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I have the following sample C++ code:

class Factory
    static Factory& createInstance()
        static Factory fac;
        return fac;

        //Does something non-trivial

Let's assume that createInstance is called by two threads at the same time. So will the resulting object be created properly? What happens if the second thread enters the createInstance call when the first thread is in the constructor of Factory?

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It will become thread-safe in C++0x. –  Johannes Schaub - litb Dec 18 '10 at 9:00
similar question for GCC: stackoverflow.com/questions/1270927/… –  stefaanv Dec 18 '10 at 9:27

4 Answers 4

up vote 5 down vote accepted

No it is not, yet, as far as the standard is concerned.

The problem is that the C++ standard made not mention of thread up until now, C++0x integrates this but is not a standard proper yet.

However some compilers implement more than the standard mandates, either in the form of extensions or by giving stronger guarantees, so check out for the compilers you're interested in. If they are good quality ones, chances are that they will guarantee it.

Finally, it might not be necessary for it to be thread-safe. If you call this method before creating any thread, then you ensures that it will be correctly initialized before the real multi-threading comes into play, and you'll neatly side-step the issue.

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yes thats how I finally did it. –  Naveen Dec 18 '10 at 14:12

Looking at this page, I'd say that this is not thread-safe, because the constructor could get called multiple times before the variable is finally assigned. An InterlockedCompareExchange() might be needed, where you create a local copy of the variable, then atomically assign the pointer to a static field via the interlocked function, if the static variable is null.

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Or maybe just make the fac variable a static member, not a local variable. –  Sergey Tachenov Dec 18 '10 at 7:33
It is a static variable, though... I think you meant a global variable? That would eliminate the race condition, since it would be initialized then the module is loaded; however, it wouldn't allow it to be lazily created (without interlocks), and I have a feeling that might have been the purpose here. –  Mehrdad Dec 18 '10 at 8:27
Sergey said make it a static member variable, not a static local variable or static (compilation unit scope) variable. –  Pete Kirkham Dec 18 '10 at 9:53
Ohhhhh ok sorry, I missed that! but by static member that means a static class variable, right? That's still a little confusing to me, because the race condition could still exist with the lazy initialization, couldn't it? How would the change in scope change the lifetime so as to fix the problem? –  Mehrdad Dec 18 '10 at 10:27

Of course it's thread safe! Unless you are a complete lunatic and spawn threads from constructors of static objects, you won't have any threads until after main() is called, and the createInstance method is just returning a reference to an already constructed object, there's no way this can fail. ISO C++ guarantees that the object will be constructed before the first use after main() is called: there's no assurance that will be before main is called, but is has to be before the first use, and so all systems will perform the initialisation before main() is called. Of course ISO C++ doesn't define behaviour in the presence of threads or dynamic loading, but all compilers for host level machines provide this support and will try to preserve the semantics specified for singly threaded statically linked code where possible.

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I dont think its correct, that guarantee is there only for global scope objects as far I know –  Naveen Dec 19 '10 at 4:49

The instantiation (first call) itself is threadsafe.

However, subsequent access will not be, in general. For instance, suppose after instantiation, one thread calls a mutable Factory method and another calls some accessor method in Factory, then you will be in trouble.

For example, if your factory keeps a count of the number of instances created, you will be in trouble without some kind of mutex around that variable.

However, if Factory is truly a class with no state (no member variables), then you will be okay.

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