10

I have a class B that requires an instance of class A to be constructed:

class B
{
    B(A* a); // there is no default constructor
};

Now I want to create a class that contains B as a member, so I also need to add A as a member and provide it to B's constructor:

class C
{
    C() : a(), b(&a) {}
    A a; // 1. initialized as a()
    B b; // 2. initialized as b(&a) - OK
};

But the problem is that if someone occasionally changes the order of the variables definition in the class, it will break

class C
{
    C() : a(), b(&a) {}
    B b; // 1. initialized as b(&a) while "a" uninitialized
    A a; // too late...
};

Is there a good way to resolve this without modifying the classes A and B? Thanks.

7
  • 3
    This is why you should always compile with all warnings turned on. All compilers emit a warning here if told to. Feb 15, 2011 at 21:20
  • You may simply leave it as it is and add a giant warning as a comment. Also, consider enabling all the warnings, usually compilers provide a warning if the fields declaration order (which is the one that matters) is different from the order of the initializer list; if anyone by chance would swap the order of the two fields you'd get such warning. Feb 15, 2011 at 21:21
  • @Alexandre C., @Matteo Italia: I've tried in MSVC and gcc (mingw 3.4.5) - no warning by default...
    – Roman L
    Feb 15, 2011 at 21:25
  • FWIW, g++ can give you a warning for this case if you compile at -Wall (I can't find the specific warning that triggers this).
    – Tim Martin
    Feb 15, 2011 at 21:26
  • g++ 4.4.5 gives such a warning with -Wall Feb 15, 2011 at 21:28

6 Answers 6

7

Is there a good way to resolve this without modifying the classes A and B?

Turn on compiler warnings; for gcc, this is -Wreorder (which is included in -Wall):

cc1plus: warnings being treated as errors
t.cpp: In constructor 'A::A()':
Line 3: warning: 'A::y' will be initialized after
Line 3: warning:   'int A::x'
Line 2: warning:   when initialized here

Alternatively, use a lint-like tool that detects this.


But the problem is that if someone occasionally changes the order of the variables definition in the class…

Why would they do this? I suspect you're worrying too much about what might happen. Even so, you can leave a comment in the class:

A a;  // Must be listed before member 'b'!
B b;

Don't underestimate the force of well-placed comments. :) Then allow someone who purposefully ignores them to get what they deserve; you are using C++, after all.

2
  • I'm not worrying as much as you say, I'm just curious. And I cannot turn on compiler warnings on every machine in the world :)
    – Roman L
    Feb 15, 2011 at 21:36
  • @7vies: If this is for your project, you should have some say over the compiler (and lint) options used. Beyond that, I've learned that I can't fix everyone else, even if I had the time. :)
    – Fred Nurk
    Feb 15, 2011 at 21:44
5

Use the well-known C++ idiom called Base-from-Member to solve this problem.

Define a base class as,

class C_Base
{
    A a; //moved `A a` to the base class!
    C_Base() : a() {}
};

class C : public C_Base
{
    C() : b(&a) {}
    B b; // 1. initialized as b(&a) while "a" uninitialized
    //A a; // too late...
};

Now, a is guaranteed to be initialized before b.

10
  • Isn't it weird to create a base class just to force the initialization order?
    – Roman L
    Feb 15, 2011 at 21:19
  • @7vies: Seems that way to me. It is almost as if deterministic initialization order is useful...
    – James
    Feb 15, 2011 at 21:23
  • @7vies: Yeah, but it's even wierder to think that someone would change the order of variables in class. Feb 15, 2011 at 21:28
  • Base-from-member shouldn't be used where it isn't necessary: the complexity just isn't worth it. It is required only if you have a "member" which you need to initialize before a base class.
    – Fred Nurk
    Feb 15, 2011 at 21:31
  • @Fred: I agree! But if one fears that a particular member a must be initialized before b, then it may be useful. Feb 15, 2011 at 21:32
2

Store b in a unique_ptr, and set it in the body, not in the initializer list:

class C
{
    C() :a() {
        b = std::unique_ptr<B>(new B(&a));
    }
    A a;
    std::unique_ptr<B> b;
};
0

One option would be to not explicitly store the A, but instead to use dynamic allocation to create a new A to store in the B:

class C {
public:
       C() : b(new A) {
           // handled in initialization list
       }
private:
       B b;
};

Since this guarantees that the A is created before the B, this should prevent this problem from ever occurring.

1
  • 1
    Who is going to delete A then? I mean, you allocate memory with new but you cannot delete it, and B is not going to handle this.
    – Roman L
    Feb 15, 2011 at 21:14
0

The problem is that you are shooting yourself in the foot with the third example. In C++ the order of member variables in a class/struct matters. No matter how you go about solving your particular problem, if you pass uninitialized data to a constructor due to poor class design / member layout, you will be working with unitialized data and possibly get undefined behavior, depending on the sort of code in place.

To address your particular example, if B really requires an A and the relationship is one to one, why not create a new class AB that has both an A object and a B object in the right order and pass the address of A to B. That is:

class AB
{
public:
  AB():b_(&a_) {}

private:
  A a_;
  B b_;
};

now class C can avoid the ordering problem by using AB instead of A and B:

class C
{
public:
  ...
private:
  AB ab_;
};

As forementioned, this of course assumes a 1:1 relationship between A and B. If an A object can be shared by many B objects, things get more complicated.

1
  • The third example is here just to show why the second one is bad. I know that it is bad, my question is how to make it right.
    – Roman L
    Feb 15, 2011 at 21:18
0

I'm not sure how much control you have over the implementation and structure of C but is it necessary to use the objects themselves in class C? Could you redefine the class to use pointers instead and then move them from the initialization list, e.g.

class C
{
   C()
   {
     a = new A;
     b = new B(a);
   }
   ~C() {delete a; delete b;}

   A* a;
   B* b;
};

This avoids the issue of order in the declaration, but gives you the new issue of ensuring they're created correctly. Also, if you create A LOT of C's very often, an initialization list is slightly faster.

3
  • But then how do you protect from anyone reordering the lines in the constructor? ;-)
    – Bo Persson
    Feb 15, 2011 at 21:52
  • @Bo Give up on programming and go ride bikes :P
    – spbots
    Feb 15, 2011 at 21:57
  • @Bo Persson: Well, for me the difference between reordering lines in code (changing code) and reordering member definitions (e.g. during refactoring) is quite obvious, so I don't see your point.
    – Roman L
    Feb 15, 2011 at 22:55

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