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I have the following declarations:

ArrayList<String> list = new ArrayList<String>();

Now my question is: if I want to remove the "2"s from the list, which way is better?

first way:

for(int i = 0; i < list.size(); i++) {
    if(list.get(i).equals("2")) {

second way:

Iterator<String> iterator = list.iterator();

Are both safed properly and which is more efficient?

Are there any other methods to remove elements from an ArrayList without getting IndexOutOfBounds errors?

share|improve this question
second one is more clear – Jayan Apr 16 '12 at 1:22
Make use of the contains() method to impose some condition. – Lion Apr 16 '12 at 1:27
If you want efficient removal from the middle of the list, you shouldn't be using ArrayList. Maybe LinkedList. – Christoffer Hammarström Apr 16 '12 at 1:29
Okay, great, I'll check out LinkedList. – George Herbert Apr 16 '12 at 1:31
BTW, they're essentially the same exact thing. The second way is pretty much "syntax sugar". However, they do the same thing. – Hassan Apr 16 '12 at 1:40

Actually, what might be faster is


Behind the scenes, for an ArrayList, it does basically create a new copy of the array like @Edmund suggests, but at a lower level, which may lead to higher performance.

Still, as others have mentioned, a LinkedList generally has better performance for removing multiple elements from a large list.

(Even if you do decide to switch to a LinkedList you can still use the above code, it will be equivalent to using the iterator method with a little bit of overhead for the singleton collection that's created and for some extra method calls that happen.)

share|improve this answer

Either way is going to need to shift elements down for each element removed. If your list is really big, it could well be faster to create a new list:

ArrayList<String> newList = new ArrayList<String>();
Iterator<String> iterator = list.iterator();
while (iterator.hasNext()) {
    String val = iterator.next();

/* Or just return newList, depending on how list is used in subsequent code. */

You could think about using LinkedList instead of ArrayList. But benchmarking (with realistic use cases) is the best way to find out what's most efficient.

share|improve this answer
@ChristofferHammarström - thanks, you're right. – Edmund Apr 16 '12 at 1:30
You are right. The best approach is use "add" to a new list instead of "remove" from old list. – Ricardo Oct 27 '15 at 1:51

For individual elements, your for-loop will work fine (well, it will when you remove i-- - the remove() automatically shifts elements over to the left) (No really, it will work fine). So will your iteration method.

You're only iterating to the end of the ArrayList, and you won't step off of it. In terms of efficiency, it's a wash - I would recommend you sample runtimes with sizes of 100,000 and see how it goes. (It's still on the order of O(N) operations, no matter how large the list is.)

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What do you mean "step off of it"? There is nothing wrong with the iterator example. – Christoffer Hammarström Apr 16 '12 at 1:28
@ChristofferHammarström: By "step off", I mean that the OP will avoid ArrayIndexOutOfBounds exceptions, which is something they were concerned about, if you iterate between its length or use the Iterator. – Makoto Apr 16 '12 at 1:29
I added i-- because if it wasn't decremented, the loop would skip one of the "2"s. – George Herbert Apr 16 '12 at 1:35
@GeorgeHerbert: Noticing that now. Fair enough! – Makoto Apr 16 '12 at 1:44

I have read it in some data structure book, that iterator approach is better,

in case of list.remove call under loop, evety time it will start from 0 index to index ot item to remove, then remove element and shift affected elements, it will be o(n2) process.

but in case of iterator.remove, element are removed as they are accessed by iterator without having to go back at beggining of list, thus o(n) process.

share|improve this answer
That only applies for a linked list like LinkedList, not an array-backed list like ArrayList. – Christoffer Hammarström Apr 16 '12 at 1:43
ok, thank you for clerification – Kunal Apr 16 '12 at 1:47

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