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There are a huge number of sorting algorithms out there, but most of them only work on totally-ordered sets because they assume that any two elements are comparable. However, are there any good algorithms out there for sorting posets, where some elements are uncomparable? That is, given a set S of elements drawn from a poset, what is the best way to output an ordering x1, x2, ..., xn such that if xi ≤ xj, i ≤ j?

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  • 2
    Isn’t this just topological sort?
    – Josh Lee
    Jan 5 '11 at 4:02
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    @jleedev- You could do it with a topological sort only if you knew how every pair of elements in S compared with one another a priori; otherwise you'd have to spend O(|S|^2) time doing all the comparisons. Jan 5 '11 at 4:09
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There's a paper titled Sorting and Selection in Posets available on arxiv.org which discusses sorting methods of order O((w^2)nlog(n/w)), where w is the "width" of the poset. I haven't read the paper, but it seems like it covers what you are looking for.

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  • Thanks for the link! This looks very promising! Jan 7 '11 at 8:35
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Topological sort is well-suited to sorting a partially ordered set. Most algorithms are O(n^2). Here's an algorithm from Wikipedia:

L ← Empty list that will contain the sorted elements
S ← Set of all nodes with no incoming edges
while S is non-empty do
    remove a node n from S
    add n to tail of L
    for each node m with an edge e from n to m do
        remove edge e from the graph
        if m has no other incoming edges then
            insert m into S
if graph has edges then
    return error (graph has at least one cycle)
else 
    return L (a topologically sorted order)

There's a helpful video example. Most Unix-like systems have the tsort command. You could solve the video's brownie example with tsort as follows:

$ cat brownies.txt
preheat bake
water mix
dry_ingredients mix
grease pour
mix pour
pour bake

$ tsort brownies.txt
grease
dry_ingredients
water
preheat
mix
pour
bake
0

I'd start with selection-exchange sort. That's O(n^2) and I don't think you'll do better than that.

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