// ----------- Part 11: useful functions -------------
// Compute the range in meters between this Position and
// the Position passed as input.
// @param right Position to which to find the range
// @return the range (in meters)
// @throw GeometryException if ell values differ
public static double Range(Position left, Position right)
{
if (left.Ellipsoid != right.Ellipsoid)
{
throw new Exception("Unequal geoids");
}
left.TransformTo(CoordinateSystem.Cartesian);
right.TransformTo(CoordinateSystem.Cartesian);
double result = MiscMath.RSS(left.X - right.X, left.X - right.Y, left.Z - right.Z);
return(result);
}
// Fundamental routine to convert cartesian to spherical coordinates.
// @param xyz (input): X,Y,Z
// @param trp (output): theta, phi (deg), radius in units of input
// Algorithm references: standard geometry.
public void ConvertCartesianToSpherical(Triple xyz, out Triple tpr)
{
tpr = new Triple();
tpr[2] = MiscMath.RSS(xyz[0], xyz[1], xyz[2]);
if (tpr[2] <= POSITION_TOLERANCE / 5)
{ // zero-length Cartesian vector
tpr[0] = 90;
tpr[1] = 0;
return;
}
tpr[0] = Math.Acos(xyz[2] / tpr[2]);
tpr[0] *= C.RAD_TO_DEG;
if (MiscMath.RSS(xyz[0], xyz[1]) < POSITION_TOLERANCE / 5)
{ // pole
tpr[1] = 0;
return;
}
tpr[1] = Math.Atan2(xyz[1], xyz[0]);
tpr[1] *= C.RAD_TO_DEG;
if (tpr[1] < 0)
{
tpr[1] += 360;
}
}
public static void Example()
{
Console.WriteLine(MiscMath.RSS(0, 3, 4));
}
