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Okay, so let's say I have some random abstract base class Base and I have a class Foo which contains a pointer to this base class as a datamember. So

class Foo

        Base* ptr;

Now the reason I use a pointer to the base class is because I want to be able to choose which derived class my Foo object has a pointer to. Now the tricky part is, to me, the implementation of the constructor for Foo.

If I do it like this

Foo::Foo(Base* _ptr)
    Foo::ptr = _ptr;

it would be possible for the user to adjust the object pointed to by Foo::ptr since _ptr will still exist after the constructor has finished. I cannot make the object pointed to by _ptr constant because Foo::ptr needs to update itself regularly. Now I was thinking about adding a line _ptr = NULL at the end of the constructor, but that could be dangerous as well, since the user could try to dereference _ptr.

The only way I can think of to make this work is to make a copy of the object pointed to by _ptr and initializing Foo::ptr to the address of that copy. But then the object pointed to by _ptr would need to have a member function Clone() or something similar because I can't call the copy constructor for an object of which I don't know the class at compile-time.

So is there any elegant way of doing this if there is no Clone()? Or is that really the only possibility?

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If you use C++11 you could solve this using move-semantics. –  Björn Pollex May 3 '12 at 19:30
Adding "_ptr = NULL" wouldn't do anything, since "_ptr" is passed by value into the constructor. –  fferen May 3 '12 at 19:30
What's wrong with a clone method? –  David Brown May 3 '12 at 19:31
@DavidBrown I don't think there's anything particularly wrong with it, but it does mean the user would have to clean up their own mess, i.e. they would have to delete _ptr themselves. I don't know why but it just doesn't really sit well with me. Maybe I'm wrong and the Clone() method is fine but I'd like to know the alternatives nonetheless. –  Wouter May 3 '12 at 20:01

2 Answers 2

up vote 0 down vote accepted

Construct from a unique_ptr. That way your user has no access to the pointer after it has been used in the creation of a Foo object (unless he really wants to and uses get).


#include <memory>
struct Bar {};

struct Foo {
  Foo(std::unique_ptr<Bar>&& ptr) : ptr_(std::move(ptr)) {}
  std::unique_ptr<Bar> ptr_;

int main()
  std::unique_ptr<Bar> tt(new Bar());
  Foo f(std::move(tt));

  return 0;
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So this would still work with std::unique_ptr<DerivedFromBar> tt(new DerivedFromBar()); in the main() function? And the user would then need to know they have to use a unique_ptr? Or is there an implicit cast possible from a regular pointer to a unique_ptr? I'd think not. –  Wouter May 3 '12 at 19:57
@Wouter unique_ptr<DerivedFromBar> converts to unique_ptr<Bar>. The point of unique_ptr here is that you clearly state ownership at every point in time. The user constructs it, uses it, and as soon as it used to construct a Foo he relinquishes ownership by using move on it. –  pmr May 3 '12 at 20:00
Oh yeah sorry, I meant to say std::unique_ptr<Bar> tt(new DerivedFromBar());, but I see. So unique_ptr acts like a regular pointer (with explicit ownership at all times), but the cast from regular to unique_ptr I asked about probably doesn't exist, right? Since there's no way to check if it's the only pointer to that object. –  Wouter May 3 '12 at 20:06
@Wouter You do not necessarily need to new the pointer at the time of unique_ptr construction, but can construct the unique_ptr later from an already assigned pointer. Although there is no implicit conversion to a unique_ptr. That would be highly dangerous. In this solution your client is actively aware of giving up control. –  pmr May 3 '12 at 21:28
Okay, that's what I thought. Thanks! –  Wouter May 7 '12 at 9:13

An alternative is using smart pointers. That way, ownership is assigned to the smart pointer implementation.

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