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This sample program gets an iterator to an element of a vector contained in another vector. I add another element to the containing vector and then print out the value of the previously obtained iterator:

#include <vector>
#include <iostream>

int main(int argc, char const *argv[])
    std::vector<std::vector<int> > foo(3, std::vector<int>(3, 1));
    std::vector<int>::iterator foo_it = foo[0].begin();
    std::cout << "*foo_it: " << *foo_it << std::endl;
    foo.push_back(std::vector<int>(3, 2));
    std::cout << "*foo_it: " << *foo_it << std::endl;
    return 0;

Since the vector correspinding to foo_it has not been modified I expect the iterator to still be valid. However when I run this code I get the following output (also on ideone):

*foo_it: 1
*foo_it: 0

For reference I get this result using g++ versions 4.2 and 4.6 as well as clang 3.1. However I get the expected output with g++ using -std=c++0x (ideone link) and also with clang when using both -std=c++0x and -stdlib=libc++.

Have I somehow invoked some undefined behavior here? If so is this now defined behavior C++11? Or is this simply a compiler/standard library bug?

Edit I can see now that in C++03 the iterators are invalidated since the vector's elements are copied on reallocation. However I would still like to know if this would be valid in C++11 (i.e. are the vector's elements guaranteed to be moved instead of copied, and will moving a vector not invalidate it's iterators).

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up vote 5 down vote accepted

push_back invalidates iterators, simple as that.

std::vector<int>::iterator foo_it = foo[0].begin();
foo.push_back(std::vector<int>(3, 2));

After this, foo_ti is no longer valid. Any insert/push_back has the potential to internally re-allocate the vector.

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And also invalidates any pointers or references to the vector's elements, such as those obtained by operator[]. – Dark Falcon Apr 29 '12 at 0:36
He's not calling push_back on the vector he got the iterator from. – Seth Carnegie Apr 29 '12 at 0:36
@LuchianGrigore he calles foo[0].begin(), then push_back on foo, not foo[0] – Seth Carnegie Apr 29 '12 at 0:38
@SethCarnegie: The outer vector's push_back is allowed to copy it's internal elements around, and the copied vector's iterators do not match the source vector's iterators. (Then, after the outer vector has reallocated, the original vectors are destroyed, which invalidates the iterators) It works with -std=c++0x because the inner vectors get moved rather than copied. – Billy ONeal Apr 29 '12 at 0:38
@DavidBrown: Consider that std::vector<std::unique_ptr<T>> is okay, which would not be the case if C++11 admitted any other behavior (because you can't copy unique_ptr s) – Billy ONeal Apr 29 '12 at 2:14

Since the vector correspinding to foo_it has not been modified

Wrong. The push_back destroyed the vector corresponding to foo_it. foo_it became invalid when foo[0] was destroyed.

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I guess the misperception is that vector< vector < int > > is a vector of pointers and when the outer one is reallocated, the pointers to the inner ones are still valid which is true for **int. But instead, reallocating the vector also reallocates all inner vectors, which makes the inner iterator invalid as well.

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Not always true. (And in fact always false in C++11) – Billy ONeal Apr 29 '12 at 1:38
I tested this by printing out the address of the two values, and they are the same. This means the data from the inner vectors has been reallocated, right? – chaiy Apr 29 '12 at 1:44
That depends on what address you're talking about. The thing though is that in C++11, std::vector has to move it's innards (rather than copy) when possible, and a move operation does not invalidate iterators or cause reallocation. – Billy ONeal Apr 29 '12 at 2:13
@Billy - What? If an object is moved to a new place, surely an iterator to the original is now invalid. – Bo Persson Apr 29 '12 at 6:35
@Bo: The iterator just points to the moved item. (Using vectors as the example, the move operation moves the memory pointer from one vector object to another, but the iterators are pointers into that memory block -- and that block was not modified by the move at all) – Billy ONeal Apr 29 '12 at 22:20

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