Looking at n3092, in §6.5.4 we find the equivalency for a range-based for loop. It then goes on to say what
__end are equal to. It differentiates between arrays and other types, and I find this redundant (aka confusing).
It says for arrays types that
__end are what you expect: a pointer to the first and a pointer to one-past the end. Then for other types,
__end are equal to
end(__range), with ADL. Namespace
std is associated, in order to find the
std::end defined in
However, if we look at the definition of
std::end, they are both defined for arrays as well as container types. And the array versions do exactly the same as above: pointer to the first, pointer to one-past the end.
Why is there a need to differentiate arrays from other types, when the definition given for other types would work just as well, finding
Some abridged quotes for convenience:
§6.5.4 The range-based
— if _RangeT is an array type, begin-expr and end-expr are __range and __range + __bound, respectively, where __bound is the array bound. If _RangeT is an array of unknown size or an array of incomplete type, the program is ill-formed.
— otherwise, begin-expr and end-expr are begin(__range) and end(__range), respectively, where begin and end are looked up with argument-dependent lookup (3.4.2). For the purposes of this name lookup, namespace std is an associated namespace.
§24.6.5 range access
template <class T, size_t N> T* begin(T (&array)[N]);
template <class T, size_t N> T* end(T (&array)[N]);
Returns: array + N.