I am trying to do something like this:

for ( std::list< Cursor::Enum >::reverse_iterator i = m_CursorStack.rbegin(); i != m_CursorStack.rend(); ++i )
    if ( *i == pCursor )
        m_CursorStack.erase( i );

However erase takes an iterator and not a reverse iterator. is there a way to convert a reverse iterator to a regular iterator or another way to remove this element from the list?

  • 19
    As an aside, when writing loops like these, don't repeatedly compute the end iterator as you do here with i != m_CursorStack.rend(). Instead, write i = m_CursorStack.rbegin(), end = m_CursorStack.rend(); i != end;. That is, initialize an iterator you can keep around for repeated comparison -- assuming that the end position won't be changing as a side effect of your loop body.
    – seh
    Dec 2, 2009 at 3:10
  • It seems to me that the obvious question here would be why you're doing this at all. What do you gain from traversing the list in reverse? What do you gain by writing this code yourself instead of using std::remove? Dec 2, 2009 at 3:32
  • And is an iterator on a std::list still valid to increment after the element to which it refers has been erased? Dec 2, 2009 at 3:45
  • 4
    I only want to remove 1 element, thus the 'break;', using 'remove' would get rid of any that match taking longer and not doing what i want. The element I want to remove in this particular case will nearly always be the end of the list or very close to it, so iterating in reverse is also quicker and better suited to the problem.
    – 0xC0DEFACE
    Dec 2, 2009 at 3:51
  • 4
    stackoverflow.com/a/2160581/12386 This says the designers specifically don't define the implementation because you as the user aren't supposed to know or care, yet @seh above expects us to magically just know that rend() is calculated and expensive.
    – stu
    Mar 14, 2018 at 19:19

14 Answers 14


After some more research and testing I found the solution. Apparently according to the standard [24.4.1/1] the relationship between i.base() and i is:

&*(reverse_iterator(i)) == &*(i - 1)

(from a Dr. Dobbs article):

So you need to apply an offset when getting the base(). Therefore the solution is:

m_CursorStack.erase( --(i.base()) );


Updated for C++11, two additional solutions:

  • reverse_iterator i is unchanged:

      m_CursorStack.erase( std::next(i).base() );
  • reverse_iterator i is advanced:

      std::advance(i, 1);
      m_CursorStack.erase( i.base() );

I find these much clearer than my previous solution. Use whichever you require.

  • 28
    You should take note of a bit more of the article you cited - to be portable the expression should be m_CursorStack.erase( (++i).base()) (man, doing this stuff with reverse iterators makes my head hurt...). It should also be noted that the DDJ article is incorporated into Meyer's "Effective STL" book. Dec 2, 2009 at 6:25
  • 9
    I find that diagram more confusing than helpful. Since rbegin, ri and rend are all actually pointing at the element to the right of what they are drawn to be pointing at. The diagram shows what element you would access if you * them, but we're talking about what element you'd be pointing at if you base them, which is one element to the right. I'm not such a fan of the --(i.base()) or (++i).base() solutions since they mutate the iterator. I prefer (i+1).base() which works as well.
    – mgiuca
    Jun 16, 2012 at 11:20
  • 7
    Reverse iterators are liars.. when deferenced, a reverse iterator returns the element before it. See here
    – bobobobo
    Feb 7, 2013 at 20:51
  • 5
    Just to be absolutely clear, this technique still cannot be used in a normal for loop (where the iterator is incremented in the normal manner). See stackoverflow.com/questions/37005449/…
    – logidelic
    May 3, 2016 at 18:02
  • 1
    m_CursorStack.erase( (++i).base()) seems like it would be a problem if ++i got you to past the last element. can you call erase on end()?
    – stu
    Mar 14, 2018 at 19:21

Funny that there is no correct solution on this page yet. So, the following is the correct one:

In case of the forward iterator the solution is straight forward:

std::list< int >::iterator i = myList.begin();
while ( i != myList.end() ) {
  if ( *i == to_delete ) {
    i = myList.erase( i );
  } else {

In case of reverse iterator you need to do the same:

std::list< int >::reverse_iterator i = myList.rbegin();
while ( i != myList.rend() ) {
  if ( *i == to_delete ) {
    i = decltype(i)(myList.erase( std::next(i).base() ));
  } else {


  • You can construct a reverse_iterator from an iterator
  • You can use the return value of std::list::erase
  • 4
    This code works, but please explain why next is used and how is it safe to cast a forward iterator to a reverse iterator without the world collapsing
    – Lefteris E
    Mar 23, 2020 at 12:13
  • 2
    @LefterisE That's not a cast. It creates a new reverse iterator out of an interator. This is normal constructor of the reverse iterator. Jun 16, 2020 at 22:41
  • 1
    Outside of "the most vexing parse" examples, this might be the best example I've run into where using brace initialisation would make the code much more clear to readers.
    – Chuu
    May 12, 2022 at 16:44

Please note that m_CursorStack.erase( (++i).base()) may be a problem if used in a for loop (see original question) because it changes the value of i. Correct expression is m_CursorStack.erase((i+1).base())

  • 4
    You'd need to create a copy of the iterator and do iterator j = i ; ++j, because i+1 doesn't work on an iterator, but that's the right idea
    – bobobobo
    Feb 7, 2013 at 21:12
  • 4
    @bobobobo, you can use m_CursorStack.erase(boost::next(i).base()) with Boost. or in C++11 m_CursorStack.erase(std::next(i).base())
    – alfC
    Jun 10, 2014 at 8:59

... or another way to remove this element from the list?

This requires the -std=c++11 flag (for auto):

auto it=vt.end();
//while (it>vt.begin())
while (it!=vt.begin())
    if (*it == pCursor) //{ delete *it;
        it = vt.erase(it); //}
  • 5
    Who guarantee you that iterators in a list are ordered ? Nov 16, 2018 at 15:42
  • @GaetanoMendola See the standard 22.2.4... which defines list as a "Sequence container"... which must possess a Cpp17RandomAccessIterator... which must implement ordered > and < operators. Or, conceptually, a "reverse" iterator doesn't really make sense to begin with if the container doesn't possess some sort of ordering. unordered_map for instance, doesn't have one.
    – c z
    Oct 5, 2023 at 14:29
  • it > vt.begin() is plain wrong Jan 7 at 22:39
  • @GaetanoMendola: if it bothers you, use while (it!=vt.begin()) ...
    – slashmais
    Jan 16 at 6:22
  • @slashmais it's not the bothers me, iterators are not ordered (especially in a list) so using a > is just wrong. Jan 17 at 8:35

While using the reverse_iterator's base() method and decrementing the result works here, it's worth noting that reverse_iterators are not given the same status as regular iterators. In general, you should prefer regular iterators to reverse_iterators (as well as to const_iterators and const_reverse_iterators), for precisely reasons like this. See Doctor Dobbs' Journal for an in-depth discussion of why.

typedef std::map<size_t, some_class*> TMap;
TMap Map;

for( TMap::const_reverse_iterator It = Map.rbegin(), end = Map.rend(); It != end; It++ )
    TMap::const_iterator Obsolete = It.base();   // conversion into const_iterator
    Map.erase( Obsolete );

And here is the piece of code to convert the result of erase back to a reverse iterator in order to erase an element in a container while iterating in the reverse. A bit strange, but it works even when erasing the first or last element:

std::set<int> set{1,2,3,4,5};

for (auto itr = set.rbegin(); itr != set.rend(); )
    if (*itr == 3)
        auto it = set.erase(--itr.base());
        itr = std::reverse_iterator(it);            

If you don't need to erase everything as you go along, then to solve the problem, you can use the erase-remove idiom:

m_CursorStack.erase(std::remove(m_CursorStack.begin(), m_CursorStack.end(), pCursor), m_CursorStack.end());

std::remove swaps all the items in the container that match pCursor to the end, and returns an iterator to the first match item. Then, the erase using a range will erase from the first match, and go to the end. The order of the non-matching elements is preserved.

This might work out faster for you if you're using a std::vector, where erasing in the middle of the contents can involve a lot of copying or moving.

Or course, the answers above explaining the use of reverse_iterator::base() are interesting and worth knowing, to solve the exact problem stated, I'd argue that std::remove is a better fit.


Just wanted to clarify something: In some of the above comments and answers the portable version for erase is mentioned as (++i).base(). However unless I am missing something the correct statement is (++ri).base(), meaning you 'increment' the reverse_iterator (not the iterator).

I ran into a need to do something similar yesterday and this post was helpful. Thanks everyone.


To complement other's answers and because I stumbled upon this question whilst searching about std::string without much success, here goes a response with the usage of std::string, std::string::erase and std::reverse_iterator

My problem was erasing the an image filename from a complete filename string. It was originally solved with std::string::find_last_of, yet I research an alternative way with std::reverse_iterator.

std::string haystack("\\\\UNC\\complete\\file\\path.exe");
auto&& it = std::find_if( std::rbegin(haystack), std::rend(haystack), []( char ch){ return ch == '\\'; } );
auto&& it2 = std::string::iterator( std::begin( haystack ) + std::distance(it, std::rend(haystack)) );
haystack.erase(it2, std::end(haystack));
std::cout << haystack;  ////// prints: '\\UNC\complete\file\'

This uses algorithm, iterator and string headers.


reverse iterator is quite hard to use. So just used general iterator. 'r' It start from last element. When find something to erase. erase it and return next iterator. eg when delete 3rd element it will pointing current 4th element. and new 3rd. So it should be decreased 1 to move left

void remchar(string& s,char c)
    auto r = s.end() - 1;
    while (r >= s.begin() && *r == c)
        r = s.erase(r);
        r -= 1;

This idiom of trying to erase the back of the map is common in limit order book management in the financial industry.

Top of book ask orders are lowest ask price, and naturally sort to the beginning of the map.

Top of book bid orders are highest bid price, and naturally sort to the end of the map.

I'm somewhat hesitant to use the funky std::next(i).base().

Instead, if the map is commonly used with reverse iterators, change the comparison operator to gt instead. Large values will sort to the beginning of the map, and normal iterators can then be used -- eliminating the need for the reverse iterator adjustment on erase.


If m_CursorStack is a vector, you can erase by taking index:

m_CursorStack.erase(m_CursorStack.begin() + m_CursorStack.size() + int(m_CursorStack.rbegin() - i) - 1);

The reason that m_map.erase((++r_iter).base() doesn't work in a loop is that erase() would invalidate the ++r_iter!! We just need to use the return value from the erase().

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