This is a typical problem requiring you to solve it in one-pass. You are given an array containing only 0s, 1s, and 2s. You are required to sort the array in one pass in O(1) auxiliary space. I was wondering if such one pass solutions exist for arrays containing more distinct values, and what is the limit of a number of distinct values to which one pass solutions exist.

  • 3
    ANY fixed number is O(1). You just need a counter for each distinct value, initialized to zero; use them to count the values in the input, and then use them to output that many copies of the value. Jan 1 at 3:29
  • @jasonharper: the counters need to be large enough to count up to the size of the input, so they actually require O(log n) space...
    – Chris Dodd
    Jan 1 at 3:47
  • @ChrisDodd if you use this complexity rule, then the loop index by itself already requires O(log n) space. By the same rule, adding two integers is also O(log n). Jan 1 at 5:08
  • @RaymondChen I beg to differ; adding two integers is O(n). Where n is the length of the input.
    – Stef
    Jan 4 at 15:43
  • You can easily expand your solution for 3 values 0,1,2 to k values 0,1,...,k-1. This gives you an O(k)-space solution. If k = O(1), then this O(k)-space solution is an O(1)-space solution.
    – Stef
    Jan 4 at 15:45


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