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There is a class Test:

typedef enum
{
    AA, BB
} TType;

template <typename T>
struct TVector
{
    typedef std::vector <T> Type;
};

template < typename T, const TType type >
class Test
{
private:
            typename TVector <T>::Type it; 
};

and its specialization with redefined operator = (there with no additional functionality):

template < typename T, const TType type >
class Test <T *, type> 
{
public:
    Test <T *, type > & operator = ( const Test <T*, type > &source ) {return *this;}

            template <TType type2>
    Test <T *, type > & operator = ( const Test <T*, type2 > &source ){return *this;}

            template <TType type2>
    Test <T *, type > * operator = ( const Test <T*, type2 > *source ) {return *this;}
};

I am trying to assign objects with different TType parameter each other, and this step works correctly.

int _tmain(int argc, _TCHAR* argv[])
{
Test <double *, AA> a1;
Test <double *, BB> b1;

a1=b1;  //Correct

Test <double *, AA> *a2;
Test <double *, BB> *b2;

a2 = b2;  //Error

return 0;
}

But the same step with pointers does not work, see the error code:

Error   1   error C2440: '=' : cannot convert from 'Test<T,type> *' to 'Test<T,type> *' 49

Is it possible to assign pointers with different TType parameter each other (how?) or not?

Updated question:

And what about assignment between pointers and objects?

a2 = &b1;  //Error
*a2 = b1;  //Unitialized memory

Could I ask for a code sample? Thanks for your help.

share|improve this question

1 Answer 1

up vote 3 down vote accepted

The second example does not work because you are not assigning to the object, you are assigning to a pointer. It's the same reason that this does not work:

int * a;
float * b;

b = a;

Even though a float can be assigned from an int, a pointer to float cannot be assigned from a pointer to int.

Try *a2 = b2 or *a2 = *b2 instead -- your operators should catch both of those.

Note also that this implementation appears to be wrong:

template <TType type2>
Test <T *, type > * operator = ( const Test <T*, type2 > *source )
{
    return *this;
}

The this implicit variable is already a pointer type, so you need to return this, not return *this. I would suggest eliminating this overload of the assignment operator completely, since it is bound to be more confusing than it will be useful.

share|improve this answer
    
Thanks for your answer... But *a2 = *b2 could time-consuming if the vector contains a large data. This is the reason why I wanted to pass only pointers.... –  justik Aug 1 '12 at 19:30
    
@justik But if you assign to a2 directly, you are assigning to a pointer. If you use references, *a2 = *b2 will be just as performant anyway; it's not going to run any faster using pointers instead of references. It may be a bit faster to type, but that's the only benefit. Further, assigning one pointer to another causing actual object assignment will be confusing to seasoned C++ developers, who will expect it to just copy the pointer. –  cdhowie Aug 1 '12 at 19:35
    
@Mr.Anubis I have no idea what you are asking, nor how it relates to the question at hand. –  cdhowie Aug 1 '12 at 19:41
    
@cdhowie sorry I didn't looked at the example properly I guess that's why had asked weird question –  Mr.Anubis Aug 1 '12 at 19:45

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