In this question I unsuccessfully asked how to use different pimpl implementation depending on a template argument.

Maybe this example ilustrates better what I am trying to do :

#include <iostream>

template< int N, typename T >
struct B
{
    B() : c( new C< N > )
    {}

    template< int M >
    struct C;
    C< N > *c;
};

template< int N, typename T >
template< int M >
struct B< N, T >::C
{
    int a[M];
};

// version 1 that doesn't work    
    template< int N, typename T >
    template< >
    struct B< N, T >::C< 0 >
    {
        int a;
    };
// version 2 that doesn't work
    template< typename T >
    template< int M >
    struct B< 0, T >::C
    {
        int a;
    };


int main()
{
    B< 0, float >   b0;
    B< 1, int >     b1;

    std::cout << "b0 = " << sizeof(b0.c->a) << std::endl;
    std::cout << "b1 = " << sizeof(b1.c->a) << std::endl;
}

It still fails if I try to specialize the struct C (the above doesn't compile)

So, is it possible to do?

I know a work around like this :

template< int M >
struct D
{
  int a[M];
};
template<  >
struct D<0>
{
  int a;
};

template< int N, typename T >
template< int M >
struct B< N, T >::C
{
    D< M > helper;
};

but if possible, I would like to avoid it

What you're trying to do is not allowed by the language.

§ 14.7.3.16 (FCD 2010-03-26) states:

In an explicit specialization declaration for a member of a class template or a member template that appears in namespace scope, the member template and some of its enclosing class templates may remain unspecialized, except that the declaration shall not explicitly specialize a class member template if its enclosing class templates are not explicitly specialized as well. In such explicit specialization declaration, the keyword template followed by a template-parameter-list shall be provided instead of the template<> preceding the explicit specialization declaration of the member. The types of the template-parameters in the template-parameter-list shall be the same as those specified in the primary template definition.

[ Example:
template <class T1> class A {
    template<class T2> class B {
        template<class T3> void mf1(T3);
        void mf2();
    };
};
template <> template <class X>

class A<int>::B {
    template <class T> void mf1(T);
};
template <> template <> template<class T>
void A<int>::B<double>::mf1(T t) { }
template <class Y> template <>
void A<Y>::B<double>::mf2() { } // ill-formed; B<double> is specialized but
// its enclosing class template A is not
—end example ]