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I've seen this particular implementation of the singleton pattern everywhere:

+ (CargoBay *)sharedManager {
   static CargoBay *_sharedManager = nil;
   static dispatch_once_t onceToken;
   dispatch_once(&onceToken, ^{
      _sharedManager = [[CargoBay alloc] init];
   return _sharedManager;

and it seems to be accepted as good practice (this one in particular is from CargoBay).

The only part I don't understand is the first line static CargoBay *_sharedManager = nil;.

Why are you setting that static variable to nil?

share|improve this question
up vote 8 down vote accepted

It's just a matter of readability, convention and practice. It's not really needed, because:

One. Its value won't ever be checked. In older singleton implementations there used to be the famous

+ (id)sharedInstance
    static SomeClass *shared = nil;
    if (shared == nil)
        shared = [[SomeClass alloc] init];

    return shared;

code - for this method to work, the backing variable has to be initialized to nil, since if it wasn't nil for the first time, it would falsely omit the alloc-init in the if part and return a junk pointer. However, with the GCD solution, the nil-check is not anymore needed - GCD handles the 'execute this code only once' pragma.

Two. But nevertheless: static variables are implicitly initialized to zero. So even if you just write static id shared; it will initially be nil.

Three. Why this might be good practice? Because, despite the first two reasons I mentioned, it's still more readable to let the reader of the source code know that something is explicitly initialized to zero. Or there may even exist some non-conforming implementations where static variables are not properly autoinitialized, and then this action shall be taken.

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Wonderful, thank you for your answer.But, why static? – Francesco Sep 22 '12 at 15:43
@Francesco What do you mean by? – user529758 Sep 22 '12 at 15:43
By declaring the shared instance static we are extending its lifetime to the one of the entire application, right? The point of the Singleton pattern is to have a shared instance that can be used everywhere in our application, but why are we creating a new instance every time we call that method? – Francesco Sep 22 '12 at 15:51
@Francesco you're seriously missing understanding of how all this works. The code you posted does not create a new instance every time you call the method. It creates an instance first time, and returns that very same instance every time onwards. – user529758 Sep 22 '12 at 15:53
See the back-and-forth below my post. It will not be created each time we call the method. If you want to make that obvious to a reader/reviewer, move the declaration of the shared instance outside the code block itself (see my second code block). – MystikSpiral Sep 22 '12 at 15:53

You are setting it to nil to ensure you are getting a clean instance.

This is a more readable version of what you want to do:

+ (GlobalVariables *)sharedInstance {
    // the instance of this class is stored here
    static GlobalVariables *myInstance = nil;

    // check to see if an instance already exists
    if (nil == myInstance) {
        myInstance  = [[[self class] alloc] init];
    // return the instance of this class
    return myInstance;

But there are loads of posts around showing how this can potentially not be thread-safe, so moving to a hybrid of your method above and what I posted, you get this:

// Declared outside Singleton Manager    
static SingletonClass *myInstance = nil;
+ (GlobalVariables *)sharedInstance {
    if (nil != myInstance) {
        return myInstance;

    static dispatch_once_t pred;        // Lock
    dispatch_once(&pred, ^{             // This code is called at most once per app
        myInstance = [[GlobalVariables alloc] init];

    return myInstance;
share|improve this answer
"The block of code you reference is not going to always re-use the same instance" - this is just not true. – user529758 Sep 22 '12 at 15:10
the code that is covered by the GCD to execute only once is what is within the dispatch_once block, not the assignment which is outside of it. The gist of what I wrote was attempting to improve readability by simply adding a check of the shared instance. Moving the assignment of the shared instance outside the Singleton accessor makes the whole process clean. – MystikSpiral Sep 22 '12 at 15:20
that 'assignment' is not really an 'assignment' but rather an initialization. And because the variable being initialized is static, it will be executed (initialized) exactly once, regardless of its scope, where it is declared/initialized, etc. Wikipedia's very first example clearly states that "x is initialized only once across three calls of func()"... – user529758 Sep 22 '12 at 15:23
THanks for the link to Wikipedia, I guess even if the instance is accessed by two requestors simultaneously, iOS makes sure that they do not step on each other. I was merely trying to provide a more readable version of the pattern that could be easily understood. I will edit my answer to remove the statement you have issue with. – MystikSpiral Sep 22 '12 at 15:32
Thanks. The problem is exactly that iOS doesn't "make sure" the calls don't collapse - theat's why solution #1 (the classic one) isn't thread safe. – user529758 Sep 22 '12 at 15:34

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