I answer here since other answers are now out-of-date; nevertheless, they were not quite right to the question.
First, C++14 has changed the rules mentioned in the question. Indirection through an invalid pointer value or passing an invalid pointer value to a deallocation function are still undefined, but other operations are now implemenatation-defined, see Documentation of "invalid pointer value" conversion in C++ implementations.
Second, words matter. You can't bypass the definitions while applying the rules. The key point here is the definition of "invalid". For iterators, this is defined in [iterator.requirements]. Though pointers are iterators, meanings of "invalid" to them are subtly different. Rules for pointers render "invalid" as "don't indirect through invalid value", which is a special case of "not dereferenceable" to iterators; however, "not deferenceable" is not implying "invalid" for iterators. "Invalid" is explicitly defined as "may be singular", while "singular" value is defined as "not associated with any sequence" (in the same paragraph of definition of "dereferenceable"). That paragraph even explicitly defined "past-the-end values".
From the text of the standard in [iterator.requirements], it is clear that:
- Past-the-end values are not assumed to be dereferenceable (at least by the standard library), as the standard states.
- Dereferenceable values are not singular, since they are associated with sequence.
- Past-the-end values are not singular, since they are associated with sequence.
- An iterator is not invalid if it is definitely not singular (by negation on definition of "invalid iterator"). In other words, if an iterator is associated to a sequence, it is not invalid.
Value of end()
is a past-the-end value, which is associated with a sequence before it is invalidated. So it is actually valid by definition. Even with misconception on "invalid" literally, the rules of pointers are not applicable here.
The rules allowing ==
comparison on such values are in input iterator requirements, which is inherited by some other category of iterators (forward, bidirectional, etc). More specifically, valid iterators are required to be comparable in the domain of the iterator in such way (==
). Further, forward iterator requirements specifies the domain is over the underlying sequence. And container requirements specifies the iterator
and const_iterator
member types in any iterator category meets forward iterator requirements. Thus, ==
on end()
and iterator over same container is required to be well-defined. As a standard container, vector<int>
also obey the requirements. That's the whole story.
Third, even when end()
is a pointer value (this is likely to happen with optimized implementation of iterator of vector
instance), the rules in the question are still not applicable. The reason is mentioned above (and in some other answers): "invalid" is concerned with *
(indirect through), not comparison. One-past-end value is explicitly allowed to be compared in specified ways by the standard. Also note ISO C++ is not ISO C, they also subtly mismatches (e.g. for <
on pointer values not in the same array, unspecified vs. undefined), though they have similar rules here.