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I found this code here

class Usable;

class Usable_lock {
    friend class Usable;
private:
    Usable_lock() {}
    Usable_lock(const Usable_lock&) {}
};

class Usable : public virtual Usable_lock {
    // ...
public:
    Usable();
    Usable(char*);
    // ...
};

Usable a;

class DD : public Usable { };

DD dd;  // error: DD::DD() cannot access
        // Usable_lock::Usable_lock(): private  member

Could anybody explain me this code?

EDIT: Also another question i have is what is a virtual derivation and when is it needed?

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2  
Notice that this class does not do what it says on the tin - it does not prevent derivation. If it did, one would get an error message at the point the class is actually derived. –  anon Apr 14 '10 at 12:39
    
This is article about virtual inheritance: en.wikipedia.org/wiki/Virtual_inheritance. Why virtual inheritance is used here? To prevent multiple inheritance problems, when Usable class is derived from some other class, except Usable_lock. –  Alex Farber Apr 14 '10 at 13:01
    
Try editing to use this link instead: www2.research.att.com/~bs/bs_faq2.html#no-derivation "It relies on the fact that the most derived class in a hierarchy must construct a virtual base." Class DD is doing this. –  Charles Beattie Apr 14 '10 at 13:17
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3 Answers

up vote 5 down vote accepted

It's a property of virtual derivation.

The idea of virtual derivation is to solve the "Dreaded Diamond Pattern":

struct Base {};

struct D1: Base {};
struct D2: Base {};

struct TopDiamond: D1, D2 {};

The problem here is that TopDiamond has 2 instance of Base here.

To solve this problem, very peculiar "MultiInheritance", C++ uses the virtual keyword and what is thus called "virtual inheritance".

If we change the way D1 and D2 are defined such that:

struct D1: virtual Base {};
struct D2: virtual Base {};

Then there will only be one instance of Base within TopDiamond: the job of actually instantiating it is left to the top-constructor (here TopDiamond).

Thus, the little trick you have shown is simply explained here:

  • because Usable derives virtually from Usable_lock, it's up to its derived class to instantiate the Usable_lock part of the object
  • because Usable_lock constructor is private, only itself and Usable (friend) can access the constructor

It's clever, I had never thought of that. I wonder what the cost of virtual inheritance is here (extra memory / speed overhead) ?

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Yup, this sums it up quite nicely. I'd spend a little less time on explaining what virtual inheritance is generally good for, but then I was to lazy to write an answer myself. :) +1 from me. –  sbi Apr 14 '10 at 13:28
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class Usable_lock's Constructor is declared under Private So it is not accessible Outside

Usable_lock class 

when you make object of

 DD dd;

It will call constructor of Usable and Usable_Lock both (because DD derived from Usable and Usable Derived from Usable_lock)

and thus it can't access Usable_Lock's Constructor.. and it will give you error

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However class Usable is a friend and so should be able to access it. DD should not be accessing Usable_lock, it's Usable s job (?). –  Pasi Savolainen Apr 14 '10 at 12:46
2  
@Pasi: Usable_lock is a virtual base, so derived classes need to be able to access one of its constructors. Unfortunately, mihirpmehta's answer fails to mention that. –  sbi Apr 14 '10 at 12:48
    
@sbi yes very true... i failed to mention that... ;( –  mihir mehta Apr 14 '10 at 13:38
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There are two points here:

1) Why Usable instance can be created, though it involves private Usable_lock constructor? Because Usable is friend of Usable_lock.

2) Why Usable-derived instance cannot be created? Because it involves private Usable_lock constructor.

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1  
Hint - it's about virtual derivation. –  Nikolai N Fetissov Apr 14 '10 at 12:45
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