I am struggling how to perform basic operations using a Guava ImmutableSortedMultiset...

  • How would one create a copy of an existing ImmutableSortedMultiset that is contains a new element?
  • How would one create a copy of an existing ImmutableSortedMultiset where one of the elements has been removed?

If possible, I would like to be able to perform these operations without sorting the existing collection each time a new element is added(removed).

  • 1
    You cannot do it without sorting the existing collection. (Though I suppose the sort is likely to be O(n) for the case of just one different element, which is as good as you're going to get anyway.) Jun 11 '16 at 19:01
  • 2
    This is not the use case immutable collections are designed for, to be clear. You're looking for persistent collections. Jun 11 '16 at 19:02
  • @LouisWasserman Thanks for the tip. I will google about for persistent collections.
    – davidrpugh
    Jun 11 '16 at 19:17
  • What exactly are you trying to accomplish? Could you perhaps construct the collection of objects you need in an ArrayList and then copy them into an ImmutableSortedMultiset once you need them to be sorted and counted? Could you use a HashMultiset as the temporary structure if a List won't do?
    – dimo414
    Jun 27 '16 at 4:28

I don't think you can do it without rebuilding a new ImmutableSortedMultiset. Assuming you have an original multiset, I would start by making a composite view using the methods in Multiset:

// View with one more element
Multiset<String> view = Multisets.union(original, ImmutableMultiset.of("a"));


// View with one less element
Multiset<String> view = Multisets.difference(original, ImmutableMultiset.of("a"));

followed by creation of the immutable sorted copy:

ImmutableSortedMultiset<String> copy = ImmutableSortedMultiset.copyOf(view);

It's actually a tricky question because as far as I know Guava doesn't provide any easy method to achieve your goal. Maybe you shouldn't be dealing with immutable collections if you need to change them. For example, you can store your data in mutable SortedMultiset and make a defensive copy when you need to pass it somewhere

However, these operations are still possible.

Add and copy

In order to add element in immutable collection, you need to use builder

ImmutableSortedMultiset<T> original = ...; //your original data which you want to modify
T element = ...; //new element which you want to add
ImmutableSortedMultiset<T> result = ImmutableSortedMultiset.<T>naturalOrder()
                                     .addAll(original) //copying original data

Remove and copy

Here things get a little bit harder because you will need to filter original collection and exclude element which you want to remove

ImmutableSortedMultiset<T> original = ...;
T el = ...; //element which you want to remove
ImmutableSortedMultiset<T> result = ImmutableSortedMultiset.copyOf( //copy...
                                 Collections2.filter(original,   //and filter

You will have to wrap this into a method to make it easier to use.

However, I highly advise you to use mutable collections instead of immutable if you really need to modify them.

  • Note that your remove version removes all elements equal to e1 and not just one. Remember that we are working with a Multiset!
    – Per Huss
    Jun 11 '16 at 19:22

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