The behavior of swap has been clarified considerably in C++11, in large part to permit the Standard Library algorithms to use argument dependent lookup (ADL) to find swap functions for user-defined types. C++11 adds a swappable concept (C++11 §184.108.40.206[swappable.requirements]) to make this legal (and required).
The text in the C++11 language standard that addresses your question is the following text from the container requirements (§23.2.1[container.requirements.general]/8), which defines the behavior of the
swap member function of a container:
Every iterator referring to an element in one container before the swap shall refer to the same element in the other container after the swap.
It is unspecified whether an iterator with value
a.end() before the swap will have value
b.end() after the swap.
In your example,
a is guaranteed to be valid after the swap, but
b is not because it is an end iterator. The reason end iterators are not guaranteed to be valid is explained in a note at §23.2.1/10:
end() iterator does not refer to any element, so it may be
invalidated. --end note]
This is the same behavior that is defined in C++03, just substantially clarified. The original language from C++03 is at C++03 §23.1/10:
swap() function invalidates any references, pointers, or iterators referring to the elements of the containers being swapped.
It's not immediately obvious in the original text, but the phrase "to the elements of the containers" is extremely important, because
end() iterators do not point to elements.