Ejemplo n.º 1
0
 /*
  * Check if point p lies inside the inner bounds of all six planes
  */
 public static bool SideOfSixPlanes(NDPlane p1, NDPlane p2, NDPlane p3, NDPlane p4, NDPlane p5, NDPlane p6, ref Vector3 p)
 {
     return(p1.SideOfPlane(ref p) &&
            p2.SideOfPlane(ref p) &&
            p3.SideOfPlane(ref p) &&
            p4.SideOfPlane(ref p) &&
            p5.SideOfPlane(ref p) &&
            p6.SideOfPlane(ref p));
 }
Ejemplo n.º 2
0
        /*
         * Check if points contained in the list lpts are inside the inner bounds of all six planes. If they are, they will
         * be stored in the list fpts. NOTE: List fpts will not be cleared, previous points in the list will remain.
         */
        public static void SideOfSixPlanesFilter(NDPlane p1, NDPlane p2, NDPlane p3, NDPlane p4, NDPlane p5, NDPlane p6, List <Vector3> lpts, List <Vector3> fpts)
        {
            int count = lpts.Count;

            if (count == 0)
            {
                return;
            }

            for (int i = 0; i < count; i++)
            {
                Vector3 pt = lpts[i];

                if (SideOfSixPlanes(p1, p2, p3, p4, p5, p6, ref pt))
                {
                    fpts.Add(pt);
                }
            }
        }
Ejemplo n.º 3
0
        /*
         * Performs an intersection test of triangle made from p1 - p2 - p3 and the Cube made from six ND-Planes. All
         * Intersection results (and contained in the ND-Cube) will be stored in fpts. NOTE: List fpts will not be cleared
         * and previous points in the list will remain.
         */
        public static void IntersectSixPlanesTriangle(NDPlane yPosPlane, NDPlane yNegPlane, NDPlane xPosPlane, NDPlane xNegPlane, NDPlane zPosPlane, NDPlane zNegPlane,
                                                      ref Vector3 p1, ref Vector3 p2, ref Vector3 p3, List <Vector3> fpts)
        {
            /*
             * Quick Exit Code - If the triangle p1-p2-p3 is completly contained in the Cube, no intersection
             * is required, simply re-add all the points and return
             */
            int inTris = 0;

            if (SideOfSixPlanes(yPosPlane, yNegPlane, xPosPlane, xNegPlane, zPosPlane, zNegPlane, ref p1))
            {
                fpts.Add(p1);

                inTris++;
            }

            if (SideOfSixPlanes(yPosPlane, yNegPlane, xPosPlane, xNegPlane, zPosPlane, zNegPlane, ref p2))
            {
                fpts.Add(p2);

                inTris++;
            }

            if (SideOfSixPlanes(yPosPlane, yNegPlane, xPosPlane, xNegPlane, zPosPlane, zNegPlane, ref p3))
            {
                fpts.Add(p3);

                inTris++;
            }

            if (inTris == 3)
            {
                return;
            }

            yPosPlane.IntersectTriangle(ref p1, ref p2, ref p3, fpts);
            yNegPlane.IntersectTriangle(ref p1, ref p2, ref p3, fpts);
            xPosPlane.IntersectTriangle(ref p1, ref p2, ref p3, fpts);
            xNegPlane.IntersectTriangle(ref p1, ref p2, ref p3, fpts);
            zPosPlane.IntersectTriangle(ref p1, ref p2, ref p3, fpts);
            zNegPlane.IntersectTriangle(ref p1, ref p2, ref p3, fpts);
        }
Ejemplo n.º 4
0
        /*
         * Performs an intersection test of triangle made from p1 - p2 - p3 and the Cube made from six ND-Planes. All
         * Intersection results (and contained in the ND-Cube) will be stored in fpts. NOTE: List fpts will not be cleared
         * and previous points in the list will remain.
         */
        public static void IntersectSixPlanesTriangle(NDPlane yPosPlane, NDPlane yNegPlane, NDPlane xPosPlane, NDPlane xNegPlane, NDPlane zPosPlane, NDPlane zNegPlane,
                                                        ref Vector3 p1, ref Vector3 p2, ref Vector3 p3, List<Vector3> fpts)
        {
            /*
             * Quick Exit Code - If the triangle p1-p2-p3 is completly contained in the Cube, no intersection
             * is required, simply re-add all the points and return
             */
            int inTris = 0;

            if (SideOfSixPlanes(yPosPlane, yNegPlane, xPosPlane, xNegPlane, zPosPlane, zNegPlane, ref p1)) {
                fpts.Add(p1);

                inTris++;
            }

            if (SideOfSixPlanes(yPosPlane, yNegPlane, xPosPlane, xNegPlane, zPosPlane, zNegPlane, ref p2)) {
                fpts.Add(p2);

                inTris++;
            }

            if (SideOfSixPlanes(yPosPlane, yNegPlane, xPosPlane, xNegPlane, zPosPlane, zNegPlane, ref p3)) {
                fpts.Add(p3);

                inTris++;
            }

            if (inTris == 3) {
                return;
            }

            yPosPlane.IntersectTriangle(ref p1, ref p2, ref p3, fpts);
            yNegPlane.IntersectTriangle(ref p1, ref p2, ref p3, fpts);
            xPosPlane.IntersectTriangle(ref p1, ref p2, ref p3, fpts);
            xNegPlane.IntersectTriangle(ref p1, ref p2, ref p3, fpts);
            zPosPlane.IntersectTriangle(ref p1, ref p2, ref p3, fpts);
            zNegPlane.IntersectTriangle(ref p1, ref p2, ref p3, fpts);
        }
Ejemplo n.º 5
0
 /*
  * Check if point p lies inside the inner bounds of all six planes
  */
 public static bool SideOfSixPlanes(NDPlane p1, NDPlane p2, NDPlane p3, NDPlane p4, NDPlane p5, NDPlane p6, ref Vector3 p)
 {
     return p1.SideOfPlane(ref p) &&
             p2.SideOfPlane(ref p) &&
             p3.SideOfPlane(ref p) &&
             p4.SideOfPlane(ref p) &&
             p5.SideOfPlane(ref p) &&
             p6.SideOfPlane(ref p);
 }
Ejemplo n.º 6
0
        /*
         * Check if points contained in the list lpts are inside the inner bounds of all six planes. If they are, they will
         * be stored in the list fpts. NOTE: List fpts will not be cleared, previous points in the list will remain.
         */
        public static void SideOfSixPlanesFilter(NDPlane p1, NDPlane p2, NDPlane p3, NDPlane p4, NDPlane p5, NDPlane p6, List<Vector3> lpts, List<Vector3> fpts)
        {
            int count = lpts.Count;

            if (count == 0) {
                return;
            }

            for (int i = 0; i < count; i++) {
                Vector3 pt = lpts[i];

                if (SideOfSixPlanes(p1, p2, p3, p4, p5, p6, ref pt)) {
                    fpts.Add(pt);
                }
            }
        }