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struct Delete
     template <typename T>
     void operator() (T* t)
         delete t;

template <typename Container>
class SmartContainer
     : public Container
         std::for_each(Container::begin(), Container::end(), Delete());

     SmartContainer(const SmartContainer& other)
         for (typename Container::const_iterator iter = other.begin(); iter != other.end(); ++iter) {
             push_back(new typename Container::value_type(**iter));

   SmartContainer() {}

In this code I have tried implement a smart container. The container contains pointers. It deletes the pointers when it is destroyed. The problem is in writing copy constructor. It should copy the object and put pointers of copies in the container. I am getting error in this push_back line because Container::value_type is pointer type but it needs to create an object of dereferenced type. std::remove_pointer may be useful here but my compiler doesn't support c++11. Maybe a normal container with smart pointers is a better choice but I need solution for this.

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It looks right to me? (so far) From **iter your Container type seems to be a pointer type, so the push_back is also correct. A usage example would help clarify things (sscce.org) –  Lightness Races in Orbit Jan 20 '14 at 18:32
@LightnessRacesinOrbit Container::value_type is T*, then new Container::value_type will create a T**. –  dyp Jan 20 '14 at 18:33
@dyp: Oh, right :) +1 for both –  Lightness Races in Orbit Jan 20 '14 at 18:33

2 Answers 2

up vote 3 down vote accepted

You could implement your own remove_pointer (from cppreference.com):

template< class T > struct remove_pointer                    {typedef T type;};
template< class T > struct remove_pointer<T*>                {typedef T type;};
template< class T > struct remove_pointer<T* const>          {typedef T type;};
template< class T > struct remove_pointer<T* volatile>       {typedef T type;};
template< class T > struct remove_pointer<T* const volatile> {typedef T type;};

Then do typename remove_pointer<Container::value_type>::type.

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I think you still need a typename before Container::value_type. –  dyp Jan 20 '14 at 19:38

Change the template parameter. Instead of Container make it Container<T*>, then you'll have the base object type available.

template <typename Container, typename T>
class SmartContainer
     : public Container<T*>
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I'm not sure how you mean that. With a partial specialization? –  dyp Jan 20 '14 at 18:34
@dyp, sorry I wasn't very clear. I added an example. –  Mark Ransom Jan 21 '14 at 0:38
In that case, Container needs to be a template template-parameter, template < template<class...> class Container, class T, class... Add > class SmartContainer : public Container<T*, Add...> (allocators etc. can be put into the Add parameter pack) –  dyp Jan 21 '14 at 10:24

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