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I have got an array containing unique elements. I need to find out the first n largest elements in the array in the least complexity possible. The solution that I could think of so far has a complexity of O(n^2).

    int A[]={1,2,3,8,7,5,3,4,6};
    int max=0;
    int i,j;
    int B[4]={0,0,0,0,};//where n=4;

Please, if anyone can come up with a better solution which involves less complexity, I will be highly grateful. And I don't intend to change the original array!!

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sort the array using your favorite O(n log n) algorithm and select the N biggest elements? – GWW Sep 1 '11 at 15:26
what are "the first n largest elements"? The n largest? or the first n? – blubb Sep 1 '11 at 15:27
Your complexity is not O(n^2).. it's O(n*k) k being the number of largest elements you want. it's only O(n^2) if n = k. So, if k is small enough your algorithm is not that bad.. – duedl0r Sep 1 '11 at 15:37
go to profile, select one of questions and then need to checkmark one of answers that best answers your question. do that with all of your questions. – fazo Sep 1 '11 at 15:38
up vote 21 down vote accepted

Find the kth biggest element, using selection algorithm.
Next, iterate the array and find all elements which are larger/equal it.

complexity: O(n) for selection and O(n) for iterating, so the total is also O(n)

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But if the array size is n and you also need to find the n largest elements, then this will run n times, each is O(n), so in total it will be O(n^2)... It would be better to sort it. – kuhaku May 22 at 14:29
@kuhaku No. You find the nth largest element in O(n), let it be x, and then in a single more iteration find all elements with index i such that arr[i] >= x. This is also done in O(n), and it yields total of O(n + n) = O(n). – amit May 22 at 16:04
How in a single iteration do you find all the others? Isn't it a loop from 1 to n where in each iteration you do selection(n-i)? – kuhaku May 22 at 21:50
@kuhaku You don't you found one element using selection, and you know its value. You then only iterate to find all elements bigger than it, no selection is needed (Note that the output is not sorted, you get elements in undefined order, which are the biggest elements, but their internal order is undefined) – amit May 23 at 16:25

The usual trick to select the n largest elements is to maintain a min-priority queue.

  • Unconditionnally insert into the queue the n first elements
  • For each remaining element x, insert x if it is greater than the least element of the queue (O(log n) operation), and remove the least element (O(log n)).
  • When done, the priority queue contains n elements, which are the n largest elements of the original array.

Total complexity: O(N log n) where N is the total number of elements in the array.

I leave to you as an exercise the implementation details (first step is to learn about priority queues, and implement one).

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Note that although this is slower than @amit's QuickSelect based solution, it's an online algorithm applicable to an unbounded input stream – Yibo Yang Dec 15 '15 at 16:46
@YiboYang Yes, and even in the bounded case, everything will ultimately depends on whether log n can be considered small or not. – Alexandre C. Dec 15 '15 at 16:52

Use a modified version of Quick Sort. You do not need to actually sort the whole array. You only need to partition N elements larger than the pivot value. For more information, please read Introduction to Algorithms.

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I want to do it without using any sorting algorithms!! – Poulami Sep 1 '11 at 15:33
Is this a homework question? That seems like a strangely specific requirement. – Vanessa MacDougal Sep 1 '11 at 15:34
@Poulami: Don't you think that's a detail worth mentioning in the question? – Praetorian Sep 1 '11 at 15:46

You can do this in O(n) if your elements are integers (or any integral type) within a range, i to k inclusive with k >= i. With this constraint, you can apply "bucket sort" to this.

The idea is quite simple. Allocate k - i + 1 buckets. Now, iterate through your collection and increment the bucket for that integer. Then, at the end, you can "recreate" the sorted list by creating as many integers that were found (i.e. the bucket number).

For example,

int collection[] = { 10, 4, 7, 1, 9, 0, 12 }; // maximum value to expect is 12, minimum is 0
int buckets[ 13 ] = { 0 };

for( int i = 0; i < 13; i++ )
      int n = collection[ i ];
      buckets[ n ]++;

// the first n largest elements (n = 4)

for( int j = 12; j >= 12 - 4; j-- )
      int n = buckets[ j ];

      while( n > 0 )
           printf( "%d ", j );
printf( "\n" ); 
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You can use a Priority Queue using Heap (maxHeap) to solve this. Perform heap n times to get the first n largest elements. Each Heap operation takes O(log N) time, so N heap operations would result in O(N log N) time.

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//finding the bigest number in the array//

double big = x[0];
printf("\nThe bigest number is    %0.2lf  \n",big);
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