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-rw-r--r--Algorithms/Part-I/3-Collinear/Fast.java140
-rw-r--r--Algorithms/Part-I/3-Collinear/Point.java1
2 files changed, 62 insertions, 79 deletions
diff --git a/Algorithms/Part-I/3-Collinear/Fast.java b/Algorithms/Part-I/3-Collinear/Fast.java
index 07130a6..60b0d25 100644
--- a/Algorithms/Part-I/3-Collinear/Fast.java
+++ b/Algorithms/Part-I/3-Collinear/Fast.java
@@ -3,112 +3,100 @@
import java.util.List;
import java.util.ArrayList;
import java.util.Arrays;
+import java.util.HashMap;
+import java.util.HashSet;
public class Fast
{
-
- private static class Segment
+ private int N;
+ private Point ref;
+ private Point[] pts;
+ // reused each iteration
+ private Point[] work;
+ private List<Point[]> segments;
+ // for each slope, the last point must be unique,
+ // the longest segment is the first to arise
+ // multiple segment for 1 slope is possible
+ private HashMap<Double, HashSet<Point>> slopes;
+
+ private void addSegment(double sl, int start, int end)
{
- private Point[] pts;
-
- public Segment(Point ref, Point[] origin, int start, int n)
+ // if this solpe is not in the hash yet,
+ // or the last point is not in the set yet
+ HashSet slopePoints = slopes.get(sl);
+ Point last = work[end - 1];
+ if ((slopePoints == null) || !slopePoints.contains(last))
{
- this.pts = new Point[n];
- int i = 0;
- int j = start;
- boolean inserted = false;
- while (i < (n - 1))
+ Point[] segment = new Point[end - start + 1];
+ segment[0] = ref;
+ for (int k = start, l = 1; k < end; k++, l++)
+ segment[l] = work[k];
+ segments.add(segment);
+ if (slopePoints == null)
{
- if (!inserted && (ref.compareTo(origin[j]) < 0))
- {
- pts[i++] = ref;
- pts[i] = origin[j++];
- inserted = true;
- }
- else
- pts[i] = origin[j++];
- i++;
+ slopePoints = new HashSet<Point>();
+ slopePoints.add(last);
+ slopes.put(sl, slopePoints);
+ } else
+ {
+ slopePoints.add(last);
}
- if (!inserted)
- pts[n - 1] = ref;
- else
- pts[n - 1] = origin[start + n - 2];
- }
-
- public boolean equals(Object other)
- {
- if (other == this) return true;
- if (other == null) return false;
- if (other.getClass() != this.getClass()) return false;
- Segment s = (Segment) other;
- if ((pts[0].compareTo(s.pts[0]) == 0)
- || (pts[pts.length - 1].compareTo(s.pts[s.pts.length - 1]) == 0))
- return true;
- return false;
- }
-
- public void draw()
- {
- pts[0].drawTo(pts[pts.length-1]);
- }
-
- public void print()
- {
- String out = "";
- for (Point p : pts)
- out += p+" -> ";
- StdOut.println(out.substring(0, (out.length() - 4)));
}
}
- private static List<Segment> solve(Point[] pts, int N)
+ private void solve(Point[] origin, int len)
{
- List<Segment> segments = new ArrayList<Segment>();
- for (int i = 0; i < N - 1; i++)
- {
- int n = N - i - 1;
- Point ref = pts[i];
- Point[] others = new Point[n];
+ this.N = len;
+ this.pts = origin;
+ work = new Point[N - 1];
+ segments = new ArrayList<Point[]>();
+ slopes = new HashMap<Double, HashSet<Point>>();
- for (int j = 0, k = i + 1; j < n; j++, k++)
- others[j] = pts[k];
+ for (int i = 1, n = N - 1; i < N - 3; i++, n--)
+ {
+ // reference [i-1] and copy [i;N[ to [0;n[
+ ref = pts[i - 1];
+ for (int k = 0, j = i; k < n; k++, j++)
+ work[k] = pts[j];
- Arrays.sort(others, ref.SLOPE_ORDER);
+ // sort [0;n[
+ Arrays.sort(work, 0, n, ref.SLOPE_ORDER);
+ // search for sequences >2 in [0;n[
int start = -1;
double slope = Double.NEGATIVE_INFINITY;
for (int j = 0; j < n; j++)
{
- double sl = ref.slopeTo(others[j]);
+ double sl = ref.slopeTo(work[j]);
if (sl == Double.NEGATIVE_INFINITY)
continue;
- if (slope != sl)
+ if (sl != slope)
{
if ((start != -1) && ((j - start) > 2))
- {
- Segment seg = new Segment(ref, others,
- start, (j - start + 1));
- if (!segments.contains(seg))
- segments.add(seg);
- }
+ addSegment(slope, start, j);
slope = sl;
start = j;
}
}
if ((n - start) > 2)
- {
- Segment seg = new Segment(ref, others, start, (n - start + 1));
- if (!segments.contains(seg))
- segments.add(seg);
- }
+ addSegment(slope, start, n);
+ }
+ for (Point[] seg : segments)
+ {
+ seg[0].drawTo(seg[seg.length-1]);
+ String out = "";
+ for (Point p : seg)
+ out += p+" -> ";
+ StdOut.println(out.substring(0, (out.length() - 4)));
}
- return segments;
}
public static void main(String[] args)
{
+ // Stopwatch w = new Stopwatch();
+
In in = new In(args[0]);
int n = in.readInt();
@@ -124,13 +112,7 @@ public class Fast
}
Arrays.sort(pts);
- // Stopwatch w = new Stopwatch();
-
- for (Segment sol : solve(pts, n))
- {
- sol.draw();
- sol.print();
- }
+ new Fast().solve(pts, n);
// StdOut.printf("Time: %f\n\n", w.elapsedTime());
StdDraw.show(0);
diff --git a/Algorithms/Part-I/3-Collinear/Point.java b/Algorithms/Part-I/3-Collinear/Point.java
index bd5bbe7..1dddb53 100644
--- a/Algorithms/Part-I/3-Collinear/Point.java
+++ b/Algorithms/Part-I/3-Collinear/Point.java
@@ -67,6 +67,7 @@ public class Point implements Comparable<Point> {
// is this point lexicographically smaller than that one?
// comparing y-coordinates and breaking ties by x-coordinates
public int compareTo(Point that) {
+ if (this == that) return 0;
if (this.y < that.y) return -1;
if (this.y > that.y) return 1;
if (this.x < that.x) return -1;