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I am a grader for a statistics course and have a series of paper homework assignments given to me in random order. Part of my job is to alphabetize them. I have been using a method similar to quick-sort, but other graders have used different methods. I want an efficient sorting method, with justification, for when I have a "large" number of exams, with justification provided.. Here are some specifics I have leveraged:

  • I have a roster which contains an alphabetized list of all the names I should see.
  • I don't care to get the names more alphabetized than just the first letter. For example, I am fine if "Smith, John" comes before "Salk, Jonas" .
  • I will never have to sort more than 300 objects.

My method thus far has been to find the median last letter (ie: if there are 60 papers, pick the last name letter corresponding to the 30th person) of the class roster, treat it as a pivot point, and put all letters above the median in one pile, and all the letters below in another. If a letter is the same as the median, I place it in the median pile. I now do the same thing on the above/below-median piles. When the piles are small enough that there will only be three or four letters in a stack, I make one stack for each letter, then fold the stacks into a master stack, alphabetically.

Are there any algorithms specifically designed for alphabetizing, or something that is more efficient on average than my method? One method that seemed to do okay was to make a stack for each letter (26 piles, worst case), but this consumes so much space that it is not feasible for one desk.

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This feels very much like a homework assignment. –  Eric J. Mar 16 '12 at 16:50
I assure you it is not. –  Christopher Aden Mar 16 '12 at 18:11
The reason for formalization of such a silly situation stems more from a friendly argument with another grad student who uses insertion sorting with two piles (create a sorted pile, add each paper from the unsorted pile into the sorted pile, in order) than from a serious need. I was hoping the SO community could provide justification for one particular method over the other. –  Christopher Aden Mar 16 '12 at 18:25
Could whoever voted this down explain why? –  Christopher Aden Mar 16 '12 at 20:42

6 Answers 6

up vote 1 down vote accepted

I was looking around at some websites that were talking about algorithms for humans to use, and one that I saw was doing a sort of insertion sort, where you put the one at hand into the pile by putting it directly where it's correct ordering should be.

The inefficiency of this would probably be from having to scan through the pile to find the location as the pile gets bigger, so I'm thinking that to adjust for this, you can add a tag or something that would act as an index for a specific alphabetical location. Since you don't care about the alphabetical ordering aside from the first letter, this would basically put your insertion cost at O(1)

This is just a thought I had while thinking about it, so I have no actually tried it myself, and am unable to say with regards to how effective it would be with sufficiently large piles. But I think that it should work fairly well, as the tags would give you instant access to the location you want to insert.

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Quicksort is probably not the best as its efficiency depends on the pivot choice. Anyways, with just 300 exams what I'd do is create 26 piles (one for each letter) and just make one pass for all exams putting them into the appropriate piles

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I haven't looked into the efficiency as a function of pivots. Because I have a class roster, however, I know exactly what elements I have in my pile, so I figured this allowed me to choose the pivot. Does the midpoint value have the best efficiency? –  Christopher Aden Mar 16 '12 at 18:18

Your last paragraph is insertion sort. If 26 piles are two many, use 24 :). If 26 piles are too many, split the alphabet and the exams into 5 piles. Then sort each pile, again you'll have 5 cases (one with 6).

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From looking at visualizations, it seemed like insertion sorting did worse than quick-sorting. It doesn't seem like it'd be the most time-efficient for a mostly-unsorted stack. –  Christopher Aden Mar 16 '12 at 18:22

I use bucket sort. Use four buckets and again sort each bucket by using another 4-bucket sort, sort each sub-bucket (1/16) by brute-force!

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  • sort on the first letter into M piles
  • once you need >= M piles: put all the items with non-matching begin letters on a trash-pile
  • at the end of the first run the M piles are complete
  • recurse, using the leftovers from the trash pile

The constant M can be tuned to match your ability to match&put multiple letters at first sight. (and the avalaible desk space)

In practice you will not need more than a few runs, for reasonable values of M. (Zipf / Pareto law)

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I've based my algorithm on the premise that the time it takes me to determine the proper order for two elements is not consistent. For example, it's easy for me to say that A belongs before D, but takes me to decide whether Q comes before T or vice-versa (generally speaking, the closer the letters are to the end of the alphabet and to each other, the more likely it is that I'll have to mentally recite the alphabet to be sure).

Given this, I find it lessens the tedious alphabet-reciting if I divide the tests into alphabetical "chunks":

  • Beginning (A-F ish)
  • Early Middle (G-K ish)
  • Late Middle (L-P ish)
  • End (Q-Z ish). This one is bigger because (a) it's the sector where I'm worst at deciding on the order of letters and (b) a few of these letters don't often begin last names

There is overlap - i.e. sometimes I'll feel like a Q is Late Middle and sometimes I'll feel like it's End. It kind of depends on how big the piles are at that point and what letter I last sorted... my theory is that the time saved by not spelling out the alphabet in my head all the time is greater than the extra time spent sorting later on.

That's as far as I've gotten, however. Beyond the initial chunking, I can never really decide what's most efficient...

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