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I'm working with Lua and C++ (using LuaWrapper) and I'm having trouble with something. Let's say I have these classes:

class Bar{...};
class Foo
    std::map<std::string,Bar*> _barlist;
    Bar* getBar(std::string key)
        return _barlist[key];

class BarDerived1 : public Bar{...}
class BarDerived2 : public Bar{...}

I have access to Foo and Foo::getBar() from Lua , the thing is that the type from the object returned is Bar and I don't have access to its BarDerivedX methods.

As I understand it, Objects/Classes in Lua are simply MetaTables with functions assigned to keys, so I was wondering if there's a way to copy these extra functions from the BarDerivedX class to the Bar object (and would that even work?), also, is this the best way to do it or should I cast it in C++ before letting Lua access it?

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2 Answers 2

up vote 6 down vote accepted

The purpose of polymorphism, in any language, is to not have to care exactly what type something is. If you give someone, whether Lua or C++, a Bar object, then Bar should have the interfaces that the people need to do whatever they need to do.

That's the purpose of virtual functions. A virtual function defined in Bar can be overridden with a different behavior in BarDerived1. Other code doesn't have to know that they are being handed a derived class; they can just take a Bar like always.

There are generally only two reasons to make a class derived from another. The first is polymorphism: you want to specialize a class by altering the behavior of certain functions.

The other reason is to gain access to its implementation. For example, if you're making a Unicode string, you could use a std::basic_string to store the encoded data. You could then privately derive from std::basic_string, thus allowing you to gain the storage optimizations that std::basic_string has, but you provide a different interface (since private inheritance doesn't allow the outside world to know that you derived from it).

If you want everyone to use Bar objects that can have different behaviors based on derived classes, then you should be using virtual functions and polymorphism. However, if you are changing the interface in derived classes, then that's probably a sign of a design problem. Maybe those derived classes shouldn't be derived classes at all. Maybe they should be entirely separate classes that a Bar instance may or may not have, based on some initialization parameters.

It's hard to say more without specifics on what you're actually doing. But in general, if you're using inheritance-based polymorphism correctly, you shouldn't need to cast from a Bar to more derived versions. Just use the Bar interface.

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I see your point, but what I'm doing is not object oriented programming, I'm studying Entities and Components, the Foo class is an Entity and the Bar class is a generic component, different components have different behaviors and different interfaces, but I also want to keep them accessible through the same map, so they are all derived from the same base class... when I have to call a derived function I just cast the right type. –  Luke B. Sep 13 '11 at 7:03
@Luke, how is what you do not object oriented?! –  Kaos Sep 13 '11 at 7:50
@Luke: What you are describing is an abuse of inheritance. The purpose of inheritance is to define a relationship between two classes. It is not so that you can store two unrelated items in the same list and do a dynamic_cast to figure out which one you have. If you find yourself doing that, then what you need is a boost::variant. What reason do you have for keeping these two unrelated classes in the same list? –  Nicol Bolas Sep 13 '11 at 10:18
I don't know, easy access to them? So I don't have to declare a member of each BarDerived inside the Foo class... that's how I've always done, same base class and typecasting, if that's the wrong way to do it what's the alternative? –  Luke B. Sep 13 '11 at 14:22
If you want to use a entity/component system I suggest you do about it differently. Have an entity 'class', but the entity is actually just an unsigned integer. Then, each component type has a "RegisterEntity" func. Each type of component has a hashtable where the objects are stored, with the key being the entity's ID. When you want to get the PhysicsComponent for the Entity, what you actually do then is pass the entity Id into the PhysicsComponent hashtable and get the component you want. You can probably refactor some of that code into a common Component class, but it's not needed. –  Alex Sep 13 '11 at 15:23

There is a basic principle in class inheritance:

It must be possible to interchange an instance of the superclass by an instance of any of its subclasses.

If B is a subclass of A, then in any places where you use an instance of A, you should be able to use an instance of B.

If your code isn't doing that - then simply you are not using inheritance correctly. Definitively, you are not using it correctly if the only reason you need a subclass is to make is simpler to create a collection.

As others are saying, a proper solution is to use a "generic type" on the collection declaration; Remove Bar completely, and in the collection declaration, use boost::variant, null pointers or the equivalent in your toolset.

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