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C++11 provides the std::allocator_traits class as the standard way to use allocators. The static function std::allocator_traits::construct() takes a pointer to where the object should be constructed. The std::allocator_traits::allocate() static function, however, returns an allocator::pointer value, which only has to behave like a pointer but it is not necessarily one (in general, although std::allocator::pointer is required to be a pointer).

How is one supposed to use the allocation and construction static methods if, in general, they will work with incompatible types? Can they be used only if the pointer type is actually convertible to a normal plain pointer?

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+1 This is an exceptionally insightful question at this time. There are very few C++ programmers exploring these waters. Implementors have to. Which leads me to ask the question: Are you a std::lib implementor? – Howard Hinnant Jul 26 '13 at 2:08
@HowardHinnant: Thanks! The question is connected to the design of a small vector class with a couple of extra bells and whistles over std::vector (e.g., automatic use of static storage up to a few elements, support for SSE and other vector instructions, etc.). Just wanted to try to do things the "proper" way with respect to allocator support. – bluescarni Jul 26 '13 at 8:28

1 Answer 1

up vote 4 down vote accepted

There are two techniques to do this depending on what you have at the moment.

If you have an lvalue expression, say the value field in a node, then you can use std::addressof like so:

allocator_traits<allocator_type>::construct(alloc, std::addressof(ptr->value), ...);

where ptr is an allocator_type::pointer.

However if you don't have a field to dereference and you want to convert an allocator_type::pointer to T*, there's a trick you need to implement first:

template <class T>
to_raw_pointer(T* p) noexcept
    return p;

template <class Pointer>
typename std::pointer_traits<Pointer>::element_type*
to_raw_pointer(Pointer p) noexcept
    return p != nullptr ? ::to_raw_pointer(p.operator->())
                        : nullptr;

And now you can say:

allocator_traits<allocator_type>::construct(alloc, to_raw_pointer(ptr), ...);
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Oh wow, one never finishes learning... The semantics of operator->() are pretty mind boggling :D – bluescarni Jul 25 '13 at 17:48
Cheers by the way, marked answer as accepted. – bluescarni Jul 25 '13 at 19:52
why do you write :: in front of to_raw_pointer(p.operator->())? Is there a danger that ADL will cause interference otherwise, or is it just a habit? I would presume that when both overloads are in the same namespace it wouldn't matter. – TemplateRex Jul 25 '13 at 21:06
I think it was paranoia that lookup would only find the second overload, but on testing I find it isn't needed after all. I occasionally stumbled across issues like this when writing member swap, and so have gotten in the habit of just always qualifying unless I really want ADL to take over. – Howard Hinnant Jul 25 '13 at 22:17

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