I'm writing a matrix class (CMatrix), with such derived classes as a 3d vector(CVector) and a rotation matrix(CRotMatrix). My CMatrix object could be multiplied by an another CMatrix-based object or by an any numerical value(scalar). This code represents the essence of the problem I got:

```
template<class T> class CMatrix
{
public:
template<class U> const CMatrix& operator=(const CMatrix<U> &inp){return (*this);}
CMatrix& operator*(const CMatrix &inp)
{
cout<<"Multiplication by CMatrix"<<endl;
return (*this);
}
template<class U>
CMatrix& operator*(const U &inp)
{
cout<<"Multiplication by a scalar."<<endl;
return (*this);
}
};
template<class T> class CVector: public CMatrix<T>{};
template<class T> class CRotMatrix: public CMatrix<T>{};
int main()
{
CMatrix<int> foo1;
CMatrix<int> foo2;
CVector<int> dfoo1;
CRotMatrix<int> dfoo2;
foo1 = foo1*foo2; //calls CMatrix method
foo1 = foo1*5; //calls scalar method
foo1 = foo1*dfoo2; //calls scalar method, shoud be CMatrix
foo1 = dfoo2*dfoo1; //calss scalar method, shoud be CMatrix
return 0;
}
```

The problem is that the compiler prefers the template version of operator*(). Is there any way to make the compiler choose the proper method for derived CMatrix classes in this situation? If I cut off this method

```
CMatrix& operator*(const U &inp)
```

The compiler does it in the right way, but the class loses the ability to be multiplied by a scalar. I'm using msvc10. Thank you in advance.

`CRotMatrix`

type that derives from`CMatrix`

? It seems unnecessary to me since a rotation matrix can be represented by an ordinary`CMatrix`

just fine. – In silico Aug 15 '11 at 17:13`template<typename T> void InitRotMatrix(CMatrix<T>& mat, T roll, T pitch, T yaw) {}`

. That way you won't need to have to create a new type and the code will be self-documenting. – In silico Aug 15 '11 at 19:03