3

I define a NSInteger counter and updated its value in a callback like the following code shows (callback is in another thread):

-(void) myFunc {
  NSLog(@"initialise counter...");
  // I try to use volatile to make it thread safe
  __block volatile NSInteger counter = 0;

  [self addObserver:myObserver withCallback:^{
     // this is in another thread
     counter += 1;
     NSLog(@"counter = %d", counter);
  }];
}

I use volatile keyword to make the counter thread safe, it is accessed in a callback block which belongs to another thread.

When I invoke myFunc two times:

// 1st time call
[self myFunc];
// 2nd time call
[self myFunc];

the output is like this:

initialise counter...
counter = 1;
counter = 2;
counter = 3;
counter = 4;
counter = 1; // weird
initialise counter...
counter = 2; // weird
counter = 3;
counter = 1; // weird
counter = 4;

It looks like the 2nd time call produce a counter with wrong initial value, and the output before counter=4 is counter=1 which is also weird.

Is it because my code is not thread safe even with volatile keyword? If so, how to make my counter thread safe? If it is thread safe, why I get weird output?

15
  • 1
    Why dont you keep the Counter as a global variable?
    – Bharathi
    Jun 23, 2016 at 11:34
  • 1
    I wonder if this is not caused by NSLog being called from different threads.
    – Sulthan
    Jun 23, 2016 at 11:36
  • 4
    volatile doesn't ensure thread safety. It prevents certain types of optimizations. The intent is for variables which may be modified by outside programs like device drivers. (See: Volatile) Jun 23, 2016 at 11:37
  • 1
    @Bharathi , do you mean put it in the class level like static volatile NSInteger counter = 0? and in the beginning of myFunc just write counter=0? But what makes the difference with my code compare to making it global from thread-safe's perspective?
    – Leem.fin
    Jun 23, 2016 at 11:38
  • 1
    @JefferyThomas, if not volatile, what would be your suggestion to fix it?
    – Leem.fin
    Jun 23, 2016 at 11:39

3 Answers 3

6
+25

For the simple case of an atomic counter, GCD is overkill. Use the OSAtomic functions:

-(void) myFunc {
  static int64_t counter;

  [self addObserver:myObserver withCallback:^{
     // this is in another thread
     int64_t my_value = OSAtomicIncrement64Barrier(&counter);
     NSLog(@"counter = %d", my_value);
  }];
}

Note that the code logs the result of the increment function rather than the static variable. The result gives you the atomic result of your specific operation. Using the static variable would give you a snapshot of the counter that's not atomic with respect to your increment operation.

5
  • Do I have to use int64_t for a special reason? What about using NSInteger? And I got error "Implicit declaration of function OSAtomicIncrement64Barrier is invalid in C99", Why?
    – Leem.fin
    Jun 25, 2016 at 18:51
  • 1
    You need to #import <libkern/OSAtomic.h> to get the declarations, although that should already be imported by Cocoa, Foundation, or CoreFoundation. The argument to the function is a pointer. So, it's not valid to use a different integer type because then the address-of (&) operator produces an incompatible pointer. There's also OSAtomicIncrement32Barrier(), which takes a pointer to int32_t. Jun 25, 2016 at 19:12
  • what is the boolean version for it? I mean, I have a boolean variable also needs to be atomic.
    – Leem.fin
    Jun 25, 2016 at 21:46
  • There's no such thing as a variable being atomic. Operations are atomic or not. So, what operations do you want to perform atomically on a boolean variable? Jun 26, 2016 at 7:55
  • Irrespective of its current value? That is, the new value doesn't depend on its current value? Simple assignment is atomic in that sense. However, is the boolean related to other data (like is it a flag to indicate when some other data is ready or updated)? Jun 26, 2016 at 21:13
0

First of all using a local variable is corrupted. It will be removed from stack, when the function returns. Therefore the block copies the variable's value (capture) when the block definition is executed (counter = 0) and works on the copy.

If you have a shared resource as the counter is, you have to put accesses to it into a block.

// global
dispatch_queue_t counterQueue;
int counter;

// initialize
counterQueue = dispatch_queue_create( "com.yourname.counterQueue", DISPATCH_QUEUE_SERIAL);
counter = 0;

// Whenever you read or write to counter
dispatch_async( counterQueue, 
^{
   counter++;
   NSLog( @"%d", counter" );
}

// or
int lastValue;
dispatch_sync( counterQueue, 
^{
   lastValue = counter;
}
// Do something with it.
3
  • could you please make your code more clear? For example the // global part, means put it outside the function? What about the initialize part? inside the function or outside ?
    – Leem.fin
    Jun 25, 2016 at 15:54
  • I tried your answer, but my code get stuck when put dispatch_sync(counterQueue, ^{ counter++; } inside the callback block of observer.
    – Leem.fin
    Jun 25, 2016 at 16:05
  • If your code execution gets stuck there, another block is running in that queue. Check that. Jun 25, 2016 at 16:44
0

There are lots of things wrong with your code. It looks like you're calling myFunc repeatedly. Each time you do, it creates a new instance of the counter.

Make your counter an instance variable or app-wide global.

A simple way to make incrementing (and logging) the counter thread-safe is to make the body of the observer use dispatch_async(dispatch_get_main_queue()<your code here>). That way the code that messes with the counter always runs on the main thread, even if it's called from other threads. This isn't the most performant way to handle it, but it's easy.

Otherwise you're going to need to use locks or some other concurrency technique. That requires a strong understanding of thread safety, which your post, frankly, shows that you don't have. (Not to be mean, it's one of the more difficult subjects in computing.)

EDIT:

As Avi points out in his comment, using the main queue to manage the counter would cause the other threads to block waiting on the main thread, and is not a very good solution. (It would work, but would take away just about all the performance benefit of using multiple threads)

It would be better to set up a single serial queue and make that a lazily loaded property of the object that manages this counter, protected with dispatch_once(). However, I don't have enough coffee on-board to write out that code in a forum post.

7
  • 2
    For a simple NSInteger an atomic property should be sufficient
    – Paulw11
    Jun 23, 2016 at 11:53
  • @DuncanC: please don't recommend using main_queue as a synchronization point. Recommend creating a serial queue.
    – Avi
    Jun 23, 2016 at 11:55
  • True, it might be enough. As long as you're not trying to write custom setters/getters, and ALWAYS use the property, not the backing instance variable, that should work.
    – Duncan C
    Jun 23, 2016 at 11:56
  • @Paulw11, I don't think so. It depends on what kind of guarantees are needed. atomic only assures that if multiple memory locations are being updated, that no reader sees a partial update. It does not guarantee any kind of ordering.
    – Avi
    Jun 23, 2016 at 11:57
  • The reason why I didn't make counter global is because every time call myFunc I need to reset my counter, and callback is going to check with the new start counter. I don't think I should make the counter global. With this being said, do you have other concerns to make it global?
    – Leem.fin
    Jun 23, 2016 at 11:59

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