I have the following code which throws ConcurrentModificationException because I am using two different iterators on the same list and one of them is modifying the list. So, the second iterator throws the exception when reading the list because some other iterator has modified the list.
List<Integer> list = new ArrayList<>();
populate(list);//A method that adds integers to list
ListIterator<Integer> iterator1 = list.listIterator();
ListIterator<Integer> iterator2 = list.listIterator();
while (iterator1.hasNext()) {
if(iterator1.next() < 5)
iterator1.remove();
}
while (iterator2.hasNext()){
if(iterator2.next() < 5) {
//Call handler
}
}
My question is how does iterator2 know internally that the list has has been modified by some other iterator if it has not reached an element which is yet removed by iterator1? How does it figure out that some other iterator has mutated the list? One way could be keep track of size but that can't be the reason since some other iterator can just replace any element.
A good way to answer questions like this is to look at the source code, for example the source code for ArrayList. Search for ConcurrentModificationException.
You should be able to tell that things work rather like this:
In your case, remove operations performed by iterator1 on the list change the structural operation count (modCount) of the list. When iterator2 is asked to remove, it sees its expectedModCount, which it received initially as 0, differing from the current mod count of the list.
It should be noted that it.remove is a special case. When an iterator does a remove itself, its expectedModCount adjusts accordingly, to keep in sync with the underlying list.