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I created a method which search for duplicates and then stores duplicates index into another array. Then I'm running through my big array and move all entries without duplicates.

Now, my problem is that this uses O(N*N) and I am using additional memory space since I am adding additional array.

How could this be done? Assuming that I need to understand how this could be done without using additional libraries or HashSet.

Any tips appreciated.

   public void dups()
       int[] index = new int[100];

       int k = 0;
       int n = 0;
       int p = 0;

       for (int i = 0; i < elements; i++)
           for (int j = i + 1; j < elements; j++)
                   index[k++] = i;

       for (int m = 0; m < elements; m++)
           if (m != index[p])
               a[n++] = (T) a[m];

       elements -= k;
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It's impossible to remove duplicates in O(N). –  David Robinson Oct 9 '12 at 18:34
He doesn't say that hash tables are not to be used. –  FSP Oct 9 '12 at 18:42
@FSP but now he did ;) –  leemes Oct 9 '12 at 18:48
Not to split hairs, but O(n) can be done using a HashMap. But I'm not sure if the "no HashSet" requirement includes HashMap or not. –  Eric B. Oct 9 '12 at 18:59

4 Answers 4

up vote 4 down vote accepted

You can't find duplicates in O(n) (in general).

However it is possible in O(n*log n). Simply sort your array (O(n*log n)), and then the scanning for duplicates can be done in O(n).

On the other hand, if you can use hash tables (what you probably don't want to do, if you don't want to use any additional libraries) you can scan through the array and count how often each element appears in the array. After that, you can go through each element in the hash table and find those elements that appeared more than once. This would take an expected runtime of O(n), but not deterministic O(n).

Finally, why did I write that you can't find duplicates in O(n) in general?
One could imagine several special cases, where finding duplicates is possible in O(n). For example, your array could only contain numbers from 0 to 99. In that case, you could use another array (of size 100) to count how often each element appears in the array. This works the same way as with the hash table, but its runtime would be deterministic O(n).

Another example where finding duplicates is possible in O(n) is of course, if the array is already sorted.

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Use a HashSet to do this in O(n) time:

public <T> int removeDups(T[] original) {
    HashSet<T> unique = new HashSet<T>();
    for (T item: original) {

    int size = unique.size();
    int curr = 0;
    for (int i = 0; i < original.length; i += 1) {
        if (unique.remove(original[i])) {
            original[curr] = original[i];

    return size;

Be aware that this depends on the hashCode method of your list elements properly distributing elements over the buckets in the HashSet to achieve O(n). In worst case, this is O(n*m), where m is the number of unique elements, so you should definitely measure it.

This implementation modifies the array in place, and returns the number of unique elements. Although the array may be larger than this, elements past that point should considered garbage.

It makes one pass over the list to add items to the HashSet (adding an item is O(1)), and another pass to update the array, so it's O(n) (again, assuming a good hash function).

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This is not O(n), but O(n) expected (since a hash operates in constant expected time, not constant time). –  leemes Oct 9 '12 at 18:44
I probably should not make my program using additional memory by creating another ArrayList. –  HelpNeeder Oct 9 '12 at 18:46
@HelpNeeder -- that sounds like a premature optimization to me. –  david Oct 9 '12 at 18:52
@leemes In this case, O(n) expected might be perfectly fine, and could easily be an improvement over O(n^2) or O(n*log n). –  Brigham Oct 9 '12 at 18:55
@Brigham The worst case scenario of hash tables is worse than O(nlog n). It is *impossible to find duplicates in deterministic linear time, that's all I wanted to emphasize. –  leemes Oct 9 '12 at 18:56

This is not O(n) because of the hash and equals comparisons, and uses LinkedHashSet, which is part of the Java standard library, but probably close enough:

public void dups() {
    Set<Integer> uniques = new LinkedHashSet<>();
    for (int i = 0; i < elements.length; i++) {
    // todo: copy the set into a list, then call toArray() to get an array.
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The default implementation of a HashMap is array based and is O(n). Consequently, if you want a fun exercise, you can sift through the implementation of the HashMap to understand exactly how it hashes its keys. Basically, it uses the key's hashCode and uses it to index an array in predetermined location (hashCode & arraylength - 1), and stores the value at that index. If you were to repeat the concept, using the value as both the key and the value, you would have only unique entries in your array.

You will, however, end up with an array with a lot of empty slots, if you have a large number of duplicates, but only unique values. Once you populate the array, you only need to loop through it once to remove any empty slots. (ex: copy all non-null entries to a List)

It would be O(n), but required 2 passes - once to populate the array and once to remove the empty slots. It would also require an additional array of same length as your existing array, and a smaller array (or list) for a final list of unique values.

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