Jon Skeet recently raised an interesting programming topic on his blog: "There's a hole in my abstraction, dear Liza, dear Liza" (emphasis added):

I have a set – a HashSet, in fact. I want to remove some items from it… and many of the items may well not exist. In fact, in our test case, none of the items in the "removals" collection will be in the original set. This sounds – and indeed is – extremely easy to code. After all, we’ve got Set<T>.removeAll to help us, right?

We specify the size of the "source" set and the size of the "removals" collection on the command line, and build both of them. The source set contains only non-negative integers; the removals set contains only negative integers. We measure how long it takes to remove all the elements using System.currentTimeMillis(), which isn’t the world most accurate stopwatch but is more than adequate in this case, as you’ll see. Here’s the code:

import java.util.*;
public class Test 
    public static void main(String[] args) 
       int sourceSize = Integer.parseInt(args[0]); 
       int removalsSize = Integer.parseInt(args[1]); 
       Set<Integer> source = new HashSet<Integer>(); 
       Collection<Integer> removals = new ArrayList<Integer>(); 
       for (int i = 0; i < sourceSize; i++) 
       for (int i = 1; i <= removalsSize; i++) 
       long start = System.currentTimeMillis(); 
       long end = System.currentTimeMillis(); 
       System.out.println("Time taken: " + (end - start) + "ms"); 

Let’s start off by giving it an easy job: a source set of 100 items, and 100 to remove:

c:UsersJonTest>java Test 100 100
Time taken: 1ms

Okay, so we hadn’t expected it to be slow… clearly we can ramp things up a bit. How about a source of one million items and 300,000 items to remove?

c:UsersJonTest>java Test 1000000 300000
Time taken: 38ms

Hmm. That still seems pretty speedy. Now I feel I’ve been a little bit cruel, asking it to do all that removing. Let’s make it a bit easier – 300,000 source items and 300,000 removals:

c:UsersJonTest>java Test 300000 300000
Time taken: 178131ms

Excuse me? Nearly three minutes? Yikes! Surely it ought to be easier to remove items from a smaller collection than the one we managed in 38ms?

Can someone explain why this is happening? Why is the HashSet<T>.removeAll method so slow?

  • 2
    I tested your code and it worked fast. For you case, it took ~12ms to finished. I've also increase both input values by 10 and it took 36ms. Maybe your PC does some intensive CPU tasks while you run the tests?
    – Slimu
    Feb 23, 2015 at 11:16
  • 4
    I tested it, and had the same result as the OP (well, I stopped it before the end). Strange indeed. Windows, JDK 1.7.0_55
    – JB Nizet
    Feb 23, 2015 at 11:17
  • 2
    There is an open ticket on this: JDK-6982173
    – Haozhun
    Jan 12, 2018 at 1:38
  • 49
    As discussed on Meta, this question was originally plagiarised from Jon Skeet's blog (now directly quoted from and linked to in the question, due to a moderator's edit). Future readers should note that the blog post it was plagiarised from does in fact explain the cause of the behaviour, similarly to the accepted answer here. As such, instead of reading the answers here, you may instead wish to simply click through and read the full blog post.
    – Mark Amery
    May 5, 2019 at 14:20
  • 1
    The bug will be fixed in Java 15: JDK-6394757 Feb 26, 2020 at 4:25

1 Answer 1


The behaviour is (somewhat) documented in the javadoc:

This implementation determines which is the smaller of this set and the specified collection, by invoking the size method on each. If this set has fewer elements, then the implementation iterates over this set, checking each element returned by the iterator in turn to see if it is contained in the specified collection. If it is so contained, it is removed from this set with the iterator's remove method. If the specified collection has fewer elements, then the implementation iterates over the specified collection, removing from this set each element returned by the iterator, using this set's remove method.

What this means in practice, when you call source.removeAll(removals);:

  • if the removals collection is of a smaller size than source, the remove method of HashSet is called, which is fast.

  • if the removals collection is of equal or larger size than the source, then removals.contains is called, which is slow for an ArrayList.

Quick fix:

Collection<Integer> removals = new HashSet<Integer>();

Note that there is an open bug that is very similar to what you describe. The bottom line seems to be that it is probably a poor choice but can't be changed because it is documented in the javadoc.

For reference, this is the code of removeAll (in Java 8 - haven't checked other versions):

public boolean removeAll(Collection<?> c) {
    boolean modified = false;

    if (size() > c.size()) {
        for (Iterator<?> i = c.iterator(); i.hasNext(); )
            modified |= remove(i.next());
    } else {
        for (Iterator<?> i = iterator(); i.hasNext(); ) {
            if (c.contains(i.next())) {
                modified = true;
    return modified;
  • 15
    Wow. I learnt something today. This looks like a bad implementation choice to me. They should not do that if the other collection is not a Set.
    – JB Nizet
    Feb 23, 2015 at 11:25
  • 2
    @JBNizet Yes that's weird - it been discussed here with your suggestion - not sure why it did not go through...
    – assylias
    Feb 23, 2015 at 11:27
  • 2
    Thanks a lot @assylias ..But really wondering how did you figure it out..:) Nice really nice....Did u faced this problem???
    – anon
    Feb 23, 2015 at 12:58
  • 8
    @show_stopper I just ran a profiler and saw that ArrayList#contains was the culprit. A look at the code of AbstractSet#removeAll gave the rest of the answer.
    – assylias
    Feb 23, 2015 at 13:19

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