I'm just starting to work with lists in java. I'm wondering what the recommended method to modify each element of a list would be?

I've been able to get it done with both the following methods, but they both seem fairly unelegant. Is there any better way to get this done in java? And is any of the below methods recommended over the other, or are both on the same level?

//Modifying with foreach
for (String each : list)
    list.set(list.indexOf(each), each+ " blah");

//Modifying with for
for (ListIterator<String> i = list.listIterator(); i.hasNext(); i.next()) 
    list.set(i.nextIndex()-1, i.previous() + " blah yadda");
  • 2
    @chrylis: They're not structurally modifying it though. I believe you can normally replace elements in a list without invalidating an iterator... at least for ArrayList, for example. I could be wrong, of course :) – Jon Skeet Nov 15 '13 at 11:52
  • @Jon Skeet I think it's actually a problem when you're doing for each, you cannot change the size of the list you're going through. – Lucas Nov 15 '13 at 11:55
  • @Lucas: Yes, that's typically it. Which isn't the case here, of course. – Jon Skeet Nov 15 '13 at 11:56
  • Sure, I was just making a point :) – Lucas Nov 15 '13 at 11:57
  • Will the above code work ? I think its ConcurrentModificationException. Modifying the same list which is responsible for loop..!! – VinayVeluri Nov 15 '13 at 12:00

The second version would be better. Internally they are the same in the end, but the second actually allows you to modify the list, while the first one will throw a ConcurrentModificationException.

But then you are using the Iterator in a wrong way. Here is how you do it correctly:

for (final ListIterator<String> i = list.listIterator(); i.hasNext();) {
  final String element = i.next();
  i.set(element + "yaddayadda");

The iterator is the one that needs to modify the list as it is the only one that knows how to do that properly without getting confused about the list elements and order.

Edit: Because I see this in all comments and the other answers:

Why you should not use list.get, list.set and list.size in a loop

There are many collections in the Java collections framework, each on optimized for specific needs. Many people use the ArrayList, which internally uses an array. This is fine as long as the amount of elements does not change much over time and has the special benefit that get, set and size are constant time operations on this specific type of list.

There are however other list types, where this is not true. For example if you have a list that constantly grows and/or shrinks, it is much better to use a LinkedList, because in contrast to the ArrayList add(element) is a constant time operation, but add(index, element), get(index) and remove(index) are not!

To get the position of the specific index, the list needs to be traversed from the first/last till the specific element is found. So if you do that in a loop, this is equal to the following pseudo-code:

for (int index = 0; index < list.size(); ++index) {
  Element e = get( (for(int i = 0; i < size; ++i) { if (i == index) return element; else element = nextElement(); }) );

The Iterator is an abstract way to traverse a list and therefore it can ensure that the traversal is done in an optimal way for each list. Test show that there is little time difference between using an iterator and get(i) for an ArrayList, but a huge time difference (in favor for the iterator) on a LinkedList.

  • I don't believe the first one will throw a ConcurrentModificationException actually - at least not in any list where just setting an element counts as a non-structural change, which would be most of them. LinkedList does have constant-time size() by the way (IIRC - I can't check easily right now)- but not get or` set`. – Jon Skeet Nov 15 '13 at 12:13
  • Working with believes is not a good idea, give it a try instead. ;) You will notice that most lists actually do throw an exception. – TwoThe Nov 15 '13 at 12:15
  • 1
    I can't this instant, but will do so in an hour. And "most" isn't the same as "will" either :) IIRC ArrayList (which is the most common list used, IMO) doesn't count set as a structural change. – Jon Skeet Nov 15 '13 at 12:17
  • 1
    "To get the size of this list, what happens internally is that the entire list is traversed from the first to the last element and the elements are counted." - No, that's not what happens for LinkedList. At least not in the code I'm looking at: public int size() { return size; }. Which implementation are you looking at which does do that? – Jon Skeet Nov 15 '13 at 12:54
  • 1
    @TwoThe: That's using add. This code isn't using add, it's using set. As I said before, it's not a structural change. Claiming the code is "probably faulty" when it's doing the same thing as the OP's code is a bit odd... – Jon Skeet Nov 15 '13 at 14:19

EDIT: If you know that size(), get(index) and set(index, value) are all constant time operations for the operations you're using (e.g. for ArrayList), I would personally just skip the iterators in this case:

for (int i = 0; i < list.size(); i++) {
    list.set(i, list.get(i) + " blah");

Your first approach is inefficient and potentially incorrect (as indexOf may return the wrong value - it will return the first match). Your second approach is very confusing - the fact that you call next() twice and previous once makes it hard to understand in my view.

Any approach using List.set(index, value) will be inefficient for a list which doesn't have constant time indexed write access, of course. As TwoThe noted, using ListIterator.set(value) is much better. TwoThe's approach of using a ListIterator is a better general purpose approach.

That said, another alternative in many cases would be to change your design to project one list to another instead - either as a view or materially. When you're not changing the list, you don't need to worry about it.

  • 1
    This will be extremely inefficient if you use it on a list which has no constant time operator for size and get, like the commonly used LinkedList. Better to use the iterator in all cases. – TwoThe Nov 15 '13 at 12:00
  • @TwoThe: Using ListIterator.set, that makes sense - but the code in the question would still be O(n^2) though. – Jon Skeet Nov 15 '13 at 12:11
  • No it would be O(n), because you have one complete iteration over the list, but manipulate those elements immediately. That is: the iterator already knows where to do the change and does not need to look-up the position again. See my answer below. – TwoThe Nov 15 '13 at 12:17
  • @TwoThe: Doh, misreading stuff... going to delete this, as I'm in a lunch meeting and need to concentrate... – Jon Skeet Nov 15 '13 at 12:18
  • @TwoThe: Coming back to it - no, the original code would still be O(n^2). The outer loop is O(n), but calling list.set(index, value) inside the loop makes it O(n^2) when list.set(index, value) is O(n) as per LinkedList. – Jon Skeet Nov 15 '13 at 12:48

Internally there in Iterator for for-each implementation. So there is no deference between these two cases. But if you trying to modify element it will throws ConcurrentModificationException.

  • 1
    The two pieces of code are pretty significantly different, actually. It's not like one is just a rewrite of the other to use the iterator explicitly. – Jon Skeet Nov 15 '13 at 11:55

I got mine working this way

    String desiredInvoice="abc-123";
    long desiredAmount=1500;

    for (ListIterator<MyPurchase> it = input.getMyPurchaseList().listIterator(); it.hasNext();) {
        MyPurchase item = it.next();
        if (item.getInvoiceNo().equalsIgnoreCase(desiredInvoice)) {

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