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Recently I've been frequently running into situations where I needed something similar to this data structure.

Restrictions: C++03 standard.

 +-----+--------------+               +----+
 |node0| NodeDataRef ->-------------->|data|
 +-----+--------------+               +----+
 +-----+--------------+                ^^ ^
 |node1| NodeDataRef ->----------------+| |
 +-----+--------------+                 | |
 +-----+--------------+                 | |
 |node2| NodeDataRef ->-----------------+ |
 +-----+--------------+                   |
 +-----+--------------+                   |
 |root | RootDataRef ->-------------------+
  1. There are several Node classes, where each Node holds NodeDataRef "reference" (think shared_ptr) to the same instance of "Data" (class, structure, whatever - dynamically allocated).
  2. There is also a "Root" or "master" node/class that holds RootDataRef reference (this time, think weak_ptr) to the same "Data".
  3. When all Nodes are destroyed, data is also destroyed and RootDataRef is set to 0/NULL. I.e. NodeDataRef acts like shared_ptr<Data> and RootDataRef acts like weak_ptr<Data>
  4. However root node can force destruction of data even if there are still active NodeDataRefs. In this situation all NodeDataRefs that were pointing to the data are set to NULL/0 and RootDataRef is also set to 0/NULL.

I.e. weak_ptr<Data> that can force destruction of all linked shared_ptr<Data>.

  1. Does this pattern/smart pointer type has a name?
  2. How can I quickly implement this using either Boost or Qt 4? ("quickly" means without writing a class to maintain list of references)
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5 Answers 5

up vote 4 down vote accepted

Does this pattern/smart pointer type has a name?

As far as I know, no, this is not a typical ownership pattern with a commonly used name.

How can I quickly implement this using either Boost or Qt 4? ("quickly" means without writing a class to maintain list of references)

There is no pre-packaged ownership policy for this use case, because that would defeat the point of shared ownership. If several shared pointers to a given object exist, by definition those shared pointers have to keep that object alive. If I am given a shared pointer, that's a guarantee that the object will exist until I release it.

If you want one master object to be able to command the destruction of the pointed object no matter whether other objects hold a shared pointer to it, then you will have to figure some separate mechanism for letting it command all the holders of a shared pointer to that object to release it.


Although "hacky" solutions exist to make this work "quickly", I would not recommend you using any of them. This pattern is atypical enough for you to want it to be evident when someone reads your code (including you in a few months from now).

Your intent should be made clear through explicit communication patterns between the master object and the other owners, instead of being hidden somewhere in a wrapper, custom deleter, or whatever else.

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I asked for a "quick" solution because I know how to write this one myself, but thought that maybe there's some kind of (already available_ class in boost I could use. –  SigTerm Mar 24 '13 at 16:55
@SigTerm: OK, I don't know of any "best practice" for implementing this design pattern. I just wanted to point out that whatever solution is chosen, I would rather have it well visible in my code rather than packed inside some custom ownership policy. Good luck with your project :) –  Andy Prowl Mar 24 '13 at 16:58

I'm not sure why you want to do this, but here's a (very) hackish solutions which also require some extra code to be run at every access to a NodeDataRef (ideally done as a method of that class).

Create a sentinel object along with your Data object. Give RootDataRef an owning reference to it and all nodes a weak reference. Then, before each access to a NodeDataRef, check that the weak reference to the sentinel is still valid. To force a delete from root, delete the owning reference to the sentinel, causing all the weak references in the NodeDataRefs to become invalid.

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One easy to implement (but not the most efficient) way is to have double shared_ptr layers:
shared_ptr < shared_ptr < data > >
The root will have a weak pointer to that, and when you want a force destruction you will reset the internal shared_ptr data (do it under a lock!)
All the other nodes will use it normally but have to check the validity of the internal shared_ptr before using it.

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you could use shared_ptr<T> and weak_ptr<T> where T = scoped_ptr<Data>. Assuming you are fine with creating Data instances with operator new).

The shared_ptr should be allocated using make_shared<unique_ptr<Data>>(new Data(...));

The root weak_ptr could force deletion by calling root.lock().reset()

template <typename T>
struct RootHandle : public boost::weak_ptr< boost::scoped_ptr<T> >
    typedef boost::weak_ptr< boost::scoped_ptr<T> > weak_type;
    typedef boost::shared_ptr< boost::scoped_ptr<T> > strong_type;

    RootHandle() {}
    RootHandle(const weak_type& impl)
        :weak_type(impl) {}

    T* get() const
        strong_type x = lock();
        return (x) ? x->get() : 0;

    void reset()
        strong_type x = lock();
        if (x)

template <typename T>
struct NormalHandle : public boost::shared_ptr< boost::scoped_ptr<T> >
    typedef boost::shared_ptr< boost::scoped_ptr<T> > strong_type;

    NormalHandle() {}
    NormalHandle(const strong_type& impl)
        :strong_type(impl) {}

    T* get() const
        boost::scoped_ptr<T>* ppx = strong_type::get();
        return (0 != ppx) ? ppx->get() : 0;

Initialization of new NormalHandles looks like this:

NormalHandle<Data> handle1(boost::make_shared< boost::scoped_ptr<Data> >(new Data(4, 3, "abc")));

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Isn't unique_ptr<T> only part of C++11? OP specified only C++03. –  jerry Mar 24 '13 at 13:12
okay, you'll have to use boost::scoped_ptr instead then. practically any "scope guard" type mechanism that can be dismissed early will work here. –  yonil Mar 24 '13 at 13:18

No one's given a Qt-specific answer (weird?), so I'll give a crack at it though I'm a little rough with the shared-pointer classes.

It seems that you could generate the RootDataRef as a QSharedPointer and spawn nodes off of that. Upon creation of the first NodeDataRef, demote the RootDataRef to a weak pointer using QSharedPointer::toWeakRef. That way, when you delete all of the NodeDataRefs, the original pointer will get deleted and the RootDataRef should (maybe not?) be set to zero.

If you needed to delete the original object using the root, simply re-promote it back to a strong reference using QWeakPointer::toStrongRef, delete it, and all of the nodes should be assigned to zero automagically.

Edit: Alternatively, do you really need a pointer? If this is a case of shared data rather than an actual shared object, you might consider Qt's implicit sharing scheme in QSharedDataPointer and especially QExplicitlySharedDataPointer.

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