There are a huge number of sorting algorithms out there, but most of them only work on totallyordered 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 x_{1}, x_{2}, ..., x_{n} such that if x_{i} ≤ x_{j}, i ≤ j?

2Isn’t this just topological sort?– Josh LeeJan 5, 2011 at 4:02

2@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.– templatetypedefJan 5, 2011 at 4:09
3 Answers
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.
Topological sort is wellsuited 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 nonempty 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 Unixlike 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
I'd start with selectionexchange sort. That's O(n^2) and I don't think you'll do better than that.