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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.

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2 Answers 2

up vote 2 down vote accepted

Partial Specialization of function template is NOT allowed by the C++ Standard!

Overload your functions instead of specializing them.

Read the explanation as to Why Not Specialize Function Templates? by Herb Sutter

Then read why to overload than specialize : Template Specialization and Overloading by Herb Sutter

How to call all functions uniformly if you overload

Write a class template call and specialize them as:

template<class S, template<typename> class T>
struct call
    static char fn(typename T<S>::P &p)
         return ::fn<S,T>(p);

template<class S>
struct call<S,B>
    static char fn(typename B<S>::P &p)
         return ::fn<S>(p);

template<class S>
struct call<S,C>
    static char fn(typename C<S>::P &p)
         return ::fn<S>(p);

Then you can use this class template to call all the functions uniformly as:

assert( (call<int, A1>::fn(pa1)) == 'a' );
assert( (call<int, A2>::fn(pa2)) == 'a' );

assert( (call<int, B>::fn(pb)) == 'b' );
assert( (call<int, C>::fn(pc)) == 'c' );

See the online demo : http://www.ideone.com/TISIT

Note also the overloaded function templates in the complete solution at ideone.com (above link)

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The signatures become different, which precludes using fn in a generic class! –  Calaf Apr 13 '11 at 5:06
@user704972: the overload can have same name; in fact that is what overload means. –  Nawaz Apr 13 '11 at 5:08
What I mean is this. Suppose we now have a template<typename T> struct Foo { void g(...) { ... fn()... } }; where T can be any of A1/A2/B/C. Since fn() appears in one form only (for instance, as either fn<T>() or fn()), its definition for the four types must also be identical. –  Calaf Apr 13 '11 at 5:16
@user704972: See my answer. I updated it with how to call all the functions uniformly if you overload the function template. –  Nawaz Apr 13 '11 at 5:25
@user704972 : Not directly related to your question or this answer, but if you want to work with templates at all on any non-trivial level, you had better learn to love "unnecessary wrapper classes". ;-] –  ildjarn Apr 13 '11 at 6:19

Functions can be only fully specialized. Use function overloading:

template<typename S> char fn(typename B<S>::P) {   return 'b';  }
template<typename S> char fn(typename C<S>::P) {   return 'c';  }
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Once I use overloading, it becomes impossible to use fn inside a generic class. The four calls to fn with the four types must have the same signature. –  Calaf Apr 13 '11 at 5:05
@user704972 : This answer has the correct syntax; show us the cases where it's "impossible to use fn". –  ildjarn Apr 13 '11 at 5:22
template<typename T> struct Action { Action() {}; char g(T::P p) { return fn(p); } }; –  Calaf Apr 13 '11 at 5:59
It should be char g(typename T::P p). –  Kirill V. Lyadvinsky Apr 13 '11 at 6:11

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