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I implemented reference counting pointers (called SP in the example) and I'm having problems with polymorphism which I think I shouldn't have.

In the following code:

    SP<BaseClass> foo()
        // Some logic...
        SP<DerivedClass> retPtr = new DerivedClass();
        return retPtr;

DerivedClass inherits from BaseClass. With normal pointers this should have worked, but with the smart pointers it says "cannot convert from 'SP<T>' to 'const SP<T>&" and I think it refers to the copy constructor of the smart pointer.

How do I allow this kind of polymorphism with reference counting pointer? I'd appreciate code samples cause obviously im doing something wrong here if I'm having this problem.

PS: Please don't tell me to use standard library with smart pointers because that's impossible at this moment.

share|improve this question
Please post the code for the copy constructor. – Danvil Apr 21 '10 at 11:53
When reading template error messages, it is important to notice what the T mean in each position. The error probably said something like cannot convert from SP<T> with [T = DerivedClass] to const SP<T> & with [T=BaseClass] that extra piece of information is half of the way to the solution. – David Rodríguez - dribeas Apr 21 '10 at 18:38

Fairly obvious:

SP<DerivedClass> retPtr = new DerivedClass();

should be:

SP<BaseClass> retPtr = new DerivedClass();
share|improve this answer
Converting SP<DerivedClass> into SP<BaseClass> should be no problem with a good smart pointer implementation. – Danvil Apr 21 '10 at 11:54
This fixes the specific problem in foo(), but it does not make for a natural syntax in other places where the conversion may be needed. – Gorpik Apr 21 '10 at 12:02
@Danvil: Converting isn't the issue, you can't change the return type in an overloaded function except in limited cases (covariant references and pointers) so it's pointless to even create an SP of the wrong type. This answer is the simplest: create an object of the type actually being returned. – Charles Bailey Apr 21 '10 at 12:04

You should add implicit converting constructor for SP<T>:

template<class T>
struct SP {
   /// ......
   template<class Y>
   SP( SP <Y> const & r )
    : px( r.px ) // ...

   T * px;
share|improve this answer
A template constructor is never a copy constructor. A copy constructor isn't going to help; this is a non-explicit converting constructor. – Charles Bailey Apr 21 '10 at 12:17
@Charles. Right. No matter. – Alexey Malistov Apr 21 '10 at 12:24

Why not add a template assignment operator:

template <class Base>
class SP

    template<class Derived>
    operator = (SP<Derived>& rhs)

(and maybe copy constructor, too)?

share|improve this answer

In addition to the copy constructor:

SP(const SP<T>& ref);

you need a conversion constructor:

template<typename T2>
SP(const SP<T2>& ref);

Otherwise, the compiler will not know how to construct SP<BaseClass> from a SP<DerivedClass>; for him, they are unrelated.

The conversion constructor is fairly trivial, since internally you can convert *DerivedClass to *BaseClass automatically. Code may be very similar to that for the copy constructor.

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