I have read that weak_pointers can be used to break cyclic references.

Consider the following example of a cyclic reference

struct A
boost::shared_ptr<A> shrd_ptr;

boost::shared_ptr<A> ptr_A(boost::make_shared<A>());
boost::shared_ptr<A> ptr_b(boost::make_shared<A>());
ptr_A->shrd_ptr = ptr_b;
ptr_b->shrd_ptr = ptr_A;

Now above is a case of cyclic reference and I wanted to know how I can break the cyclic reference above by using weak_ptr ?

Update : Based on suggestion received I came up with the following :

struct A
  boost::weak_ptr<A> wk_ptr;

    boost::shared_ptr<A> ptr_A (boost::make_shared<A>());
    boost::shared_ptr<A> ptr_B (boost::make_shared<A>());
    ptr_A->wk_ptr = ptr_B;
    ptr_B->wk_ptr = ptr_A;

Will this be the correct approach ?

  • 1
    Change A::shrd_ptr to boost::weak_ptr and hold a shared_ptr somewhere else. – Captain Obvlious Nov 23 '14 at 5:17

The classic example of cyclic references is where you have two classes A and B where A has a reference to B which has a reference to A:

#include <memory>
#include <iostream>

struct B;
struct A {
  std::shared_ptr<B> b;  
  ~A() { std::cout << "~A()\n"; }

struct B {
  std::shared_ptr<A> a;
  ~B() { std::cout << "~B()\n"; }  

void useAnB() {
  auto a = std::make_shared<A>();
  auto b = std::make_shared<B>();
  a->b = b;
  b->a = a;

int main() {
   std::cout << "Finished using A and B\n";

If both references are shared_ptr then that says A has ownership of B and B has ownership of A, which should ring alarm bells. In other words, A keeps B alive and B keeps A alive.

In this example the instances a and b are only used in the useAnB() function so we would like them to be destroyed when the function ends but as we can see when we run the program the destructors are not called.

The solution is to decide who owns who. Lets say A owns B but B does not own A then we replace the reference to A in B with a weak_ptr like so:

struct B {
  std::weak_ptr<A> a;
  ~B() { std::cout << "~B()\n"; }  

Then if we run the program we see that a and b are destroyed as we expect.

Live demo

Edit: In your case, the approach you suggested looks perfectly valid. Take ownership away from A and something else owns the As.

| improve this answer | |
  • will the problem(cyclic reference) remain if we later create shared_ptr from a.lock()? – RaGa__M May 9 '16 at 9:36
  • 1
    @Explorer_N Providing B doesn't hold on to a shared_ptr created from a.lock() permanently then it is OK. Here is an expanded version of the live demo that includes an example of using a.lock(). – Chris Drew May 9 '16 at 9:45
  • Chris,How it is , creating shared_ptr will increase the reference count of the managed object was it? i have also changed the auto sa = a.lock(); to static shared_ptr<A> sa;, yet it works well.....i am wondering. – RaGa__M May 9 '16 at 10:04
  • @Explorer_N Yes, auto sa = a.lock() will increase the reference count of a but the reference count will decrease again when sa goes out-of-scope so that is fine. – Chris Drew May 9 '16 at 12:14
  • struct B { std::weak_ptr<A> a; std::shared_ptr<A> sa; ~B() { std::cout << "~B()\n"; } void doSomethingWithA() { sa = a.lock(); if (!sa) return; std::cout << "a.value: " << sa->value << "\n"; } }; this doesn't break the cyclic reference – RaGa__M May 9 '16 at 12:36

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