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Given a set of points on a plane, find the shortest line segment formed by any two of these points.

How can I do that? The trivial way is obviously to calculate each distance, but I need another algorithm to compare.

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7  
If this is an assignment, you should add the tag "homework" to your question. –  mtnygard Oct 21 '09 at 16:59

7 Answers 7

up vote 21 down vote accepted

http://en.wikipedia.org/wiki/Closest%5Fpair%5Fof%5Fpoints

The problem can be solved in O(n log n) time using the recursive divide and conquer approach, e.g., as follows:

  • Sort points along the x-coordinate
  • Split the set of points into two equal-sized subsets by a vertical line x = xmid
  • Solve the problem recursively in the left and right subsets. This will give the left-side and right-side minimal distances dLmin and dRmin respectively.
  • Find the minimal distance dLRmin among the pair of points in which one point lies on the left of the dividing vertical and the second point lies to the right.
  • The final answer is the minimum among dLmin, dRmin, and dLRmin.
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You didn't explain how finding dLRmin be done in O(n) time to make the entire algorithm O(nlogn) time –  Kapil D Mar 9 at 1:39

I can't immediately think of a quicker alternative than the brute force technique (although there must be plenty) but whatever algorithm you choose don't calculate the distance between each point. If you need to compare distances just compare the squares of the distances to avoid the expensive and entirely redundant square root.

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3  
+1 for avoiding SQRT –  Wayne Sheppard Oct 21 '09 at 18:13

One possibility would be to sort the points by their X coordinates (or the Y -- doesn't really matter which, just be consistent). You can then use that to eliminate comparisons to many of the other points. When you're looking at the distance between point[i] and point[j], if the X distance alone is greater than your current shortest distance, then point[j+1]...point[N] can be eliminated as well (assuming i<j -- if j<i, then it's point[0]...point[i] that are eliminated).

If your points start out as polar coordinates, you can use a variation of the same thing -- sort by distance from the origin, and if the difference in distance from the origin is greater than your current shortest distance, you can eliminate that point, and all the others that are farther from (or closer to) the origin than the one you're currently considering.

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http://blogs.mathworks.com/videos/2008/06/02/matlab-puzzler-finding-the-two-closest-points/

This has a whole big bunch of different solutions. Kinda neat to see how many ways there are to the same answer.

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You can extract the closest pair in linear time from the Delaunay triangulation and conversly from Voronoi diagram.

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There is a standard algorithm for this problem, here you can find it: http://www.cs.mcgill.ca/~cs251/ClosestPair/ClosestPairPS.html

And here is my implementation of this algo, sorry it's without comments:

    static long distSq(Point a, Point b) {
    return ((long) (a.x - b.x) * (long) (a.x - b.x) + (long) (a.y - b.y) * (long) (a.y - b.y));
}

static long ccw(Point p1, Point p2, Point p3) {
    return (long) (p2.x - p1.x) * (long) (p3.y - p1.y) - (long) (p2.y - p1.y) * (long) (p3.x - p1.x);
}

static List<Point> convexHull(List<Point> P) {

    if (P.size() < 3) {
        //WTF
        return null;
    }

    int k = 0;

    for (int i = 0; i < P.size(); i++) {
        if (P.get(i).y < P.get(k).y || (P.get(i).y == P.get(k).y && P.get(i).x < P.get(k).x)) {
            k = i;
        }
    }

    Collections.swap(P, k, P.size() - 1);

    final Point o = P.get(P.size() - 1);
    P.remove(P.size() - 1);


    Collections.sort(P, new Comparator() {

        public int compare(Object o1, Object o2) {
            Point a = (Point) o1;
            Point b = (Point) o2;

            long t1 = (long) (a.y - o.y) * (long) (b.x - o.x) - (long) (a.x - o.x) * (long) (b.y - o.y);

            if (t1 == 0) {
                long tt = distSq(o, a);
                tt -= distSq(o, b);
                if (tt > 0) {
                    return 1;
                } else if (tt < 0) {
                    return -1;
                }
                return 0;

            }
            if (t1 < 0) {
                return -1;
            }
            return 1;

        }
    });



    List<Point> hull = new ArrayList<Point>();
    hull.add(o);
    hull.add(P.get(0));


    for (int i = 1; i < P.size(); i++) {
        while (hull.size() >= 2 &&
                ccw(hull.get(hull.size() - 2), hull.get(hull.size() - 1), P.get(i)) <= 0) {
            hull.remove(hull.size() - 1);
        }
        hull.add(P.get(i));
    }

    return hull;
}

static long nearestPoints(List<Point> P, int l, int r) {


    if (r - l == P.size()) {

        Collections.sort(P, new Comparator() {

            public int compare(Object o1, Object o2) {
                int t = ((Point) o1).x - ((Point) o2).x;
                if (t == 0) {
                    return ((Point) o1).y - ((Point) o2).y;
                }
                return t;
            }
        });
    }

    if (r - l <= 100) {
        long ret = distSq(P.get(l), P.get(l + 1));
        for (int i = l; i < r; i++) {
            for (int j = i + 1; j < r; j++) {
                ret = Math.min(ret, distSq(P.get(i), P.get(j)));
            }
        }
        return ret;

    }

    int c = (l + r) / 2;
    long lD = nearestPoints(P, l, c);
    long lR = nearestPoints(P, c + 1, r);
    long ret = Math.min(lD, lR);
    Set<Point> set = new TreeSet<Point>(new Comparator<Point>() {

        public int compare(Point o1, Point o2) {
            int t = o1.y - o2.y;
            if (t == 0) {
                return o1.x - o2.x;
            }
            return t;
        }
    });
    for (int i = l; i < r; i++) {
        set.add(P.get(i));
    }

    int x = P.get(c).x;

    double theta = Math.sqrt(ret);

    Point[] Q = set.toArray(new Point[0]);
    Point[] T = new Point[Q.length];
    int pos = 0;
    for (int i = 0; i < Q.length; i++) {
        if (Q[i].x - x + 1 > theta) {
            continue;
        }
        T[pos++] = Q[i];
    }

    for (int i = 0; i < pos; i++) {
        for (int j = 1; j < 7 && i + j < pos; j++) {
            ret = Math.min(ret, distSq(T[i], T[j + i]));
        }
    }
    return ret;
}
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There is relatively simple line sweep algorithm that can find the closest pair of points in O(nlogn) time. This article has a short explanation.

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