How to force a static member to be initialized?

Question

Consider this example code:

template<class D>
char register_(){
    return D::get_dummy(); // static function
}

template<class D>
struct Foo{
    static char const dummy;
};

template<class D>
char const Foo<D>::dummy = register_<D>();

struct Bar
    : Foo<Bar>
{
    static char const get_dummy() { return 42; }
};

(Also on Ideone.)

I'd expect dummy to get initialized as soon as there is a concrete instantiation of Foo, which I have with Bar. This question (and the standard quote at the end) explained pretty clear, why that's not happening.

[...] in particular, the initialization (and any associated side-effects) of a static data member does not occur unless the static data member is itself used in a way that requires the definition of the static data member to exist.

Is there any way to force dummy to be initialized (effectively calling register_) without any instance of Bar or Foo (no instances, so no constructor trickery) and without the user of Foo needing to explicitly state the member in some way? Extra cookies for not needing the derived class to do anything.

---

Edit: Found a way with minimal impact on the derived class:

struct Bar
    : Foo<Bar>
{   //                              vvvvvvvvvvvv
    static char const get_dummy() { (void)dummy; return 42; }
};

Though, I'd still like the derived class not having to do that. :|

Answer 1

Consider:

template<typename T, T> struct value { };

template<typename T>
struct HasStatics {
  static int a; // we force this to be initialized
  typedef value<int&, a> value_user;
};

template<typename T>
int HasStatics<T>::a = /* whatever side-effect you want */ 0;

It's also possible without introducing any member:

template<typename T, T> struct var { enum { value }; };
typedef char user;

template<typename T>
struct HasStatics {
  static int a; // we force this to be initialized
  static int b; // and this

  // hope you like the syntax!
  user :var<int&, a>::value,
       :var<int&, b>::value;
};

template<typename T>
int HasStatics<T>::a = /* whatever side-effect you want */ 0;

template<typename T>
int HasStatics<T>::b = /* whatever side-effect you want */ 0;

Answer 2

We can use a simple trick based on a declaration that must be instantiated with the class:

template<…>
struct Auto {
  static Foo foo;
  static_assert(&foo);
};
template<…> Foo Auto::foo=…;

Note that some compilers warn about the comparison to null; that can be avoided with &foo==&foo, (bool)&foo, or ((void)&foo,true) if needed.

Note also that GCC 9.0–9.2 don’t count this as an odr-use.

Answer 3

Something like that comes to my mind:

// in some c++ file (to make i with internal linkage)
static int i = init_dummy(Foo<int>::dummy);

where init_dummy is defined like this:

int init_dummy(...)
{
  return 1;
}

Due to variable args you can put more initializations there like:

static int i = init_dummy(Foo<int>::dummy, Foo<double>::dummy, Foo<whatever>::dummy);

Answer 4

I recently bumped into this. The official solution would be explicit template instantiation, described here.

In the above case, the statement should look like this:

template class Foo::Bar;

Answer 5

Is there any way to force dummy to be initialized (effectively calling register_) without any instance of Bar or Foo (no instances, so no constructor trickery)?

Wouldn't this be sufficient?

std::cout << Foo<int>::dummy;