Table of Contents
Primitive: Torus with X-axis
Definition: <m>{r_0}^2-(x-x_0)^2-(y-y_0)^2-(z-z_0)^2-R^2+2*R*sqrt{(z-z_0)^2+(y-y_0)^2}</m>
Call: hfTorusX(x,center,R,r0);
Parameters:
x - point coordinates array
center - center array
R - radius of revolution
r0 - disk radius
Test file: torus.hf
Primitive: Torus with Y-axis
Definition: <m>{r_0}^2-(x-x_0)^2-(y-y_0)^2-(z-z_0)^2-R^2+2*R*sqrt{(z-z_0)^2+(x-x_0)^2}</m>
Call: hfTorusY(x,center,R,r0);
Parameters:
x - point coordinates array
center - center array
R - radius of revolution
r0 - disk radius
Test file: torus.hf
Primitive: Torus with Z-axis
Definition: <m>{r_0}^2-(x-x_0)^2-(y-y_0)^2-(z-z_0)^2-R^2+2*R*sqrt{(x-x_0)^2+(y-y_0)^2}</m>
Call: hfTorusZ(x,center,R,r0);
Parameters:
x - point coordinates array
center - center array
R - radius of revolution
r0 - disk radius
Test file: torus.hf