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I came across this due to a bug in my code and I'm curious why it's allowed. What reason is there that allows object members to be visible in the constructor initialization list?

#include <stdio.h>

class derived {
  private:
    int * value2;
  public:
    derived();
};

derived::derived()
 : value2(value2){} // Uninitialized self-assignment

int main()
{
  derived thisChild;
}

Clang gives a warning about this but unfortunately g++ does not.

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G++ does warn if you use 4.7 and -Winit-self –  Jonathan Wakely Jun 18 '12 at 17:58
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4 Answers 4

up vote 3 down vote accepted

So you can initalise one member using another; this is perfectly fine if the other has already been initialised, or if you're just using its address to initialise a pointer or reference. For example:

struct Thingy
{
    int & r;
    int a;
    int b;

    Thingy(int x) :
        r(a),   // OK - a has a valid address, and we're not using the value
        a(x),
        b(a)    // OK - a has been initialised
    {}
};

It would be rather tricky to allow that and disallow your example.

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If it is not visible, you cannot write this:

A(int n) : some_num(n), another_num(some_num*10) {}

then what would be the point of member-initialization list?

As for self-initialization (uninitialized variable), you can do even this:

int xyz = xyz; //will compile
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1  
The question is about initializing a member with a member, not a member with a parameter. –  Mark Ransom Jun 18 '12 at 17:43
    
@MarkRansom, read the answer again. The second initialisier in the example from Nawaz uses the value of first initialised data member and the OP explicitly asks why members are visible in the initialisation list. –  Hristo Iliev Jun 18 '12 at 18:40
    
@HristoIliev, the answer was modified since I left my comment. Originally the constructor example was simply A(int n) : some_num(n) {}. –  Mark Ransom Jun 18 '12 at 18:52
    
@HristoIliev: Mark is right. While I was adding more stuff to my answer, he had posted the comment. So initially another_num(some_num*10) part was not there, and I was adding this part. –  Nawaz Jun 18 '12 at 18:56
    
Race condition acknowledged :) –  Hristo Iliev Jun 18 '12 at 19:10
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You can think of the initialization list as part of the body of the method (specifically the constructor), so it is natural that you can access the member variables of an object in one of its methods

Also, you might want to reuse an already created member variable to initialize others -- note: you will have to know the exact order of initialization (order of member variable declaration) to make sure you are using this portably

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I think you mean why are member variables accessible in initializer expressions.

One reason is that the initialization of one member variable can depend on another.

That's fragile, but sometimes necessary to avoid awkward code such as artificial base classes.

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