Esempio n. 1
0
 public V2DataOnGrid(string info, double EM_frequency, Grid1D OX_settings, Grid1D OY_settings) : base(info, EM_frequency)
 {
     EM_array         = new Complex[OX_settings.knot_count, OY_settings.knot_count];
     grid_settings    = new Grid1D[2];
     grid_settings[0] = OX_settings;
     grid_settings[1] = OY_settings;
 }
Esempio n. 2
0
        /*
         * (data format in file named filename)
         *
         * descriptions   - (string)
         * EM_frequency   - (float with point, not comma)
         * stride_OX, knot_count_OX   - (float, int)
         * stride_OY, knot_count_OY   - (float, int)
         * (x_1,1, y_1,1) ... (x_1,knot_count_OX, y_1,knot_count_OX)  - (float, float)
         * ...                              ...
         * ...                                               ...
         * ...                                                              ...
         * (x_knot_count_OY,1, y_knot_count_OY,1) ... (x_knot_count_OY,knot_count_OX, y_knot_count_OY,knot_count_OX)  - (float, float)
         *
         * Example:
         *
         * "date - 16/11/2020"
         * 12
         * 1 2
         * 3 2
         * (-1.1, 1.2) (-1.3, 0.9)
         * (-4.1, 1.6) (3.4, -4.2)
         */

        public V2DataOnGrid(string filename) : base("", 0)
        {
            string path = "../../../" + filename;
            double EM_frequency;
            Grid1D OX_settings, OY_settings;

            char[] delimiterChars = { ' ', ',', '(', ')' };
            try
            {
                string[] lines = System.IO.File.ReadAllLines(path);

                info         = lines[0];
                EM_frequency = Convert.ToDouble(lines[1]);

                string[] numbers = lines[2].Split(delimiterChars, StringSplitOptions.RemoveEmptyEntries);
                OX_settings = new Grid1D((float)Convert.ToDouble(numbers[0]), Convert.ToInt32(numbers[1]));
                Array.Clear(numbers, 0, numbers.Length);

                numbers     = lines[3].Split(delimiterChars, StringSplitOptions.RemoveEmptyEntries);
                OY_settings = new Grid1D((float)Convert.ToDouble(numbers[0]), Convert.ToInt32(numbers[1]));
                Array.Clear(numbers, 0, numbers.Length);


                grid_settings    = new Grid1D[2];
                grid_settings[0] = OX_settings;
                grid_settings[1] = OY_settings;

                EM_array = new Complex[OX_settings.knot_count, OY_settings.knot_count];
                int x = 0, y = 0;

                for (int i = 4; i < lines.Length; i++)
                {
                    numbers = lines[i].Split(delimiterChars, StringSplitOptions.RemoveEmptyEntries);

                    for (x = 0; x < OX_settings.knot_count; x++)
                    {
                        EM_array[x, y] = new Complex(double.Parse(numbers[2 * x], System.Globalization.CultureInfo.InvariantCulture), double.Parse(numbers[2 * x + 1], System.Globalization.CultureInfo.InvariantCulture));
                    }

                    y++;
                    Array.Clear(numbers, 0, numbers.Length);
                }

                base.info         = info;
                base.EM_frequency = EM_frequency;
            }

            finally
            {
                Console.WriteLine("  < The 'try catch' block is finished > \n");
            }
        }