// Combine all quarternions without putting them into matrices first (except Scale) - this routine was made because theres an issue with plugging them into matrices that makes them shrink and enlarge when rotating public static Vectors QCombine(Vectors Translation, Vectors CurrentLocation, Vectors Scale, Vectors AxisRots, Vector3[] ModelSpaceVertices, MeshFilter MF) { Vectors r = new Vectors(0, 0, 0); // Create Qauternions from raw data Quarts S = QScale(Scale); Quarts R = new Quarts(AxisRots.x, new Vectors(0, 0, 1)); Quarts P = new Quarts(AxisRots.y, new Vectors(1, 0, 0)); Quarts Y = new Quarts(AxisRots.z, new Vectors(0, 1, 0)); Quarts RPY = R * P * Y; // Remember TRS order (T omitted for now because its being weird) Quarts Combined = RPY * S; // Define array of vertices Vector3[] TransformedVertices = new Vector3[ModelSpaceVertices.Length]; // move vertexs to new position for (int i = 0; i < TransformedVertices.Length; i++) { // Convert Vertexs into Quaternions Vectors temp = new Vectors(ModelSpaceVertices[i].x, ModelSpaceVertices[i].y, ModelSpaceVertices[i].z); Quarts Vertexs = new Quarts(0, new Vectors(0, 0, 0)); Vertexs.SetAxis(temp); // Rotate & Scale vertexs - Using slerp Quarts slerped = SLERP(Combined, Vertexs, Time.deltaTime); slerped = Combined * Vertexs * Combined.Inverse(); Vectors finalV = GetAxis(slerped); //// This is our basic vertex mover - just added onto the result of the Q matrix //// LERP for that nice smooth movement (Dont forget to add vertex position onto translation amount, u dummy) //Vectors NewLocation = new Vectors(Translation.x + finalV.x, Translation.y + finalV.y, Translation.z + finalV.z); //Vectors Move = Vectors.VLerp(NewLocation, finalV, Time.deltaTime); // Move the Vertex to its new position TransformedVertices[i] = new Vector3(finalV.x, finalV.y, finalV.z); } // Assign new Vertices MF.mesh.vertices = TransformedVertices; // Sometimes needed to clean up mesh MF.mesh.RecalculateNormals(); MF.mesh.RecalculateBounds(); /// return world position Vectors NewOriginLocation = CurrentLocation + Translation; Vectors NewOrigin = Vectors.VLerp(NewOriginLocation, CurrentLocation, Time.deltaTime); r = NewOrigin; return(r); }
// Combine all quarternions (T * RPY * S) through matrices public static void QCombineM(Vectors Translation, Vectors Scale, Vectors AxisRots, Vector3[] ModelSpaceVertices, MeshFilter MF) { // Create Qauternions from raw data Quarts T = QTrans(Translation); // Not used because not working Quarts S = QScale(Scale); Quarts RPY = QCombinedAxis(AxisRots); // Multiply in correct order //Quarts Order = T * RPY * S; // Define array of vertices Vector3[] TransformedVertices = new Vector3[ModelSpaceVertices.Length]; // move vertexs to new position for (int i = 0; i < TransformedVertices.Length; i++) { // Convert Vertexs into Quaternions Vectors temp = new Vectors(ModelSpaceVertices[i].x, ModelSpaceVertices[i].y, ModelSpaceVertices[i].z); Quarts Vertexs = new Quarts(0, new Vectors(0, 0, 0)); Vertexs.SetAxis(temp); // Remember TRS order (T omitted for now because its being weird) Quarts Combined = RPY * S; // Rotate & Scale vertexs Quarts result = Combined * Vertexs * Combined.Inverse(); Vectors finalV = GetAxis(result); // This is our basic vertex mover - just added onto the result of the Q matrix Vectors Move = new Vectors(Translation.x + finalV.x, Translation.y + finalV.y, Translation.z + finalV.z); // Move the Vertex to its new position TransformedVertices[i] = new Vector3(Move.x, Move.y, Move.z); } // Assign new Vertices MF.mesh.vertices = TransformedVertices; // Sometimes needed to clean up mesh MF.mesh.RecalculateNormals(); MF.mesh.RecalculateBounds(); }
// Create a quaternion translation from vector public static Quarts QTrans(Vectors A) { Quarts r = new Quarts(0, new Vectors(0, 0, 0)); Quarts TQ = new Quarts(0, new Vectors(0, 0, 0)); Quarts Angle = new Quarts(0, new Vectors(0, 1, 0)); // Create matrices from axes //Matrix4X4 T = Matrix4X4.CreateTrans(A); For some reason translation matrix not working //Vectors Translated = T * A; // Convert to quaternion //Quarts TQ = MatToQuat(T); // Create quaternion from vector TQ.SetAxis(A); //TQ = Angle * TQ * Angle.Inverse(); // Set return value to the new position r = TQ; //r.SetAxis(Translated); return(r); }