I have solved the problem when the points are of only same color, and matched the solution with cormen's which is using divide and conquer. here is the algorithm
1. divide the plane into two halves.
2. solve the problem recursivley for both halves.
3. for points which could have lesser distance and belong to different halves do the following:
a. get the minimum distance in points pair call it delta1 and delta 2.
b. find the minimum of these two call it delta
c. from the central line build a strip of delta size in both direction and compare,
now only the points in this strip actually needs to be considered. Since these are the only points which could have less distance than delta.
d.sort the points across y axis in this strip.
e. start scanning from the top creating a box of size delta by 2*delta, around every point that occurs.
f. Now in this size box you can only fit 7 or 8 points, otherwise it would points would become closer than delta, and it would break the constraint.
g. So there are only a constant number of points to be searched in this box.
h. number of boxes we have to create depends on number of points. So this whole scanning in the strip would take n*O(1) = O(n) time.
4. So the recursion now is = T(n) = 2*T(n/2) + O(n), solving it gives us O(n lg n) complexity.
Now my problem is how to convert it for two color points. any suggestions ??
note: its my bad, I actually need to find the two points of different colors.