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I found out that an element from one set can be deleted from another set by using the erase method that accepts an iterator. I can't explain why this happens, and I would like to know if this is normal behavior or not.

So, lets set the scene:

I have a set of objects that I separated in two STL sets, for logical reasons (that is, they are disjoint sets).

std::set<Obj> set_a;
std::set<Obj> set_b;

The set_a contains the objects I want. If this object is not found in set_a, an empty one is created and inserted into set_b. I then perform some calculations on the wanted object, and if a certain condition is met, I delete it.

std::set<Obj>::iterator it = set_a.find(o);
std::set<Obj>::iterator end = set_a.end();

if (it == end) {
    it = set_b.lower_bound();
    end = set_b.end();

    if (it == end || *it != o) {
        it = set_b.insert(it, o);

// do calculations with it
if (/*condition is met*/) {
    // erase it

So I was wondering how I would delete this object. Since I have the iterator, I thought of deleting using it directly. But what happens when you use erase with an iterator "pointing" to an object in another set? There is nothing on the documentation I use (http://www.cplusplus.com/reference/stl/set/erase/) so I did the following test.

#include <iostream>
#include <iterator>
#include <algorithm>
#include <set>
#include <sstream>

// streams
using std::cout;
using std::ostream_iterator;
using std::ostringstream;
// data structures
using std::set;
// algorithms
using std::copy;

int main() {
    set<int> s, s2;

    cout << "Initial set\n";
    // print set elements
    copy(s.begin(), s.end(), ostream_iterator<int> (cout, " "));
    cout << "\n";

    set<int>::iterator s_it = s.lower_bound(3);

    if (s_it == s.end() || *s_it != 3) {
        s_it = s.insert(s_it, 3);

    cout << "Set after insertion\n";
    // print set elements
    copy(s.begin(), s.end(), ostream_iterator<int> (cout, " "));
    cout << "\n";

    // erase element from another set

    cout << "Set after erasure\n";
    // print set elements
    copy(s.begin(), s.end(), ostream_iterator<int> (cout, " "));
    cout << "\n";

    return 0;

This test results in the following exit:

Initial set
1 2 4 
Set after insertion
1 2 3 4 
Set after erasure
1 2 4 

I found it very strange that an element from s could be deleted by calling the method from s2, so I executed my program with valgrind. No errors there. I think I would actually benefit from this behavior, since I don't need to check which set contains the element, but I wonder if this is normal behavior or not.


share|improve this question
I'm not sure what conclusion you're drawing. You put the element into s, and deleted it from s, using an iterator pointing to the element in s. s2 really had nothing to do with anything. –  Anon. Dec 8 '10 at 0:12
@Anon, are you saying that calling s2.erase() with an iterator on s is guarenteed to work providing s and s2 are the same type? –  Tony Park Dec 8 '10 at 0:27
@Tony: I'm not saying that. I'm just saying that "deleting an element in A from an iterator in B" is not at all what's happening here. –  Anon. Dec 8 '10 at 0:33
@Anon, when I said "an element from s can be deleted from s2", I didn't mean "deleting an element in A from an iterator in B". The iterator is pointing to an element in A, but the method is called on B. –  pedromanoel Dec 8 '10 at 16:27

3 Answers 3

up vote 7 down vote accepted

This might work because of how your vendor happens to implement std::set<T> and std::set<T>::iterator, but it's not guaranteed to.

Standard section 23.1.2 Paragraph 7 and Table 69 say that the expression a.erase(q) is valid when a is an object of an associative container class type (set is an associative container) and "q denotes a valid dereferenceable iterator to a".

When the iterator is not from the container, you get Undefined Behavior. Appearing to work is one valid result of Undefined Behavior.

share|improve this answer
+1 for quoting the standard. –  Macke Dec 8 '10 at 22:20
Beware of writing code that relies on undefined behavior. It never ends well. –  Mark Ransom Dec 8 '10 at 23:12
Thanks for this really clear answer! I actually didn't even use this code, but this strange behaviour really got me thinking, so I needed to ask :) Quick question, though: Where can I find the standards? I've seen many quotes, but still couldn't find it. –  pedromanoel Dec 10 '10 at 19:59
@pedromanoel: parashift.com/c++-faq/big-picture.html#faq-6.13 –  aschepler Dec 10 '10 at 20:44

I'm fairly convinced that iterators from different containers should not be mixed in this way, and that it results in the dreaded undefined behavior.

So, what you're seeing is pure luck and chance, that works on your compiler's STL implementation, and at the current phase of the moon. I wouldn't bet on it working anywhere or anytime else.

share|improve this answer

How about using a local pointer to a std::set<Obj>?

std::set<Obj> set_a;
std::set<Obj> set_b;
std::set<Obj>* current_set = &set_a;

std::set<Obj>::iterator it = current_set->find(o);
std::set<Obj>::iterator end = current_set->end();

if (it == end) {
    current_set = &set_b;
    it = current_set->lower_bound();
    end = current_set->end();

    if (it == end || *it != o) {
        it = current_set->insert(it, o);

// do calculations with it
if (/* condition met */) {
share|improve this answer
I don't think you want to use a reference like you are, right? It looks like you're trying to reseat current_set, and I think you'll end up actually calling operator =() which will overwrite set_a with set_b. –  Wyatt Anderson Dec 8 '10 at 22:35
Oops. I should really do my learning by asking questions, rather than attempting to answer them, I guess. Edited answer to use pointer instead of reference... how's that? –  Tony Park Dec 10 '10 at 0:50

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