# 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};
``````
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Is it always sorted? That matters, assuming you're looking for the most efficient method. –  i_am_jorf 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

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.

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Pretty sure a set will have a .size() or .length() or .count() method to get the number of elements in it. –  i_am_jorf 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
``````Set<Integer> s = new HashSet<Integer>();
for (int i : a) s.add(i);
int distinctCount = s.size();
``````
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An efficient method: Sort the array with `Arrays.sort`. Write a simple loop to count up adjacent equal values.

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+1. This is the best answer since Latoya only asks for number of distinct values. –  Denis Tulskiy Sep 27 '09 at 3:42
I think crosta is generally better as it is easier and is less likely to go wrong. My answer is only if performance of this particular task matters (as ever, for preference measure the simple solution to see if it is comfortably sufficient first). –  Tom Hawtin - tackline Sep 27 '09 at 3:56

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.

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