Given three sorted floating-point arrays a, b, and c, design a linearithmic algorithm to find three integers i, j, and k such that |a[i] - b[j]| + |b[j] - c[k]| + |c[k] - a[i]| is minimum.
I do have a solution in mind but I don't think that is linearithmic. This is what I have right now:
assume minDiff = // some huge value for each entry in 'a' find an entry closest to it in 'b' and call it 'closestToA' find an entry closest to 'closestToA' in 'c' and call it 'closestToB' compute the diff: int currDiff = Math.abs(a[i] - closestToA) + Math.abs(closestToA - closestToB) + Math.abs(closestToB - a[i]); Replace minDiff with currDiff, if currDiff < minDiff
First of all, I'd like to know if there is any better solution? If not, then am I right in thinking that this solution doesn't have linearithmic complexity? The closest number can be found using binary search.
The question is from "Algorithms - 4th Ed." by Robert Sedgewick and Kevin Wayne and I'm preparing for an upcoming interview.
Somewhat Similar question: Match Three or More Nearest Numbers from arrays