I essentially have a mock version of `std::integral_constant`

that includes a variable and I want to specialize a function template for these classes derived from `Base<T>`

, like this:

```
template<class T> struct Base{
typedef T type;
T t;
};
template<class T> struct A : Base<T>{
static constexpr T value = 1;
};
template<class T> struct B : Base<T>{
static constexpr T value = 2;
};
struct Unrelated{};
// etc.
template<class T> void foo(T t){
//I would like to specialize foo for A and B and have a version for other types
}
int main(){
foo(A<float>());//do something special based on value fields of A and B
foo(B<float>());
foo(Unrelated()); //do some default behavior
}
```

Here are the main issues:

- I cannot include
`value`

as a template as I am expecting`T = double`

,`float`

, or some other non-integral types (otherwise I'd just extend`std::integral_constant`

) - I can't cleanly use
`std::is_base`

as I would have to do`std::is_base<Base<T::type>,T>`

- Doing
`foo(Base<T>&)`

wouldn't allow me to see`value`

and I don't want to have to resort to a virtual`value()`

function (or reflection). - And obviously I would like to avoid specializing foo for every derived class.

I think the answer lies in using `is_base`

but I haven't been able to get it to work no matter how I tried to use it. Is there a much simpler way I am missing?

`template<class T> struct A : Base{`

should be`template<class T> struct A : Base <T>{`

. Is that your whole problem? – John Dibling Jan 15 '14 at 17:30whatyou're trying to do, followed byhowyou're trying to do it, and finally askinghowyou should do what you're trying to do. – John Dibling Jan 15 '14 at 17:31