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The following code compiles fine on my system:

#include <array>
#include <type_traits>

static_assert(std::is_same<std::array<int, 5>::iterator,
                           std::array<int, 7>::iterator>::value, ":(");

Is that behavior guaranteed by the standard? Is the iterator type independent of the array size?

If it is guaranteed, is there any way to abstract from the element type and ignore the size?

template<typename T, size_t n>
void foobar(std::array<T, n>::iterator it)

That is, is there any way to write the above array-specific code without mentioning the size n?

Note that I do not want to resort to T*, even though in release mode the iterator probably is a T*.

share|improve this question
What's wrong with template<typename Iterator_type> void foobar(Itearator_type it)? – Lol4t0 Oct 10 '12 at 16:21
@Lol4t0 It's too general and doesn't satisfy my thirst for knowledge? – fredoverflow Oct 10 '12 at 16:23
I mean, if code works for given iterator, why should one impose artificial limitation? This 2 comments connected only to the last section of your question, of cause. – Lol4t0 Oct 10 '12 at 16:27
@FredOverflow ...but it is exactly the way you should do it. The declaration with e.g. RandomAccessIterator as template type argument will do it... – Paul Michalik Oct 10 '12 at 16:31
up vote 3 down vote accepted

No, it's not guaranteed. Each array type array<T, size_t> has a nested member typedef named iterator whose type is implementation defined.

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No, there are no guarantees. The standard just says

typedef implementation-defined    iterator;

The iterator type could be a plain pointer, a class that is a member of the array, or a separate class wrapping the plain pointer.

If it is a member class, it will depend on the array size. Otherwise likely not.

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The simple answer is make it a bit more generic. Why do you only want to allow iterators from a std::array?

template <typename Iterator>
void foobar( Iterator it )

In the second piece of code, the type T and size n are in a non-deducible context. Conceptually multiple std::array types could have the same iterator type, or as you mention it can just be T*, and it would be impossible to find what possible std::array had a T* as iterator

share|improve this answer
In fact the actual answer is even simpler: "No, this is not guaranteed by standard." – Christian Rau May 12 '13 at 21:58

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