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I am reading through a framework for a game, and it has a Door struct inside the Room class as follows:

#include <vector>

class Room{
public:
    struct Door{
        unsigned name;
        unsigned orientation;
        Room* room1;
        Room* room2;
    };
    std::vector<Door*> adjacent;
};

What is the purpose of defining a struct inside of a class? And, does it make a difference what access modifier that the struct is defined with?

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This gives you a struct that is publicly available as Room::Door, you could also have a class called Car that also contains a struct Door. –  Wouter Huysentruit Apr 9 '12 at 17:42
    
I'm more interested in why they maintain a vector of pointers. –  Ed S. Apr 9 '12 at 17:51
    
@eds. I think the reason for a vector of pointers is because each door is unique not only to the room, but also to the world –  gardian06 Apr 9 '12 at 17:59
    
I'm not sure I understand that, but be aware that unless their code is calling delete on each pointer in that vector somewhere you have a memory leak because the vector isn't doing it (it is doing it, but for dynamically allocated pointers, not the objects themselves). I would imagine (hope) they understood this, but I cringe a bit when I see a vector<SomeType*>. –  Ed S. Apr 9 '12 at 18:14
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4 Answers

up vote 5 down vote accepted

What is the purpose of defining a struct inside of a class?

It's just a nested type.

And, does it make a difference what access modifier that the struct is defined with?

If Door was declared private then trying to declare a variable of type Room::Door outside this class will give an error.

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What is the purpose of defining a struct inside of a class? And, does it make a difference what access modifier that the struct is defined with?

No two people will give you the same answer as to the purpose, however we can tell you what the effects are:

  • In the scope of Room you can refer to the class as just Door.

  • Outside the scope of Room you must refer to the class as Room::Door

  • Yes, the visibility of the type is the same as any class member, and effected by private, protected and public.

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The intent is to create a type that not just the instances of that type are owned by the surrounding class, but the the type itself is as also owned by the surrounding class.

For an obvious example, most container types will define the iterator type for that container as a nested class (or struct). Even though vector<T>::iterator and deque<T>::iterator represent similar concepts, each is still owned by, and specific to, its associated container type.

As far as access specifiers go, they follow the usual rules -- if you make a struct/class definition private, it will only be visible to other code in the same class. If it's protected, it'll be visible to that class and its descendants. If it's public, it'll be visible to everybody.

To give a more concrete example, for positions in a business, you might have:

class secretary  {};

class executive {
   class secretary {};
};

In this case, a ::secretary is a "normal" secretary and an executive::secretary is an executive secretary -- although obviously similar, an executive secretary will normally a have job description that's at least somewhat different from a non-executive secretary's. An executive vice president might have one executive secretary and two "normal" secretaries, but a lower level manager is probably only authorized to have a normal secretary, not an executive secretary.

In real programming, you often have private nested classes -- unlike an executive secretary that's just different from a normal secretary, some of these are things that the rest of the world doesn't even know they exist at all (at least unless they look at the private parts of the header of course).

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Short answer: struct and class mean exactly the same thing in C++, except for the default access. Door is just a nested class. In other words:

struct Door{
    ...

Is the same as:

class Door{
    public:
    ...

Nesting classes is useful for organizational and documentation reasons. It's like namespaces, but predates namespace in C++.

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