I have an immutable set (cast as a Set<Integer>) that potentially contains many elements. I need a Collection that contains the elements from that set plus one additional element. I have kludgy code in place to copy the set, then append the element, but I'm looking for The Right Way that keeps things as efficient as possible.

I have Guava available, though I do not require its use.


Not sure about performance, but you can use Guava's ImmutableSet.Builder:

import com.google.common.collect.ImmutableSet

// ...
Set<Integer> newSet = new ImmutableSet.Builder<Integer>()

Of course you can also write yourself a helper method for that:

public static <T> Set<T> setWith(Set<T> old, T item) {
  return new ImmutableSet.Builder<T>().addAll(old).add(item).build();

// ...
Set<Integer> newSet = setWith(oldSet, 3);

You might consider Sets.union(). Construction would be faster, but use slower.

public static <T> Set<T> setWith(Set<T> old, T item) {
  return Sets.union(old, Collections.singleton(item);

(com.google.common.collect.Sets & java.util.Collections)


If the Set is immutable, I don't see any way to do it other than copy the Set, and then add your new element. Remember, copying a set is as easy as passing the base set to the constructor function when creating the new set.

  • 2
    I think this is implied; the question is about how to implement this. – sdgfsdh May 22 '17 at 11:16

You have three options.

  • Use a mutable set.
  • Check the element isn't already present, if not create a copy of the set and add an element.
  • Create a wrapper set which includes the previous set and the element.

Sometimes a BitSet is a better choice than Set<Integer> depending on the distribution of your values.

  • Can't use a mutable set - I do not control the API that returns the value. Checking that's it's not present is certainly good advice. Thanks. – Max Apr 27 '12 at 16:30
  • The check is quick compared with the cost of the copy. – Peter Lawrey Apr 27 '12 at 16:31
  • Wouldn't the builder do the check whether it is already present by itself? I mean before allocating a copy. – jmg May 13 '12 at 11:16

I'm experiencing cognitive dissonance when I read "immutable" and "add to" in the same sentence. You can add a new element to the end of a mutable copy of the immutable values, but you can't modify the immutable set. I don't know of anything elegant.

  • There is no contradiction here. The number 3 is immutable, but you can still talk about adding 2 to 3 to return 5. – Rich Mar 3 at 13:51
  • You do not understand what is happening. If you add a new element to an immutable set you have not altered it one bit. You’ve created a new set that is a copy of the original immutable one with the new element added – duffymo Mar 3 at 15:43
  • Thanks, but that is exactly my understanding. Your answer here suggests that you did not understand that, but perhaps it is just poorly explained instead. – Rich Mar 3 at 18:42
  • My point is that the word "add to" does not imply mutation; I had hoped to clarify this by analogy with adding integers. There was no need for you to incorrectly tell me what I do not understand; that was rude. – Rich Mar 3 at 19:00

When you want better performance than a full copy, and you have an ordering over elements, you can use an effectively immutable wrapper around a B+ tree to get good incremental set performance.

Adding an item to a B+ tree requires O(log(n)) time and incremental allocation, not O(n) as you get with ImmutableSet.builder().addAll(...).add(...).build(). This means that building a set from n incremental adds is O(n*log(n)), not O(sqr(n)).

This answer has a pointer to a jdbm library so it might be worth looking at jdbm:jdbm.

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