1

I've read a few posts concerning iterator invalidation, and it seems that inserts that require a vector reallocation would invalidate iterators. Also shouldn't erases in the middle of the vector cause an invalidation?

I don't have a clear understanding of this, not sure why using these iterators after resizes and erases from begin, middle, and end doesn't break them:

#include <cstdlib>
#include <iostream>
#include <vector>
#include <algorithm>

using namespace std;

int main(int argc, char** argv) {

    vector<int> v;
    v.reserve(10);

    for (int i = 0; i < 10; i++)
        v.push_back(i);

    for (auto x = v.begin(); x != v.end(); x++) {
        cout << *x << endl;
    }

    cout << endl << "RESIZE" << endl << endl;

    for (int i = 10; i < 20; i++)
        v.push_back(i);

    for (auto x = v.begin(); x != v.end(); x++) {
        cout << *x << endl;
    }

    cout << endl << "RESIZE 2" << endl << endl;

    for (int i = 20; i < 200; i++)
        v.push_back(i);

    for (auto x = v.begin(); x != v.end(); x++) {
        cout << *x << endl;
    }

    cout << endl << "REMOVES" << endl << endl;

    v.erase(v.begin());
    v.pop_back();
    v.erase(v.begin() + 17);

    for (auto x = v.begin(); x != v.end(); x++) {
        cout << *x << endl;
    }

    return 0;
}
10
  • Iterator validity depends on the type of container and on the operation. For example, for vector::erase, check the Iterator Validity section at cplusplus.com/reference/vector/vector/erase
    – jsantander
    Apr 4, 2014 at 23:04
  • 3
    @Instinct I don't see any reuse of iterators going on here. Can you please indicate the line(s) on which you think this is happening?
    – Praetorian
    Apr 4, 2014 at 23:10
  • 1
    In your code you're grabbing new iterators every time you iterate over the container, so you're not really testing the erase and re-size cases you mention. Iterator invalidation happens when you copy the return value of say b.begin() to an iterator type, then call v.push_back(...) a few times, then try to use the iterator. Vectors, have a logical size, and a physical size s.t. physical >= logical.
    – Apriori
    Apr 5, 2014 at 1:40
  • 1
    Vectors are implemented with contiguous memory, so when a push_back(...) results in a logical size greater than the current physical size, the underlying memory has to be copied to a larger contiguous block of memory. The iterator has an internal pointer to this memory, so when this "grow" operation happens the iterators now internally reference a chunk of memory that is no longer part of the vector, hence they are invalidated.
    – Apriori
    Apr 5, 2014 at 1:41
  • 1
    Try calling v.capacity() and storing the return value in some temporary after initializing your iterators. v.capacity() returns the current number of total allocated elements in the vector and is greater than or equal to v.size(). Now call v.push_back(...) until the vector's size exceeds the value returned from capacity() stored in the temporary value. It's when you increase the size past the previous capacity that the vector grows and the iterators are invalidated.
    – Apriori
    Apr 7, 2014 at 15:16

2 Answers 2

4

Note that calling begin() or end() will always provide a sane iterator

However something like:

std:vector<int> v;
....

std::vector<int>::iterator i=v.begin();
v.erase(i);
std::cout << *i << std::endl;  // i iterator was invalidated by erasing it
                               // trying to access it or increment it is undefined behaviour.
std::cout << *v.begin() << std::endl;  // begin() provides always a sane iterator.
5
  • In general, I always assume that it will not work :)... only if I need to do something fancy, I'll check the rules for each container and each operation... ;)
    – jsantander
    Apr 4, 2014 at 23:13
  • In the case of UB if it "works" it actually doesn't work. "It works" is an expression that indicates something does /what it is intended to do/. With UB, there is /no intended behaviour/ so, you can't claim that it does it.
    – sehe
    Apr 4, 2014 at 23:16
  • @sehe: Actually, there is what the naive and blissfully unaware programmer expects. At least that is the most reasonable definition for it works I could come up with. Apr 4, 2014 at 23:19
  • @sehe and Deduplicator... changed the wording... from the the too colloquial working/not working... :D
    – jsantander
    Apr 4, 2014 at 23:21
  • @jsantander: I like to see sanity reign. +1 Apr 4, 2014 at 23:22
2

In your code, always when iterators are reused, there was no intervening modification of the vector, so no invalidation.

Iterators may be invalidated on resizing and inserting. Erasing only invalidates iterators at or after the erased element.

At least, those are the paraphrased rules for std::vector.

5
  • What exactly qualifies as an "intervening modification"? I thought erasing from the middle certainly would be, and forcing a vector resize/copy of all elements to a new, larger array also?
    – Instinct
    Apr 4, 2014 at 23:07
  • Yes, anything which might change element count. Also, explicitly reserving space. Apr 4, 2014 at 23:10
  • Actually, deletion invalidates all iterators beyond the deleted iterator(s) too. See Iterator Invalidation Rules
    – sehe
    Apr 4, 2014 at 23:14
  • @Deduplicator then why does erasing the first element when x points to v.begin() not invalidate it? Assuming I'm not redeclaring x like in my original post, because for some reason declaring auto x = v.begin(); immediately after the original 10 slot vector fill and removing auto from all future loop x's as to not redeclare still works perfectly?
    – Instinct
    Apr 5, 2014 at 22:57
  • It does invalidate. That does not guarantee a crash though. Also, if you assign a new one, the old one is gone... Apr 5, 2014 at 23:02

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