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I have a class that looks like this:

class Base  
        Base( int val = 0 ) : value( val ) {};  
        int value;  

Classes A and B inherit Base:

class A : public Base {};
class B : public Base {};

I also have a templated class with a signature similar to:

template < class T >
class Temp
        Temp ( const T & val = T() ) : m_T( val ) {};
        T m_T;        

What I am trying to do is have a function that takes pointers to Temp<Base> instances and act upon them:

void doSomething ( Temp< Base > * a, Temp< Base > * b )
    (*a) = (*b);

Ultimately, I would like to have Temp<A> and Temp<B> instances passed to doSomething(), like:

    Temp<A> a;
    Temp<B> b;
    doSomething( &a, &b) ;

Obviously, this will not work because Temp<A> and Temp<B> are not related and there is no implicit conversion between the types (even though A and B are Base).

What are some of the ways this problem could be solved? Any input would be greatly appreciated.

Thanks in advance for your help.

share|improve this question
Not only are Temp<A> and Temp<B> unrelated, you can't assign an instance of B to an instance of A either. – UncleBens Aug 20 '10 at 18:23
I guess my question boils down to, in C++, why is a basket of apples not a basket of fruits and how can I work around this without much effort? – Meh Aug 20 '10 at 18:55
A basket of apples IS a basket of fruits, but the mechanism you are discussing (templates) isn't a basket of anything; it's an entirely new entity, which the compiler can't tell if it's a basket, a bag, or an airplane. – San Jacinto Aug 20 '10 at 19:30
template<typename T, typename U>
void doSomething ( Temp< T > * a, Temp< U> * b ) 
    (*a) = (*b); 
share|improve this answer
Temp<t> and Temp<U> are completely different types, aren't they? Wouldn't that make the assignment line impossible? – San Jacinto Aug 20 '10 at 16:36
At compile time the compiler will create a version of doSomething with the concrete types specified, and then attempt to compile the resultant function. In this case it will work, as the assignment between the specified types of U and T is valid. – PaulJWilliams Aug 20 '10 at 16:42
@Visage my question is more regarding the assignability of a Temp<U>* to a Temp<T>*. This probably has nothing to do with doSomething(), in my mind. Where I am wrong? Thanks. – San Jacinto Aug 20 '10 at 18:04
If, when types are assigned to U & T, Temp<U>* is assignable to Type<T>*, then it will compile. If not, it won't. So, if T & U are A & B, and Temp<A>* is assignable to Temp<B>*, everything is fine. – James Curran Aug 20 '10 at 18:37
@James, yes in your last sentence you are re-stating my question. If a is a Temp<A> star and b is a Temp<B> star, are they EVER compatible in this manner? Does it follow that because an A start can be assigned a B star that a Temp<A> star can be assigned a Temp<B> star? – San Jacinto Aug 20 '10 at 18:57

You lose a lot of the usefulness of the inheritance relationship if you aren't careful, but if you make Temp derive off of a common base class, you can create templated members in its derived classes. What you essentially end up doing is moving your common interface of A and B into BASE, and then for specialization (how to actually carry out those functions), you refer to the TempA or TempB member in BASE (with A and B surrounded by the brackets. Editor won't le me be explicit.).

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