# Java ( Counting Distinct Integers )

how do you return number of distinct/unique values in an array for example

``````int[] a = {1,2,2,4,5,5};
``````
-
Is it always sorted? That matters, assuming you're looking for the most efficient method. –  jeffamaphone Sep 26 '09 at 21:40
no it will not always be sorted. sometimes i will need to sort it first –  Latoya Sep 26 '09 at 21:41
It would probably help if you could give some more details in your question. For example, are you looking for an efficient solution? Any solution? A solution using your own algorithm? A solution using a data structure that Java has (for example, dcrosta's answer)? –  Edan Maor Sep 26 '09 at 21:45

Really depends on the numbers of elements in the array. If you're not dealing with a large amount of integers, a HashSet or a binary tree would probably be the best approach. On the other hand, if you have a large array of diverse integers (say, more than a billion) it might make sense to allocate a 2^32 / 2^8 = 512 MByte byte array in which each bit represents the existence or non-existence of an integer and then count the number of set bits in the end.

A binary tree approach would take n * log n time, while an array approach would take n time. Also, a binary tree requires two pointers per node, so your memory usage would be a lot higher as well. Similar consideration apply to hash tables as well.

Of course, if your set is small, then just use the inbuilt HashSet.

-

A set stores each unique (as defined by .equals()) element in it only once, and you can use this to simplify the problem. Create a Set (I'd use a HashSet), iterate your array, adding each integer to the Set, then return .size() of the Set.

-
Pretty sure a set will have a .size() or .length() or .count() method to get the number of elements in it. –  jeffamaphone Sep 26 '09 at 21:43
of course, the OP asked for the number of distinct integers, not a list of distinct integers. Same approach applies, though. –  Michiel Buddingh Sep 26 '09 at 21:43
Guh. I wrote it that way originally, than re-misread the question. Editied now. –  dcrosta Sep 26 '09 at 21:56
An efficient method: Sort the array with `Arrays.sort`. Write a simple loop to count up adjacent equal values.
``````Set<Integer> s = new HashSet<Integer>();