# virtual inheritance [duplicate]

What is the meaning of "virtual" inheritance?

I saw the following code, and didn't understand the meaning of the keyword `virtual` in the following context:

``````class A {};
class B : public virtual A;
``````
-

## marked as duplicate by R. Martinho Fernandes, Bartek Banachewicz, towi, Hanlet Escaño, LexJun 24 '13 at 19:35

Have a read of this (it's been asked before). –  OJ. Jan 7 '09 at 11:22

Virtual inheritance is used to solve the DDD problem (Dreadful Diamond on Derivation).

Look at the following example, where you have two classes that inherit from the same base class:

``````class Base
{

public:

virtual void  Ambig();

};
``````

``````class C : public Base
{

public:

//...

};

class D : public Base
{
public:

//...

};
``````

Now, you want to create a new class that inherits both from C and D classes (which both have inherited the Base::Ambig() function):

``````class Wrong : public C, public D
{

public:

...

};
``````

While you define the "Wrong" class above, you actually created the DDD (Diamond Derivation problem), because you can't call:

``````Wrong wrong;
wrong.Ambig();
``````

This is an ambiguous function because it's defined twice:

``````Wrong::C::Base::Ambig()
``````

And:

``````Wrong::D::Base::Ambig()
``````

In order to prevent this kind of problem, you should use the virtual inheritance, which will know to refer to the right `Ambig()` function.

So - define:

``````class C : public virtual Base

class D : public virtual Base

class Right : public C, public D
``````
-
`Wrong` could very well be `Correct`. It depends on the situation. Normal MI and virtual MI both have their places, even in the presense of (not-dreadful) diamond patterns that arise. Just remember that there is no size that fits all. –  Thomas Eding Dec 25 '12 at 21:12
I think you're drawing attention to the wrong thing - with your "Wrong" and "Right" classes. They're identical for a reason - they're not the problem. While you correctly have the virtual inheritance for the parents C and D, you basically gloss over it - C and D were the ones that were "wrong" and need to be fixed, not the class deriving from both of them. –  Kevin Sep 16 '14 at 13:45