Beispiel #1
0
        public override void FindClosestPointOnSurface(Vector3 pos,
                                                       out Vector3 surfacePos, out Vector3 surfaceNorm)
        {
            // The closest-point functions operate on an unrotated ellipsoid at the origin.
            // I'll call that coordinate system "ellipse space (ES)".
            // "object space (OS)" is the true scale-compensated object-space coordinate system.

            // Take (uniform) scale from parent, but no scale from this object.
            // Our local scale is instead treated as Extents
            TrTransform xfWorldFromEllipse =
                TrTransform.FromTransform(transform.parent) *
                TrTransform.TR(transform.localPosition, transform.localRotation);

            TrTransform xfEllipseFromWorld = xfWorldFromEllipse.inverse;

            Vector3 halfExtent = Extents * .5f;
            Vector3 pos_OS     = transform.InverseTransformPoint(pos);
            Vector3 pos_ES     = xfEllipseFromWorld * pos;
            Vector3 closest_ES = MathEllipsoidAnton.ClosestPointEllipsoid(halfExtent, pos_ES);

            // Transform from ES -> OS, get the OS normal, then transform OS -> WS.
            // Normals are axial, so OS -> WS uses the inv-transpose. That all ends
            // up simplifying to this:
            surfaceNorm = transform.rotation *
                          CDiv(closest_ES,
                               CMul(halfExtent, halfExtent)).normalized;
            surfacePos = xfWorldFromEllipse * closest_ES;
        }
Beispiel #2
0
 public void TestEllipsoidInOctant_Anton()
 {
     TestEllipsoidInOctant((a, b) => MathEllipsoidAnton.ClosestPointEllipsoid(a, b));
 }
Beispiel #3
0
 public void TestEllipsoidTangent_Anton()
 {
     TestEllipsoidRandomPoints((a, b) => MathEllipsoidAnton.ClosestPointEllipsoid(a, b));
 }