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What I understood is that in E object C AND D object are referenced by c and d respectively. But I am not able to understand why d.set_c('b') fail to initialize B.m_c to 'b' where as c.set_n(3) is able to change the value of A.m_n to 3.

    #include <iostream>

    class A
        A(int n = 2) : m_n(n) {}

        int get_n() const { return m_n; }
        void set_n(int n) { m_n = n; }

        int m_n;

    class B
        B(char c = 'a') : m_c(c) {}

        char get_c() const { return m_c; }
        void set_c(char c) { m_c = c; }

        char m_c;

    class C
        : virtual public A
        , public B
    { };

    class D
        : virtual public A
        , public B
    { };

    class E
        : public C
        , public D
    { };

    int main()
        E e;  //object of E is created
        C &c = e; //c is used to refrence C object in E Object 
        D &d = e; //c and d has same inheritance structure 
        std::cout << c.get_c() << d.get_n();

        std::cout << c.get_c() << d.get_n() << std::endl;

        return 0;
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Please could you choose a more helpful title? –  Oliver Charlesworth Jan 31 '13 at 10:46

3 Answers 3

Lets look at your class structure, if you create an instance of E, you will end up with an object hierarchy looking like this:

 class B   class A   class B
     \       / \       /
      \     /   \     /
       \   /     \   /
      class C   class D
          \       /
           \     /
            \   /
           class E

You see there are two instances of B, but only one instance of A. This is because of virtual inheritance. Both C and D inherit from A using virtual inheritance, so there is only one instance of A in your e.

Now lets look at the user code:

E e;
C &c = e; // reference C in the object hierarchy of E
D &d = e; // reference D in the object hierarchy of E

c.set_n(3); // set the value in the only instance of A in E
d.set_c('b'); // set the value of one of the two instances of B in your e

std::cout << c.get_c(); // print the value in the other instance of B in e
                        // not the one you set before
std::cout << d.get_n(); // print the value of the only instance of A in e
                        // this got changed before
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I've been programming C++ for two years and haven't ever thought about this. You sir, deserve an upvote and a thank you. Thank you. –  Xathereal Jan 31 '13 at 10:50


, public B


, virtual public B

to get the output a2b3.

In your example, the E instance contains to separate B instances.

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Objects of class E contain C and D subobjects which in turn each contain a B subobject. Since there is no virtual inheritance concerning B, each of C and D contain their own copy of E.

d.set_c() then refers to the B contained in D and updates that, while c.get_c() refers to the B contained in C, which is independent of the one in D, and therefore hasn't changed.

For class A and its member n there are no such problems because virtual inheritance is used. This makes sure that in the final object of class E there is only one subobject A that is used by everybody, no matter through which "path" it is accessed.

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