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Can't find much on that for C++11 but only on boost.

Consider the following class:

class State
   std::shared_ptr<Graph> _graph;


    State( const State & state )
        // This is assignment, and thus points to same object
        this->_graph = std::make_shared<Graph>( state._graph ); 

        // Deep copy state._graph to this->_graph ?
        this->_graph = std::shared_ptr<Graph>( new Graph( *( state._graph.get() ) ) );

        // Or use make_shared?
        this->_graph = std::make_shared<Graph>( Graph( *( state._graph.get() ) ) );

Suppose class Graph does have a copy constructor:

Graph( const Graph & graph )

I do not want to have this->_graph point/share the same object! Instead, I want this->_graph to deep copy the object from state._graph, into my own this->_graph duplicate.

Is the way above the correct way of going about this?

Documentation of std::make_shared notes that:

Moreover, f(shared_ptr(new int(42)), g()) can lead to memory leak if g throws an exception. This problem doesn't exist if make_shared is used.

Is there another way of going about this, safer or more reliable?

share|improve this question
Is there a reason you're using a shared_ptr if you want each object to point to its own Graph? It seems like another pointer type would be more appropriate, as would having the Graph as a direct subobject. –  templatetypedef Nov 14 '13 at 4:06
Yes, they are owned between other classes. But in this particular case I really need a duplicate, and not to share the given Object as I intend to alter it, without wanting the original to be altered. You propose I use unique_ptr instead? –  Alex Nov 14 '13 at 4:10
That was going to be one of my suggestions, but if the object really is shared then there are lots of other good approaches. –  templatetypedef Nov 14 '13 at 4:16

1 Answer 1

up vote 2 down vote accepted

If you want to make a copy of the Graph object when you make a copy of the object, you can always define your copy constructor and assignment operator to do just that:

State::State(const State& rhs) : _graph(std::make_shared(*rhs._graph)) {
   // Handled by initializer list
State::State(State&& rhs) : _graph(std::move(rhs._graph)) {
   // Handled by initializer list
State& State::operator= (State rhs) {
    std::swap(*this, rhs);
    return *this;

Hope this helps!

share|improve this answer
I'm even more curious now. The first Copy constructor you have, simply assigns the same graph, does it not? Whereas the second one uses move, which would move, not duplicate the object, no? –  Alex Nov 14 '13 at 4:21
The copy constructor initializes _graph to be a std::shared_ptr that points at a brand-new Graph object initialized as a copy of the original graph. This means that it ends up pointing to a new Graph separate from the original graph. In the move constructor, we just move the existing shared_ptr out of the existing State object, since that object isn't going to be used any more. –  templatetypedef Nov 14 '13 at 4:28
Thank you for your help and explanation :) –  Alex Nov 14 '13 at 4:32

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