Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

The documentation for boost's specialized iterator adaptors states that boost::reverse_iterator "Corrects many of the shortcomings of C++98's std::reverse_iterator."

What are these shortcomings? I can't seem to find a description of these shortcomings.


How does boost::reverse_iterator correct these shortcomings?

share|improve this question
It was often a little.....premature. – Crazy Eddie Jul 8 '10 at 20:27
Posting as a comment since I'm just guessing: Early implementations of std::reverse_iterator<> sometimes had bugs. Boost may have been simply trying to insulate against that situation. Maybe the comment is more about shortcomings in reverse_iterator implementations rather than shortcomings in the standard? – Michael Burr Jul 8 '10 at 20:52
up vote 10 down vote accepted

Well, the big problem is that they're not forward iterators, and there's stuff that pretty much expect forward iterators. So, you have to do some funny conversions to get things to work. To name some issues

  1. Some versions of erase() and insert() require iterators rather than reverse iterators. That means that if you're using a reverse iterators and you want to insert() or erase(), you're going to have to use the reverse iterator's base() function to get your hands on a forward iterator. There is no automatic conversion.

  2. base() returns the forward iterator equivalent to the reverse iterator in terms of insertion. That is, insert inserts in front of the current element. The element that the reverse iterator is pointing at, therefore, would be the wrong element to be pointing at if base() gave you an iterator that pointed at the same element. So, it points one forward, and you can use it for insertion.

  3. Because base() returns an iterator pointing at a different element, it's the wrong element to use for erase(). If you called erase() on the iterator from base(), you'd erase one element forward in the container from the element that the reverse iterator points at, so you have to increment the reverse iterator before calling base() in order to get the correct forward iterator to use for erase().

  4. Whether you can even use base() with erase() to correctly erase an element depends entirely on your implementation. It works with gcc, but with Visual Studio they're really just wrapping a forward iterator in a manner that makes it so that it doesn't work to use erase() when dealing with reverse iterators and Visual Studio. I don't recall whether insert() has the same problem, but reverse iterators don't work the same between different implementations of C++ (according to the Visual Studio guys, the standard wasn't clear enough), so it can be kind of hairy to use them for anything other than simply iterating over a container.

There are probably other issues as well, but dealing with any type of iterator other than a non-const, forward iterator in C++ when doing anything other than simply iterating over a container can get a bit hairy - if you can even do it all - because so many functions require non-const forward iterators rather than any other kind of iterator.

If you really want to know the differences between the various iterator types and the issues associated with them, I recommend reading Scott Meyer's Effective STL. It has a great chapter on iterators.

EDIT: As for how Boost's reverse iterator corrects those shortcomings, I'm afraid that I don't have a clue. I'm aware of some of the standard reverse iterator's shortcomings and have been bitten by them in the past, but I've never used Boost much, so I'm not familiar with their reverse iterators at all. Sorry.

share|improve this answer
I'm not sure I see what you're getting at. Code that "expects" forward iterators shouldn't "notice" any difference unless they do things with undefined behavior... – Cogwheel Jul 8 '10 at 20:31
The std::reverse_iterator template in C++03 exposes the same category of iterator as the underlying iterator which must be at least a bi-directional iterator, so a reverse_iterator is always at least a bi-di iterator (and hence a forward iterator). – Charles Bailey Jul 8 '10 at 20:35
I don't believe you're correct here. I believe that a reverse_iterator is, indeed, a forward iterator. At least I don't see where it violates that concept. – Crazy Eddie Jul 8 '10 at 20:35
Which of the issues that you've described are 'solved' or different for boost::reverse_iterator? As far as I could tell from boost::reverse_iterator documentation the behaviour of base() (and operator*()) is the same as for std::reverse_iterator. – Charles Bailey Jul 8 '10 at 20:48
Please see my follow-up question. – Emile Cormier Jul 8 '10 at 20:50

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.