PerfectlyBalancedSort in n^(3/2)

Revision en1, by ggdwbg, 2020-03-08 12:52:37

Okay, so I'm going to write about a new sorting algorithm which I discovered recently while playing with sqrt decomposition.

I've told 4 people I know about it and in 4 out of 4 cases their reaction was "man, you're a genius, how could nobody actually come up with this before?!".

Well, no, I'm just kidding, 4 out of 4 asked what is it for and told me that I'm just wasting my time coming up with useless crap, BUT I am going to write about it nevertheless.

The idea is simple. You just do sqrt decomposition for RMQ. Suppose $$$ \mathrm{BlockSize} $$$ is (wow) your blocksize and $$$ \mathrm{BlockMin}[k] $$$ is the index of minimum element in $$$ k $$$-th block. Then in every iteration, suppose you already have prefix $$$ [0, s) $$$ sorted. Then what you do is you find the index of minimum in blocks from $$$ \mathrm{B} := 1 + \left \lfloor \frac{s}{\mathrm{BlockSize}} \right \rfloor $$$ to the last one, call that index $$$ \mathrm{min}_1 $$$. Minimum could also be in the block containing $$$ s $$$, so you also iterate in $$$ [s, \mathrm{BlockSize} \cdot \mathrm{B}) $$$, finding index of the min-element $$$ \mathrm{min}_2 $$$, then you compare $$$ a[\mathrm{min}_1] $$$ with $$$ a[\mathrm{min}_2] $$$ and pick a minimum of them. Then in your array you swap $$$ a[\mathrm{min}] $$$ with $$$ a[s] $$$ and update $$$ \mathrm{BlockMin}\left[\left \lfloor \frac{\mathrm{min}}{\mathrm{BlockSize}} \right \rfloor\right] $$$ if necessary (if $$$ \left \lfloor \frac{\mathrm{min}}{\mathrm{BlockSize}} \right \rfloor \geq B $$$). Then you now have $$$ [0, s+1) $$$ sorted and all invariants maintained. $$$ \blacksquare $$$

This algorithm is not in-place, $$$ \mathcal{O}(\sqrt{n}) $$$ additional memory is required.

Tags journal of ams, sorting, rmq, sqrt

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en3 English ggdwbg 2020-03-08 17:29:50 226
en2 English ggdwbg 2020-03-08 13:00:25 465
en1 English ggdwbg 2020-03-08 12:52:37 1692 Initial revision (published)