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I would like to overload std::swap in my template class. In the following code (simplified)

#ifndef Point2D_H
#define Point2D_H

template <class T>
class Point2D

            T x;
            T y;

            Point2D () :  x ( 0 ),  y ( 0 ) {}
            Point2D( const T &x_, const T &y_ ) :  x ( x_ ), y ( y_ ) {}


            void swap ( Point2D <T> &p );   

template <class T>
inline void swap ( Point2D <T> &p1, Point2D <T> &p2 ) { p1.swap ( p2 ); }

namespace std
    template <class T>
    inline void swap ( Point2D <T> &p1, Point2D <T> &p2 ) { p1.swap ( p2 ); }

template <class T>
void Point2D <T>::swap ( Point2D <T> &p ) 
    using (std::swap);
    swap ( x, p.x );
    swap ( y, p.y );


there is a compiler error (only in VS 2010):

error C2668: 'std::swap' : ambiguous call to overloaded 

I do not know why, std::swap should be overoaded... Using g ++ code works perfectly. Without templates (i.e. Point2D is not a template class) this code also works..

Thanks for your help.

share|improve this question
You aren't supposed to overload std::swap, you are supposed to specialize it. Answers to the question linked by villintehaspam explain that distinction along with giving examples. But partial specialization isn't possible for function templates, so you'll have to define your implementation in your own namespace and rely on Koenig lookup. –  Ben Voigt Jan 2 '11 at 21:20
Note: the standard says "An explicit specialization declaration shall not be a friend declaration." It was a nice idea though. –  Ben Voigt Jan 2 '11 at 21:55

3 Answers 3

Please see How to overload std::swap() . Basically, you are allowed to make a specialization of std::swap, but not an overload.

So, it is ok to create a specific version for a specific Point<> type (say Point<float>), but not for any Point<T>.

share|improve this answer
No but... you can put an overload of swap in the namespace where Point<T> is defined, and it will be found via Koenig lookup (aka argument-dependent lookup). –  Ben Voigt Jan 2 '11 at 21:21
@Ben Voigt: True for simple cases like when you call swap(a,b) in your own code - however there is plenty of code that calls std::swap explicitly (I think this is the case in at least some implementations of the standard library) and that won't help then. –  villintehaspam Jan 2 '11 at 21:31
@villintehaspam It is a little bit uncomfortable to specialize swap for more data types (double, floast, ...): inline void swap ( Point2D <double> &p1, Point2D <double> &p2 ) { p1.swap ( p2 ); } –  Ian Jan 2 '11 at 21:37
@Ian, Yes. Normally the need to specialize std::swap arises because you can make a performance improvement over naive copying. For simple cases like double, int etc. I don't think you have the need to specialize it for a class like Point2D in your example. So just don't do it - make sure that you add a copy constructor and assignment operator instead. –  villintehaspam Jan 2 '11 at 21:44
@villintehaspam You are right, thanks for your comment. I would like to speed up the sorting of points, so I need to specialize std::swap for Point2D in container storing 2D Points... –  Ian Jan 2 '11 at 21:49

I know you haven't asked this, but since you're using VC10, providing a move constructor and a move assignment operator should make std::swap() perform optimal for your type.

share|improve this answer
It is another solution, I was thinking about it... –  Ian Jan 2 '11 at 21:56

The reason it's ambiguous is because you provided ::swap and std::swap, then you using'd std::swap. Now you have both ::swap and std::swap in the global namespace. So the compiler doesn't know if you mean ::swap or std::swap.

However, providing move operator/constructor will make swap perform optimally, realistically.

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