# Selection routine with dupes?

I recently wrote a program after analyzing the k-th smallest element algorithm, first without the case of duplicates.

Now, however, I would like to analyze the expected asymptotic runtime for finding, say, the median of an array when there are exactly `j` duplicates. I haven't modified my code for such, and thus the performance slows down a bit because of the `j` duplicates.

I'm not sure how to begin? Can anyone point me towards such a recurrence relation?

I've derived the following, where n is the size of the input array

``````T(n) <= 1/2*T(3/4*n) + 1/2*T(n)
``````

but am quite unclear how to proceed with duplicate keys involved.

Thanks

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We cannot help you unless we have the function you are talking about. –  Emil Vikström Apr 23 '12 at 6:47

The randomized solution as demonstrated here is

`````` T(n) <= T(3/4*n) + n-1  =>  T(n) <= 4n
``````

The complexity of the algorithm may depend on `j` but don't expect it to be miraculously less than linear time. Why? take a random array of size n/2, duplicate it completely and run the ideal algorithm for the problem with duplicates. You'll have

``````T(n) <= 4(n/2) => T(n) <= 2n
``````

when each element is duplicated twice (exactly `n/2` duplicates)

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