void
PBD::cartesian_to_spherical (double x, double y, double z, double& azimuth, double& elevation, double& length)
{
-#if 1
/* converts cartesian coordinates to cylindrical in degrees*/
double rho, theta, phi;
rho = sqrt (x*x + y*y + z*z);
- phi = acos (1.0/rho);
+ //phi = acos (1.0 / rho);
theta = atan2 (y, x);
/* XXX for now, clamp phi to zero */
}
length = rho;
-#else
- /* converts cartesian coordinates to cylindrical in degrees*/
-
- const double atorad = 2.0 * M_PI / 360.0;
- double atan_y_per_x, atan_x_pl_y_per_z;
- double distance;
-
- if (x == 0.0) {
- atan_y_per_x = M_PI / 2;
- } else {
- atan_y_per_x = atan2 (y,x);
- }
-
- if (y < 0.0) {
- /* below x-axis: atan2 returns 0 .. -PI (negative) so convert to degrees and ADD to 180 */
- azimuth = 180.0 + (atan_y_per_x / (M_PI/180.0) + 180.0);
- } else {
- /* above x-axis: atan2 returns 0 .. +PI so convert to degrees */
- azimuth = atan_y_per_x / atorad;
- }
-
- distance = sqrt (x*x + y*y);
-
- if (z == 0.0) {
- atan_x_pl_y_per_z = 0.0;
- } else {
- atan_x_pl_y_per_z = atan2 (z,distance);
- }
-
- if (distance == 0.0) {
- if (z < 0.0) {
- atan_x_pl_y_per_z = -M_PI/2.0;
- } else if (z > 0.0) {
- atan_x_pl_y_per_z = M_PI/2.0;
- }
- }
-
- elevation = atan_x_pl_y_per_z / atorad;
-
- // distance = sqrtf (x*x + y*y + z*z);
-#endif
}
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