0

Given:

Object of class A contains an array of objects.

Each of these objects must implement some interface IB, because A use methods of IB.

These objects are passed to object of class A by client, and they are of type C or its children. A must return these objects back to clients.

Problem: A must not know anything about C, only about IB, but A must return C.

Is there any standard solution in C++ without unsafe casts<>?

3
  • 1
    Sounds like you've spent too much time writing Java. C++ has no notion of an "interface" separate from a class. As such, IB must be a class, and A can simply return a (pointer|reference) to an IB. C must (apparently) derive from IB, but A doesn't need to know that. Jul 25, 2012 at 15:29
  • This answer may give you some ideas: stackoverflow.com/questions/7950711/…
    – ssube
    Jul 25, 2012 at 15:30
  • You say unsafe casts<> as if static_cast etc are unsafe. They're perfectly safe if you use them right.
    – chris
    Jul 25, 2012 at 15:31

2 Answers 2

0

I don't think this is possible with A not knowing anything about C. However, having A know enough to use the right interface is not that hard in C++. Have all classes with IB derive from a single abstract base class with the interface defined there as pure virtual functions. This actually corresponds to proper C++ design--separating interface from implementation--as described in e.g. Sutter & Alexandrescu.

Otherwise, if the above really is impossible, you could make A a template class, and store the array elements as void*, resolving the class type (at compile time) using static_cast.

0

You could implement a perfectly safe class using templates.

template  <typename T>class A
{
    std::vector<IB*> myObj;

public:


    void add(IB* anObj)
    {
        myObj.push_back(anObj);
    }

    void get(int anIndex, T*& anObj)
    {
        T* t = dynamic_cast<T*>(myObj[anIndex]);
        anObj = t;
    }
};

And then use like this.

A<C> a;

Demo is given here

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.