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My C++ framework has Buttons. A Button derives from Control. So a function accepting a Control can take a Button as its argument. So far so good.

I also have List<T>. However, List<Button> doesn't derive from List<Control>, which means a function accepting a list of Controls can't take a list of Buttons as its argument. This is unfortunate.

Maybe this is a stupid question, but I don't see how can I solve this :( List<Button> should derive from List<Control>, but I don't see a way to make this happen "automatically".

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OK, my bad. I have lists of pointers, not lists of objects. And of course storing my Button*s in a list of Control*s would fix the function call issue, and I usually do that, except when I want a list of Button*s to use them as Button, not as Control. –  ggambett Nov 24 '08 at 20:08
    
Now, what do you have? A List<Button*> and List<Control*>, or a List<Control*> only? I'm confused. please state the matter :) –  Johannes Schaub - litb Nov 24 '08 at 20:22
    
if you have only a List<Control*>, and want to special case individual elements if they are of button type, you will be forced to use dynamic_cast mate. –  Johannes Schaub - litb Nov 24 '08 at 20:23
    
What is your List? Hopefully you're not reinventing perfectly good datastructures like std::vector? –  jalf Nov 24 '08 at 20:36
    
I have this void doSomething(List<Control*> lControls); void foo (void) { List<Button*> lButtons; .... doSomething(lButtons); // I want to do this, but I can't } –  ggambett Nov 24 '08 at 20:37
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5 Answers

up vote 6 down vote accepted

I hate to tell you but if you're using a list of instances to Control instead of pointers to Control, your buttons will be garbage anyway (Google "object slicing"). If they're lists of pointers, then either make the list<button*> into list<control*> as others have suggested, or do a copy to a new list<control*> from the list<button*> and pass that into the function instead. Or rewrite the function as a template.

So if you previously had a function called doSomething that took a list of controls as an argument, you'd rewrite it as:

template <class TControl>
void doSomething( const std::list<TControl*>& myControls ) {
  ... whatever the function is currently doing ...
}

void doSomethingElse() {
   std::list<Button*> buttons;
   std::list<Control*> controls;
   doSomething( buttons );
   doSomething( controls );
}
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Hmm, this may work. It looks somewhat ugly, though :) –  ggambett Nov 24 '08 at 20:11
    
It looks ugly, but it's the heart of the standard template library and modern C++ programming. Check out the source code to std::list itself sometime. Not pretty. –  Michel Nov 24 '08 at 20:18
    
My major issue with this is that (IIUC) it is entirely legal for the compiler to generate bit for bit identical functions for each and every type that is used. Oh well. –  BCS Nov 26 '08 at 6:21
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How about using pointers? Just have a list of list<Control*> and put whatever Control-derived objects you like into it.

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If you do decide to use a list of pointers, you will have to remember to delete the objects when you are finished with them (you loose the automatic memory management). To get it back, see Boost's ptr_container library. It has a container that manages a list of pointers as if it was a standard list. –  Tom Leys Nov 24 '08 at 20:08
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Stroustrup has an item on this in his FAQ:

Why can't I assign a vector<Apple*> to a vector<Fruit*>

You can solve it in two ways:

  • Make the List contain pointers to Control . Then accept List<Control*>
  • Make your function a template. You can still use List<Button> and List<Control> then, but it's more boilerplate code, and not necassary most of the time.

Here is code for the second alternative. The first alternative is already explained by other answers:

class MyWindow {
    template<typename T>
    void doSomething(List<T> & l) {
        // do something with the list...
        if(boost::is_same<Control, T>::value) {
            // special casing Control

        } else if(boost::is_same<Button, T>::value) {
            // special casing Button

        }

    }
};

To restrict doSomething only for List<derived from Control>, some more code is needed (look for enable_if if you want to know).

Note that this kind of code (looking what type you have) is rather to avoid. You should handle such things with virtual functions. Add a function doSomething to Control, and override it in Button.

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Instead of using List<Button>, use List<Control*>, which are pointing to Buttons.This way, your function only has to take one type: List<Control*>.

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Sorry for not being clear. I do use pointers (smart pointers, actually). The function does take a List of Control*. The thing is I want to pass it a list of Button*. –  ggambett Nov 24 '08 at 20:10
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Generally, the C++ way to write algorithms that perform on a list, sequence, ... is to provide iterators as arguments.

template < class iterator >
doSomething(iterator beg, iterator end);

This solves the List< Button* > is not derived from List< Control* >. (using a template List< T* > would too, but that's kind of making your function generic-but-not-really)

In my experience, making good templatized functions operating on iterators can be a lot of (too much...) work, but it's the "C++ way"...

If you go this route, consider using Boost.ConceptCheck. It'll make your life a lot easier.

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