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From Thinking in C++ Vol. 1 (P-33):

Composition comes with a great deal of flexibility. The member objects of your new class are usually private, making them inaccessible to the client programmers who are using the class. This allows you to change those members without disturbing existing client code.
You can also change the member objects at runtime, to dynamically change the behavior of your program. Inheritance, which is described next, does not have this flexibility since the compiler must place compile-time restrictions on classes created with inheritance.

How can we change the member objects at run time in composition?
Aren't the objects included when the class declaration are written?

class car
{
private:
engine obj;
}

So, here the class car contains the object of class engine. How can we change this at runtime?

Or am I missing some point?

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This is basically pointing towards one of design patterns called Strategy, If you read more about it You will be able to answer your Q yourself. – Alok Save Dec 16 '12 at 7:17
    
Ah, this bold italic font on SO is barely readable :( – Barnabas Szabolcs Dec 16 '12 at 7:43
up vote 4 down vote accepted

Try using a pointer to your member object instead:

class car {
    engine *obj;
}

Now you can choose at runtime whether to use an instance of rotary_engine or v8_engine or flux_capacitor_engine.

Of course you may want to use something like a unique_ptr or a shared_ptr to manage the ownership and lifetime of the member object.

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It's indeed a bit vague statement.

Composition defines a has-a relationship, i.e. car has engine. You can exchange the engine of your car and car will still remain a car.

Inheritance defines a is-a relationship, i.e. if you had defined car as inheriting from engine, that would mean car is an engine. Changing the engine would mean change in the type of car itself - if you change the base class it automatically changes the derived class. This constrain doesn't exist when using composition.

So in your example composition is the correct way.

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Beware that this "composition->has, inheritace->is" is true only for Java (OOP-only) languages. C++ can be used also in different ways: private and protected inheritance is a form of composition (and public inheritance is an anonymous composition, by a compiler standpoint) and CRTP inheritance on traits classes can be used to trigger polymorphic composition as well. Not to mention the fact that "to be" and "to have" can be swapped in verbal forms: you can have long hairs or be log haired. So use this discrimination with care, since the world outside may not be THAT simple. – Emilio Garavaglia Dec 16 '12 at 8:09
    
@EmilioGaravaglia yes, I was talking about the public inheritance which is the only one relevant when comparing to composition; protected and private serve different design purposes. Regarding CRTP - this is is actually a technique, and while your remark is correct, I was referring to a concept of composition vs. inheritance, not to the possibility to achieve one or another via various techniques. Your example, however, is incorrect in my opinion. If you have a long hair that doesn't mean you are a long hair. But that's a different broad design topic, long away from this question – SomeWittyUsername Dec 16 '12 at 8:20
    
AH.... yes... you can have somebody else long hair! Especially if you descend from Cherokee! (you had by iheritance!) Jokes apart, although I don't agree with some of your assertions, the fact both mine and yours exist and works is the demonstration things cannot be simplified as such. – Emilio Garavaglia Dec 16 '12 at 8:29
    
@EmilioGaravaglia that's true, is-a is not always corresponding perfectly to a human language usage. The classic example is a square inheriting from a rectangle. It's correct mathematically but wrong from software design aspect. But again - it's a different question out of OP's question scope. – SomeWittyUsername Dec 16 '12 at 8:38

For pure composition, runtime changes are also possible:

class Car {
private:
   CarPart &get_part(int i) const { 
        switch(i) {
            case 0: return e;
            case 1: return w1;
            case 2: return w2;
            case 3: return w3;
            case 4: return w4;
        }
   }
private:
   Engine e;
   Wheel w1, w2, w3, w4;
};

Then for example setting properties is easy:

void set_property(int id, std::string name, int value) {
    CarPart &p = get_part(id);
    p.set(name, value);
}

This is about as dynamic as you can get...

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