I had this as the final question on an algorithms final (now completed):
Given a set of (x,y) points P, let M(P) be the set of maximal points given the following partial ordering on P:
(x,y) < (x',y') if and only if x < x' and y < y'.
Give algorithms that compute M(P) with time complexity O(nh), O(n log n), and O(n log h) (where n = |P| and h=|M(P)|)
My O(nh) algorithm:
Declare M as a set of points foreach p in P: addP = true foreach m in M: if(p < m): addP = false break if(m < p): M.remove(m) if(addP) M.add(p) //doesn't add if M contains p return M
My O(n log n) algorithm:
Declare M as a set of points Sort P in reverse lexicographic order maxY := -inf foreach p in P: if(p.y > maxY): M.add(p) maxY = p.y return M
What is an O(n log h) algorithm?
My intuition is that it is a modification of the first algorithm, but using some clever data structure (perhaps a modification of a binary tree) that doesn't need to be scanned through for each point.
Is there such an algorithm for a general poset?
This would find the leaves of any directed tree given a list of vertices and constant time lookup of whether there is a directed path between two given vertices.