public static void Main(string[] args) { double average; Stats2 stats = new Stats2(); average = stats.averageFloats(); System.Console.WriteLine("The average of the values entered is " + string.Format("{0:0.00}", average)); }
public static double NatureModifier(Stats2 s, Nature n) { int natureIndex = (int)n; double retVal = 1; if (natureIndex / 5 == ((int)s) - 1) { retVal += 0.1; } if (natureIndex % 5 == ((int)s) - 1) { retVal -= 0.1; } return(retVal); }
private void Controller_Sensor2ValueReceived(object sender, SensorValueEventArgs e) { DateTime time = DateTime.Now; Sensor2Data.AsyncInvoke(x => { x.Rows.Add(new object[] { time, e.Status, e.Before.Sensor1, e.Before.Sensor2, e.After == null ? 0f : e.After.Value.Sensor1, e.After == null ? 0f : e.After.Value.Sensor2, e.Delta == null ? 0f : e.Delta.Value.Sensor1, e.Delta == null ? 0f : e.Delta.Value.Sensor2 }); }); SensorChart.AsyncInvoke(x => { if (!x.IsDisposed) { x.Series["Sensor1Before"].Points.AddXY(time, e.Before.Sensor1); x.Series["Sensor1After"].Points.AddXY(time, e.After == null ? 0f : e.After.Value.Sensor1); x.Series["Sensor1MaxPlus"].Points.AddXY(time, 3.5f); x.Series["Sensor1MaxMinus"].Points.AddXY(time, -3.5f); x.Series["Sensor1MinPlus"].Points.AddXY(time, 0.75f); x.Series["Sensor1MinMinus"].Points.AddXY(time, -0.75f); x.Series["Sensor2Before"].Points.AddXY(time, e.Before.Sensor2); x.Series["Sensor2After"].Points.AddXY(time, e.After == null ? 0f : e.After.Value.Sensor2); x.Series["Sensor2MaxPlus"].Points.AddXY(time, 3.5f); x.Series["Sensor2MaxMinus"].Points.AddXY(time, -3.5f); x.Series["Sensor2MinPlus"].Points.AddXY(time, 0.75f); x.Series["Sensor2MinMinus"].Points.AddXY(time, -0.75f); x.Series["Sensor1Delta"].Points.AddXY(time, e.Delta == null ? 0f : e.Delta.Value.Sensor1); x.Series["Sensor2Delta"].Points.AddXY(time, e.Delta == null ? 0f : e.Delta.Value.Sensor2); } }); switch (e.Status) { case StatusCode.PASS: { Stats1.AsyncInvoke(x => { if (!x.IsDisposed) { if (x.Series["Passed"].Points.Count > 0) { x.Series["Passed"].Points[0].SetValueXY("Passed", x.Series["Passed"].Points[0].GetValueByName("Y") + 1); x.ResetAutoValues(); } else { x.Series["Passed"].Points.AddXY("Passed", 1); } } }); break; } case StatusCode.FAILED: { Stats1.AsyncInvoke(x => { if (!x.IsDisposed) { if (x.Series["Failed"].Points.Count > 0) { x.Series["Failed"].Points[0].SetValueXY("Failed", x.Series["Failed"].Points[0].GetValueByName("Y") + 1); x.ResetAutoValues(); } else { x.Series["Failed"].Points.AddXY("Failed", 1); } } }); break; } case StatusCode.FIRST_BENDED: { Stats2.AsyncInvoke(x => { if (!x.IsDisposed) { if (x.Series["FirstBended"].Points.Count > 0) { x.Series["FirstBended"].Points[0].SetValueXY("FirstBended", x.Series["FirstBended"].Points[0].GetValueByName("Y") + 1); x.ResetAutoValues(); } else { x.Series["FirstBended"].Points.AddXY("FirstBended", 1); } } }); break; } case StatusCode.SECOND_BENDED: { Stats2.AsyncInvoke(x => { if (!x.IsDisposed) { if (x.Series["SecondBended"].Points.Count > 0) { x.Series["SecondBended"].Points[0].SetValueXY("SecondBended", x.Series["SecondBended"].Points[0].GetValueByName("Y") + 1); x.ResetAutoValues(); } else { x.Series["SecondBended"].Points.AddXY("SecondBended", 1); } } }); break; } } }