Point covering problem
- by Sean
I recently had this problem on a test: given a set of points m (all on the x-axis) and a set n of lines with endpoints [l, r] (again on the x-axis), find the minimum subset of n such that all points are covered by a line. Prove that your solution always finds the minimum subset.
The algorithm I wrote for it was something to the effect of:
(say lines are stored as arrays with the left endpoint in position 0 and the right in position 1)
algorithm coverPoints(set[] m, set[][] n):
chosenLines = []
while m is not empty:
minX = min(m)
bestLine = n[0]
for i=1 to length of n:
if n[i][0] <= m and n[i][1] > bestLine[1] then
bestLine = n[i]
add bestLine to chosenLines
for i=0 to length of m:
if m <= bestLine[1] then delete m[i] from m
return chosenLines
I'm just not sure if this always finds the minimum solution. It's a simple greedy algorithm so my gut tells me it won't, but one of my friends who is much better than me at this says that for this problem a greedy algorithm like this always finds the minimal solution. For proving mine always finds the minimal solution I did a very hand wavy proof by contradiction where I made an assumption that probably isn't true at all. I forget exactly what I did.
If this isn't a minimal solution, is there a way to do it in less than something like O(n!) time?
Thanks