other class (very common)

    while (!complete && [runLoop runMode:NSDefaultRunLoopMode beforeDate:[NSDate distantFuture]]);

}

//I also have a setter that the callback method can call on this operation to 
//tell the operation that its done, 
//so it completes, ends the runLoop and ends the operation

-(void) setComplete {
    complete = true;
}

//I override isFinished so that observers can see when Im done
// - since my "complete" field is local to my instance

-(BOOL) isFinished
{
    return complete;
}

OK - This absolutely does not work - we got that out of the way!

2) The second problem with this method is that lets say the above actually worked (which it does not) in cases where runLoops have to terminate properly, (or actually terminate at all from an external method call in a callback)

Lets assume for a second Im in the main thread when I call this, unless I want the UI to lock up for a bit, and not paint anything, I cant say "waitUntilFinished:YES" on the NSOperationQueue addOperation method...

So how do I accomplish the same behavior as waitUntilFinished:YES without locking up the main thread?

Since there are so many questions regarding runLoops, NSOperationQueues and Asynch behavior in Cocoa, I will post my solution as an answer to this question.

Note that Im only answering my own question because I checked meta.stackoverflow and they said this is acceptable and encouraged, I hope the answer that follows helps people to understand why their runloops are locking up in NSOperations and how they can properly complete NSOperations from external callbacks. (Callbacks on other threads)

share|improve this question
1  
Answering your own question is encouraged, but you should first ask the question as a question, then answer it using the standard SO answer system. What you've just written is a blog post. – Jeremy W. Sherman Sep 5 '12 at 16:04
1  
I just did, I wanted to make sure the question was clear wasnt giving the answer in the question...answer follows – deleted_user Sep 5 '12 at 16:20

I'm not sure why you would want all the overhead of NSOperation just for a run loop, but I suppose if you are using an operation queue design then maybe it would be useful. The reason I say this is usually you would just perform a selector in background and call CFRunLoopRun from there.

That aside, below is an example NSOperation subclass that uses a run loop. Just subclass it and override willRun and call your method that requires a run loop to work. Once all methods called have finished, thus all run loop sources have been handled - the operation will end automatically. You can test it out by putting a simple perform selector after delay in the willRun method and a break point in completeOperation and you will see the operation will last as long as it takes to finish performing that. Furthermore, if you were to perform after delay something else at that point then the operation will continue to run. As I said it keeps running as long as there is something that requires a run loop to function, even if those are added after it was started.

There is no need for a stop method because as soon as everything has finished and there are no more sources to process it will end automatically.

MHRunLoopOperation.h

#import <Foundation/Foundation.h>

@interface MHRunLoopOperation : NSOperation

// Override and call methods that require a run loop.
// No need to call super because the default implementation does nothing.
-(void)willRun;

@end

MHRunLoopOperation.m

#import "MHRunLoopOperation.h"

@interface MHRunLoopOperation()

@property (nonatomic, assign) BOOL isExecuting;
@property (nonatomic, assign) BOOL isFinished;

@end

@implementation MHRunLoopOperation

- (BOOL)isAsynchronous {
    return YES;
}

- (void)start {
    // Always check for cancellation before launching the task.
    if (self.isCancelled)
    {
        // Must move the operation to the finished state if it is canceled.
        self.isFinished = YES;
        return;
    }

    // If the operation is not canceled, begin executing the task.
    [self willChangeValueForKey:@"isExecuting"];
    [NSThread detachNewThreadSelector:@selector(main) toTarget:self withObject:nil];
    _isExecuting = YES;
    [self didChangeValueForKey:@"isExecuting"];
}

- (void)main {
    @try {
        // Do the main work of the operation here.

        [self willRun];

        CFRunLoopRun(); // It waits here until all method calls or remote data requests that required a run loop have finished. And after that then it continues.

        [self completeOperation];
    }
    @catch(...) {
        // Do not rethrow exceptions.
    }
}

-(void)willRun{
      // To be overridden by a subclass and this is where calls that require a run loop are done, e.g. remote data requests are started.
}

-(void)completeOperation{
    [self willChangeValueForKey:@"isFinished"];
    [self willChangeValueForKey:@"isExecuting"];

    _isExecuting = NO;
    _isFinished = YES;

    [self didChangeValueForKey:@"isExecuting"];
    [self didChangeValueForKey:@"isFinished"];
}

@end

What the heck, here is an example subclass too :-)

@interface TestLoop : MHRunLoopOperation

@end

@implementation TestLoop

// override
-(void)willRun{
    [self performSelector:@selector(test) withObject:nil afterDelay:2];
}

-(void)test{
    NSLog(@"test");

    // uncomment below to make keep it running forever
    //[self performSelector:@selector(test) withObject:nil afterDelay:2];
}

// overridden just for demonstration purposes 
-(void)completeOperation{
     NSLog(@"completeOperation");
     [super completeOperation];
}

@end

Just test it out like this:

TestLoop* t = [[TestLoop alloc] init];
[t start];
share|improve this answer
    
Full disclosure, this is not my area of expertise, but I thought the whole point of NSOperation is that it hides the underlying implementation of how it is accomplishing work on a background thread/queue. As far as I know, working with the NSThread API directly is sort of frowned upon, in terms of best practices. – horseshoe7 Jan 27 at 8:41
    
Also, I don't see where you tell the operation it's finished. I see in your main method it does some setup (willRun), but then calls completeOperation, which implies it does all that synchronously and finishes. The use case was that I want to retrieve some data remotely (in the background) and that object responsible for retrieving it expects to be run from a thread with a run loop on it (fine on the main thread but not necessarily in an NSOperation). I'm not clear how you do that with your solution. – horseshoe7 Jan 27 at 8:43
    
There is no need to tell the operation to finish because the run loop finishes automatically when there is nothing left to do. All you have to do is subclass the operation, override willRun and retrieve your data remotely in there. When it calls CFRunLoopRun it waits until your remote data request finishes, and when it does it then continues and finishes the operation. Hope that helps. – malhal Jan 27 at 10:18
    
sorry, it doesn't help, because what if I'm retrieving my data remotely on another thread? I think your implementation assumes that you are retrieving data on the same thread. If it's all coming in from a different thread, I fail to see how this run loop will "know" when your task is finished. – horseshoe7 Feb 1 at 4:12
    
Run loops simply monitor the number of sources, when it's zero it ends. Your remote data request will register itself as a source, it then can do whatever it wants, create threads if necessary, when it ends it calls back to this run loop's thread to say it is finished and removes itself as a source and now the source count is zero and hence the run loop ends. This is all done automatically for you if you use the built in network classes. From what you've said I'm wondering why you aren't just using NSURLSession? It has its own queue and is very simple to use. – malhal Feb 2 at 1:49

I didn't read these answers in any great detail because these approaches are a) way too complicated and b) not using NSOperation the way it's designed to be used. You guys seem to be hacking functionality that already exists.

The solution is to subclass NSOperation and override the getter isConcurrent to return YES. You then implement the - (void)start method and begin your asynchronous task. You are then responsible for finishing it, meaning you have to generate KVO notifications on isFinished and isExecuting so that the NSOperationQueue can know the task is complete.

(UPDATE: Here's how you would subclass NSOperation) (UPDATE 2: Added how you would handle a NSRunLoop if you have code that requires one when working on a background thread. The Dropbox Core API for example)

// HSConcurrentOperation : NSOperation
#import "HSConcurrentOperation.h"  

@interface HSConcurrentOperation()
{
@protected

    BOOL _isExecuting;
    BOOL _isFinished;

    // if you need run loops (e.g. for libraries with delegate callbacks that require a run loop)
    BOOL _requiresRunLoop;
    NSTimer *_keepAliveTimer;  // a NSRunLoop needs a source input or timer for its run method to do anything.
    BOOL _stopRunLoop;
}
@end

@implementation HSConcurrentOperation

- (instancetype)init
{
    self = [super init];
    if (self) {
        _isExecuting = NO;
        _isFinished = NO;

    }
    return self;
}

- (BOOL)isConcurrent
{
    return YES;
}

- (BOOL)isExecuting
{
    return _isExecuting;
}

- (BOOL)isFinished
{
    return _isFinished;
}

- (void)start
{

    [self willChangeValueForKey:@"isExecuting"];
    NSLog(@"BEGINNING: %@", self.description);
    _isExecuting = YES;
    [self didChangeValueForKey:@"isExecuting"];

    _requiresRunLoop = YES;  // depends on your situation.
    if(_requiresRunLoop)
    {
       NSRunLoop *runLoop = [NSRunLoop currentRunLoop];

       // run loops don't run if they don't have input sources or timers on them.  So we add a timer that we never intend to fire and remove him later.
       _keepAliveTimer = [NSTimer timerWithTimeInterval:CGFLOAT_MAX target:self selector:@selector(timeout:) userInfo:nil repeats:nil];
       [runLoop addTimer:_keepAliveTimer forMode:NSDefaultRunLoopMode];

       [self doWork];

       NSTimeInterval updateInterval = 0.1f;
       NSDate *loopUntil = [NSDate dateWithTimeIntervalSinceNow:updateInterval];
       while (!_stopRunLoop && [runLoop runMode: NSDefaultRunLoopMode beforeDate:loopUntil])
       {
           loopUntil = [NSDate dateWithTimeIntervalSinceNow:updateInterval];
       }

    }
    else
    {
      [self doWork];
    }
}

- (void)timeout:(NSTimer*)timer
{
    // this method should never get called.

    [self finishDoingWork];
}

- (void)doWork
{
    // do whatever stuff you need to do on a background thread.
    // Make network calls, asynchronous stuff, call other methods, etc.

    // and whenever the work is done, success or fail, whatever
    // be sure to call finishDoingWork.

    [self finishDoingWork];
}

- (void)finishDoingWork
{
   if(_requiresRunLoop)
   {
      // this removes (presumably still the only) timer from the NSRunLoop
      [_keepAliveTimer invalidate];
      _keepAliveTimer = nil;

      // and this will kill the while loop in the start method
      _stopRunLoop = YES;
   }

   [self finish];

}
- (void)finish
{
    // generate the KVO necessary for the queue to remove him
    [self willChangeValueForKey:@"isExecuting"];
    [self willChangeValueForKey:@"isFinished"];

    _isExecuting = NO;
    _isFinished = YES;

    [self didChangeValueForKey:@"isExecuting"];
    [self didChangeValueForKey:@"isFinished"];

}

@end
share|improve this answer
    
Definitely the right solution on this one. This answer also helped me setup my finish state method. – Brad Goss Nov 28 '14 at 1:50
    
Code examples would be nice. – NYC Tech Engineer Feb 5 '15 at 0:56
    
updated my answer! Good luck and godspeed. – horseshoe7 Feb 6 '15 at 9:20
    
The "timer" technique impressed) – Tim Jul 22 '15 at 6:14
    
Why didn't you just use CFRunLoopStop? – malhal Dec 9 '15 at 12:46

The answer to problem #1

I have an NSOperation which calls an Asynchronous operation in its main method which calls back outside the operation and I need to tell the operation its complete and end the NSOperation:

The following code is amended from above

//you create an NSOperation subclass it includes a main method that
//keeps the runloop going as follows
//your NSOperation subclass has a BOOL field called "complete"
//ADDED: your NSOperation subclass has a BOOL field called "stopRunLoop"
//ADDED: your NSOperation subclass has a NSThread * field called "myThread"
-(void) main
{
    myThread = [NSThread currentThread];
    NSRunLoop *runLoop = [NSRunLoop currentRunLoop];

    //I do some stuff which has async callbacks to the appDelegate or any other class (very common)

    while (!stopRunLoop && [runLoop runMode:NSDefaultRunLoopMode beforeDate:[NSDate distantFuture]]);

    //in an NSOperation another thread cannot set complete 
    //even with a method call to the operation
    //this is needed or the thread that actually invoked main and 
    //KVO observation will not see the value change
    //Also you may need to do post processing before setting complete.
    //if you just set complete on the thread anything after the 
    //runloop will not be executed.
    //make sure you are actually done.

    complete = YES;

}


-(void) internalComplete
{
    stopRunloop = YES;
}

//This is needed to stop the runLoop, 
//just setting the value from another thread will not work,
//since the thread that created the NSOperation subclass 
//copied the member fields to the
//stack of the thread that ran the main() method.

-(void) setComplete {
    [self performSelector:@selector(internalComplete) onThread:myThread withObject:nil      waitUntilDone:NO];
}

//override isFinished same as before
-(BOOL) isFinished
{
    return complete;
}

Answer to problem #2 - You cant use

[NSOperationQueue addOperations:.. waitUntilFinished:YES]

Because your main thread will not update, but you also have several OTHER operations which must not execute until this NSOperation is complete, and NONE of them should block the main thread.

Enter...

dispatch_semaphore_t

If you have several dependent NSOperations which you need to launch from the main thread, you can pass a dispatch semaphore to the NSOperation, remember that these are Asynchronous calls inside the NSOperation main method, so the NSOperation subclass needs to wait for those callbacks to complete. Also method chaining from callbacks can be a problem.

By passing in a semaphore from the main thread you can use [NSOperation addOperations:... waitUntilFinished: NO] and still prevent other operations from executing until your callbacks have all completed.

Code for the main thread creating the NSOperation

//only one operation will run at a time
dispatch_semaphore_t mySemaphore = dispatch_semaphore_create(1);

//pass your semaphore into the NSOperation on creation
myOperation = [[YourCustomNSOperation alloc] initWithSemaphore:mySemaphore] autorelease];

//call the operation
[myOperationQueue addOperations:@[myOperation] waitUntilFinished:NO];

...Code for the NSOperation

//In the main method of your Custom NSOperation - (As shown above) add this call before
//your method does anything
//my custom NSOperation subclass has a field of type dispatch_semaphore_t
//named  "mySemaphore"

-(void) main
{
    myThread = [NSThread currentThread];
    NSRunLoop *runLoop = [NSRunLoop currentRunLoop];

    //grab the semaphore or wait until its available
    dispatch_semaphore_wait(mySemaphore, DISPATCH_TIME_FOREVER);

    //I do some stuff which has async callbacks to the appDelegate or any other class (very common)

    while (!stopRunLoop && [runLoop runMode:NSDefaultRunLoopMode beforeDate:[NSDate distantFuture]]);

    //release the semaphore
    dispatch_semaphore_signal(mySemaphore);

    complete = YES;

}

When your callback method on another thread calls setComplete on the NSOperation 3 things will happen,

  1. The runloop will be stopped allowing the NSOperation to complete (which it otherwise would not)

  2. The semaphore will be released allowing other operations sharing the semaphore to run

  3. The NSOperation will complete and be dealloced

If you use method 2 you can wait on arbitrary asynchronous methods invoked from an NSOperationQueue, know that they will complete the runloop, and you can chain callbacks in any way you like, while never blocking the main thread.

share|improve this answer
    
You are missing an autorelease pool. – David H Sep 5 '12 at 20:34
    
Docs say NSOperationQueue has it built in – deleted_user Sep 6 '12 at 0:13
1  
You misinterpreted my comment. The NSOperation subclass should have its own autorelease pool. I'm thinking this is in the Concurrent Programming guide but maybe not. If you look at other sample projects on the web you will see them. – David H Sep 6 '12 at 1:04
    
Yeah no I got it, I think I read several places that you dont need to create them for NSOperations - but given the murkiness of Apples threading docs I wouldnt be surprised – deleted_user Sep 6 '12 at 2:38
1  
You don't have to have it -- queues have an autorelease pool -- but you'll need one if you want deterministic pool drain behavior. Queues -- both NSOQ and GCD -- may only drain their pools periodically; may only drain them after several operations are executed. In general, with all things threading, it is better to explicitly declare your behavior. – bbum Sep 19 '12 at 17:30

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