I am having trouble figuring out how to prevent recursive attempts at template substitution and explicitly force a sub-class template instantiation

The following code:

#include <boost/ptr_container/ptr_vector.hpp>

template <typename TemplateParameter>
struct ParentClass
{
    struct SubClass
    {
        boost::ptr_vector<SubClass> nodes;
    }; // this by itself works fine

    // but with combination with this
    void someMethod(boost::ptr_vector<SubClass>& otherNodes){} 
};

int main (int argc, char** argv)
{
    ParentClass<int> p;
    return 0;
}

built with boost 1.68 and gcc 7.3.1 gives the following error:

test.cpp: In instantiation of ‘struct ParentClass<int>::SubClass’:
/usr/include/boost/ptr_container/nullable.hpp:55:13:   recursively required by substitution of ‘template<class T> boost::type_traits::yes_type boost::ptr_container_detail::is_nullable(const boost::nullable<T>*) [with T = <missing>]’
/usr/include/boost/ptr_container/nullable.hpp:55:13:   required from ‘const bool boost::is_nullable<ParentClass<int>::SubClass>::value’
/usr/include/boost/mpl/if.hpp:63:11:   required from ‘struct boost::mpl::if_<boost::is_nullable<ParentClass<int>::SubClass>, ParentClass<int>::SubClass, boost::mpl::identity<ParentClass<int>::SubClass> >’
/usr/include/boost/mpl/eval_if.hpp:37:41:   required from ‘struct boost::mpl::eval_if<boost::is_nullable<ParentClass<int>::SubClass>, ParentClass<int>::SubClass, boost::mpl::identity<ParentClass<int>::SubClass> >’
/usr/include/boost/ptr_container/nullable.hpp:69:13:   required from ‘struct boost::remove_nullable<ParentClass<int>::SubClass>’
/usr/include/boost/ptr_container/nullable.hpp:80:55:   required from ‘struct boost::ptr_container_detail::void_ptr<ParentClass<int>::SubClass>’
test.cpp:11:10:   required from ‘struct ParentClass<int>’
test.cpp:16:22:   required from here
test.cpp:8:37: error: invalid use of incomplete type ‘struct boost::ptr_container_detail::void_ptr<ParentClass<int>::SubClass>’
         boost::ptr_vector<SubClass> nodes;
                                     ^~~~~
In file included from /usr/include/boost/ptr_container/detail/reversible_ptr_container.hpp:25,
                 from /usr/include/boost/ptr_container/ptr_sequence_adapter.hpp:20,
                 from /usr/include/boost/ptr_container/ptr_vector.hpp:20,
                 from test.cpp:1:
/usr/include/boost/ptr_container/nullable.hpp:75:16: note: declaration of ‘struct boost::ptr_container_detail::void_ptr<ParentClass<int>::SubClass>’
         struct void_ptr
                ^~~~~~~~

My understanding of the issue is that it tries to resolve the ParentClass and consequently tries to resolve its method - someMehtod(...) but in order to do it must resolve the SubClass which is defined. A workaround is to force an explicit instantiation by instantiating SubClass as a member of ParentClass:

struct SubClass
{
    boost::ptr_vector<SubClass> nodes;
} member;

Is there another, less hacky way? :)

The issue was not present on older version of boost, where boost::ptr_vector was implemented with void* instead of void_ptr template class.

  • 1
    Can you use std::vector<std::unique_ptr<SubClass>> with the copy constructor deleted? With gcc 7.3, you should be in C++11 land and not require boost::ptr_vector anymore. – Matthieu Brucher Oct 18 at 16:59
  • 1
    std::vector<std::unique_ptr<SubClass>> has different ownership semantics - you can assign a boost::ptr_vector<SubClass> to another for example. It doesn't make a lot of sense since destruction of one of the vectors will destroy the objects held by it, but otherwise you are forcing every class that has a ParentClass or ParentClass::SubClass member to be non-copyable. – vordhosbn Oct 18 at 17:08
  • Looks like it's specific to boost. std::vector<SubClass*> is free from this problem. – SergeyA Oct 18 at 17:10
  • Yes, as noted, It appeared in recent boost versions. :) They changed boost::ptr_vector implementation from void* to boost::ptr_container_detail::void_ptr – vordhosbn Oct 18 at 17:11
  • 1
    @MatthieuBrucher the most important reason to use vector of raw pointers is that not every pointer is an owning pointer. OP didn't give use background, and it might be very reasonable to have a vector of non-owning pointers. – SergeyA Oct 18 at 17:17

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