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I have a directed acyclic graph implemented by Graph and Node classes. Each node has a list of pointers to childern and a list of pointers to parents. I added parents recently because some algorithms demanded fast access to parent list and the graph is small, just few connections per node, so there's no memory issue.

The Child list uses std::shared_ptr so that nodes are kept in memory at least as long as they have parents. But I don't want a node to own its parents, so I used weak_ptr for the pointers to parents.

But then there was a problem with the algorithms. An algorithm must create a new shared_ptr from the weak_ptr, so I can't directly use operator==, and using standard functions such as std::find() require writing a lambda function which called my_weak_ptr.lock() and then compares it to some shared_ptr.

If I switch to shared_ptr, any small bug in the code reponsible for node removal may lead to a memory leak. Or if I have a pointer to a node already removed, the code will be able to access a node not supposed to exist, so finding some bugs may become a lot harder. But working with shared_ptr is as safe as weak_ptr in terms of not dereferencing/deleting/etc. when not supposed to, (so it's better than raw C++ pointer) and std::find() can be used directly because shared_ptr can be dereferenced, unlike weak_ptr.

Is there a "better" design here, or it's an issue of this specific situation depending on e.g. how much does it matter if I do the extra operation of weak_ptr::lock() or take a risk of hard-to-find bugs?

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  • Why aren't you removing the references from the children when the parent is destroyed? Jan 28, 2013 at 13:01
  • When a node has no parents and is a candidate for automatic deletion, by that time its parent list should be empty and of course no node points to it. But if by mistake something doesn't happen right, if there's any kind of bug there - it would be hard to find. What I'm saying is, children lists and parent lists have to be synchronized perfectly. Jan 28, 2013 at 13:15
  • But with weak_ptr you care less because the only bugs there are visible in the GUI representation of the graph, are there's no memory issues to worry about. With shared_ptr parent list, either you trust the lists to be correct, which is risky, or you have to test the lists, then e.g. throw exceptions. Which means slower algorithms.... it's a tradeoff, that's why I'm asking this question Jan 28, 2013 at 13:18
  • What's wrong with the lambda?
    – Andy Prowl
    Jan 28, 2013 at 13:27
  • With std::find_if() taking a lambda, when you search through a parent list, each weak_ptr has to be lock()ed and then the resulting shared_ptr compared to the other function parameter. As long as it's not too slow, it's fine, but it's easier and faster to compare shared_ptrs directly using operator== automatically called by std::find() (for other opeations too, with lambda or withour - you have to lock() every time) Jan 28, 2013 at 13:32

2 Answers 2

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As you said yourself, using shared_ptr in both directions will create circles that create mem leaks and are hard to find and to break - you will lose (nearly) all of the benefits shared_ptr provides. So weak_ptr it shall be.

You say your algorithms have to lock the weak_ptr - I beg to differ. The algorithms have to get a parent shared_ptr from the node. It's the node's task to lock the parent weak_ptr and give back the result, either set correctly to a parent node or to NULL.

It's an implementation detail wether the nodes store their parents as shared_ptr or weak_ptr. Encapsulate that detail by only providing shared_ptrs to any clients.

class Node
{
  /* ... */
  std::weak_ptr<Node> parent;
public:
  std::shared_ptr<Node> getParent()
  {
    return parent.lock();
  }
};

Edit: Of course conceptually the same applies if there's more than one parent.

Edit2: In the comments you mention algorithms iterating over your parents list, making it necessary to write lambdas for each algorithm. If you use those algorithms often, consider to write an iterator adapter that automatically locks the target weak_ptr and gives back a shared_ptr:

template <class WPIterator>
struct LockTheWeakIterator
{
  //static_assert that WPiterator's value_type is some weak_ptr
  //typedef all those iterator typedefs
  typedef typename WPIterator::value_type::element_type element_type;

  shared_ptr<element_type> operator*()
  { return iter->lock(); }

  //provide all the other operators - boost.operators might help with that...

  WPIterator iter;
};

template <class IT>
LockTheWeakIterator<It> lockTheWeak(It iter);


//somewhere...
auto theParentIter = std::find_if(lockTheWeak(parents.begin()), 
  lockTheWeak(parents.end()), 
  whatIAmLookingFor);
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  • I agree. In the higher-level Node methods, there should be no weak_ptr. But the parent-list iterators do point to weak_ptr, so at the lower level there's direct use of lock(). (Otherwise I'll have to write my own std::list::iterator wrapper just for the convenience of not using lock()). Great answer Jan 28, 2013 at 13:48
  • Indeed looks simple enough to write once and use everywhere - it's actually useful for any STL container storing weak pointers, worth having it even as a shelf class to use every time the need comes :) Jan 28, 2013 at 14:01
  • It's even better than that, I already have begin(), end(), etc. wrappers so you don't even need to type LockTheWeak, the begin() wrapper directly returns a shared_ptr. Thanks for the answer! Jan 28, 2013 at 14:05
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Most directed acyclic graphs should not need weak pointers to their parents at all, but work with plain pointers. In both cases it is each node's responsibility to delete themselves from each client's parent list once they get deleted. If you need to retrieve a shared pointer from some parent pointer in some special situation you can use std::shared_from_this in a similar way as you'd use lock() right now. This way you save the work to create and handle shared pointers all over the place, but only where you need them.

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  • 1) plain pointers don't throw exceptions, they just make weird segfaults. 2) I need nodes to share ownership of the children, so I use shared_ptr in the data structure. And I need parent lists but I don't want children to own the parents, that why I use weak_ptr there in the data structure Jan 28, 2013 at 14:10
  • 1
    @1: Changes to the parent list should be done in very few central functions which you can prove to be correct. E.g. in the Node's dtor you want to call something like for (auto& c : _children) c->unlinkFromParent(*this); and thats it. @2: I was only talking about the parent list, the child list should still contain shared_ptrs to automatically manage lifetime of children.
    – Stacker
    Jan 28, 2013 at 14:15
  • 1
    Changes to parent list happen every time there's a change to a child list, it means nearly all graph operations change parent lists. Also, raw pointers are not safe. You can easily end up deleteing memory. Maybe I'm a paranoid, but to me it feels like a time bomb. Using a smart pointer lowers thhe chance of unexpected results. And the only cost is calling lock(). As long as it's not too slow, it's definitely worth it. Personally raw pointers are the least wanted option for me, it's unnecessarily "more low-level" Jan 28, 2013 at 14:23
  • It is not just about calling lock. The above accepted answer does not do any checking of the value returned by lock at all, so you'll get the same access violations if you mess things up :) Also, you have to adjust the parent list in both cases, whether you use raw pointers or weak_ptrs. The different however is, that with raw pointers you don't have to temporarily lock the parent object (which is guaranteed to be valid when always calling unlinkFromParent instead of manually messing up the parent list) each time you only want to take a quick look into it (like reading some member value).
    – Stacker
    Jan 28, 2013 at 14:29
  • 3
    Additionally I never said that you should expose raw pointers to the outside world. I only proposed using them internally and just in the list of parents for each node. Thus you'll never end up deleting memory which has already been deleted (unless you explicitly write delete somewhere, which would be wrong)
    – Stacker
    Jan 28, 2013 at 14:35

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