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Here is what I would like to do.

Say I have Class Widget.

I then create Button from Widget.

I then create ModifiedWidget which re-implements certain functions of Widget.

I then want Button to use ModifiedWidget rather than plain Widget. Is this possible to do some how?

Thanks

class Button : public Widget;

class SuperButton : public Button, public ModifiedWidget;

I'm just not sure if that would do what I want it to though.

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Not very well formed question. As it is written, it sounds as if you just change which parent button derives from. –  Lee Louviere Feb 11 '11 at 23:15
    
Please clarify. Isn't this just a case of class Widget {...}; class ModifiedWidget : public Widget {...}; class Button : public ModifiedWidget {...};? –  Oliver Charlesworth Feb 11 '11 at 23:16
    
@Xadde pretty much yea –  Milo Feb 11 '11 at 23:20
    
It's still not clear what your question is! It now sounds like this is a fairly standard multiple-inheritance relationship (albeit a diamond relationship). –  Oliver Charlesworth Feb 11 '11 at 23:20
    
@Milo Then what are you asking. Just change Button to derive from ModifiedWidget. There is no multiple inheritance. –  Lee Louviere Feb 11 '11 at 23:21

3 Answers 3

up vote 3 down vote accepted

The easiest way is to use encapsulation, not inheritance.

class Button
{
    Button(Widget * w) { mywidget = w; }
    Widget * mywidget;
};

Another way is to let Button be a template class.

template<class Parent>
class Button : Parent
{
};

Button<Widget> mybutton1;
Button<ModifiedWidget> mybutton2;
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2  
encapsulation doesn't reflex Liskov principle well: Button is a Widget, and Button users would like to use it as Widget. templated version resolves this problem using Widget as a mixin –  Andy T Feb 11 '11 at 23:41
    
@Andy T, I've found that the is-a relationship is too easy to assume, and often it can be changed without too much trouble. Not sure about this case, which is why I gave the two-for-one answer. –  Mark Ransom Feb 11 '11 at 23:48
    
Button and SuperButton may have different implementation. So he may need to extend Button<ModifiedWidget>, but then what have we gain? Template approach is more complicated than multiple inheritance. –  doc Feb 12 '11 at 0:15

Keep them separate:

class Widget {
    ...
    virtual void some_function();
};

class ModifiedWidget : public Widget {
    ...
    // override the base version of this method
    virtual void some_function();
};

class Button {
    Button(Widget* w) : widge(w) { }
    Widget* widge;
};

class SuperButton : public virtual Button {
    SuperButton(Widget* w) : Button(w) { }
};

Now your Widgets have a hierarchy, and your Buttons have their own hierarchy. And it probably makes more sense to say that your Button contains a Widget, than to say that your Button is a Widget. Thus, we go with encapsulation instead of inheritance for the Button-Widget relationship, but still have inheritance for the Buttons and Widgets separately.

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If I have understood your question, this is typical Dreaded Diamond Problem

With some care, it is possible, although I suggest reconsidering your design, because multiple inheritance can be often avoided (which brings simpler and cleaner design).

Also Read C++ Faq on Dreaded Diamond

In reply to your example, you will have to use virtual inheritance for Button and ModifiedWidget classes.

class Button : public virtual Widget;

class ModifiedWidget : public virtual Widget;
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