Does the following give defined results in terms of the C++ standard?

std::list<int> myList;
std::list<int>::iterator myIter = myList.begin();    // any issues?
myList.push_back( 123 );
myIter++;                                  // will myIter point to the 123 I pushed?

I can test this out on the compiler I'm using... but I'd like a more definitive answer.

  • I think this is a good question because it made me think, hmm, actually. It's a list... maybe this would work... (It doesn't of course) – jcoder May 29 '12 at 7:36

All standard iterator and container types behave the same in this regard:

§23.2.1 [container.requirements.general] p6

begin() returns an iterator referring to the first element in the container. end() returns an iterator which is the past-the-end value for the container. If the container is empty, then begin() == end();

And table 107 in §24.2.3 [input.iterators] demands that as a precondition for ++it, it shall be dereferenceable, which is not the case for past-the-end iterators (i.e., what you get from end()), as such you're treading into the dreaded domain of undefined behaviour.

std::list<int> myList;
std::list<int> myIter = myList.begin();

The iterator has the same value as if you were initializing it with myList.end(). The iterator is initialized to on-past-the-end position. Even after you push an element into the list the iterator still points one-past-the-end. If you increment it, you are invoking undefined behaviour.


E.g., if you compile your snippet with GCC with -D_GLIBCXX_DEBUG, the resulting executable will abort:

/usr/include/c++/4.6/debug/safe_iterator.h:236:error: attempt to increment 
    a past-the-end iterator.

Objects involved in the operation:
iterator "this" @ 0x0x7fffc9548fb0 {
type = N11__gnu_debug14_Safe_iteratorINSt9__cxx199814_List_iteratorIiEENSt7__debug4listIiSaIiEEEEE (mutable iterator);
  state = past-the-end;
  references sequence with type `NSt7__debug4listIiSaIiEEE' @ 0x0x7fffc9548fb0
zsh: abort (core dumped)  ./listiter
  • ...except that when you have a circular list, one-past-the-end might give you a legitimate beginning point by some definitions. So are you absolutely sure... or making an educated guess? – omatai May 29 '12 at 5:26
  • 6
    @omatai: std::list<> is not circular. – wilx May 29 '12 at 5:27
  • Ah - yes - in my tired mind, I confused "doubly-linked" with "circular" because every time I used to (years ago) make a doubly-linked list, it always had a single head/tail which completed a "circle". D'Oh! I need to go home... – omatai May 29 '12 at 5:32
  • @wilx: usually it isn't. But it can be, more or less: ++end() is undefined so it could be begin(). However, there are N+1 distinct iterators if you have N values. – MSalters May 29 '12 at 8:16

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