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Given a class "A" exists and is correct. What would be some of the negative results of using a reference to "A" instead of a pointer in a class "B". That is:

// In Declaration File
class A;

class B
{
public:
   B();
   ~B();
private:
    A& a;
};

// In Definition File
B::B(): a(* new A())
{}

B::~B()
{
    delete &a;
}

Omitted extra code for further correctness of "B", such as the copy constructor and assignment operator, just wanted to demonstrate the concept of the question.

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1  
Interesting. I haven's seen such code before. May be, this is just a way to avoid dereferencing and using -> and still making a dynamically allocated, for some reason :? +1 for the question. –  Kiril Kirov Nov 9 '11 at 20:22
    
What's the point of this, instead of just A a;? Wouldn't that be better than both references or pointers? –  tenfour Nov 9 '11 at 20:23
1  
@tenfour in many cases, but it's a simplified example - assume that the value behind a is created by a factory. –  justin Nov 9 '11 at 20:29
2  
@tenfour Also using a value object prevents forward declarations. –  JadziaMD Nov 9 '11 at 21:07
    
Initializing a reference with a dereferenced pointer obtained by new is not idiomatic C++. –  FredOverflow Nov 9 '11 at 22:55
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5 Answers 5

up vote 3 down vote accepted

The immediate limitations are that:

  • You cannot alter a reference's value. You can alter the A it refers to, but you cannot reallocate or reassign a during B's lifetime.
  • a must never be 0.

Thus:

  • The object is not assignable.
  • B should not be copy constructible, unless you teach A and its subtypes to clone properly.
  • B will not be a good candidate as an element of collections types if stored as value. A vector of Bs would likely be implemented most easily as std::vector<B*>, which may introduce further complications (or simplifications, depending on your design).

These may be good things, depending on your needs.

Caveats:

  • slicing is another problem to be aware of if a is assignable and assignment is reachable within B.
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+1 for "these may be good things"... which is what I think they are (assuming they're applicable). Using a reference instead of a pointer where possible documents the fact it's not null and won't change... very useful information when trying to make sense of someone else's code. –  timday Nov 9 '11 at 20:32
    
Edited to reflect that the missing code was the copy constructor and assignment operator. –  JadziaMD Nov 9 '11 at 21:05
1  
That first "drawback" is a very, very, good thing, and the second just extends it. That B will no longer be assignable is also good, because it's better than B being assignable in a broken way. –  Lightness Races in Orbit Nov 9 '11 at 21:07
    
@timday: It also stops you from introducing dynamic object lifetime bugs... to some extent. –  Lightness Races in Orbit Nov 9 '11 at 21:08
    
It's absolutely a good thing for some problems. One common use I have made from it is when moving reference counted objects (in that case, A is a reference counted type and B is just a container which holds a reference). –  justin Nov 9 '11 at 21:41
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Of course, by adding a reference member to your class B means that the compiler can no longer generate the implicit default and copy constructors, and assignment operators; and neither a manually written assignment operator can reasign a.

I don't think there are negative results, other than the fact that delete &a may look odd. The fact that the object was created by new is somewhat lost by binding the result to a reference, and it may only matter since the fact that its lifetime has to be controlled by B is not clear.

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If you use a reference:

  • You must provide the value at construction time
  • You cannot change what it refers to
  • It cannot be null
  • It will prevent your class from being assignable

You might perhaps consider using a smart pointer of some sort instead (std::unique_ptr, std::shared_ptr, etc). This has the added benefit of automatically deleting the object for you.

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You can't change the object referred to by a after the fact, e.g. on assignment. Also, it makes your type non-POD (the type given would be non-POD anyway due to the private data member anyway, but in some cases it might matter).

But the main disadvantage is probably it might confuse readers of your code.

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A reference to a dynamically-allocated object violates the principle of least surprise; that is, no one normally expects code written as you have. In general that will make the maintenance cost higher in the future.

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