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I have the following situation.

template <class T>
class Foo {

    template <class V>
    int bar();


(I am using swig to port this class to python, to clarify) The problem I have occurs because the actual template arguments T and V are related, that is Foo<T1> should have bar<V1>, Foo<T2> should have bar<V2> and so on. However, I am in the situation where swig (or the C++ compiler) pretends to have all the possible combinations defined, that is Foo<T1>::bar<V1>, Foo<T1>::bar<V2>, Foo<T2>::bar<V1> and so on. This means that I have to provide Tn * Vn methods, most of them raising an exception, except for the diagonal combination Ti/Vi

Is there a way to prevent this in a smart way, or should I just bite the dust and implement all the combinations? If you think I have a design problem, how would you solve it ?

share|improve this question
Why is bar a function template then? It can just use T. – Joseph Mansfield May 1 '13 at 8:15
@sftrabbit: because inside it uses type V to perform some manipulations, and this type is related to T. – Stefano Borini May 1 '13 at 8:19
Oh, I didn't notice the Vs. I thought it was all Ts. – Joseph Mansfield May 1 '13 at 8:26
up vote 4 down vote accepted

If there's 1-1 mapping between Ts and Vs, why does bar need to be a template? You could create a trait class to determine the proper V, like this:

template <typename T>
struct Match_T_V;

template <>
struct Match_T_V<T1> {
  typedef V1 type;

template <>
struct Match_T_V<T2> {
  typedef V2 type;

//etc. for other Ts

template <typename T>
class Foo {
  typedef typename Match_T_V<T>::type V;

  int bar();  //use V, guaranteed to be the correct one
share|improve this answer
That's an interesting pattern. – Stefano Borini May 1 '13 at 8:16
@StefanoBorini Trait classes are actually a pretty common template programming technique, one of the basic building blocks of template metaprogramming. – Angew May 1 '13 at 8:19
I never programmed with templates. Mostly of my experience in C++ is with plain OOP – Stefano Borini May 1 '13 at 8:20
This is a nicely flexible approach. When it makes sense to add a typedef in T saying what V should be that's even simpler: e.g. a class templated on a container type might reasonably have a function taking T::const_iterator. – Tony D May 1 '13 at 9:24

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