Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

Why can I not do this?

boost::shared_ptr<QueuList> next;

void QueuList::SetNextPtr(QueuList* Next)
    boost::mutex mtx;

    boost::mutex::scoped_lock lock(mtx);
    {// scope of lock
        //if (next == NULL)  // is this needed on a shared_ptr??
        next = Next;  // Why can I not assign a raw ptr to a shared_ptr????


How should I do it instead??

EDIT: Calling this method when the next variable is assigned properly, it still causes an error when the QueuList object is destroyed for some reason. I get a debug assertion. The destructor of the object does nothing in particular. It only crashes when I call this function:

    QueuList li;
    QueuList lis;


When main goes out of scope, I get a debug assertion... Any ideas??

share|improve this question
Edited my answer for your edit. – Björn Pollex Sep 30 '10 at 10:08
up vote 5 down vote accepted

Putting a pointer inside a shared_ptr transfers ownership of the pointer to the shared_ptr, so the shared_ptr is responsible for deleting it. This is conceptually an important operation, so the designers of shared_ptr didn't want it to just happen as part of a normal-looking assignment. For example, they wanted to prevent code like:

some_shared_ptr = some_other_smart_pointer.get();

which looks fairly innocuous, but would mean that both smart pointers thought they had responsibility for cleaning up the pointer, and would likely double-delete the pointer or something similar.

This is what's happening with your debug assertion. Calling SetNextPtr(&lis) passes ownership of &lis to the shared_ptr, and "ownership" means that the shared_ptr will call delete on its pointee when the last copy of the shared_ptr goes out of scope. So you're effectively deleting a local (stack) variable - lis - which corrupts the stack and causes the crash.

share|improve this answer
so if lis is a pointer itself, passing it to this function will cause it to be owned by the shared_ptr or will I still need to delete my lis pointer? – Tony The Lion Sep 30 '10 at 10:06
You won't need to delete the lis pointer - you only need to delete pointers obtained from new, and in fact you must only call delete on pointers that were returned by new. It is incorrect to pass the lis pointer to this function at all, as the function currently is written, because &lis is not a pointer obtained from new, and the function will implicitly delete its argument. – Doug Sep 30 '10 at 10:11
I was talking about a pointer as this: QueuList* lis = new QueuList(); – Tony The Lion Sep 30 '10 at 10:19
OK, yes, so if you pass the result of new QueuList() to that function, then you don't (and mustn't) delete it anywhere else. – Doug Sep 30 '10 at 10:24

This is done to prevent accidentally assigning pointers to a shared_ptr whose lifetime is managed independently. You have to explicitly create a shared_ptr that then takes ownership of the object.

next = boost::shared_ptr<QueueList>( Next );

Edit about your edit The problem is that in your case the shared_ptr takes ownership of an object on the stack. Then two things can happen:

  1. The stack-frame of the object gets cleared before the shared_ptr reaches a reference count of 0. In that case, the shared_ptr will try to delete a non-existing object somewhere later, leading to undefined behavior.
  2. The shared_ptr reaches a reference count of 0 before the stack-frame is cleared. In that case, it will try to delete an object on the stack. I do not know exactly what happens in that case, but I would assume that it is undefined behavior too.
share|improve this answer
Or just use the reset Member function - next.reset(Next); – Paul Groke Sep 30 '10 at 9:39

You can use the Reset() function rather than the wordier next = boost::shared_ptr<QueueList>(Next);

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.