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I have a matrix class defined this way:

template<int M, int N, typename T>
class Matrix
{
 typedef Matrix<M, N, T> MTYPE;
 /*...*/
};

I have to implement the matrix multiplication but I do not know how to do the operator overriding..

Something like

MTYPE operator *(MTYPE& m) { /*...*/ }

Would accept only a N*M matrix. So how can I overcome this problem?

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what are you trying to achieve in the end? Are you really writing your own Matrix library? There are several libs out there. –  Philipp Dec 12 '11 at 19:02
4  
operator*= doesn't make sense when you're fixing the matrix dimensions at compile time. An MxN * NxM matrix is MxM. –  eduffy Dec 12 '11 at 19:04
    
@eduffy: More useful would be to have operator*= specialize for N x N matrices. –  Mike Bantegui Dec 12 '11 at 19:07
    
Of course doesn't make sense, my mistake, I'm fixing it, thank you. –  AlQafir Dec 12 '11 at 19:30

2 Answers 2

up vote 3 down vote accepted

As has been pointed out in a comment, *= doesn't make sense for non-square matrices.

For the general case,

template<int M, int N, typename T>
class Matrix
{
    typedef Matrix<M, N, T> MTYPE;
    /*...*/
public:
    template<int L>
    Matrix<M,L,T> operator*(const Matrix<N,L,T>& second) const
    {
       Matrix<M,L,T> result;
       for(...)
           for(...)
               for(...)
                   // ...
       return result;
    }
};

Or, if you prefer, use a free function operator* with two parameters (and template arguments M,N,L, and T), and make it a friend of your matrix class.

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You'll need to create a templated operator, either inside or outside of the class.

For example, to multiply a N x M by a M x M you might want to do:

  template <int N, int M, class T>
  friend Matrix<N, M, T> operator*(const Matrix<N, M, T> &lhs, const Matrix<M, M, T> &rhs);

Other versions look similar. It'd probably most useful to define this outside of the class.

To multiply a (N1 x M) by (M x N2) you'd do:

 template<int N1, int N2, int M, class T>
 friend Matrix<N1, N2, T> operator*(const Matrix<N1, M, T> &lhs, const Matrix<M, N2, T> &rhs);
share|improve this answer
    
+1. It serves well to disambiguate the inner dimension, though, no need to use M both for the column count of the rhs and for the inner dimension. –  thiton Dec 12 '11 at 19:14
    
why would you need different overloads? –  wolfgang Dec 12 '11 at 19:16
    
@wolfgang: It depends really. Strictly speaking you don't need different ones, but you may use it for performance reasons if a specialized version could be written in a more efficient manner. One example would be a Transpose function. For square matrices, you could do it in place. For non-square you could do the naive "copy into transposed format". –  Mike Bantegui Dec 12 '11 at 19:20

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