# Algorithm to find duplicate in an array

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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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

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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O(n) algorithm: traverse the array and try to input each element in a hashtable/set with number as the hash key. if you cannot enter, than that's a duplicate.

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This seems to be the same as stackoverflow.com/a/4192865 . Please only post an answer if you have something new to say. And if you do, please expand your answer. – Jeffrey Bosboom Mar 3 at 2:22
2 things different in my post: mention of complexity and fact that you have to 'try' to insert the value from .NET perspective. In fact, the code listed in your link will throw an exception for dups in .NET CLR since it will try to insert a key that already exist. In .NET, you have to use trygetvalue() before insertion. – Maksood Apr 8 at 22:18

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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`````` public void printDuplicates(int[] inputArray) {
if (inputArray == null) {
throw new IllegalArgumentException("Input array can not be null");
}
int length = inputArray.length;

if (length == 1) {
System.out.print(inputArray[0] + " ");
return;
}

for (int i = 0; i < length; i++) {

if (inputArray[Math.abs(inputArray[i])] >= 0) {
inputArray[Math.abs(inputArray[i])] = -inputArray[Math.abs(inputArray[i])];
} else {
System.out.print(Math.abs(inputArray[i]) + " ");
}
}
}
``````
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