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class Whatever
    virtual ~Whatever();

    virtual void SomeMethod();
    void OnEventOccurred(int x);

    std::vector<boost::signals2::scoped_connection> boostSignalConnections_;

// .cpp

                      this, std::placeholders::_1)));

(Note AddEventOccurredObserver just delegates to boost::signals2::connect() and returns the boost::signals2::connection)

I'm getting the following error. It's hard to interpret template errors but it seems like the error is being caused at the member declaration of std::vector<boost::signals2::scoped_connection> boostSignalConnections_;

...\vc\include\xmemory(202): error C2248:  
    'boost::signals2::scoped_connection::scoped_connection' :
    cannot access private member declared in class 'boost::signals2::scoped_connection'
...\boost_1_47\boost\signals2\connection.hpp(234) : see declaration of
...\boost_1_47\boost\signals2\connection.hpp(210) :
    see declaration of 'boost::signals2::scoped_connection'
...\vc\include\xmemory(201) : while compiling class template member function
'void std::allocator<_Ty>::construct(boost::signals2::scoped_connection *,_Ty &&)'

I've searched and I think it might have to do with scoped_connection not being copyable? I'm not sure. The reason I'm using a scoped_connection is because of this SO question: Handle connection/disconnection of many signals/slots with boost::signals2


FYI, when I change from scoped_connection to connection it works: std::vector<boost::signals2::connection> boostSignalConnections_;. My whole reason for using scoped_connection is that they automatically disconnect the connection on destruction whereas I believe a connection doesn't not. However, I can just iterate over the collection and manually disconnect each one.

share|improve this question
You're correct that the problem is that the copy constructor is private. Since vector needs to copy the elements in the case of a reallocation (e.g. due to expansion), this is a problem. I don't have the best solution for you though, so I'll leave it to other to actually answer the implicit question of "what should I do instead?" My first, naive response would be to keep a vector of pointers/references to heap-allocated connections, but that obviously pretty much eliminates the usefulness of the scoped part of the equation. – tmpearce May 4 '12 at 2:12
up vote 7 down vote accepted

boost::signals2::scoped_connection is non-copyable, and in C++03, std::vector<T> requires that T be both copy-constructible and copy-assignable (this requirement is relaxed in C++11, where a non-copyable type is fine as long as it's movable instead).

The naive solution would be to make boostSignalConnections_ a std::vector<scoped_connection*> instead, but this introduces object lifetime and exception-safety issues that aren't worth the effort. Instead, depending on how recent your compiler is, I'd recommend the following:

  • C++03: Use boost::ptr_vector<scoped_connection>, which will store pointers for you (allowing non-copyable types) but give you value-semantics, and eliminate the aforementioned object lifetime and exception-safety issues.
  • C++11: The above is still a valid option, but the more idiomatic approach would be to use std::vector<std::unique_ptr<scoped_connection>>.

That being said, why used scoped_connection if you don't want your object to be lexically-scoped?

share|improve this answer
Good question, but as I mentioned I was following the example in the question linked to in my question (although that uses a map so maybe it's different?) It seemed unusual to me to use a scoped object in container but I'm not that familiar with them. – User May 4 '12 at 2:33
@User : Right, associative container values have weaker requirements than sequence container values and associative container keys. – ildjarn May 4 '12 at 2:39

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