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I understand the concept of virtual inheritance, but I couldn't find the answer to this anywhere. Say you have class D which inherits class B and C. Both B and C inherit class A. So you could make B and C virtually inherit A to avoid two instances of A. But do you have to specify virtual inheritance at both B and C or does it already create only one instance of A if one of the two virtually inherits A and the other doesn't?


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2 Answers 2

up vote 9 down vote accepted

They must all be virtual. From C++11 10.1 [class.mi]/7:

A class can have both virtual and non-virtual base classes of a given type.

class B { /* ... */ };
class X : virtual public B { /* ... */ };
class Y : virtual public B { /* ... */ };
class Z : public B { /* ... */ };
class AA : public X, public Y, public Z { /* ... */ };

For an object of class AA, all virtual occurrences of base class B in the class lattice of AA correspond to a single B subobject within the object of type AA, and every other occurrence of a (non-virtual) base class B in the class lattice of AA corresponds one-to-one with a distinct B subobject within the object of type AA. Given the class AA defined above, class AA has two subobjects of class B: Z’s B and the virtual B shared by X and Y, as shown below.

virtual inheritance example

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Also, §10.1/4 actually defines this. –  Joseph Mansfield Dec 6 '12 at 21:07
@sftrabbit: In what copy of the standard? In C++03, it is 10.1 [class.mi]/6; in the latest available working paper, N3485, it is still 10.1 [class.mi]/7. I don't have any standard copies where it is defined in 10.1 [class.mi]/4. –  Billy ONeal Dec 6 '12 at 21:10
I've always wondered why they didn't allow what OP is asking though. I don't see any logical obstacle to the virtual child pointing to the parent of the non-virtual child. –  enobayram Dec 6 '12 at 21:14
@BillyONeal Apologies. What I meant is that 10.1/4 (in C++11) defines how many copies of the base class appear in the derived class, whereas your paragraph is an example of it occurring. :) –  Joseph Mansfield Dec 6 '12 at 21:14
@enobayram: Because class Z in the above example may have invariants that assume that it has its own copy of class B. If a class is designed for virtual inheritance, its code must reflect that other classes may change its underlying copy of any virtually inherited members. –  Billy ONeal Dec 6 '12 at 21:15

You need to specify virtual inheritance for both B and C to have one A. Otherwise the class that is not using virtual inheritance will "share" class A.

This can enable one to have the following:


Why you want to do this is another matter.

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Sadly I can only accept one answer, thanks for the explanation though ;) –  Invalid Dec 6 '12 at 21:32
I'm giving +1 for the hand-drawn and scanned-in diagram. –  Kevin Anderson Dec 6 '12 at 22:18

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