Suppose we have an array having 0 to n-1 distinct integers



our goal is to modify this array such that a[0] becomes a[a[0]] means a[0] has value 2 here so a[0] = a[2] and so on.

Having the following output :


Three things are to be noted here that:

  1. positions have range 0 to n-1 and values have range 0 to n-1 too (obviously).
  2. no extra array or link list or any data structure should be taken.
  3. should have time complexity O(n).

1 Answer 1


Here's the idea:

You can store the original and desired numbers in the same array position by keeping the original one and pushing the new one as a base n number.

That way, to extract the original number we just need to compute the modulo n operation:

original = array[index] % array.length

And we can get the target value dividing by the array length

target = array[index] / array.length

That way we won't require additional memory and we will be able to do it in two passes O(2n) complexity.

The algorithm is pretty straightforward (implemented in python):

def self_permute(arr):
    length = len(arr)
    for i in range(length):
        if arr[i] < i:
            arr[i] += (arr[arr[i]] % length) * length
            arr[i] += arr[arr[i]] * length

    for i in range(length):
        arr[i] /= length

    return arr

a = [2,1,4,3,5,0]
print self_permute(a)
  • Awsome thinking man!!!!! 2 things time complexity will be 3n as n time for calculation of Length too and i dont think if else is required. arr[i] += (arr[arr[i]] % length) * length will work normally if the value is not processed too. thanks anyway
    – oneranker
    Nov 19, 2015 at 15:03

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