public void GetAllTurnData(out TurnData noFlapsData, out TurnData fullFlapsData) { noFlapsData = null; fullFlapsData = null; foreach (NewDataSet.turnDataRow turnRow in _aircraft.turnData) { try { TurnData data = new TurnData(turnRow); if (data.FlapPosition == TurnData.FlapPositionType.None) { noFlapsData = data; } else if (data.FlapPosition == TurnData.FlapPositionType.Full) { fullFlapsData = data; } else { throw new ApplicationException("Unknown Flap setting!"); } } catch (System.Data.StrongTypingException) { // far from ideal as it is marked as optional in the XSD , however, // these strongly typed datasets throw an exception if it isnt // present *sigh* } } }
public void GetAllTurnData(out TurnData noFlapsData, out TurnData fullFlapsData) { noFlapsData = null; fullFlapsData = null; foreach (NewDataSet.turnDataRow turnRow in _aircraft.turnData) { try { TurnData data = new TurnData(turnRow); if (data.FlapPosition == TurnData.FlapPositionType.None) { noFlapsData = data; } else if (data.FlapPosition == TurnData.FlapPositionType.Full) { fullFlapsData = data; } else throw new ApplicationException("Unknown Flap setting!"); } catch (System.Data.StrongTypingException) { // far from ideal as it is marked as optional in the XSD , however, // these strongly typed datasets throw an exception if it isnt // present *sigh* } } }
private void BuildTurnPerformancePlot(string aircraftName, bool sustained, TurnData noFlapsData, TurnData fullFlapsData) { if (chkboxClean.Checked) { TurnPerformancePlot cleanPlot = new TurnPerformancePlot(); AddTurnPlot(cleanPlot, noFlapsData, sustained, aircraftName, TurnPerformancePlot.FlapPosition.None); } if (chkboxFullFlaps.Checked) { TurnPerformancePlot fullFlapsPlot = new TurnPerformancePlot(); AddTurnPlot(fullFlapsPlot, fullFlapsData, sustained, aircraftName, TurnPerformancePlot.FlapPosition.Full); } }
private void BuildNewCustomTurnPerformanceGraph(string aircraftName, TurnData noFlapsData, TurnData fullFlapsData) { if (chkboxSustainedTurn.Checked) { BuildTurnPerformancePlot(aircraftName, true, noFlapsData, fullFlapsData); } if (chkboxInstantTurn.Checked) { BuildTurnPerformancePlot(aircraftName, false, noFlapsData, fullFlapsData); } turnPerformanceUserControl.Refresh(); }
private void AddTurnPlot(TurnPerformancePlot plot, TurnData turnData, bool sustained, string aircraftName, TurnPerformancePlot.FlapPosition flapPosition) { plot.StallSpeed = turnData.StallSpeed; plot.FlapSetting = flapPosition; Pen plotPen = new Pen(Registry.Instance.AircraftColours.GetAircraftColour(aircraftName)); plotPen.Width = 1F; plot.PlotPen = plotPen; if (sustained) { plot.PlotTitle = string.Format("{0} (Sust/{1})", aircraftName, flapPosition == TurnPerformancePlot.FlapPosition.Full ? "Full Flaps" : "Clean"); plot.TurnRaduis = turnData.SustainedTurnRadius; plot.TurnRateInDegPerSecond = turnData.SustainedTurnRate; } else { plot.PlotTitle = string.Format("{0} (Inst/{1})", aircraftName, flapPosition == TurnPerformancePlot.FlapPosition.Full ? "Full Flaps" : "Clean"); plotPen.DashPattern = new float[] { 2, 2 }; plot.TurnRaduis = turnData.TurnRadiusAtCorner; plot.TurnRateInDegPerSecond = turnData.TurnRateAtCorner; } turnPerformanceUserControl.AddPlot(plot); }
private void BuildTurnPerformancePlot(string aircraftName, bool sustained, TurnData noFlapsData, TurnData fullFlapsData) { if (chkboxClean.Checked) { TurnPerformancePlot cleanPlot = new TurnPerformancePlot(); AddTurnPlot(cleanPlot, noFlapsData, sustained, aircraftName, TurnPerformancePlot.FlapPosition.None); } if(chkboxFullFlaps.Checked) { TurnPerformancePlot fullFlapsPlot = new TurnPerformancePlot(); AddTurnPlot(fullFlapsPlot, fullFlapsData, sustained, aircraftName, TurnPerformancePlot.FlapPosition.Full); } }