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Lets say I'm writing a some kind of conversion operator, and I want to use it like that:

SomeType a;
AnotherType b = conv<AnotherType>(a);

First, I write the base (default) function:

template <typename T, typename U>
inline T conv(const U& a)
    return T(a);

Full specialization (or a non-template overload) is not a problem, however, when I want to do something like that:

template <typename T>
inline Point<T> conv(const Ipoint& p)
    return Point<T>(p.x, p.y);

I can't write any more conversion functions from the Ipoint (to the FunkyPoint< T > for example) due to ambiguity, and I end up with an awkward usage:

Ipoint a;
Point<double> b = conv<double>(a); //ugly!
//Point<double> b = conv<Point<double> >(a); //I want that, but it (obviously) does not compile.

Is there any way of doing it nicely?

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Why not override the constructor or cast operator? – kennytm May 21 '10 at 19:56
Because I do not have access to above mentioned structs (Ipoint/Point< T >). – maticus May 21 '10 at 20:11

1 Answer 1

up vote 3 down vote accepted

Implement the body in a class template and then you can partially specialize:

template < typename T, typename U >
struct convert
  static T apply(U const& u) { return T(u); }

template < typename T, typename U > T conv(U const& u) { return convert<T,U>::apply(u); }

template < typename T > struct convert<Point<T>, Ipoint> { static Point apply(Ipoint const& u) { return Point(u.x, u.y); } };

Should work but is untested.

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