# Algorithm to find duplicate in an array

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I have an assignment to create an algorithm to find duplicates in an array which includes number values. but it has not said which kind of numbers, integers or floats. I have written the following pseudocode:

`````` FindingDuplicateAlgorithm(A) // A is the array
mergeSort(A);
for  int i <- 0 to i<A.length
if A[i] == A[i+1]
i++
return  A[i]
else
i++
``````

have I created an efficient algorithm? I think there is a problem in my algorithm, it returns duplicate numbers several time. for example if array include 2 in two for two indexes i will have ...2, 2,... in the output. how can i change it to return each duplicat only one time? I think it is a good algorithm for integers, but does it work good for float numbers too?

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It's also a good idea to tag your question as homework, so people know. – Saladin Akara Nov 16 '10 at 9:43
Be careful of using A[i+1] -- if i = (A.length - 1), Bad Things will happen. You want the for loop to continue only when i < A.length - 1. – Seth Nov 16 '10 at 9:45
thats right, thanks for your guide – Elton.fd Nov 16 '10 at 9:48
@Saladin: use of the [homework] tag (and other "meta" tags) is now discouraged - see: meta.stackoverflow.com/questions/10811/… - the poster should instead mention that a question is homework-related in the question itself. – Paul R Nov 16 '10 at 10:32
@Paul R - Thanks for the tip. Didn't realise. – Saladin Akara Nov 16 '10 at 15:48

To handle duplicates, you can do the following:

``````if A[i] == A[i+1]:
result.append(A[i]) # collect found duplicates in a list
while A[i] == A[i+1]: # skip the entire range of duplicates
i++               # until a new value is found
``````
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+1 But detecting duplicate floating points is not more tricky than detecting duplicate ints. Two floating point values are identical if and only if `value1 == value2`. – Andreas Brinck Nov 16 '10 at 9:51
@Andreas: You are right, but the words equal and duplicate mean something different for floating point numbers. – Björn Pollex Nov 16 '10 at 9:53
No I don't think so. A value `a` is a duplicate of another value `b` if and only if `a == b`, there's no other way to define it. – Andreas Brinck Nov 16 '10 at 9:55
mergeSort(Arr); int i <- 0 for i<- Arr.lenght-1 if Arr[i] == Arr[i+1] return Arr[i] while A[i] = A[i+1] i++ – Elton.fd Nov 16 '10 at 10:11
@Sandra: I was just posting the relevant part. – Björn Pollex Nov 16 '10 at 10:14

Do you want to find Duplicates in Java?

You may use a HashSet.

``````HashSet h = new HashSet();
for(Object a:A){
boolean duplicate = !b;
if(duplicate)
// do something with a;
}
``````

The return-Value of add() is defined as:

true if the set did not already contain the specified element.

EDIT: I know HashSet is optimized for inserts and contains operations. But I'm not sure if its fast enough for your concerns.

EDIT2: I've seen you recently added the homework-tag. I would not prefer my answer if itf homework, because it may be to "high-level" for an allgorithm-lesson

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I'm not sure what language you need to write the algorithm in, but there are some really good C++ solutions in response to my question here. Should be of use to you.

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I want to write it in java – Elton.fd Nov 16 '10 at 9:43

Your answer seems pretty good. First sorting and them simply checking neighboring values gives you `O(n log(n))` complexity which is quite efficient.

Merge sort is `O(n log(n))` while checking neighboring values is simply `O(n)`.

One thing though (as mentioned in one of the comments) you are going to get a stack overflow (lol) with your pseudocode. The inner loop should be (in Java):

``````for (int i = 0; i < array.length - 1; i++) {
...
}
``````

Then also, if you actually want to display which numbers (and or indexes) are the duplicates, you will need to store them in a separate list.

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Your algorithm contains a buffer overrun. `i` starts with 0, so I assume the indexes into array `A` are zero-based, i.e. the first element is `A[0]`, the last is `A[A.length-1]`. Now `i` counts up to `A.length-1`, and in the loop body accesses `A[i+1]`, which is out of the array for the last iteration. Or, simply put: If you're comparing each element with the next element, you can only do length-1 comparisons.

If you only want to report duplicates once, I'd use a bool variable `firstDuplicate`, that's set to false when you find a duplicate and true when the number is different from the next. Then you'd only report the first duplicate by only reporting the duplicate numbers if `firstDuplicate` is true.

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