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I'm currently searching for the best way to extend an arbitrary standard conform allocator type. To be clear: I don't want to write a custom allocator. I just want to "add" a specific extension or behavior to an already existing one. I've created a sample how this could look like. Please note, that the following code is just for illustration purpose.


#include <memory>
#include <map>

template<typename T>
struct allocator_traits;

template<typename T, class allocator_type = std::allocator<T>>
class smart_allocator;

struct allocator_traits<void>
    typedef std::allocator<void>::const_pointer const_pointer;
    typedef std::allocator<void>::pointer       pointer;
    typedef std::allocator<void>::value_type    value_type;

template<typename T>
struct allocator_traits
    typedef typename std::allocator<T>::const_pointer   const_pointer;
    typedef typename std::allocator<T>::const_reference const_reference;
    typedef typename std::allocator<T>::difference_type difference_type;
    typedef typename std::allocator<T>::pointer         pointer;
    typedef typename std::allocator<T>::reference       reference;
    typedef typename std::allocator<T>::size_type       size_type;
    typedef typename std::allocator<T>::value_type      value_type;

template<class allocator_type>
class smart_allocator<void, allocator_type>
    : public allocator_traits<void>
    template<typename U> struct rebind { typedef smart_allocator<U, typename allocator_type::rebind<U>::other> other; };

template<typename T, class allocator_type>
class smart_allocator
    : public  allocator_traits<T>,
      private allocator_type
    using typename allocator_traits<T>::const_pointer;
    using typename allocator_traits<T>::const_reference;
    using typename allocator_traits<T>::difference_type;
    using typename allocator_traits<T>::pointer;
    using typename allocator_traits<T>::reference;
    using typename allocator_traits<T>::size_type;
    using typename allocator_traits<T>::value_type;
    template<typename U> struct rebind { typedef smart_allocator<U, typename allocator_type::rebind<U>::other> other; };

    smart_allocator() throw() /*noexcept*/;
    smart_allocator(allocator_type const&) throw() /*noexcept*/;
    virtual ~smart_allocator() throw();

    virtual ~smart_allocator()
        std::map<pointer, size_type>::iterator i = this->m_map.begin();
        while (i != this->m_map.end())
            this->allocator_type::deallocate(i->first, i->second);

    pointer allocate(size_type n, allocator_traits<void>::const_pointer hint = 0)
        pointer p = this->allocator_type::allocate(n, hint);
        this->m_map.insert(std::pair<pointer, size_type>(p, n));
        return p;

    void deallocate(pointer p, size_type n) /*noexcept*/
        std::map<pointer, size_type>::iterator iter = this->m_map.find(p);
        if (iter != this->m_map.end())
            this->allocator_type::deallocate(iter->first, iter->second);

    using allocator_type::address;
    using allocator_type::construct;
    using allocator_type::destroy;
    using allocator_type::max_size;

    smart_allocator(smart_allocator const&) throw();
    smart_allocator& operator=(smart_allocator const&);

    std::map<pointer, size_type> m_map;


Please consider the following notes:

  • The template argument allocator_type could be any standard conform type. It is not restricted to std::allocator. This is the same technique all STL implementations are using.
  • We need to use private inheritance when deriving from allocator_type, because non of the std::allocator member functions are virtual. However, std::allocator& alloc = smart_allocator() wouldn't do what you might expect.

Do you think this is applicable?

share|improve this question

You'd certainly need to implement a copy constructor and copy assignment operator, or your map may get mangled when containers pass the allocator around by value (specifically you could wind up double-deleting). There may be other considerations I didn't notice.

share|improve this answer
Hum, like I said in my initial post: It's just for illustration purpose. That doesn't mean that you're not absolutely right. I've added the ctor declarations which should be implemented. – 0xbadf00d Jun 13 '11 at 19:12

What came to mind immediately was the Decorator; as the reference notes, "Decorators are useful for adapting objects to new situations without re-writing the original object's code." Which, if I understand your question, sounds like what you are after.

share|improve this answer
That won't work when you need to extend the behavior of a particular function which isn't virtual. That's the case in my example of std::allocator. However, this pattern needs to be created by passing an instance of an object which implements the abstract base class, but standard conform allocator classes need to be default constructible. – 0xbadf00d Jun 14 '11 at 6:57

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