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// erasing from map
#include <iostream>
#include <map>
using namespace std;

int main ()
  map<char,int> mymap;
  map<char,int>::iterator it(mymap.begin());

  // insert some values:

  mymap.erase (it);                   // erasing by iterator

  // show content:
  for (; it != mymap.end(); it++ )
    cout << (*it).first << " => " << (*it).second << endl;
  return 0;

Why does this give an output like

a => 10
b => 20
c => 30
d => 40
e => 50
f => 60

shouldn't "a => 10" be deleted anyways, but if I declare it = mymap.begin() in the for loop, everything is perfect. why?

program adapted from :

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Similar to: – karlphillip Jan 12 '11 at 16:03

5 Answers 5

up vote 32 down vote accepted

Erasing an element of a map invalidates iterators pointing to that element (after all that element has been deleted). You shouldn't reuse that iterator. Instead, advance the iterator to the next element before the deletion takes place, for example like this:


A loop deleting some elements could look like this:

it = mymap.begin();
while (it != mymap.end()) {
   if (something)
share|improve this answer
Can you also answer my comment to @marcog ? – Sunil Jan 8 '11 at 21:29
@Sunil: I have added an example loop to the answer. – sth Jan 8 '11 at 21:36
@Notinlist: Your test code does it differently than in my answer. – sth May 15 '12 at 14:12
I'm confused by the sentence. You say "You shouldn't reuse that iterator (OK), or advance the iterator to the next element before the deletion takes place (pre-increment), for example like this" and then present an example with post-increment which is then repeated as an example of good code. I would expect an example of bad code following that sentence. – OlivierD Jun 7 '12 at 17:32

Calling erase() invalidates the iterator. In this case, what's happening is the iterator points to the residual value left behind in memory (but don't rely on this undefined behaviour!). Reset the iterator with it=mymap.begin() before the loop for the desired results.

This answer shows how to erase elements while iterating over an std::map:

for(map<T, S*>::iterator it = T2pS.begin(); it != T2pS.end(); T2pS.erase(it++)) {
    // wilhelmtell in the comments is right: no need to check for NULL. 
    // delete of a NULL pointer is a no-op.
    if(it->second != NULL) {
        delete it->second;
            it->second = NULL;
share|improve this answer
So is it not possible to use the iterator inside a for loop and delete elements based on some condition or in other words if I have 1000 elements in a map and I want to delete elements that satisfy a certain user defined condition, then each time I delete an element should I break the loop and start all over again ? – Sunil Jan 8 '11 at 21:26
@Sunil With std::map, the answer unfortunately is yes. Deleting an element restructures the tree to maintain its balance, so you can't even rely on everything to the right of the deleted element being in its original location as with some other std containers such as std::list. – marcog Jan 8 '11 at 21:30
@Sunil See sth's post; if you post-increment the iterator when you call erase, your iterator remains valid. Just make sure that in your for loop, you don't accidentally increment the iterator twice. @marcog That's not exactly correct. While the nodes may be re-balanced, their actual addresses in memory don't change; it's only their left/right/parent pointers (at least for red-black trees). sth's answer works. – Toolbox Jan 8 '11 at 21:31
@toolbox: Incrementing it twice is the problem, don't you think. because when I do that, the next time in the for loop it checks for a condition and again increments the iterator. This means every time I delete an item I skip an item next to it. – Sunil Jan 8 '11 at 21:37
@Sunil See this answer for the correct way to iterate through an std::map and erase elements at the same time. – marcog Jan 8 '11 at 21:41

This has to do with how the map is implemented. Let's say it's a tree of some sort, like:

class map_node {
    char key;
    int  value;
    map_node* next;

When you erase() the iterator, you remove the node from the tree and deallocate its space. But until that memory location is overwritten, the node's contents are still in memory. That's why you can get not only the value, but also the next element in the tree. Thus, your result is completely expected.

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The node does not still exist in memory. The memory that was occupied by the node before it was destroyed may not have been overwritten yet. – James McNellis Jan 8 '11 at 21:24
@James Good point. I'll update my answer. – chrisaycock Jan 8 '11 at 21:26

it is no longer valid after mymap.erase(it). This means, it can do whatever it wants.

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"it" still points at the same location, erase does not update the iterator by itself, you have to do it, by resetting the iterator. In effect, "it" points to the old location which has been erased from the vector but still contains the old data.

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