I was trying with the cyclic references for boost::shared_ptr, and devised following sample:

class A{ // Trivial class
    i32 i;
    A(i32 a):i(a){}
        cout<<"~A : "<<i<<endl;

shared_ptr<A> changeI(shared_ptr<A> s){

    return s;

int main() {

    shared_ptr<A> p1 = make_shared<A>(3);
    shared_ptr<A> p2 = p1;
    shared_ptr<A> p3 = p2;
    shared_ptr<A> p4 = p3;

    p1 = p4; // 1) 1st cyclic ref.

    p1 = changeI(p4); // 2) 2nd cyclic ref.


//  putchar('\n');

which outputs


~A : 4

Is it that I've misinterpreted the cyclic references mentioned for boost::shared_ptr? Because, I expected different output thinking of indirect references to p1 after comments 1) and 2). So this code doesn't require boost::weak_ptr! So what are the cyclic references where weak_ptrs would be required?

Thanks in advance.


Yes, you have misinterpreted this. In your example, all the pointers are pointing to the same object, not forming any cycles.

The assignment of p4 to p2 is a no-op, since those pointers were already equal to begin with.

Here's an example with real cyclic references, maybe that will clear things up:

struct A
  std::shared_ptr<A> ptr;

void main()
  std::shared_ptr<A> x=std::make_shared<A>();
  std::shared_ptr<A> y=std::make_shared<A>();

  x->ptr = y; // not quite a cycle yet
  y->ptr = x; // now we got a cycle x keeps y alive and y keeps x alive

You can even make this even simpler:

void main()
  std::shared_ptr<A> x=std::make_shared<A>();

  x->ptr = x; // never die! x keeps itself alive

In both examples, the objects in the shared_ptrs are never destructed, even after you leave main.

  • Thank you for clarification. Now in your example, will x die when process ends (in Linux - I am using Ubuntu 10.04), or it depends on OS whether it lives till reboot? – zeropoint Sep 9 '12 at 12:44
  • 1
    Yes, strictly speaking that's the OS's job. All the OSs I know do it though. Some embedded OSs might not. – ltjax Sep 9 '12 at 13:21
  • Ok, so cycles would be formed when some object having a member pointer is directly/indirectly pointing to itself. Are there any other scenarios? Please do tell. – zeropoint Sep 10 '12 at 5:01
  • 2
    No, that's pretty much the definition of a cycle; an object pointing directly or indirectly to itself, thus never losing that one reference. – ltjax Sep 10 '12 at 9:12
  • 1
    Will the use_count() of x and y decrease from 2 to 1 when main returns? – Moshe Rabaev Jun 27 '16 at 20:13

Just wanted to point out: the reason why the second line of the output is a 5 and not a 4 is not because of the s->i++ increase, but because the shared_ptr<A> s parameter is being passed by value.

Upon calling

p1 = changeI(p4); // 2) 2nd cyclic ref.

p4 will be copied to yet another shared_pointer, temporarily increasing the use_count by one during the scope of the function.

Maybe I'm playing captain obvious here (;

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