I am working on an exercise where I have a vector and I am writing my own reverse algorithm by using a reverse and a normal (forward) iterator to reverse the content of the vector. However, I am not able to compare the iterators.

int vals[] = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 0 };
vector<int> numbers(vals, vals + 10);

vector<int>::iterator       start = numbers.begin();
vector<int>::reverse_iterator end = numbers.rend();

I have a previous algorithm for reversing the vector by using two iterators, however in this task I am not able to compare them using the != operator between them. My guess would be to get the underlying pointers or indexes in the vector with each other but how do I get the pointers/index?

  • For your exercise, it would be easier to use two forward iterators: for (vector<int>::iterator i = numbers.begin(), j = numbers.end(); i < j; ++i) { --j; std::iter_swap(i,j); } Mar 4, 2013 at 14:23

5 Answers 5


Do a comparison using the the iterator returned by base(): it == rit.base() - 1.

  • 3
    Be careful, though. If rit is an end iterator (i.e. the end of the reverse iteration), then rit.base() is numbers.begin() and it's UB to subtract 1 from it. An alternative is to compare distance(numbers.begin(), it) == distance(rit, numbers.rend()) - 1. Mar 4, 2013 at 14:14
  • 1
    @SteveJessop: and of course, there is also the issue that - 1 cannot be applied to BidirectionalIterators in general but only to RandomAccessIterators, so the code provided by @wilx does not work for list. Mar 4, 2013 at 15:41
  • suggest removing the random-accessible requirement by it==std::prev(rit.base())
    – exa
    Feb 19, 2018 at 12:32
  • 1
    @exa: This is an answer to a specific question involving vector iterators. While in general it might be a good idea to do it your way, it is not necessary in this instance. I am sure most people will manage to make the generalization on their own.
    – wilx
    Feb 19, 2018 at 12:50

You can convert a reverse_iterator to iterator by calling base().

Be careful however, as there are some caveats. @Matthieu M.'s comment is particularly helpful:

Note: base() actually returns an iterator to the element following the element that the reverse_iterator was pointing to.

  • 7
    Note: base() actually returns an iterator to the element following the element that the reverse_iterator was pointing to. Mar 4, 2013 at 13:47
  • @Matthieu M.: Yep, that's the primary caveat I was going to write about - but now that you already did, I don't think I have to anymore. Thanks!
    – Reunanen
    Mar 4, 2013 at 13:50
  • @TobySpeight: you are right, so I now did exactly that.
    – Reunanen
    Jul 21, 2017 at 6:36

Checkout http://en.cppreference.com/w/cpp/iterator/reverse_iterator/base


returns a 'normal' iterator.


The two types cannot be compared (which is a very good idea) and calling .base() is not very elegant (or generic) in my opinion. You can convert the types and compare the result. Taking into account the off-by-one rule involving reverse_iterators.

Conversion from iterator to reverse_iterator need to be explicit (fortunately), however, conversion from reverse_iterator to iterator is not possible (unfortunately). So there is only one way to do conversion and then make the comparison.

    std::vector<double> vv = {1.,2.,3.};
    auto it = vv.begin();
    auto rit = vv.rend();
//  assert( it == rit ); // error: does not compile
    assert(std::vector<double>::reverse_iterator{it} == rit);

You can use (&*start == &*(end - 1)) to directly compare the address that the iterator is pointing to.

  • 6
    You can... but should you? :)
    – BartoszKP
    Jun 7, 2017 at 10:50
  • This does not answer the question. The OP asked how to compare an iterator to a reverse_iterator, not how to compare addresses of start and end-1 elements.
    – RichS
    Jun 8, 2017 at 22:53

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