Is it possible to peek next element in a container which the iterator currently points to without changing the iterator?

For example in std::set,

int myArray[]= {1,2,3,4};
set <int> mySet(myArray, myArray+4);
set <int>::iterator iter = mySet.begin();

//peek the next element in set without changing iterator.

mySet.erase(iter); //erase the element if next element is n+1
  • 6
    Why not just make a copy and advance that one? Make sure you check if either iterator is equal to .end() before you continue!
    – GManNickG
    Commented Sep 9, 2010 at 4:06
  • I think I was confusing the iterator with a pointer. when you assign a pointer to pointer, both will change if one pointer changes but why it doesn't happen in the case of an iterator?
    – user963241
    Commented Sep 9, 2010 at 4:10
  • @GMan: Boost has prior and next functions for doing just that (it takes the iterator by value, thus making a copy as you suggested). See boost.org/libs/utility/utility.htm for details. Commented Sep 9, 2010 at 4:11
  • @xor: If you have two pointers, and change one of them, the other stays the same. Understand, though, that we're talking about changing the pointer, not the pointer's referent. Commented Sep 9, 2010 at 4:12
  • 2
    @xor: You should be careful how you describe things. Strictly speaking, what you've said is wrong. j does not change with i, it's a different variable who's value is no way tied to that of i. What j points to changes, and it just so happens i points there as well.
    – GManNickG
    Commented Sep 9, 2010 at 4:19

6 Answers 6


C++0x adds a handy utility function, std::next, that copies an iterator, advances it, and returns the advanced iterator. You can easily write your own std::next implementation:

#include <iterator>

template <typename ForwardIt>
ForwardIt next(ForwardIt it, 
               typename std::iterator_traits<ForwardIt>::difference_type n = 1)
    std::advance(it, n);
    return it;

You can use this in your example like so:

if (iter != mySet.end() && next(iter) != mySet.end() && *next(iter) == *iter + 1)
  • 4
    +1, didn't know that was adopted. Incidentally, ++ move( iter ) does the same thing. Commented Sep 9, 2010 at 5:06
  • I'm not an expert with templates so it took me a while to fully grok this small bit of code and almost went with the easier solution provided by @AndrewShephard. But at the last minute noticed that this solution is functionally the same (but not identical) to gcc's 4.4.x and 4.9.x source code located at /usr/include/c++/${gcc_version}/bits/stl_iterator_base_funcs.h and so I went with this solution instead. Commented Jul 5, 2016 at 21:20
  • I see en.cppreference.com/w/cpp/iterator/next says it's since c++11, which is correct? Commented Sep 20, 2016 at 6:39
  • 2
    @zhangxaochen: C++0x was the working title for C++11 (before the schedule slipped, when they though it would be released before 2010); C++0x and C++11 really mean the same thing. Commented Jan 29, 2019 at 3:34

Not with iterators in general. An iterator isn't guaranteed to be able to operate non-destructively. The classic example is an Input Iterator that actually represents an underlying input stream.

There's something that works for this kind of iterator, though. A Forward Iterator doesn't invalidate previous copies of itself by the act of moving forward through the collection. Most iterators (including those for STL collections) are at least Forward Iterators, if not a more functional version- only Input Iterators or Output Iterators are more restricted. So you can simply make a copy of your iterator, increment the copy and check that, then go back to your original iterator.

So your peek code:

set <int>::iterator dupe = iter;
// (do stuff with dupe)
set <int>::iterator iter2 = iter;
int peekedValue = *iter2;

You can always make a copy of the iterator and advance the copy:

set <int>::iterator iter = mySet.begin();
set <int>::iterator iterCopy = iter;
if (*iterCopy == something)

But beware that iterCopy may no longer be valid once you erase iter.

  • "iterCopy may no longer be valid once you erase iter". It will be for a set, but not for all STL containers. I google "SGI STL set" or whatever when I want a good reference... covers all this. Commented Sep 9, 2010 at 4:14
  • Be aware, however, that SGI is a great resource for the STL. It isn't entirely accurate as far as the C++ standard library is concerned, however. The STL contains several non-standard containers/algorithms, and the containers that are part of standard C++ don't match up on some of the details, particularly with regard to allocators. Commented Sep 9, 2010 at 6:18

for sequence containers (vector, deque, and list) you can call front which will give you a peek (more info on the lower part of this link).


This will not work for std::set as its nature does not allow for the [] operator, but for containers that do, you can do:

std::vector<int> v;
std::vector<int>::iterator it = v.begin(); 
std::cout << v[it - v.begin() + 1];

But this could be dangerous if it points to the last element in the container; but the same applies to the solution above. E.g. you'll have to make checks in both cases.

  • Why use operator[] when you already have an iterator? If you want what it currently points to, use *it. If you want what the iterator after it points to, use something like *(it + 1) or std::vector<int>::iterator it2(it); std::advance(it2, 1); *it2;.Incidentally, the code presented will only work for a std::vector (it won't work with a std::deque for instance). Commented Sep 9, 2010 at 6:50

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