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The title basically says it all, i wonder when static members of a c++ class are initialized and when they go out of scope.

I need this for the following problem. I have many objects of a class Foo and each object needs access to a resource, encapsulated by another class Bar. Synchronization is not an issue, so i want all objects to share the same Bar instance.

I'm using a simple managed pointer for reference counting.

Can i do the following:

class Foo {
private:
    static managed_pointer<Bar> staticBar;
public:
    Foo() {
        if(!staticBar)
            staticBar = new Bar;
    }
    /*
     * use staticBar in various non-static member functions
     */
};

managed_pointer<Bar> Foo::staticBar = NULL;

the managed_pointer staticBar should delete the Bar object as soon as it goes out of scope - but when does this happen? when the last instance of Foo is destructed? on application exit?

Thanks for your advice!

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oops, thanks for fixing the typo. –  Pontomedon Jul 4 '12 at 13:28
    
The last instance of Foo is destructed when you simply delete the last instance or when your program exists. A static member of a class will exist no matter how many instances of the class there are. –  Gabi Jul 4 '12 at 13:47

3 Answers 3

up vote 13 down vote accepted

statics and globals are initialized right before the program starts (before main is called, the program actually starts before that) and go out of scope after main exits.

Exceptions - local statics (static variables declared inside functions) and unused template class staticmembers.

It has nothing to do with the number of instances.

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Local static variables are not initialized before the program starts. –  Gabi Jul 4 '12 at 13:31
    
ok thanks. What do you mean by "It has nothing to do with the number of instances"? Instances of class Foo? –  Pontomedon Jul 4 '12 at 13:32
1  
yes it does not matter how many instances of Foo there is, they will all share Bar. –  LeSnip3R Jul 4 '12 at 13:34
1  
@Gabi nor unused static members if the class is a template. –  Luchian Grigore Jul 4 '12 at 13:36
    
@LeSnip3R: yes of course, that's the intention, otherwise i could just make Bar a non-static member and let Foos ctor and dtor take care of allocating/deleting Bar. –  Pontomedon Jul 4 '12 at 13:36

The standard does not specify a precise order of initialization, it is implementation specific. They will be instantiated at the start of the program and deallocated at the end.

You have to be very careful with what you are doing, because if you have some other static objects that rely on this object to exist, it's UB. There is no telling in what order they will be initialized.

You could possibly look into something like boost::call_once to ensure it's initialized once, but I wouldn't rely on the order the statics are initialized.

For all I know, you code would work, but I've been bitten by the static initialization issue before so I wanted to warn you.

EDIT: Also in your code, when the managed_ptr will go out of scope (end of program), it will delete the memory allocated automatically. But you should not do anything non-trivial in Bar's destructor as you may trigger UB by calling into other free'd instances or even code that has been removed (as it happened to me once where a dynamic library had been removed). Essentially you are in a minefield, so watch out.

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I won't have any other statics in Foo, but thanks for the warning, another detail good to have in mind. EDIT: thank you also for the second warning, I'll watch out. –  Pontomedon Jul 4 '12 at 13:34
    
I meant, other static objects in your program. If later on you decide to have another object, say ReBar, that is also static, and you think "hey I can call Bar::Something since it's static" you ought to be careful. –  LeSnip3R Jul 4 '12 at 13:35
1  
Ah, alright, i think i get your point. –  Pontomedon Jul 4 '12 at 13:40

The first thing that pops out of your question is the common misconception that scope and lifetime are equivalent concepts. They are not. In some cases as with local variables, the lifetime is bound to a particular context, but that is not always the case.

A class static member variable has class scope (it is accessible anywhere in the program) and static lifetime, which means that it will be initialized in order with respect to the other static variables in the same translation unit, and in an undefined order with respect to other static variables in other translation units, before main (caveat: initialization need not be performed before the first statement in main, but it is guaranteed to be before the first odr-use of the variable).

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1  
A class static member variable has class scope: it is only visible in contexts where names are looked up within the class. It has static lifetime, and external binding (a third concept which people occasionally confuse with the two you mention). Still, you've mentioned the essential point: lifetime and scope are orthogonal concepts. (At least to a degree. There are cases where the scope determines the lifetime.) –  James Kanze Jul 4 '12 at 15:03
    
@JamesKanze: right, my mistake. thanks for pointing it out. –  David Rodríguez - dribeas Jul 4 '12 at 16:29

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