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What is the best optimal way of finding whether any element is repeated in a given array?

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best and optimal might not be the same thing! Best might mean easiest to understand... – Mitch Wheat Jan 25 '10 at 5:39
It really depends: Is the data in the array dense or sparse? Repeated or not? Sorted or not? How expensive is the data to copy? How expensive is is to compare for equality or inequality? – Travis Gockel Jan 25 '10 at 5:42
@Mitch: Optimal might mean easiest to understand ;-) This is why you can't "optimise" code until you've said what you're optimising for. – Steve Jessop Jan 25 '10 at 14:50

Put the elements in a hashtable, doing value equality comparisons on any collisions.

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If we consider that the duplicates may more than two for case like: {2,3,2,2,2,5,5,7,7},here we need to build an hash table and then look for the non duplicates

Using STL map container it becomes a very easy job: (The question was not tagged to C++ but STL will make the hashing job clean) It can also handle cases all unique cases.

  #include <iostream>
  #include <vector>
  #include <iterator>
  #include <map>
  using namespace std;

 int main(void){
      map<int,int> array;
      map<int,int>::iterator ii;

    int arr[] = {2,3,5};
    vector<int> unique_list;
    int size = sizeof(arr)/sizeof(arr[0]);

    for(int i = 0; i<size; i++)

     bool flag = false;

    for(ii=array.begin();ii != array.end(); ++ii)
     if(ii->second == 1){
         flag = true;
         unique_list.push_back(ii -> first);

   if(flag == true){
      cout<<"Unique element(s): ";
      copy(unique_list.begin(),unique_list.end(),ostream_iterator<int>(cout," "));
     cout<<"All elements have dulicate"<<endl;

   return 0;

The complexity is O(n) so it is still in Linear time.

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What does your first code do for int arr[] = {3,2,1};? – Alok Singhal Jan 25 '10 at 8:35
@ Alok : Code updated to handle all unique test cases. – whacko__Cracko Jan 25 '10 at 10:09
@nthgreek: I was talking about your C code that uses the xor "trick". – Alok Singhal Jan 25 '10 at 10:18
hmm yes,my first code can't handle all unique cases :( So removing it.I guess only hashing can be a solution to handle such cases. – whacko__Cracko Jan 25 '10 at 14:32
The question is tagged a C and this is C++. – jason Jan 25 '10 at 15:26

Most other answers mention hashtables, and are actually optimal since it gets the job done in O(n).

Another way to do it, without using hashtables. Simply sort the array (using qsort) and the iterate over the elements checking if two adjacent elements are the same. Sorting makes same elements group together and so makes checking for duplicates easy. Of course, this is O(nlog) and will change the order of the original array, but is a lot shorter and saves you the trouble of coding a hashtable.

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In general, it is an O(n) problem. You need to check each element, usually using a hashtable. If it is sorted, you can just look one to the left and one to the right.

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I think a Bloom Filter fits the problem well, probably with a lower space requirement than a hash table would need. (although it does have possible false positives)

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Might not be the solution you're looking for, but:

  • if the elements are integers
  • and if you know their maximum possible value MAX,

build an array DUPS of size [MAX] where each element is zero; parse the original array ORIG, and for each element i:

int i;
for ( i = 0 ; i < DUPS_SIZE ; i++ )
    if ( DUPS[ORIG[i]] == 1 ) 
        return true; /* the original array has duplicate elements */
        DUPS[ORIG] = 1;
return false;

Or you can iterate through ORIG in a random order. Worst case is still O(DUPS_SIZE).

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This is essentially the same as a hashtable where the hashing function is f(x)=x. – MAK Jan 25 '10 at 15:37

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