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I'm studying some source codes and I'm just wondering why a class (or classes) is often implemented this way:

class EventHandler
    EventDispatcher* m_Dispatcher;
    virtual bool ProcEvent( EventHandler* Sender, int Task, int Event, void* Param );

class ClassA: public EventHandler
    ClassA* m_Impl;
    ClassA* m_Iface;
    // virtual functions
    virtual bool ProcEvent( EventHandler* Sender, int Task, int Event, void* Param );
    virtual void OnDataWritten(const PIOResult&) {;}

    // sample functions
    void SetImplement( ClassA* aImpl );
    void SetInterface( ClassA* aIface );
    ClassA* GetImplement() { return m_Impl; }
    ClassA* GetInterface() { return m_Iface; }
    bool GetData( list& aList );

// Implementation of some sample functions; Most of its function contain more
// or less the same format as below, with the return m_Impl->XXX having the same
// name as the function being defined (e.g. A::XXX)
bool ClassA::GetData( list< Data >& aList )
    if( m_Impl )
        return m_Impl->GetData( aList );
        return false;

class ClassAFactory: public EventHandler
    ClassAFactory* m_Impl;
    ClassAFactory* m_Iface;

    virtual ClassA* MakeTransport();

    virtual bool ProcEvent( EventHandler* Sender, int Task, int Event, void* Param );
    virtual ClassA* CreateClassA() { return 0; }


// In some member function of ClassB (ClassB inherits ClassA)

switch( status )
    case 1:
    case 2:
        // ...

I believe it's for some design pattern but I'm not familiar with it. It could help me understand if I know what it is. Can anyone help me point out which it could be or what is the use of these classes such that it is implemented this way?

I think it's for some event handling and used together with some factory but I'm not sure.

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Can you give a bigger hint about how this is used? If I didn't know any better, I would say it's written by someone who has a basic misunderstanding of object-oriented programming. Otherwise, they are unwisely overloading the meanings of some heavily used words. – Jesse Millikan Mar 3 '10 at 7:37
This reminds me of OO hacks done in straight C where you use a pointer to different versions of the same sturct to mirror some OO features. – rerun Mar 3 '10 at 7:39
I've added some more, I hope it helps. – jasonline Mar 3 '10 at 7:56

4 Answers 4

up vote 2 down vote accepted

I am afraid the names used do not have the usual meaning, so without examples of what is put in or how they are used, it's going to be difficult to guess.

There are 2 design patterns that you should check, that make heavy use of this kind of self-recursion (at class level*):

And I am afraid that you are looking at something that fails to emulate either of those.

In the Decorator, the point is to add functionality. To this end you have an Interface of which derives a Concrete class and a Wrapper interface. Then various wrappers will derive of Wrapper and you can chain them:

Interface* interface = new Wrapper2( new Wrapper1 ( new Concrete() ) );

Each wrapper add some functionality, whereas here we only have perfect forwarding... so it's not a Decorator.

The Composite pattern is different. Its goal is to hide whether you treat with a collection of elements or a single element. The usual example is a tree: you can apply operations either to an entire subtree or just a leaf node if it's implemented with a Composite Pattern.

Once more, there is not such thing here.

So my best guess is that you have either a wild design (perhaps a misguided attempt to emulate a well-known pattern) or you haven't given enough information (source code) for us to figure out the role. It seems strange anyway.

*Note: by self-recursion at class level I mean that an object of class A points to another object of class A, but this does not mean (certainly) that it points to the same instance... otherwise we would have a Stack Overflow (pun intended). This not the same instance bit is certainly worth checking during the SetImplementation call: note that any cyclic reference would cause death by recursion.

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I agree with "And I am afraid that you are looking at something that fails to emulate either of those." – Anders Abel Mar 3 '10 at 8:39
@Matthieu: Any idea about the relationship between the ClassA and the ClassAFactory? Is this another design pattern? – jasonline Mar 3 '10 at 9:14
@jasonline: the name suggest a Factory or perhaps an AbstractFactory, once again the term is heavily used without always strictly adhering to the pattern described by the Gang of Four. Without implementation it's difficult to say, and those m_Impl and m_Interface don't make more sense than for ClassA... – Matthieu M. Mar 3 '10 at 16:23

I wild guess, but could it be the "pimpl idiom" you are looking for?

The expanded code sample with the implementation of GetData is definitely an example of the pimpl idiom. However that does not explain the m_Iface member. Can you provide an example of where that is used too?

With the added example of how m_Iface is shown it is clear i was wrong regarding the pimpl. It is a kind of decorator. The m_Impl points to the underlying object, while the m_Iface points to the outermost layer, so that an underlying object can make a call which goes through the entire chain of decorators. This example is a bit complicated as ClassA both is the interface class and the default implementation. If you would like to create a decorator to the class you will have to inherit ClassA.

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I don't think it's a pimpl idiom. If it is, the implementation pointer should be pointing to another class right. But in my code above, it is pointing to the class itself. – jasonline Mar 3 '10 at 8:01
Hmm.. you're right... then it more looks like a "decorator" pattern implementation, but still that does not explain the m_Iface member. – Anders Abel Mar 3 '10 at 8:03
I've added some info on how the m_Iface is called. Meanwhile, I'll check the decorator pattern. – jasonline Mar 3 '10 at 8:09
Any idea how the factory and the normal class should be related? Is it another design pattern perhaps? – jasonline Mar 3 '10 at 9:11
The factory looks like flawed implementation of the "Abstract Factory" pattern. I think it is flawed because CreateClassA is implemented as a stub doing nothing instead of a pure virtual method. As Matthieu points out below, I think that the one writing the code had an ambition to implement several patterns, but didn't completely succeed. – Anders Abel Mar 3 '10 at 9:56

This looks much more C than C++. In any object-oriented language, you would use inheritance and virtual functions to get this behaviour.

Using an internal pointer to an implementation class is perfectly fine (the pimpl idiom), but this pointer would not normally be accessible to callers. And I don't get the interface pointer at all.

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@Gorpik, I've added more classes. I think it's for some event handling and used together with some factory. Yes, I don't get the use of the interface pointer. I couldn't find yet where it is used. – jasonline Mar 3 '10 at 7:58
@Gorpik: I've added sample function where the interface is used. – jasonline Mar 3 '10 at 8:11

I'm not sure if this is a classic example of the pimpl idiom, but if so, the point is to separate the interface (which should be stable) from the implementation details (which you should be relatively free to change).

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