Object |---GameObject |---KartDriver | |---Yoshi | |---Mario | |---ShyGuy | ----WeaponObject |---RedShell |---BlueShell |---BananaPeel
GameObject might have a 3D coordinate of where it is in the GameWorld, and a 3D model of points and surfaces to draw on the screen, and so forth.
So we have this generic object first, and then we inherit more generic objects based on it, in this case, the
KartDriver and the
Yoshi might be a generic object, that if there are 8 players and 2 of them chose the same character (in an online race), then there will be 2 Yoshi objects, and Yoshi also became a generic object.
Or even the GameWorld object, might seem it is a concrete and unique object, but if the server hosts 30 races at the same time (with each race usually 5 to 8 people), there in fact there will be 30 GameWorld objects.
But on a 3DS console, the GameWorld would be just 1 object, so in this case it is not a generic object, or maybe we can say it is a generic object, but there will be a singleton object based on it.
Update 2: if we see a class as a "blueprint" of how an object is constructed, in classical OOP, then this generic object method also involves blueprints for objects, but just that it is more dynamic and not static like Objective-C. For example, we can dynamically add a property to
KartDriver object and now all Yoshis and Marios will inherit from it. So looking at this blueprint design, it in fact is "class" and not "classless". Just that this is dynamic class, while the classical OOP is static class.