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I guess @synchronized blocks are not object dependent but thread dependent...right? In that case why do we pass self?

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4 Answers 4

up vote 16 down vote accepted

@synchronized is a construct provided by the language to create synchronized scopes. As it would be highly inefficient to use a simple global shared mutex, and thus serializing every single @synchronized scope in the application, the language allows us to specify a synchronization point.

Then it's up to the developer(s) to decide which synchronization points are appropriate for the task.

On an instance method, using self is common: the instance is the synchronization point. The @synchronized(self) scope can be called on any number of instances, but only once for a given instance. Every @synchronized(self) scope will be serialized for a given instance.

Of course, you are free to use another synchronization point if you want to do so. You can use the class (@synchronized(self.class)) or anything else that suits your needs.

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Thanks! What I need to know exactly is how does the @synchronized(self) differ from @synchronized(self.class)? What I understood from your statement is, when we lock a block with @synchronized(self) it ensures that no two threads will run that block against an object. And when we use @synchronized(self.class), it will ensure that no two threads will run that block against any objects of that class. Am I correct? –  Advaith Jul 26 '12 at 10:12
You are indeed correct. –  fabrice truillot de chambrier Jul 26 '12 at 10:23
Thank you so much! :) –  Advaith Jul 26 '12 at 10:26
Thanks...that was useful. –  Jayprakash Dubey Aug 6 '13 at 9:55

The object passed in is used to differentiate which @synchronized blocks correspond to locking each other. Using self is often convenient, but sometimes it’s a good idea to use some other object if you want to only synchronise smaller, more specific sections of code (eg. synchronise all access to a specific NSMutableDictionary, rather than synchronising everything in the whole instance)

I’m not sure what you mean by “thread dependent”. The purpose of @synchronized is for blocks of code that may be running on different threads, and you need to ensure only 1 runs at any time, without overlapping. Important for performing actions that aren’t thread-safe (like mutating collections, for example).

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@synthesize? Typo? –  trojanfoe Jul 26 '12 at 9:37
Oops – yes, it’s a typo. I must have missed that when I fixed all the other ones too :) –  DouglasHeriot Jul 26 '12 at 9:40

The object passed to the @synchronized directive is a unique identifier used to distinguish the protected block. If you execute the preceding method in two different threads, passing a different object for the anObj parameter on each thread, each would take its lock and continue processing without being blocked by the other. If you pass the same object in both cases, however, one of the threads would acquire the lock first and the other would block until the first thread completed the critical section.

As a precautionary measure, the @synchronized block implicitly adds an exception handler to the protected code. This handler automatically releases the mutex in the event that an exception is thrown. This means that in order to use the @synchronized directive, you must also enable Objective-C exception handling in your code. If you do not want the additional overhead caused by the implicit exception handler, you should consider using the lock classes.

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I question this practice, as it is a known anti-pattern in other languages. The crux of the issue is that someone else could also synchronize on your object, possibly causing deadlocks and other issues that would not have been present had you been using a private NSObject for the lock. For example:

@implementation foo
-(void) bar
    @synchronized(self) {
        @synchronized(sharedLock) {
            //do something

Foo* foo = [[Foo alloc] init];
@synchronized(sharedLock) {
    @synchronized(foo) {
         //do something

//in another thread
[foo bar];
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