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I have an stl iterator resulting from a std::find() and wish to test whether it is the last element. One way to write this is as follows:

mine *match = someValue;
vector<mine *> Mine(someContent);
vector<mine *>::iterator itr = std::find(Mine.begin(), Mine.end(), match);

if (itr == --Mine.end()) {

But it seems to me that decrementing the end() iterator is asking for trouble, such as if the vector has no elements, then it would be undefined. Even if I know it will never be empty, it still seems ugly. I'm thinking that maybe rbegin() is the way to go, but am not certain as to best way to compare the forward iterator with a reverse iterator.

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Something does seem ugly here. I suggest it's not how you determine if itr is pointing to the last element, however. What's ugly is that you need to know if itr is pointing to the last element. – John Dibling Aug 18 '10 at 20:12
@John: You may be right. Maybe it would make more sense to check using: if (Mine.Length() != 0 && &Mine[Mine.Length()-1] == itr), or something close to that. – Steven Sudit Aug 18 '10 at 20:16
Hmm, my answer is ugly, too. It should have been GMan's first suggestion: if (&Mine.back() == itr). – Steven Sudit Aug 18 '10 at 20:18
@Steven: I'd wager if we knew the larger context of this code, we could figure out what's really wrong and fix it. I have a theory. If the code resists being written, it's because it knows it's wrong. – John Dibling Aug 18 '10 at 20:20
@John: Again, you may be right. All too often, something is awkward because it's fighting against the more natural way of doing things. – Steven Sudit Aug 18 '10 at 20:25

8 Answers 8

up vote 34 down vote accepted

Do this:

// defined in boost/utility.hpp, by the way
template <typename Iter>
Iter next(Iter iter)
    return ++iter;

// first check we aren't going to kill ourselves
// then check if the iterator after itr is the end
if ((itr != Mine.end()) && (next(itr) == Mine.end()))
    // points at the last element

That is all. Never gives you undefined behavior, works on all iterators, good day.

Wrap it up for fun:

template <typename Iter, typename Cont>
bool is_last(Iter iter, const Cont& cont)
    return (iter != cont.end()) && (next(iter) == cont.end())


if (is_last(itr, Mine))

If you're allergic to utility functions/nice looking code, do:

if ((itr != Mine.end()) && (itr + 1 == Mine.end()))

But you can't do it on non-random-access iterators. This one works with bidirectional iterators:

if ((itr != Mine.end()) && (itr == --Mine.end()))

And is safe since end() > itr by the first check.

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Concerning reverse iterators: Mine.rbegin().base() == Mine.end();. Reverse iterators store an iterator to the next element from the one you get when it is dereferenced. You'd still need to increment it first. – UncleBens Aug 18 '10 at 20:18
As I mentioned in my comment to the OP, I think the whole idea of needing to know if itr points to the last element is a code smell. Something just isn't right with that. However, if you really need to do this, this is how I'd do it. – John Dibling Aug 18 '10 at 20:19
The first one is the closest to being correct, except that it unnecessarily dereferences only to reference again. Also, doesn't back() throw if the vector is empty? – Steven Sudit Aug 18 '10 at 20:21
@Uncle: Ah, I forgot. :( No point really, then. @Steven: &itr gets the address of the iterator. *itr returns a reference to the element. &(*itr) is the address of the reference of the element (address of the element). And no, you'll just get undefined behavior, which is why I give the disclaimer at the bottom. OP should either assert it's not the end/empty or explicitly check it, for safety. – GManNickG Aug 18 '10 at 20:24
@Michael: Ditto. My C++ is obviously rusty, which is how I wound up half-wrong about &*. The half I wasn't wrong about is that it's not something you should do on an iterator that equals end(). – Steven Sudit Aug 18 '10 at 20:45

Yes, it's unsafe to decrement (or increment) end if the vector may be empty. It's even somewhat unsafe to do the same with a pointer, although you'll probably get away with it.

To be really safe, use subtraction and values known to be safe and valid:

if ( Mine.end() - itr == 1 )

For compatibility with all forward iterators (such as in slist, as opposed to random-access iterators of vector and deque), use

if ( std::distance( itr, Mine.end() ) == 1 )

or if you are concerned with performance but have bidirectional iterators (incl. any C++03 container)

if ( itr != Mine.end() && itr == -- Mine.end() )

or the truly anal case of only forward iterators and O(1) time,

if ( itr != Mine.end() && ++ container::iterator( itr ) == Mine.end() )

or if you are hellbent on cleverness to avoid naming the iterator class,

if ( itr != Mine.end() && ++ ( Mine.begin() = itr ) == Mine.end() )
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This should work, and while the pointer arithmetic isn't all that clear, at least this avoids potentially trying to dereference a null pointer. – Steven Sudit Aug 18 '10 at 20:31
You changed your answer to make it worse: now it only works with vectors. – Steven Sudit Aug 18 '10 at 20:35
@Steven: It was wrong before. The question only involves vectors. The edit didn't change its compatibility anyway, as I only eliminated a (universal) operation. – Potatoswatter Aug 18 '10 at 20:37
I can't imagine that calculating Mine.end() - itr could be efficient on a linked list, even if it's legal. – Steven Sudit Aug 18 '10 at 20:43
@Steven: I didn't change that part. Anyway, I updated with compatibility options. – Potatoswatter Aug 18 '10 at 20:45

Why do you need to do special behavior only if the item is the last one?

What about this. The plan is just to compare the address of the iterator's item with the address of the last item in the container, with a check to make sure the item is actually not already the end (making the back call safe):

if (itr != Mine.end() && &*itr == &Mine.back()) {
share|improve this answer
This is almost right, in that it'll fail if Mine.length() is 0. – Steven Sudit Aug 18 '10 at 20:47
@Steven How can Mine.length() be 0 if it found a valid iterator in the container that's not end? By definition that iterator points to an item and thus length can't be 0. Or do I miss something obvious? – Mark B Aug 18 '10 at 21:42
Well, the find method can return Mine.end() if nothing was found. – Steven Sudit Aug 19 '10 at 0:25
@Steven And the first part of my check where I test that find didn't return end catches that. – Mark B Aug 19 '10 at 2:31
You're correct. If you edit your answer, I'll be able to upvote it. – Steven Sudit Aug 19 '10 at 3:10

If you do:

if(itr != Mine.end() && itr == --Mine.end())

It should be fine. Because if itr is not at the end then there must be at least 1 element in the container and so end must yield a value result when decremented.

But if you still don't like that, there are lots of ways to do something equivalent, as all the other answers show.

Here's another alternative:

if(itr != Mine.end() && std::distance(Mine.begin(), itr) == Mine.size()-1)
share|improve this answer
The second one's not bad. – Steven Sudit Aug 18 '10 at 20:44
In the second solution if the container is list-like, it'll have to walk the whole list to determine the distance. – Mark B Aug 18 '10 at 21:54

Here's another potential solution:

template<class Iterator, class Container> bool is_last(Iterator it, const Container& cont)
    // the iterator must be a valid iterator for `cont`
    if( it == cont.end() )
        return false;   // or throw if you prefer
    return (++it) == cont.end();
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+1, didn't see your answer, sorry for stepping on your toes. We hive-minded the function signature, though, high-five. – GManNickG Aug 18 '10 at 20:54
I don't believe all control paths return a value... there should be return false; as the last line of the function, right? – rmeador Aug 18 '10 at 21:01
@John You need a tail return false in your template function. – WilliamKF Aug 18 '10 at 21:41
Thanks all for pointing out my error. Code fixed! – John Dibling Aug 18 '10 at 21:46
@GMan: We sure did. At least I can be a little more sure I got the signature right! :) – John Dibling Aug 18 '10 at 21:48

This is essentially the same problem as deleting a node from a singly-linked list. You have to have two iterators, one that follows one node behind the other, so when the "forward" iterator gets to the node you want to delete (or whatever operation; in your case the desired node would be the end), the "following" iterator is pointing to the node before (in your case, this would be the final node).

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Yes, that's kind of what I was incoherently alluding to when I said that "If you're careful, you can use a post-increment to avoid the need to formally copy it." So long as you keep the previous value of the iterator, you can pre-increment the current value and have that available even as you operate on the previous value. It's a little bit tricky to set up correctly, though. – Steven Sudit Aug 18 '10 at 20:26

A better way would be to copy the iterator and then increment it. You can then test the incremented version against end(). If you're careful, you can use a post-increment to avoid the need to formally copy it.

  if (++vector<mine*>::iterator(itr) == Mine.end())

If itr could already be at the end:

  if (itr == Mine.end() || ++vector<mine*>::iterator(itr) == Mine.end())

Or, based on GMan's answer but a bit safer:

  if (Mine.Length() == 0 || itr == Mine.End() || &*itr == &Mine.back())

I just fixed the last one again, as I was wrong about &*.

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How is that any safer? – GManNickG Aug 18 '10 at 20:11
@GMan: If the goal is to determine whether the iterator points to the last valid element, this code will work consistently. If there is any risk of it already pointing past that last valid element, you can change the predicate to first test whether itr == Mine.end(), with an OR. – Steven Sudit Aug 18 '10 at 20:14
@Steven: You mean "better" as "works with forward iterators" then? – GManNickG Aug 18 '10 at 20:15
@GMan: I mean better in that it works correctly for any container. – Steven Sudit Aug 18 '10 at 20:23
-1 for convolution, no additional safety, and not appearing to work. What's the point of comparing the original, non-incremented value to end? – Potatoswatter Aug 18 '10 at 20:25

You would first need a way to determine if an iterator is a reverse one, which was ingeniously shown here :

#include <iterator>
#include <type_traits>

template<typename Iter>
struct is_reverse_iterator : std::false_type { };

template<typename Iter>
struct is_reverse_iterator<std::reverse_iterator<Iter>>
: std::integral_constant<bool, !is_reverse_iterator<Iter>::value>
{ };

Then you could have two flavors for performing the test

template<bool isRev> // for normal iterators
struct is_last_it
    template<typename It, typename Cont>
    static bool apply(It it, Cont const &cont)
    { // you need to test with .end()
        return it != cont.end() && ++it == cont.end();

template<> // for reverse iterators
struct is_last_it<true>
    template<typename It, typename Cont>
    static bool apply(It it, Cont const &cont)
    { // you need to test with .rend()
        return it != cont.rend() && ++it == cont.rend();

And a single interface function

template<typename It, typename Cont>
bool is_last_iterator(It it, Cont const &cont)
    return is_last_it<is_reverse_iterator<It>::value>::apply(it, cont);

Then for every type of iterator (reverse / straight) you can use the interface function

int main()
    std::vector<int> v;

    auto it (v.begin()),  ite(v.end());   // normal iterators
    auto rit(v.rbegin()), rite(v.rend()); // reverse iterators

    std::cout << is_last_iterator(it, v) << std::endl;
    std::cout << is_last_iterator(ite, v) << std::endl;
    std::cout << is_last_iterator(rit, v) << std::endl;
    std::cout << is_last_iterator(rite, v) << std::endl;

    return 0;

Note that some implementation (apart from std::begin() and std::end() which are common enough, also include std::rbegin() and std::rend(). When possible use this set of functions instead of member .begin() etc.

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