public static MyMatrix4d RotationMatrixU2V(MyVector3 u, MyVector3 v)
        {
            // find the rotational matrix which rotate u to v
            // one should be extremely careful here, very small viboration
            // will make a lot of difference
            // e.g., u = (0.5*e-10, 0.1*e-10, 1), v = (0,0,-1), will make
            // an fliping around axie (1, 5, 0) with angele Pi
            MyMatrix4d R   = MyMatrix4d.IdentityMatrix();
            double     cos = u.Normalize().Dot(v.Normalize());

            if (Math.Abs(Math.Abs(cos) - 1.0f) < 1e-5)             // coincident, do nothing
            {
                return(R);
            }
            MyVector3 axis = u.Cross(v).Normalize();

            if (!double.IsNaN(axis.x))
            {
                if (cos < -1)
                {
                    cos = -1;
                }
                if (cos > 1)
                {
                    cos = 1;
                }
                double angle = Math.Acos(cos);
                R = MyMatrix4d.RotationMatrix(axis, angle);
            }
            return(R);
        }
        public void ComputeBoundQuad()
        {
            MyVector3 normal  = Normal();
            MyVector3 xaxis   = new MyVector3(1, 0, 0);
            MyVector3 yaxis   = new MyVector3(0, 1, 0);
            MyVector3 zaxis   = new MyVector3(0, 0, 1);
            MyVector3 rotAxis = zaxis.Cross(normal).Normalize();

            double cos = zaxis.Dot(normal);

            if (cos > 1)
            {
                cos = 1;
            }
            if (cos < -1)
            {
                cos = -1;
            }
            double          rotAngle  = Math.Acos(cos);
            MyMatrix4d      R         = MyMatrix4d.RotationMatrix(rotAxis, rotAngle);
            MyVector3       new_xaxis = (R * new MyVector4(xaxis)).XYZ().Normalize();
            MyVector3       new_yaxis = (R * new MyVector4(yaxis)).XYZ().Normalize();
            CoordinateFrame frame     = new CoordinateFrame(this.planeCenter, new_xaxis, new_yaxis, normal);

            double xmin = double.MaxValue; double ymin = double.MaxValue;
            double xmax = double.MinValue; double ymax = double.MinValue;

            foreach (MyVector3 v in this.planeVertices)
            {
                MyVector3 u = frame.GetPointLocalCoord(v);
                xmin = Math.Min(u.x, xmin);
                xmax = Math.Max(u.x, xmax);
                ymin = Math.Min(u.y, ymin);
                ymax = Math.Max(u.y, ymax);
            }

            MyVector3 v1 = new MyVector3(xmin, ymin, 0);
            MyVector3 v2 = new MyVector3(xmax, ymin, 0);
            MyVector3 v3 = new MyVector3(xmax, ymax, 0);
            MyVector3 v4 = new MyVector3(xmin, ymax, 0);

            SmartCanvas.Point3[] pts3 =
                new SmartCanvas.Point3[4] {
                new SmartCanvas.Point3(frame.GetPointSpaceCoord(v1)),
                new SmartCanvas.Point3(frame.GetPointSpaceCoord(v2)),
                new SmartCanvas.Point3(frame.GetPointSpaceCoord(v3)),
                new SmartCanvas.Point3(frame.GetPointSpaceCoord(v4))
            };
            this.boundQuad = new Quad3D(pts3);
        }
        public void Project3dToBelongPlane()
        {
            // prepare 2d coordinate
            MyVector3 circle_norm = this.belongPlane.Normal();
            MyVector3 X           = new MyVector3(1, 0, 0);
            MyVector3 Y           = new MyVector3(0, 1, 0);
            MyVector3 Z           = new MyVector3(0, 0, 1);
            MyVector3 rotAxis     = Z.Cross(circle_norm).Normalize();
            double    angle_cos   = Z.Dot(circle_norm);

            if (angle_cos > 1)
            {
                angle_cos = 1;
            }
            if (angle_cos < -1)
            {
                angle_cos = -1;
            }
            double rotAngle = Math.Acos(angle_cos);

            MyMatrix4d      Mat   = MyMatrix4d.RotationMatrix(rotAxis, rotAngle);
            MyVector3       X_new = (Mat * new MyVector4(X)).XYZ().Normalize();
            MyVector3       Y_new = (Mat * new MyVector4(Y)).XYZ().Normalize();
            CoordinateFrame frame = new CoordinateFrame(this.belongPlane.planeCenter, X_new, Y_new, circle_norm);

            // projection and denoise(leave out far away points)
            MyVector3 tmpc = frame.GetPointLocalCoord(this.center);

            this.center2d = new MyVector2(tmpc.x, tmpc.y);
            for (int i = 0; i < this.circleSlice3d.Count; i++)
            {
                MyVector3 vert = this.circleSlice3d[i];
                MyVector3 tmp  = frame.GetPointLocalCoord(vert);
                MyVector2 tmp2 = new MyVector2(tmp.x, tmp.y);
                double    dist = Math.Abs((tmp2 - this.center2d).Length() - this.radius);
                if (dist > 0.5 * this.radius && dist < 0.75 * this.radius)
                {
                    this.circleSlice3d.RemoveAt(i);
                    i--;
                }
                else
                {
                    this.circleSlice2d.Add(tmp2);
                }
            }
        }
Exemplo n.º 4
0
        public void BuildLocalFrame()
        {
            MyVector3 X         = new MyVector3(1, 0, 0);
            MyVector3 Y         = new MyVector3(0, 1, 0);
            MyVector3 Z         = new MyVector3(0, 0, 1);
            MyVector3 rotAxis   = Z.Cross(normal).Normalize();
            double    angle_cos = Z.Dot(normal);

            if (angle_cos < -1)
            {
                angle_cos = -1;
            }
            if (angle_cos > 1)
            {
                angle_cos = 1;
            }
            double rotAngle = Math.Acos(angle_cos);

            MyMatrix4d Mat   = MyMatrix4d.RotationMatrix(rotAxis, rotAngle);
            MyVector3  X_new = (Mat * new MyVector4(X)).XYZ().Normalize();
            MyVector3  Y_new = (Mat * new MyVector4(Y)).XYZ().Normalize();

            frame = new CoordinateFrame(center, X_new, Y_new, normal);
        }