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Last week I appeared in an interview. I was given the following question:

Given an array of 2n elements, and out of this n elements are same, and the remaining are all different. Find the element that repeats n times.

There is no restriction on the range of the elements.

Can someone please give me an efficient algorithm to solve this?

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<from deleted answer> See this. –  Dukeling Jun 16 '13 at 6:07

7 Answers 7

up vote 7 down vote accepted

"Array of 2n elements is given, and out of this n elements are same, and remaining are all different. Find the element that repeats n time."

This can be done in O(n) with the following algorithm:

1) Iterate over the array, checking to see if any elements [i] and [i+1] are the same.

2) Iterate over the array, checking to see if any elements [i] and [i+2] are the same.

3) If n = 2 (and thus length = 4), check if 0 and 3 are the same.


Call the matching elements m and the non-matching elements r.

For n = 2, we can construct mmrr, mrmr and mrrm - so we must check for gap size 0, 1 and the only place we can have gap size 2.

For n > 2, we cannot construct the array with no gaps of size 0 or 1. For example for n = 3, you have to start like this: mrrmr... but then you must place an m. Similarly for n = 4, mrrmrrmm - having no gaps of size 0 or 1 would require ms to be outnumbered by rs by more and more as n increases. Proving this is easy.

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Can you give me that proof. Actually requires mathematics, and some statements. Can you tell me that? –  devnull Jun 1 '13 at 13:45
@devsda It's a trivial proof by contradiction. –  Patashu Jun 1 '13 at 13:48
Now I got it :) Thanks a lot –  devnull Jun 1 '13 at 14:13
This is a good idea, and asympotically optimal, but you can get more leverage if step 1 does not succeed (does not contain a consecutive pair). Specifically if it does not, the target element must be identifiable using only the first four elements. See my answer. –  Andrew Tomazos Jun 16 '13 at 4:31

You just need to find two elements that are the same.

One idea would be:

Get one element from the 2n elements.
If it is not in the a Set, put it in.
Repeat until you find one that is in that set.

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I didn't get your second point. Please explain again "If it is not in the a Set, put it in." –  devnull Jun 1 '13 at 12:11
You need to remember the numbers you already got. ie put them in the set. –  Burkhard Jun 1 '13 at 14:27
This seems like the best option. The problem basically states that there are N+1 different numbers of which one repeats N times. The odds that the next element chosen is not already in the set only drops as more are added to the set and as N gets larger, so on average this should do much better than O(N). Then again that might mean that this isn't strictly O(N). –  Nuclearman Jun 1 '13 at 17:07

Well if complexity doesn't matter, one naive way would be to use two loops, which is for the worst case O(n^2).

for(int i = 0; i < array.size(); i++){
    for(int j = i + 1; j < array.size(); j++){
        if(array[i] == array[j]){
           // element found
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That would not have gotten you the job... –  Dukeling Jun 16 '13 at 3:26
In interview questions like this, complexity specifically does matter. They want ideally an asymptotically optimal solution, preferably with a single pass, and a sketch of a proof for correctness. –  Andrew Tomazos Jun 16 '13 at 4:32

If the first four elements are all distinct then the array must contain a consecutive pair of the target element...

int find(int A[n])
    // check first four elements (10 iterations = O(1))
    for (int i = 0; i < 4; i++)
       for (int j = i+1; j < 4; j++)
          if (A[i] == A[j])
              return A[i];

    // find the consecutive pair (n-4 iterations = O(n))
    for (int i = 3; i < n-1; i++)
        if (A[i] == A[i+1])
            return A[i];

    // unreachable if input matches preconditions
    throw invald_input;

This is optimally O(n) time with a single pass and O(1) space.

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If you find one element twice, that is the element as the questions says : Array of 2n elements is given, and out of this n elements are same, and remaining are all different. Find the element that repeats n time.

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How will you keep track of the elements so you know whether you found any given element before? –  Dukeling Jun 16 '13 at 3:21

You have array of 2n element and half are same and remaining are different so , consider following case,

ARRAY[2n] = {N,10,N,878,85778,N......};


Array[2n] = {10,N,10,N,44,N......};

And so on now simple case in for loop like,

if(ARRAY[i] == ARRAY[i+1])
         //Your similar element :)
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Doesn't work for 1,2,1,3,1,4. You need to check i+2 as well, as in Patashu's answer. –  Dukeling Jun 16 '13 at 3:24

I think that the problem should be "find the element that appears at least n+1 times", if it appears only n times they can be two.

Assuming that there is such an element in the input the following algorithm can be used.

input array of 2*n elements;

int candidate = input[0];
int count = 1;

for (int i = 1; i < 2*n; ++i) {
    if (input[i] == candidate) {
    } else {
         count --;
         if (count == 0) candidate = input[i];

return candidate;

if the request is to find if there is an element present n+1 times another traversal is required to find if the element found at previous step appears n + 1 times.


It has been suggested that the n elements with the same value are contiguous. If this is the case just use the above algorithm and stop when count reaches n.

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The question states that all remaining elements are different. So it appearing n times is fine. –  Dukeling Jun 16 '13 at 3:25
This does not work. Consider {1,2,1,3}. Your program will incorrectly output 3. Further I believe there is a logic error in your count handling. This algorithm is from Fisher-Salzberg (1982) "Finding a majority among n votes." Journal of Algorithms 3, pp 143-152. While it could be adapted, it fails to take advantage of the other half of the elements being all distinct. –  Andrew Tomazos Jun 16 '13 at 4:12
@user1131467 the questions does not suggest to me that n elements with the same value are contiguous. Given this the problem should state the it should appear n+1 times. If they are contiguous it is very simple, just use the above algo and stop when count is equal to n. –  Marius Jun 17 '13 at 13:05
@MariusBucur: Your last comment is nonsensical to the point of being incomprehensible. Please organize your thoughts and try again. –  Andrew Tomazos Jun 17 '13 at 15:22

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