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Imagine a case where comparison of two elements is hugely expensive.

Which sorting algorithm would you use?

Which sorting algorithm uses the fewest comparisons in the average case?

What if you can expect a lot of the compared elements to be identical, say in 80% of the comparisons. Does it make a difference?

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have you tried google? –  ewok Oct 26 '12 at 18:42
Are you accepting sorts that don't use comparisons? Not all sorts are comparison sorts (and thus don't fall under the O(nlog(n)) limit for comparison sorts) –  AlexQueue Oct 26 '12 at 20:06
Possible duplicate: stackoverflow.com/questions/1935194/… –  Anderson Green Dec 16 '12 at 4:30

6 Answers 6

up vote 4 down vote accepted

Quite Possibly Insertion Sort

Sorting is one of those subjects where, as they say, the devil is in the details. Typically, secondary considerations dominate the performance input parameters.

However, if comparisons are very expensive and if most keys are identical, it is possible that the input could be considered already sorted or already almost sorted.

In that case, what you want is a reasonable algorithm that has the fastest best case, and that would almost certainly be an insertion sort.

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Why would you want to find an algorithm with the fastest best case (instead of an algorithm with the fastest average case)? –  Anderson Green Nov 27 '12 at 3:41

The winner is Sleep Sort, which uses no comparisons.

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I had never heard of this. Interesting idea. –  madth3 Oct 26 '12 at 19:04
After going through the link I find the algorithm is sleepy in literal sense. Because the algo has to wait for at least the time=largest_value, while rest of the sort algoes would be complete with sorting way before. But when the question is solely around minimizing the no. of comparison then this algo rocks!! :) –  Arham Oct 26 '12 at 19:08
Funny idea :) Although it assumes that converting the sort key to integer is easy. –  pinkfloydhomer Oct 26 '12 at 19:08
I think the claim "no comparisons" is too strong and thus wrong - there must be at least n compares when iterating the elements (assuming the length of the array is unknown at compile time). Also: is sleep(time) a machine instruction? I believe the underlying OS will need some comparisons to implement it, though I am not certain of it (will be glad for clarification regarding it). (p.s. not the downvoter, still nice work around IMO) –  amit Oct 26 '12 at 20:21
@amit: when we talk about comparisons in a sorting algorithm we are generally talking about comparisons of element values, and by this criterion Sleep Sort uses no comparisons. (sleep() is just an implementation detail - it could easily be implemented as a hardware timer interrupt.) Sleep Sort is not meant to be taken too seriously though - it's just a novelty - an amusing and interesting example of "outside the box" thinking. –  Paul R Oct 26 '12 at 20:50

Have a look at this wikipedia link Your choice of data structure also impacts the sort.

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It's depends what data do you have. You need stable algorithm or not?

Where your data are uniformly you can use bucket sort ( Θ(n), O(n^2))

counting sort (I think it's what you are looking for), it's also stable algorithm, but need more memory (less is you have a lot of identical records).

Of course you can use Sleep sort, but if you have a lot of data it won't works.

If your elements are in 80% identical maybe there is a simple way to said there are identical (just the same)?

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Shellsort uses less comparisons.

And you have lot of identical elements, Counting sort should do the job

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Distribution sort (using a hashing array) takes almost no comparisons.

m = max number  may appear in the input + 1
hash = array of size m
initialize hash by zeroes

for i = 0 to n - 1
    hash[input[i]] = hash[input[i]] + 1
j = 0
for i = 0 to m - 1
    while hash[i] > 0
        sorted[j] = i
        j = j + 1
        hash[i] = hash[i] - 1
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It should be noted of course that unless you have hardware support for hashes (e.g. associative memory) then there are going to be a lot of comparisons in your underlying hash implementation. –  Paul R Oct 26 '12 at 20:53

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