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I face the well know dreaded diamond situation :

  A
 / \
B1 B2
 \ /
  C
  |
  D

The class A has, say the constructor A::A(int i). I also want to forbid a default instantiation of a A so I declare the default constructor of A as private.

The classes B1 and B2 virtually inherit from A and have some constructors and a protected default constructor.

[edit] The constructors of B1 and B2 don't call the default constructor of A. [reedit] The default constructors of B1 and B2 don't call the default constructor of A either. [reedit] [edit]

The class C is pure virtual and has some constructors that don't call any of the A, B1 or B2 constructors.

In the class D, I call the constructor A::A(i) and some constructor of C.

So as expected, when D is created, it first creates a A to solve the dreaded diamond problem, then it creates B1, B2 and C. Therefore there is no call of the default constructor of A in B1, B2 and C because if there was, it would create many instances of A.

The compiler says "**** you" because the default constructor of A is private. If I set it to protected it compiles.

What I don't understand is that when I run the code, the default constructor of A is never called (as it should be). So why doesn't the compiler allow me to set it as private?

[edit] okay I'll write a example... but it hurts ;-)

class A{
        public:
                A(int i):i_(i){};
                virtual ~A(){};
        protected:
                int i_;
        private:
                A():i_(0){};/*if private => compilation error, if protected => ok*/
};

class B1: public virtual A{
        public:
                B1(int i):A(i){};
                virtual ~B1(){};
        protected:
                B1():A(0){};
};

class B2: public virtual A{
        public:
                B2(int i):A(i){};
                virtual ~B2(){};
        protected:
                B2():A(0){};
};

class C: public B1, public B2{
        public:
                C(int j):j_(j){};
                virtual ~C()=0;
        protected:
                int j_;

};

C::~C(){};

class D: public C{
        public:
                D(int i,int j):A(i),C(j){};
                ~D(){};
};

int main(){
        D d(1,2);
}

The compiler says that in constructor of C, A::A() is private. I agree with this, but as C is a pure virtual class, it can't be instantiated otherwise than by instantiating a D. [edit]

I added the tag `language-lawer' on someone's recommendation.

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1  
not sure if I understand but the default constructor might be needed by B1 and B2 –  Marco A. Jul 2 '14 at 8:36
5  
enough text, plz show some code. –  Rakib Jul 2 '14 at 8:36
1  
@PinkFloyd then that's your answer: it is needed to create the derived objects –  Marco A. Jul 2 '14 at 8:40
1  
@PinkFloyd Any reason not to show code? Does it hurt to give an SsCCE? –  Werner Henze Jul 2 '14 at 8:57
1  
Looks quite interesting. I'ld read 12.6.2 8 "[ Note: An abstract class (10.4) is never a most derived class, thus its constructors never initialize virtual base classes, therefore the corresponding mem-initializers may be omitted. —end note ]" like you are right. Yet the code does not compile on gcc 4.8.2 and not on MSVC 2013. BTW, you might consider adding the tag language-lawyer. –  Werner Henze Jul 21 '14 at 8:33

1 Answer 1

You need to call a Constructor for every virtual base class in the most derived class (directly from that specific constructor).

Unless you call a different one in the constructor initializer list, it will be the default constructor, like always.

Thus, the most derived class must be able to access it.

BTW: Declare all one-argument constructors explicit unless you really want to allow them as conversions. Spares you lots of grief.

Also, not declaring a default-constructor works as well, as you have another constructor.

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