Consider the following code.

using boost::shared_ptr;
struct B;
struct A{
    ~A() { std::cout << "~A" << std::endl; }
    shared_ptr<B> b;    
struct B {
    ~B() { std::cout << "~B" << std::endl; }
    shared_ptr<A> a;

int main() {
    shared_ptr<A> a (new A);
    shared_ptr<B> b (new B);
    a->b = b;
    b->a = a;

    return 0;

There is no output. No desctructor is called. Memory leak. I have always believed that the smart pointer helps avoid memory leaks.

What should I do if I need cross-references in the classes?


1 Answer 1


If you have circular references like this, one object should hold a weak_ptr to the other, not a shared_ptr.

From the shared_ptr introduction:

Because the implementation uses reference counting, cycles of shared_ptr instances will not be reclaimed. For example, if main() holds a shared_ptr to A, which directly or indirectly holds a shared_ptr back to A, A's use count will be 2. Destruction of the original shared_ptr will leave A dangling with a use count of 1. Use weak_ptr to "break cycles."

Thanks, Glen, for the link.

  • 6
    @Alexey, here's a link to the docs where it explicitly warns of this problem in the introduction. boost.org/doc/libs/1_41_0/libs/smart_ptr/shared_ptr.htm
    – Glen
    Dec 1, 2009 at 15:32
  • 2
    Which one? And why not replace both with weak references? This is ridiculous. shared_ptr was used for a reason.
    – curiousguy
    Oct 9, 2011 at 2:10
  • 7
    @curiousguy: I'm not sure I understand your question: what do you find to be ridiculous? To break a cycle, you must replace one strong reference with a weak reference; which one depends entirely on the use case. You can't replace all of the strong references with weak references, because then all of the objects will be destroyed as there are no owners left. Oct 9, 2011 at 4:54
  • @JamesMcNellis "what do you find to be ridiculous?" This idea that a reference can be replaced by a non-reference (called "weak" reference). This is insane.
    – curiousguy
    May 31, 2012 at 22:46
  • 1
    @curiousguy It isn't insane at all. Consider when the shared_ptr a and b go out of scope, they both decrease their internal reference counts. The count never reaches zero, since the each still have count of 1 from each other. The destructor is NEVER called because the count never reaches zero. They are holding each other hostage. One or the other has to yield ownership; you choose which one with the weak reference. This works with even larger number of links in the chain. Just, one of the links in the chain has to be weak to break the cyclic dependency.
    – t0rakka
    Nov 17, 2014 at 14:58

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