This is a sequel question (on a different topic) to an earlier question. The code below incorporates Dehstil's suggestion to use specialization.

How should a function that has template template parameters be specialized?

The code below (in which the two specialization lines do not compile) make the question concrete.

```
#include <cassert>
template<typename S> struct PA1 {};
template<typename S> struct PA2 {};
template<typename S> struct PB {};
template<typename S> struct PC {};
template<typename S> struct A1 { typedef PA1<S> P; };
template<typename S> struct A2 { typedef PA2<S> P; };
template<typename S> struct B { typedef PB <S> P; };
template<typename S> struct C { typedef PC <S> P; };
template<typename S, template<typename> class T> char fn(typename T<S>::P);
template<typename S, template<typename> class T> char fn(typename T<S>::P)
{
return 'a';
}
template<typename S> char fn<B<S> >(B<S>::P) { return 'b'; }
template<typename S> char fn<C<S> >(C<S>::P) { return 'c'; }
int main()
{
PA1<int> pa1;
PA2<int> pa2;
PB<int> pb;
PC<int> pc;
assert( (fn<int, A1>(pa1)) == 'a' );
assert( (fn<int, A2>(pa2)) == 'a' );
assert( (fn<int, B>(pb)) == 'b' );
assert( (fn<int, C>(pc)) == 'c' );
}
```

It's important for the four function calls fn<...,...>() to have identical signatures when called since they will themselves reside in a template class that applies to the four classes A1/A2/B/C.