Is there a reason there's


but no



How do I filter a list correctly? I could use

new ArrayList(Collection2.filter())

of course, but this way it's not guaranteed that my ordering stays the same, if I understand correctly.

  • 8
    FYI, List.newArrayList(Iterables.filter(...)) is generally faster than new ArrayList(Collection2.filter(...)). The ArrayList constructor calls size() on the filtered collection, and computing the size requires that the filter be applied to every element of the original list.
    – Jared Levy
    Commented Dec 14, 2011 at 5:29
  • 4
    @JaredLevy Maybe instead of List.newArrayList(Iterables.filter(...)), it should say Lists.newArrayList(Iterables.filter(...)) .
    – Abdull
    Commented Sep 24, 2013 at 22:25

5 Answers 5


It wasn't implemented because it would expose a perilous large number of slow methods, such as #get(index) on the returned List view (inviting performance bugs). And ListIterator would be a pain to implement as well (though I submitted a patch years ago to cover that).

Since indexed methods can't be efficient in the filtered List view, it's better to just go with a filtered Iterable, which doesn't have them.

  • 7
    You are assuming that a list view would be returned. However #filter could be implemented as returning a new materialised list, which is actually what I would expect from a filter method for lists as opposed to the one on Iterable. Commented May 27, 2015 at 22:27
  • @FelixLeipold This would muddy the waters however. As it is, filter consistently means a view (along with the behaviour that implies) whether that's Iterables.filter, Sets.filter etc. Since Iterables.filter combines easily with copyOf on any ImmutableCollection, I find this a good design trade-off (vs coming up with extra methods & names, like filteredCopy or whatnot, for combinations of simple utilities). Commented Jul 31, 2018 at 16:10

You can use Iterables.filter, which will definitely maintain ordering.

Note that by constructing a new list, you'll be copying the elements (just references, of course) - so it won't be a live view onto the original list. Creating a view would be pretty tricky - consider this situation:

Predicate<StringBuilder> predicate = 
    /* predicate returning whether the builder is empty */
List<StringBuilder> builders = Lists.newArrayList();
List<StringBuilder> view = Lists.filter(builders, predicate);

for (int i = 0; i < 10000; i++) {
    builders.add(new StringBuilder());

StringBuilder firstNonEmpty = view.get(0);

That would have to iterate over the whole original list, applying the filter to everything. I suppose it could require that the predicate matching didn't change over the lifetime of the view, but that would be not-entirely-satisfactory.

(This is just guessing, mind you. Maybe one of the Guava maintainers will chip in with the real reason :)

  • 1
    Collections2.filter.iterator just calls Iterables.filter, so the result is the same.
    – skaffman
    Commented Dec 10, 2011 at 20:38
  • @skaffman: In which case I'd use the Iterables.filter version just for clarity.
    – Jon Skeet
    Commented Dec 10, 2011 at 20:50
  • 3
    ...unless you need a view.size() somewhere later in code :) Commented Dec 10, 2011 at 21:08

I could use new List(Collection2.filter()) of course, but this way it's not guaranteed that my ordering stays the same.

This isn't true. Collections2.filter() is a lazily-evaluated function - it doesn't actually filter your collection until you start accessing the filtered version. For example, if you iterate over the filtered version, then the filtered elements will pop out of the iterator in the same order as your original collection (minus the ones filtered out, obviously).

Perhaps you were thinking that it does the filtering up front, then dumps the results into an arbitrary, unordered Collection of some form - it doesn't.

So if you use the output of Collections2.filter() as the input to a new list, then your original order will be retained.

Using static imports (and the Lists.newArrayList function), it becomes fairly succinct:

List filteredList = newArrayList(filter(originalList, predicate));

Note that while Collections2.filter will not eagerly iterate over the underlying collection, Lists.newArrayList will - it will extract all elements of the filtered collection and copy them into a new ArrayList.

  • It's more like: List filteredList = newArrayList(filter(originalList, new Predicate<T>() { @Override public boolean apply(T input) { return (...); } })); or ie. List filteredList = newArrayList(filter(originalList, Predicates.notNull())); Commented Dec 10, 2011 at 21:07
  • @Xaerxess: Oops, yes, forgot the predicate... fixed
    – skaffman
    Commented Dec 10, 2011 at 21:52
  • @Bozho: Thanks... took me long enough :)
    – skaffman
    Commented Dec 20, 2011 at 20:43

As mentioned by Jon, you can use Iterables.filter(..) or Collections2.filter(..); and if you don't need a live view, you can use ImmutableList.copyOf(Iterables.filter(..)) or Lists.newArrayList( Iterables.filter(..)) and, yes, ordering will be maintained.

If you are really interested in the why part, you can visit https://github.com/google/guava/issues/505 for more details.


Summing up what the others said, you can easily create a generic wrapper to filter lists:

public static <T> List<T> filter(Iterable<T> userLists, Predicate<T> predicate) {
    return Lists.newArrayList(Iterables.filter(userLists, predicate));

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