Given the following picture (see: http://local.wasp.uwa.edu.au/~pbourke/geometry/2circle/):
here's a Java demo where I used the following variable names:
picture above | Java code
---------------+----------------
P0 | p1
P1 | p2
P2 | temp
P3 | p3
a | a
(a+b) | d
h | h
r0 | distanceFromP1
r1 | distanceFromP2
public class Main {
public static Point[] getP3(Point p1, double distanceFromP1, Point p2, double distanceFromP2) {
double d = p1.distance(p2);
if(d > (distanceFromP1 + distanceFromP2) || p1.equals(p2) || d < Math.abs(distanceFromP1 - distanceFromP2)) {
// there does not exist a 3rd point, or there are an infinite amount of them
return new Point[]{};
}
double a = (distanceFromP1*distanceFromP1 - distanceFromP2*distanceFromP2 + d*d) / (2*d);
double h = Math.sqrt(distanceFromP1*distanceFromP1 - a*a);
Point temp = new Point(p1.x + a*(p2.x - p1.x) / d, p1.y + a*(p2.y - p1.y) / d);
return new Point[]{
new Point(temp.x + h * (p2.y - p1.y) / d, temp.y - h * (p2.x - p1.x) / d),
new Point(temp.x - h * (p2.y - p1.y) / d, temp.y + h * (p2.x - p1.x) / d)
};
}
public static void main(String[]args) throws Exception {
Point a = new Point(1,1);
Point b = new Point(5,4);
Point c = new Point(0,0);
Point d = new Point(2,0);
System.out.println("test 1 :: "+Arrays.toString(getP3(a, 4, b, 3))); // 2 distinct 3rd points
System.out.println("test 2 :: "+Arrays.toString(getP3(c, 1, d, 1))); // 1 distinct 3rd point
System.out.println("test 3 :: "+Arrays.toString(getP3(c, 0.99999, d, 1))); // none
System.out.println("test 4 :: "+Arrays.toString(getP3(d, 1, d, 1))); // infinite
System.out.println("test 5 :: "+Arrays.toString(getP3(c, 50, d, 1))); // none, one circle "contains" the other
}
}
class Point {
final double x;
final double y;
private final int hash;
public Point(double x, double y) {
this.x = x;
this.y = y;
this.hash = Double.valueOf(x).hashCode() ^ Double.valueOf(y).hashCode();
}
public double distance(Point that) {
double dX = this.x - that.x;
double dY = this.y - that.y;
return Math.sqrt(dX*dX + dY*dY);
}
@Override
public boolean equals(Object o) {
if(o == null || getClass() != o.getClass()) return false;
Point that = (Point)o;
return this.x == that.x && this.y == that.y;
}
@Override
public int hashCode() {
return hash;
}
@Override
public String toString() {
return String.format("(x=%f, y=%f)", x, y);
}
}
Which will produce the following output:
test 1 :: [(x=5.000000, y=1.000000), (x=2.120000, y=4.840000)]
test 2 :: [(x=1.000000, y=0.000000), (x=1.000000, y=0.000000)]
test 3 :: []
test 4 :: []
test 5 :: []
Note that the above is just a simple demo. Be careful with the floating point comparisons!