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In C++ and the Perils of Double-Checked Locking, there's persudo code to implement the pattern correctly which is suggested by the authors. See below,

Singleton* Singleton::instance () {
    Singleton* tmp = pInstance;
    ... // insert memory barrier
    if (tmp == 0) {
        Lock lock;
        tmp = pInstance;
        if (tmp == 0) {
            tmp = new Singleton;
            ... // insert memory barrier
            pInstance = tmp;
        }
    }
    return tmp;
}

I just wonder that whether the first memory barrier can be moved right above the return statement?

EDIT: Another question: In the linked article, as vidstige quoted

Technically, you don’t need full bidirectional barriers. The first barrier must prevent downwards migration of Singleton’s construction (by another thread); the second barrier must prevent upwards migration of pInstance’s initialization. These are called ”acquire” and ”release” operations, and may yield better performance than full barriers on hardware (such as Itainum) that makes the distinction.

It says that the second barrier doesn't need to be bidirectional, so how can it prevent the assignment to pInstance from being moved before that barrier? Even though the first barrier can prevent upwards migration, but another thread can still have chance to see the un-initialized members.

EDIT: I think I almost understand the purpose of the first barrier. As sonicoder noted, branch prediction may cause tmp to be NULL when the if returns true. To avoid that problem, there must be a acquire barrier to prevent the reading of tmp in return before the reading in if.

EDIT: For those who are interested in this question, I strongly recommend reading memory-barriers.txt.

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6  
You need the mem-barrier to enforce no out of order memory accesses in the instructions. Think of issues like branch predication and how it could screw up the inner if-statement. –  Matthieu N. Feb 19 '11 at 12:32
1  
You want to remove the memory barrier. Does the article you linked not explain why it is needed? –  David Heffernan Feb 19 '11 at 12:33
    
@David: I saw in another book <<Concurrent programming on Windows>> where the author placed a barrier before the return statement. So I just get a little confused. The first barrier is to prevent the thread from seeing the un-initialized members, right? –  Alex.Shen Feb 19 '11 at 12:46
    
@David: he doesn't want to remove it, he wants to move it further down. If the only danger is that without the barrier, the function could return a pointer to an object that (in this thread) is/appears uninitialized, then a barrier immediately before return would be OK. So the question is, is there some other danger that means the specific position of the barrier matters? –  Steve Jessop Feb 19 '11 at 13:04
1  
@Alex: one possibility is that on Windows you can make stronger assumptions about the memory/threading model than the authors of the first paper do. For example, Windows uses Intel-based architectures with coherent memory caches, but some other OSes on other architectures do not. I don't know though whether that makes a difference in this case. Consider that this code assumes that writing a pointer is atomic, which is fair enough as a constraint but again might not be true of all compilers and all hardware everywhere, ever. –  Steve Jessop Feb 19 '11 at 13:08
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1 Answer

No, the memory barrier cannot be moved below the assignment-statement since the memory barrier protects the assignment from upwards migration. From the linked article:

The first barrier must prevent downwards migration of Singleton’s construction (by another thread); the second barrier must prevent upwards migration of pInstance’s initialization.

On a side note: The double-checked locking pattens for singletons is only useful if you have huge performance requirements.

Have you profiled your binaries and observed the singleton access as a bottle-neck? If not chances are you do not need to bother at all with the double-checked locking pattern.

I recommend using a simple lock.

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+1 for "no profit without profiling!" –  Jeremy W. Sherman Feb 19 '11 at 14:15
3  
You mention upwards migration, but then the quote says the first memory barrier is for downwards migration. –  Thomas Edleson Feb 19 '11 at 14:44
    
@Thomas Edleson yes. The quote also mention the first barrier, but the question and answer was for the second. –  vidstige Feb 19 '11 at 14:56
    
Then why does the question say "I just wonder that whether the first memory barrier can be moved..."? –  Thomas Edleson Feb 19 '11 at 14:59
    
@Thomas Edleson Your right. I completely missunderstood the question. –  vidstige Feb 19 '11 at 17:30
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