Take a look at the following code:

#include <iostream>

template <typename T>
class Foo
    static T bar;

template <typename T> typename T Foo<T>::bar;

int main() {
    std::cout << "Foo<int>::bar : " << &Foo<int>::bar << std::endl;
    std::cout << "Foo<double>::bar : " << &Foo<double>::bar << std::endl;
    return 0;

This will print out 2 different addresses. I can understand why in this case, bar is of type T and thus instantiations of different T's in Foo<T> will get you different static members. However, if we change bar to a type we already know ( e.g. static int bar ) this still happens.

Why is this the case? Why just not re-use bar for multiple template instantiations? How would I be able to get just 1 bar object throughout different instantiations?


There is nothing really surprising going on here.

template <typename T>
class Foo

Is not a class, it is a template to stamp out classes. That means Foo<A> is a completely different class from Foo<B>. As such all static members are unique to the different instantiated classes — and the fact that class template being same has no relevance in this context, as it is after all a template, the blueprint of the instantiated classes.

If you want all the different kinds of Foo's to share a common state then you can have them inherit from the same base class and put the common information there. Here is a very boiled down example:

struct Foo_Base
    static int bar;

int Foo_Base::bar = 10;

template<typename T>
struct Foo : Foo_Base {};

int main()
    Foo<int> foo_i;
    Foo<double> foo_d;
    std::cout << foo_i.bar << "\n";
    foo_i.bar += 10;
    std::cout << foo_d.bar;



Live Example

  • @Nawaz No problem. I do question whether and the fact that class template being same should be and the fact that the class template is the same May 20 '16 at 12:09

From the standard, $14.7/6 Template instantiation and specialization [temp.spec]

Each class template specialization instantiated from a template has its own copy of any static members.

Foo<int> and Foo<double> are irrelevant classes, even though they're instantiated from the same template, and they will have their own static member bar, even though their types are same (e.g. both int).

  • @NathanOliver I would assume "their types" refers to the types of the bar members; it could use a disambiguation, though. May 20 '16 at 12:04
  • Oh the member types. I though you were talking about the class types. never mind me then. May 20 '16 at 12:05
  • @NathanOliver That's fine. Anyway I tried to edit it to avoid disambiguation. May 20 '16 at 12:11
  • @songyuanyao Looks great. Thanks. May 20 '16 at 12:13

Foo<int>::bar and Foo<double>::bar are two different global (statically accessible class-level) variables. they are not same. Consider this code:

template <typename T>
class Foo
    static T var1;
    static int var2;

What do you think the relative placement of var2 be (assume compiler places var2 just after var1)? In one case, it may be relatively just 1 byte ahead (foo<char>), but 8 bytes ahead in case of other datatype.

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