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What is the fastest way to find the k largest elements in an array in order (i.e. starting from the largest element to the kth largest element)?

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Can you assume that the array has no duplicate elements? Or do you have to account for this case? –  templatetypedef Jan 22 '13 at 1:40
We do have to account for this case –  user1742188 Jan 22 '13 at 1:43

4 Answers 4

up vote 7 down vote accepted

One option would be the following:

  1. Using a linear-time selection algorithm like median-of-medians or introsort, find the kth largest element and rearrange the elements so that all elements from the kth element forward are greater than the kth element.

  2. Sort all elements from the kth forward using a fast sorting algorithm like heapsort or quicksort.

Step (1) takes time O(n), and step (2) takes time O(k log k). Overall, the algorithm runs in time O(n + k log k), which is very, very fast.

Hope this helps!

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Really good approach. Perhaps you'll want to add a few words about the case where duplicates exist and in particular ties for kth largest. (Not a game changer, but something to consider.) –  hardmath Jan 22 '13 at 1:23
@hardmath, actually it makes no difference at all to the algorithm. –  rici Jan 22 '13 at 1:27
@rici: As step (1) is worded, you will not succeed if there are fewer than k-1 elements "greater than the kth element". Nor does it precisely fix things if these words are replaced with "greater than or equal to the kth element". Am I being picky? Yes, but... –  hardmath Jan 22 '13 at 1:32
@hardmath- If duplicates are possible, then we can address this in O(n) expected time by throwing all the elements in a hash table and reading out the unique elements back into the array. You can then use this same algorithm. –  templatetypedef Jan 22 '13 at 1:41
@hardmath: it certainly won't work if the array has fewer than k elements, if you want to be ultra-picky. Otherwise, I'd suggest that the difference between "find the k largest elements" is reasonable vernacular for "find k elements which are greater than or equal to all the remaining elements", particularly given the link to the precise algorithm. –  rici Jan 22 '13 at 1:41

@templatetypedef's solution is probably the fastest one, assuming you can modify or copy input.

Alternatively, you can use heap or BST (set in C++) to store k largest elements at given moment, then read array's elements one by one. While this is O(n lg k), it doesn't modify input and only uses O(k) additional memory. It also works on streams (when you don't know all the data from the beginning).

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C++ also provides the partial_sort algorithm, which solves the problem of selecting the smallest k elements (sorted), with a time complexity of O(n log k). No algorithm is provided for selecting the greatest k elements since this should be done by inverting the ordering predicate.

For Perl, the module Sort::Key::Top, available from CPAN, provides a set of functions to select the top n elements from a list using several orderings and custom key extraction procedures. Furthermore, the Statistics::CaseResampling module provides a function to calculate quantiles using quickselect.

Python's standard library (since 2.4) includes heapq.nsmallest() and nlargest(), returning sorted lists, the former in O(n + k log n) time, the latter in O(n log k) time.

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Radix sort solution:

  • Sort the array in descending order, using radix sort;
  • Print first K elements.

Time complexity: O(N*L), where L = length of the largest element, can assume L = O(1). Space used: O(N) for radix sort.

However, I think radix sort has costly overhead, making its linear time complexity less attractive.

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