251

AFAIK, there are two approaches:

  1. Iterate over a copy of the collection
  2. Use the iterator of the actual collection

For instance,

List<Foo> fooListCopy = new ArrayList<Foo>(fooList);
for(Foo foo : fooListCopy){
    // modify actual fooList
}

and

Iterator<Foo> itr = fooList.iterator();
while(itr.hasNext()){
    // modify actual fooList using itr.remove()
}

Are there any reasons to prefer one approach over the other (e.g. preferring the first approach for the simple reason of readability)?

6
  • 1
    Just curious, why do you create a copy of foolist rather than just looping through foolist in the first example? – Haz May 3 '12 at 13:07
  • @Haz, So I only have to loop once. – user1329572 May 3 '12 at 13:08
  • 15
    Note: prefer 'for' over 'while' also with iterators to limit the scope of the variable: for(Iterator<Foo> itr = fooList.iterator(); itr.hasNext();){} – Puce May 3 '12 at 13:18
  • I didn't know while had different scoping rules than for – Alexander Mills Feb 3 '19 at 5:47
  • In a more complex situation you might have a case where fooList is an instance variable and you call a method during the loop that ends up calling another method in the same class that does fooList.remove(obj). Have seen this happen. In which case copying the list is safest. – Dave Griffiths Jun 13 '19 at 10:50
493

Let me give a few examples with some alternatives to avoid a ConcurrentModificationException.

Suppose we have the following collection of books

List<Book> books = new ArrayList<Book>();
books.add(new Book(new ISBN("0-201-63361-2")));
books.add(new Book(new ISBN("0-201-63361-3")));
books.add(new Book(new ISBN("0-201-63361-4")));

Collect and Remove

The first technique consists in collecting all the objects that we want to delete (e.g. using an enhanced for loop) and after we finish iterating, we remove all found objects.

ISBN isbn = new ISBN("0-201-63361-2");
List<Book> found = new ArrayList<Book>();
for(Book book : books){
    if(book.getIsbn().equals(isbn)){
        found.add(book);
    }
}
books.removeAll(found);

This is supposing that the operation you want to do is "delete".

If you want to "add" this approach would also work, but I would assume you would iterate over a different collection to determine what elements you want to add to a second collection and then issue an addAll method at the end.

Using ListIterator

If you are working with lists, another technique consists in using a ListIterator which has support for removal and addition of items during the iteration itself.

ListIterator<Book> iter = books.listIterator();
while(iter.hasNext()){
    if(iter.next().getIsbn().equals(isbn)){
        iter.remove();
    }
}

Again, I used the "remove" method in the example above which is what your question seemed to imply, but you may also use its add method to add new elements during iteration.

Using JDK >= 8

For those working with Java 8 or superior versions, there are a couple of other techniques you could use to take advantage of it.

You could use the new removeIf method in the Collection base class:

ISBN other = new ISBN("0-201-63361-2");
books.removeIf(b -> b.getIsbn().equals(other));

Or use the new stream API:

ISBN other = new ISBN("0-201-63361-2");
List<Book> filtered = books.stream()
                           .filter(b -> b.getIsbn().equals(other))
                           .collect(Collectors.toList());

In this last case, to filter elements out of a collection, you reassign the original reference to the filtered collection (i.e. books = filtered) or used the filtered collection to removeAll the found elements from the original collection (i.e. books.removeAll(filtered)).

Use Sublist or Subset

There are other alternatives as well. If the list is sorted, and you want to remove consecutive elements you can create a sublist and then clear it:

books.subList(0,5).clear();

Since the sublist is backed by the original list this would be an efficient way of removing this subcollection of elements.

Something similar could be achieved with sorted sets using NavigableSet.subSet method, or any of the slicing methods offered there.

Considerations:

What method you use might depend on what you are intending to do

  • The collect and removeAl technique works with any Collection (Collection, List, Set, etc).
  • The ListIterator technique obviously only works with lists, provided that their given ListIterator implementation offers support for add and remove operations.
  • The Iterator approach would work with any type of collection, but it only supports remove operations.
  • With the ListIterator/Iterator approach the obvious advantage is not having to copy anything since we remove as we iterate. So, this is very efficient.
  • The JDK 8 streams example don't actually removed anything, but looked for the desired elements, and then we replaced the original collection reference with the new one, and let the old one be garbage collected. So, we iterate only once over the collection and that would be efficient.
  • In the collect and removeAll approach the disadvantage is that we have to iterate twice. First we iterate in the foor-loop looking for an object that matches our removal criteria, and once we have found it, we ask to remove it from the original collection, which would imply a second iteration work to look for this item in order to remove it.
  • I think it is worth mentioning that the remove method of the Iterator interface is marked as "optional" in Javadocs, which means that there could be Iterator implementations that throw UnsupportedOperationException if we invoke the remove method. As such, I'd say this approach is less safe than others if we cannot guarantee the iterator support for removal of elements.
5
  • Bravo! this is the definitive guide. – Magno C Jan 18 '17 at 11:47
  • This is a perfect answer! Thank you. – Wilhelm Mar 17 '18 at 2:37
  • 7
    In your paragraph about JDK8 Streams you mention to removeAll(filtered). A shortcut for that would be removeIf(b -> b.getIsbn().equals(other)) – ifloop Mar 27 '18 at 14:20
  • What's the diff between Iterator and ListIterator? – Alexander Mills Feb 3 '19 at 5:44
  • Haven't considered removeIf, but it was the answer to my prayers. Thanks! – Akabelle Oct 16 '19 at 11:16
20

In Java 8, there is another approach. Collection#removeIf

eg:

List<Integer> list = new ArrayList<>();
list.add(1);
list.add(2);
list.add(3);

list.removeIf(i -> i > 2);
1
  • 2
    This does not answer the question of the OP, there is no iteration here – Uri Loya Jan 27 at 16:08
15

Are there any reasons to prefer one approach over the other

The first approach will work, but has the obvious overhead of copying the list.

The second approach will not work because many containers don't permit modification during iteration. This includes ArrayList.

If the only modification is to remove the current element, you can make the second approach work by using itr.remove() (that is, use the iterator's remove() method, not the container's). This would be my preferred method for iterators that support remove().

3
  • Oops, sorry...it is implied that I would use the iterator's remove method, not the container's. And how much overhead does copying the list create? It can't be much and since it's scoped to a method, it should be garbage collected rather quickly. See edit.. – user1329572 May 3 '12 at 13:20
  • 1
    @aix I think it is worth mentioning the the remove method of the Iterator interface is marked as optional in Javadocs, which means that there could be Iterator implementations that may throw UnsupportedOperationException. As such, I'd say this approach is less safe than the first one. Depending on the implementations intended to be used, the first approach could be more suitable. – Edwin Dalorzo May 3 '12 at 13:53
  • @EdwinDalorzo remove() on the original collection itself may also throw UnsupportedOperationException: docs.oracle.com/javase/7/docs/api/java/util/…. The Java container interfaces are, sadly, defined to be extremely unreliable (defeating the point of the interface, honestly). If you don't know the exact implementation that will be used at runtime, it's better to do things in an immutable way -- e.g., use the Java 8+ Streams API to filter the elements down and collect them into a new container, then entirely replace the old one with it. – Matthew Read Mar 5 '19 at 19:52
10

Old Timer Favorite (it still works):

List<String> list;

for(int i = list.size() - 1; i >= 0; --i) 
{
        if(list.get(i).contains("bad"))
        {
                list.remove(i);
        }
}

Benefits:

  1. It only iterates over the list once
  2. No extra objects created, or other unneeded complexity
  3. No problems with trying to use the index of a removed item, because... well, think about it!
2
  • Sometimes it is the only working solution. – mipasov Nov 27 '20 at 13:37
  • 2
    At first glance you may miss it, but the secret is to traverse the list backwards. This prevents that each removal, changes the index of future potential removals. – Delark Mar 13 at 16:30
5

Only second approach will work. You can modify collection during iteration using iterator.remove() only. All other attempts will cause ConcurrentModificationException.

1
  • 4
    The first attempt iterates on a copy, meaning he can modify the original. – Colin D May 3 '12 at 13:10
1

You can't do the second, because even if you use the remove() method on Iterator, you'll get an Exception thrown.

Personally, I would prefer the first for all Collection instances, despite the additional overheard of creating the new Collection, I find it less prone to error during edit by other developers. On some Collection implementations, the Iterator remove() is supported, on other it isn't. You can read more in the docs for Iterator.

The third alternative, is to create a new Collection, iterate over the original, and add all the members of the first Collection to the second Collection that are not up for deletion. Depending on the size of the Collection and the number of deletes, this could significantly save on memory, when compared to the first approach.

0
0

I would choose the second as you don't have to do a copy of the memory and the Iterator works faster. So you save memory and time.

2
  • "Iterator works faster". Anything to support this claim? Also, the memory footprint of making a copy of a list is very trivial, especially since it'll be scoped within a method and will garbage collected almost immediately. – user1329572 May 3 '12 at 13:17
  • 2
    In the first approach the disadvantage is that we have to iterate twice. We iterate in the foor-loop looking for an element, and once we find it, we ask to remove it from the original list, which would imply a second iteration work to look for this given item. This would support the claim that, at least in this case, iterator approach should be faster. We have to consider that only the structural space of the collection is the one being created, the objects inside the collections are not being copied. Both collections would keep references to the same objects. When GC happens we cannot tell!!! – Edwin Dalorzo May 3 '12 at 15:14
-3

why not this?

for( int i = 0; i < Foo.size(); i++ )
{
   if( Foo.get(i).equals( some test ) )
   {
      Foo.remove(i);
   }
}

And if it's a map, not a list, you can use keyset()

4
  • 4
    This approach has many major disadvantages. First, every time you remove an element, the indexes are reorganized. Therefore, if you remove element 0, then the element 1 becomes the new element 0. If you are going to to this, at least do it backwards to avoid this problem. Second, not all List implementations offer direct access to the elements (as ArrayList does). In a LinkedList this would be tremendously inefficient because every time you issue an get(i) you have to visit all nodes until you reach i. – Edwin Dalorzo May 3 '12 at 14:59
  • Never considered this as I typically just used it to remove a single item I was looking for. Good to know. – Drake Clarris May 3 '12 at 15:02
  • 4
    I'm late to the party, but surely in the if block code after Foo.remove(i); you should do i--;? – Bertie Wheen Mar 19 '13 at 21:38
  • becouse it's bugged – Jack Jul 20 '17 at 13:31

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