public static void TestFunc()
        {
            double[][] array    = new double[4][];
            double[][] arg_15_0 = array;
            int        arg_15_1 = 0;

            double[] array2 = new double[2];
            arg_15_0[arg_15_1] = array2;
            array[1]           = new double[]
            {
                1.02,
                0.93
            };
            array[2] = new double[]
            {
                0.0,
                1.0
            };
            double[][] arg_73_0 = array;
            int        arg_73_1 = 3;

            double[] array3 = new double[2];
            array3[0]          = 1.0;
            arg_73_0[arg_73_1] = array3;
            double[][] a          = array;
            JamaMatrix jamaMatrix = new JamaMatrix(a);

            PolynomialImageTransformer.RegularUnitGrid(4);
            JamaMatrix jamaMatrix2 = (JamaMatrix)jamaMatrix.Clone();

            jamaMatrix2.SetElement(1, 0, 1.0);
            jamaMatrix2.SetElement(1, 1, 1.0);
            JamaMatrix jamaMatrix3 = IPolyPointTransformer.Polynomialize(jamaMatrix, 2);
            JamaMatrix jamaMatrix4 = PolynomialImageTransformer.SVDSolveApply(jamaMatrix3, PolynomialImageTransformer.PointUnroll(jamaMatrix2));

            D.Say(0, "polyTransform:\n" + jamaMatrix4.ToString());
            JamaMatrix unrolledVector = jamaMatrix3.times(jamaMatrix4);

            D.Say(0, "testSolution:\n" + PolynomialImageTransformer.PointRoll(unrolledVector, 2).ToString());
            PolynomialImageTransformer.getPolyPointTransformer(jamaMatrix, jamaMatrix2, 2);
            LatLon p = new LatLon(0.93, 1.02);

            D.Say(0, "Invert test:\n" + PolynomialImageTransformer.getApproximateInverterPolyPointTransformer(jamaMatrix, jamaMatrix2, 2).getTransformedPoint(p).ToString());
        }