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I have to model the execution plan of sorting a list of 5 elements, in python, using the minimum number of comparisons between elements. Other than that, the complexity is irrelevant.

The result is a list of pairs representing the comparisons needed to sort the list at another time.

I know there's an algorithm that does this in 7 comparisons (between elements, always, not complexity-wise), but I can't find a readable (for me) version.

How can I sort the 5 elements in 7 comparisons, and build an "execution plan" for the sort?

PD: not homework.

share|improve this question
Worst case, best case, average case? – Joel Cornett Jul 29 '12 at 3:55
Not what you were looking for, but I was curious, so I just checked: on the 120 permutations of range(5), the number of permutations for which the built-in sorted uses each number of comparisons are: 4: 2, 6: 5, 7: 33, 8: 56, 9: 24. – Dougal Jul 29 '12 at 4:01
Just curious, what does Knuth have to do with this? – Yunchi Jul 29 '12 at 4:15
Do the descriptions of the optimal algorithm given in the answers to this question suffice? – DSM Jul 29 '12 at 4:20
@Woody Knuth described an algorithm for this, as I recall – slezica Jul 29 '12 at 5:41
up vote 2 down vote accepted

This fits your description of sorting 5 elements in 7 comparisons:

import random

ran=[int(n*random.random()) for i in xrange(n)]
print ran

def selection_sort(li):  
    while len(l):              
        for x in l:            
            if x<lowest:      
        print i  
    return sl

print selection_sort(ran)  

This uses a Selection Sort which is NOT the most efficient, but does use very few comparisons.

This can be shortened to:

def ss(li):  
    while len(l):              
    return sl    

In either case, prints something like this:

[0, 2, 1, 1, 4]
[0, 1, 1, 2, 4]

Perl has a lovely module called Algorithm::Networksort that allows you to play with these. The Bose-Nelson algorithm is cited by Knuth for few comparators and you can see it here.


An insertion sort also works well:

def InsertionSort(l):
    """ sorts l in place using an insertion sort """
    for j in range(1, len(l)):
        key = l[j]
        i = j - 1
        while (i >=0) and (l[i] > key):
            l[i+1] = l[i]
            i = i - 1

        l[i+1] = key
share|improve this answer

Well, there are 5!=120 ways how can elements be ordered. Each comparison gives you one bit of information, so you need at least k comparisons, where 2^k >= 120. You can check 2^7 = 128, so the 7 is least number of comparisons you need to perform.

share|improve this answer
Beautiful math, but this is not answering my question =/ – slezica Jul 29 '12 at 5:40
So then what is your question? @uwop-episdn – msw Jul 29 '12 at 14:17
'How can I sort the 5 elements in 7 comparisons, and build an "execution plan" for the sort?'. It was written right there =/ – slezica Jul 31 '12 at 9:30

I ended up using a regular sorting algorithm (insertion sort) with a custom comparison operator that interrupts the sorting and progressively builds an execution plan to resume or reproduce the process.

It was ugly: the function raised an exception encapsulating the necessary information to continue sorting. Then sorting could be retried with the new information, to probably be aborted again.

As sorting attempts occur over the span of http requests, performance is not an issue for me.

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