/** * Classifies the face based on the ray trace technique * * @param object object3d used to compute the face status */ public void rayTraceClassify(Object3D obj) { //creating a ray starting starting at the face baricenter going to the normal direction Point3d p0 = new Point3d(); p0.X = (v1.X + v2.X + v3.X) / 3.0f; p0.Y = (v1.Y + v2.Y + v3.Y) / 3.0f; p0.Z = (v1.Z + v2.Z + v3.Z) / 3.0f; Line ray = new Line(getNormal(), p0); bool success; double dotProduct, distance; Point3d?intersectionPoint; Face closestFace = null; double closestDistance; do { success = true; closestDistance = Double.MaxValue; //for each face from the other solid... for (int i = 0; i < obj.getNumFaces(); i++) { Face face = obj.getFace(i); //dotProduct = face.getNormal().dot(ray.getDirection()); dotProduct = Vector3d.Dot(face.getNormal(), ray.getDirection()); intersectionPoint = ray.computePlaneIntersection(face.getNormal(), face.v1.getPosition()); //if ray intersects the plane... if (intersectionPoint != null) { distance = ray.computePointToPointDistance(intersectionPoint.Value); //if ray lies in plane... if (Math.Abs(distance) < TOL && Math.Abs(dotProduct) < TOL) { //disturb the ray in order to not lie into another plane ray.perturbDirection(); success = false; break; } //if ray starts in plane... if (Math.Abs(distance) < TOL && Math.Abs(dotProduct) > TOL) { //if ray intersects the face... if (face.hasPoint(intersectionPoint.Value)) { //faces coincide closestFace = face; closestDistance = 0; break; } } //if ray intersects plane... else if (Math.Abs(dotProduct) > TOL && distance > TOL) { if (distance < closestDistance) { //if ray intersects the face; if (face.hasPoint(intersectionPoint.Value)) { //this face is the closest face untill now closestDistance = distance; closestFace = face; } } } } } } while (success == false); //none face found: outside face if (closestFace == null) { status = OUTSIDE; } //face found: test dot product else { //dotProduct = closestFace.getNormal().dot(ray.getDirection()); dotProduct = Vector3d.Dot(closestFace.getNormal(), ray.getDirection()); //distance = 0: coplanar faces if (Math.Abs(closestDistance) < TOL) { if (dotProduct > TOL) { status = SAME; } else if (dotProduct < -TOL) { status = OPPOSITE; } } //dot product > 0 (same direction): inside face else if (dotProduct > TOL) { status = INSIDE; } //dot product < 0 (opposite direction): outside face else if (dotProduct < -TOL) { status = OUTSIDE; } } }
/** * Classifies the face based on the ray trace technique * * @param object object3d used to compute the face status */ public void rayTraceClassify(Object3D obj) { //creating a ray starting starting at the face baricenter going to the normal direction Point3d p0 = new Point3d(); p0.x = (v1.x + v2.x + v3.x) / 3d; p0.y = (v1.y + v2.y + v3.y) / 3d; p0.z = (v1.z + v2.z + v3.z) / 3d; Line ray = new Line(getNormal(), p0); bool success; double dotProduct, distance; Point3d intersectionPoint; Face closestFace = null; double closestDistance; do { success = true; closestDistance = Double.MaxValue; //for each face from the other solid... for (int i = 0; i < obj.getNumFaces(); i++) { Face face = obj.getFace(i); dotProduct = face.getNormal().dot(ray.getDirection()); intersectionPoint = ray.computePlaneIntersection(face.getNormal(), face.v1.getPosition()); //if ray intersects the plane... if (intersectionPoint != null) { distance = ray.computePointToPointDistance(intersectionPoint); //if ray lies in plane... if (Math.Abs(distance) < TOL && Math.Abs(dotProduct) < TOL) { //disturb the ray in order to not lie into another plane ray.perturbDirection(); success = false; break; } //if ray starts in plane... if (Math.Abs(distance) < TOL && Math.Abs(dotProduct) > TOL) { //if ray intersects the face... if (face.hasPoint(intersectionPoint)) { //faces coincide closestFace = face; closestDistance = 0; break; } } //if ray intersects plane... else if (Math.Abs(dotProduct) > TOL && distance > TOL) { if (distance < closestDistance) { //if ray intersects the face; if (face.hasPoint(intersectionPoint)) { //this face is the closest face untill now closestDistance = distance; closestFace = face; } } } } } } while(success == false); //none face found: outside face if (closestFace == null) { status = OUTSIDE; } //face found: test dot product else { dotProduct = closestFace.getNormal().dot(ray.getDirection()); //distance = 0: coplanar faces if (Math.Abs(closestDistance) < TOL) { if (dotProduct > TOL) { status = SAME; } else if (dotProduct < -TOL) { status = OPPOSITE; } } //dot product > 0 (same direction): inside face else if (dotProduct > TOL) { status = INSIDE; } //dot product < 0 (opposite direction): outside face else if (dotProduct < -TOL) { status = OUTSIDE; } } }