public void CreateWaternetZonesDailyChartDataCollection_ReturnsEmptyChartDataCollection() { // Call ChartDataCollection data = MacroStabilityInwardsChartDataFactory.CreateWaternetZonesDailyChartDataCollection(); // Assert CollectionAssert.IsEmpty(data.Collection); Assert.AreEqual("Zones dagelijks", data.Name); }
public void CreateShoulderTopInsideChartData_ReturnsChartPointDataWithExpectedStyling() { // Call ChartPointData data = MacroStabilityInwardsChartDataFactory.CreateShoulderTopInsideChartData(); // Assert Assert.IsFalse(data.HasData); Assert.AreEqual("Kruin binnenberm", data.Name); AssertEqualStyle(data.Style, Color.DeepSkyBlue, 8, Color.SeaGreen, 1, ChartPointSymbol.Triangle); }
public void CreateTangentLinesChartData_ReturnsChartMultipleLineData() { // Call ChartMultipleLineData data = MacroStabilityInwardsChartDataFactory.CreateTangentLinesChartData(); // Assert CollectionAssert.IsEmpty(data.Lines); Assert.AreEqual("Tangentlijnen", data.Name); AssertEqualStyle(data.Style, Color.Green, 1, ChartLineDashStyle.Dash); }
public void CreatePassiveCircleRadiusChartData_ReturnsChartLineData() { // Call ChartLineData data = MacroStabilityInwardsChartDataFactory.CreatePassiveCircleRadiusChartData(); // Assert CollectionAssert.IsEmpty(data.Points); Assert.AreEqual("Radius passieve cirkel", data.Name); AssertEqualStyle(data.Style, Color.Gray, 1, ChartLineDashStyle.Dash); }
public void CreateSlipPlaneChartData_ReturnsChartLineData() { // Call ChartLineData data = MacroStabilityInwardsChartDataFactory.CreateSlipPlaneChartData(); // Assert CollectionAssert.IsEmpty(data.Points); Assert.AreEqual("Glijvlak", data.Name); AssertEqualStyle(data.Style, Color.SaddleBrown, 3, ChartLineDashStyle.Solid); }
public void CreateSoilLayerChartData_LayerNull_ThrowsArgumentNullException() { // Call TestDelegate call = () => MacroStabilityInwardsChartDataFactory.CreateSoilLayerChartData(null); // Assert var exception = Assert.Throws <ArgumentNullException>(call); Assert.AreEqual("layer", exception.ParamName); }
public void CreatePhreaticLineChartData_NameNull_ThrowsArgumentNullException() { // Call TestDelegate call = () => MacroStabilityInwardsChartDataFactory.CreatePhreaticLineChartData(null, new Random(21).NextBoolean()); // Assert var exception = Assert.Throws <ArgumentNullException>(call); Assert.AreEqual("name", exception.ParamName); }
public void CreateLeftGridChartData_ReturnsChartPointDataWithExpectedStyling() { // Call ChartPointData data = MacroStabilityInwardsChartDataFactory.CreateLeftGridChartData(); // Assert Assert.IsFalse(data.HasData); Assert.AreEqual("Linker grid", data.Name); AssertEqualStyle(data.Style, Color.Black, 6, Color.Black, 2, ChartPointSymbol.Plus); }
public void CreateDikeTopAtRiverChartData_ReturnsChartPointDataWithExpectedStyling() { // Call ChartPointData data = MacroStabilityInwardsChartDataFactory.CreateDikeTopAtRiverChartData(); // Assert Assert.IsFalse(data.HasData); Assert.AreEqual("Kruin buitentalud", data.Name); AssertEqualStyle(data.Style, Color.LightSteelBlue, 8, Color.SeaGreen, 1, ChartPointSymbol.Triangle); }
public void CreateSurfaceLevelOutsideChartData_ReturnsChartPointDataWithExpectedStyling() { // Call ChartPointData data = MacroStabilityInwardsChartDataFactory.CreateSurfaceLevelOutsideChartData(); // Assert Assert.IsFalse(data.HasData); Assert.AreEqual("Maaiveld buitenwaarts", data.Name); AssertEqualStyle(data.Style, Color.LightSeaGreen, 8, Color.Black, 1, ChartPointSymbol.Square); }
public void UpdateSurfaceLineChartDataName_SurfaceLineNull_NameSetToDefaultSurfaceLineName() { // Setup var chartData = new ChartLineData("test name"); // Call MacroStabilityInwardsChartDataFactory.UpdateSurfaceLineChartDataName(chartData, null); // Assert Assert.AreEqual("Profielschematisatie", chartData.Name); }
public void UpdateSoilProfileChartDataName_WithoutSoilProfile_NameSetToDefaultSoilProfileName() { // Setup var chartData = new ChartDataCollection("test name"); // Call MacroStabilityInwardsChartDataFactory.UpdateSoilProfileChartDataName(chartData, null); // Assert Assert.AreEqual("Ondergrondschematisatie", chartData.Name); }
public void UpdateSurfaceLineChartDataName_SurfaceLine_NameSetToSurfaceLineName() { // Setup var chartData = new ChartLineData("test name"); var surfaceLine = new MacroStabilityInwardsSurfaceLine("surface line name"); // Call MacroStabilityInwardsChartDataFactory.UpdateSurfaceLineChartDataName(chartData, surfaceLine); // Assert Assert.AreEqual("surface line name", chartData.Name); }
public void CreatePhreaticLineChartData_WithVisibility_ReturnsEmptyChartLineDataWithExpectedStylingAndVisibility(bool isVisible) { // Setup const string name = "zone"; // Call ChartLineData data = MacroStabilityInwardsChartDataFactory.CreatePhreaticLineChartData(name, isVisible); // Assert CollectionAssert.IsEmpty(data.Points); Assert.AreEqual(name, data.Name); Assert.AreEqual(isVisible, data.IsVisible); AssertEqualStyle(data.Style, Color.Blue, 2, ChartLineDashStyle.Solid); }
public void CreateWaternetZoneChartData_WithVisibility_ReturnsEmptyChartLineDataWithExpectedStylingAndVisibility(bool isVisible) { // Setup const string name = "zone"; // Call ChartMultipleAreaData data = MacroStabilityInwardsChartDataFactory.CreateWaternetZoneChartData(name, isVisible); // Assert CollectionAssert.IsEmpty(data.Areas); Assert.AreEqual(name, data.Name); Assert.AreEqual(isVisible, data.IsVisible); AssertEqualStyle(data.Style, Color.FromArgb(60, Color.DeepSkyBlue), Color.Empty, 0, true); }
private void SetSoilProfileChartData() { soilProfileChartData.Clear(); soilLayerChartDataLookup.Clear(); IEnumerable <MacroStabilityInwardsSoilLayer2D> soilLayers = GetSoilLayers().Reverse(); soilLayers.Select(MacroStabilityInwardsChartDataFactory.CreateSoilLayerChartData) .ForEachElementDo(sl => { soilProfileChartData.Insert(0, sl); soilLayerChartDataLookup.Add(sl); }); MacroStabilityInwardsChartDataFactory.UpdateSoilProfileChartDataName(soilProfileChartData, data?.InputParameters.StochasticSoilProfile?.SoilProfile); }
public void CreateSoilLayerChartData_LayerWithEmptyNameAndColor_ReturnsEmptyChartDataCollectionWithExpectedStyling() { // Setup MacroStabilityInwardsSoilLayer2D layer = MacroStabilityInwardsSoilLayer2DTestFactory.CreateMacroStabilityInwardsSoilLayer2D(); layer.Data.MaterialName = string.Empty; layer.Data.Color = Color.Empty; // Call ChartMultipleAreaData data = MacroStabilityInwardsChartDataFactory.CreateSoilLayerChartData(layer); // Assert CollectionAssert.IsEmpty(data.Areas); Assert.AreEqual("Onbekend", data.Name); AssertEqualStyle(data.Style, Color.White, Color.Black, 1, false); }
public void UpdateSoilProfileChartDataName_WithSoilProfile_NameSetToSoilProfileName() { // Setup var chartData = new ChartDataCollection("test name"); var soilProfile = new MacroStabilityInwardsSoilProfile1D("soil profile name", 2.0, new[] { new MacroStabilityInwardsSoilLayer1D(3.2) }); // Call MacroStabilityInwardsChartDataFactory.UpdateSoilProfileChartDataName(chartData, soilProfile); // Assert Assert.AreEqual("soil profile name", chartData.Name); }
private void SetSurfaceLineChartData(MacroStabilityInwardsSurfaceLine surfaceLine) { MacroStabilityInwardsChartDataFactory.UpdateSurfaceLineChartDataName(surfaceLineChartData, surfaceLine); surfaceLineChartData.Points = MacroStabilityInwardsChartDataPointsFactory.CreateSurfaceLinePoints(surfaceLine); surfaceLevelInsideChartData.Points = MacroStabilityInwardsChartDataPointsFactory.CreateSurfaceLevelInsidePoint(surfaceLine); ditchPolderSideChartData.Points = MacroStabilityInwardsChartDataPointsFactory.CreateDitchPolderSidePoint(surfaceLine); bottomDitchPolderSideChartData.Points = MacroStabilityInwardsChartDataPointsFactory.CreateBottomDitchPolderSidePoint(surfaceLine); bottomDitchDikeSideChartData.Points = MacroStabilityInwardsChartDataPointsFactory.CreateBottomDitchDikeSidePoint(surfaceLine); ditchDikeSideChartData.Points = MacroStabilityInwardsChartDataPointsFactory.CreateDitchDikeSidePoint(surfaceLine); dikeToeAtPolderChartData.Points = MacroStabilityInwardsChartDataPointsFactory.CreateDikeToeAtPolderPoint(surfaceLine); shoulderTopInsideChartData.Points = MacroStabilityInwardsChartDataPointsFactory.CreateShoulderTopInsidePoint(surfaceLine); shoulderBaseInsideChartData.Points = MacroStabilityInwardsChartDataPointsFactory.CreateShoulderBaseInsidePoint(surfaceLine); dikeTopAtPolderChartData.Points = MacroStabilityInwardsChartDataPointsFactory.CreateDikeTopAtPolderPoint(surfaceLine); dikeToeAtRiverChartData.Points = MacroStabilityInwardsChartDataPointsFactory.CreateDikeToeAtRiverPoint(surfaceLine); dikeTopAtRiverChartData.Points = MacroStabilityInwardsChartDataPointsFactory.CreateDikeTopAtRiverPoint(surfaceLine); surfaceLevelOutsideChartData.Points = MacroStabilityInwardsChartDataPointsFactory.CreateSurfaceLevelOutsidePoint(surfaceLine); }
private static void SetWaternetZonesChartData(MacroStabilityInwardsWaternet waternet, MacroStabilityInwardsSurfaceLine surfaceLine, ChartDataCollection chartData) { chartData.Clear(); foreach (MacroStabilityInwardsPhreaticLine phreaticLine in waternet.PhreaticLines) { ChartLineData phreaticLineChartData = MacroStabilityInwardsChartDataFactory.CreatePhreaticLineChartData(phreaticLine.Name, true); phreaticLineChartData.Points = MacroStabilityInwardsChartDataPointsFactory.CreatePhreaticLinePoints(phreaticLine); chartData.Add(phreaticLineChartData); } foreach (MacroStabilityInwardsWaternetLine waternetLine in waternet.WaternetLines) { ChartMultipleAreaData waternetLineChartData = MacroStabilityInwardsChartDataFactory.CreateWaternetZoneChartData(waternetLine.Name, true); waternetLineChartData.Areas = MacroStabilityInwardsChartDataPointsFactory.CreateWaternetZonePoints(waternetLine, surfaceLine); chartData.Add(waternetLineChartData); } }
public void CreateSoilLayerChartData_WithLayer_ReturnsEmptyChartDataCollectionWithExpectedStyling() { // Setup const string name = "Soil layer test name"; Color fillColor = Color.Firebrick; MacroStabilityInwardsSoilLayer2D layer = MacroStabilityInwardsSoilLayer2DTestFactory.CreateMacroStabilityInwardsSoilLayer2D(); layer.Data.MaterialName = name; layer.Data.Color = fillColor; // Call ChartMultipleAreaData data = MacroStabilityInwardsChartDataFactory.CreateSoilLayerChartData(layer); // Assert CollectionAssert.IsEmpty(data.Areas); Assert.AreEqual(name, data.Name); AssertEqualStyle(data.Style, fillColor, Color.Black, 1, false); }
private static void SetWaternetZonesChartData(MacroStabilityInwardsWaternet waternet, ChartDataCollection chartData, IDictionary <MacroStabilityInwardsPhreaticLine, ChartLineData> phreaticLineLookup, IDictionary <MacroStabilityInwardsWaternetLine, ChartMultipleAreaData> waternetLineLookup) { chartData.Clear(); phreaticLineLookup.Clear(); waternetLineLookup.Clear(); foreach (MacroStabilityInwardsPhreaticLine phreaticLine in waternet.PhreaticLines) { ChartLineData phreaticLineChartData = MacroStabilityInwardsChartDataFactory.CreatePhreaticLineChartData(phreaticLine.Name, false); chartData.Add(phreaticLineChartData); phreaticLineLookup.Add(phreaticLine, phreaticLineChartData); } foreach (MacroStabilityInwardsWaternetLine waternetLine in waternet.WaternetLines) { ChartMultipleAreaData waternetLineChartData = MacroStabilityInwardsChartDataFactory.CreateWaternetZoneChartData(waternetLine.Name, false); chartData.Add(waternetLineChartData); waternetLineLookup.Add(waternetLine, waternetLineChartData); } }
/// <summary> /// Creates a new instance of <see cref="MacroStabilityInwardsOutputChartControl"/>. /// </summary> /// <param name="data">The calculation to show the output for.</param> /// <param name="generalInput">General calculation parameters that are the same across all calculations.</param> /// <param name="getNormativeAssessmentLevelFunc"><see cref="Func{TResult}"/> for obtaining the normative assessment level.</param> /// <exception cref="ArgumentNullException">Thrown when any input parameter is <c>null</c>.</exception> public MacroStabilityInwardsOutputChartControl(MacroStabilityInwardsCalculationScenario data, GeneralMacroStabilityInwardsInput generalInput, Func <RoundedDouble> getNormativeAssessmentLevelFunc) { if (data == null) { throw new ArgumentNullException(nameof(data)); } if (generalInput == null) { throw new ArgumentNullException(nameof(generalInput)); } if (getNormativeAssessmentLevelFunc == null) { throw new ArgumentNullException(nameof(getNormativeAssessmentLevelFunc)); } this.data = data; this.generalInput = generalInput; this.getNormativeAssessmentLevelFunc = getNormativeAssessmentLevelFunc; InitializeComponent(); chartDataCollection = new ChartDataCollection(RiskeerCommonFormsResources.CalculationOutput_DisplayName); soilProfileChartData = RiskeerChartDataFactory.CreateSoilProfileChartData(); surfaceLineChartData = RiskeerChartDataFactory.CreateSurfaceLineChartData(); surfaceLevelInsideChartData = MacroStabilityInwardsChartDataFactory.CreateSurfaceLevelInsideChartData(); ditchPolderSideChartData = RiskeerChartDataFactory.CreateDitchPolderSideChartData(); bottomDitchPolderSideChartData = RiskeerChartDataFactory.CreateBottomDitchPolderSideChartData(); bottomDitchDikeSideChartData = RiskeerChartDataFactory.CreateBottomDitchDikeSideChartData(); ditchDikeSideChartData = RiskeerChartDataFactory.CreateDitchDikeSideChartData(); dikeToeAtPolderChartData = RiskeerChartDataFactory.CreateDikeToeAtPolderChartData(); shoulderTopInsideChartData = MacroStabilityInwardsChartDataFactory.CreateShoulderTopInsideChartData(); shoulderBaseInsideChartData = MacroStabilityInwardsChartDataFactory.CreateShoulderBaseInsideChartData(); dikeTopAtPolderChartData = MacroStabilityInwardsChartDataFactory.CreateDikeTopAtPolderChartData(); dikeToeAtRiverChartData = RiskeerChartDataFactory.CreateDikeToeAtRiverChartData(); dikeTopAtRiverChartData = MacroStabilityInwardsChartDataFactory.CreateDikeTopAtRiverChartData(); surfaceLevelOutsideChartData = MacroStabilityInwardsChartDataFactory.CreateSurfaceLevelOutsideChartData(); waternetZonesExtremeChartData = MacroStabilityInwardsChartDataFactory.CreateWaternetZonesExtremeChartDataCollection(); waternetZonesDailyChartData = MacroStabilityInwardsChartDataFactory.CreateWaternetZonesDailyChartDataCollection(); tangentLinesChartData = MacroStabilityInwardsChartDataFactory.CreateTangentLinesChartData(); leftGridChartData = MacroStabilityInwardsChartDataFactory.CreateLeftGridChartData(); rightGridChartData = MacroStabilityInwardsChartDataFactory.CreateRightGridChartData(); slipPlaneChartData = MacroStabilityInwardsChartDataFactory.CreateSlipPlaneChartData(); leftCircleRadiusChartData = MacroStabilityInwardsChartDataFactory.CreateActiveCircleRadiusChartData(); rightCircleRadiusChartData = MacroStabilityInwardsChartDataFactory.CreatePassiveCircleRadiusChartData(); slicesChartData = MacroStabilityInwardsSliceChartDataFactory.CreateSlicesChartData(); sliceParametersChartDataCollection = MacroStabilityInwardsSliceChartDataFactory.CreateSliceParametersChartDataCollection(); sliceCohesionChartData = MacroStabilityInwardsSliceChartDataFactory.CreateCohesionChartData(); sliceEffectiveStressChartData = MacroStabilityInwardsSliceChartDataFactory.CreateEffectiveStressChartData(); sliceTotalPorePressureChartData = MacroStabilityInwardsSliceChartDataFactory.CreateTotalPorePressureChartData(); sliceWeightChartData = MacroStabilityInwardsSliceChartDataFactory.CreateWeightChartData(); slicePiezometricPorePressureChartData = MacroStabilityInwardsSliceChartDataFactory.CreatePiezometricPorePressureChartData(); slicePorePressureChartData = MacroStabilityInwardsSliceChartDataFactory.CreatePorePressureChartData(); sliceVerticalPorePressureChartData = MacroStabilityInwardsSliceChartDataFactory.CreateVerticalPorePressureChartData(); sliceHorizontalPorePressureChartData = MacroStabilityInwardsSliceChartDataFactory.CreateHorizontalPorePressureChartData(); sliceOverConsolidationRatioChartData = MacroStabilityInwardsSliceChartDataFactory.CreateOverConsolidationRatioChartData(); slicePopChartData = MacroStabilityInwardsSliceChartDataFactory.CreatePopChartData(); sliceNormalStressChartData = MacroStabilityInwardsSliceChartDataFactory.CreateNormalStressChartData(); sliceShearStressChartData = MacroStabilityInwardsSliceChartDataFactory.CreateShearStressChartData(); sliceLoadStressChartData = MacroStabilityInwardsSliceChartDataFactory.CreateLoadStressChartData(); chartDataCollection.Add(soilProfileChartData); chartDataCollection.Add(surfaceLineChartData); chartDataCollection.Add(surfaceLevelInsideChartData); chartDataCollection.Add(ditchPolderSideChartData); chartDataCollection.Add(bottomDitchPolderSideChartData); chartDataCollection.Add(bottomDitchDikeSideChartData); chartDataCollection.Add(ditchDikeSideChartData); chartDataCollection.Add(dikeToeAtPolderChartData); chartDataCollection.Add(shoulderTopInsideChartData); chartDataCollection.Add(shoulderBaseInsideChartData); chartDataCollection.Add(dikeTopAtPolderChartData); chartDataCollection.Add(dikeToeAtRiverChartData); chartDataCollection.Add(dikeTopAtRiverChartData); chartDataCollection.Add(surfaceLevelOutsideChartData); chartDataCollection.Add(waternetZonesExtremeChartData); chartDataCollection.Add(waternetZonesDailyChartData); chartDataCollection.Add(tangentLinesChartData); chartDataCollection.Add(leftGridChartData); chartDataCollection.Add(rightGridChartData); chartDataCollection.Add(slicesChartData); chartDataCollection.Add(slipPlaneChartData); chartDataCollection.Add(leftCircleRadiusChartData); chartDataCollection.Add(rightCircleRadiusChartData); chartDataCollection.Add(sliceParametersChartDataCollection); sliceParametersChartDataCollection.Add(sliceLoadStressChartData); sliceParametersChartDataCollection.Add(sliceShearStressChartData); sliceParametersChartDataCollection.Add(sliceNormalStressChartData); sliceParametersChartDataCollection.Add(slicePopChartData); sliceParametersChartDataCollection.Add(sliceOverConsolidationRatioChartData); sliceParametersChartDataCollection.Add(sliceHorizontalPorePressureChartData); sliceParametersChartDataCollection.Add(sliceVerticalPorePressureChartData); sliceParametersChartDataCollection.Add(slicePorePressureChartData); sliceParametersChartDataCollection.Add(slicePiezometricPorePressureChartData); sliceParametersChartDataCollection.Add(sliceWeightChartData); sliceParametersChartDataCollection.Add(sliceTotalPorePressureChartData); sliceParametersChartDataCollection.Add(sliceEffectiveStressChartData); sliceParametersChartDataCollection.Add(sliceCohesionChartData); soilLayerChartDataLookup = new List <ChartMultipleAreaData>(); phreaticLineExtremeLookup = new Dictionary <MacroStabilityInwardsPhreaticLine, ChartLineData>(); phreaticLineDailyLookup = new Dictionary <MacroStabilityInwardsPhreaticLine, ChartLineData>(); waternetLineExtremeLookup = new Dictionary <MacroStabilityInwardsWaternetLine, ChartMultipleAreaData>(); waternetLineDailyLookup = new Dictionary <MacroStabilityInwardsWaternetLine, ChartMultipleAreaData>(); UpdateChartData(); chartControl.Data = chartDataCollection; }
/// <summary> /// Creates a new instance of <see cref="MacroStabilityInwardsInputView"/>. /// </summary> /// <param name="data">The calculation to show the input for.</param> /// <param name="generalInput">General calculation parameters that are the same across all calculations.</param> /// <param name="assessmentSection">The assessment section the calculation belongs to.</param> /// <param name="getHydraulicBoundaryLocationCalculationFunc">The <see cref="Func{TResult}"/> for /// obtaining the hydraulic boundary location calculation.</param> /// <exception cref="ArgumentNullException">Thrown when any input parameter is <c>null</c>.</exception> public MacroStabilityInwardsInputView(MacroStabilityInwardsCalculationScenario data, GeneralMacroStabilityInwardsInput generalInput, IAssessmentSection assessmentSection, Func <HydraulicBoundaryLocationCalculation> getHydraulicBoundaryLocationCalculationFunc) { if (data == null) { throw new ArgumentNullException(nameof(data)); } if (generalInput == null) { throw new ArgumentNullException(nameof(generalInput)); } if (assessmentSection == null) { throw new ArgumentNullException(nameof(assessmentSection)); } if (getHydraulicBoundaryLocationCalculationFunc == null) { throw new ArgumentNullException(nameof(getHydraulicBoundaryLocationCalculationFunc)); } this.data = data; this.generalInput = generalInput; this.getHydraulicBoundaryLocationCalculationFunc = getHydraulicBoundaryLocationCalculationFunc; InitializeComponent(); calculationObserver = new Observer(UpdateChartTitle) { Observable = data }; calculationInputObserver = new Observer(UpdateViewData) { Observable = data.InputParameters }; hydraulicLocationCalculationObserver = new Observer(UpdateViewData) { Observable = getHydraulicBoundaryLocationCalculationFunc() }; failureMechanismContributionObserver = new Observer(UpdateViewData) { Observable = assessmentSection.FailureMechanismContribution }; chartDataCollection = new ChartDataCollection(RiskeerCommonFormsResources.Calculation_Input); soilProfileChartData = RiskeerChartDataFactory.CreateSoilProfileChartData(); surfaceLineChartData = RiskeerChartDataFactory.CreateSurfaceLineChartData(); surfaceLevelInsideChartData = MacroStabilityInwardsChartDataFactory.CreateSurfaceLevelInsideChartData(); ditchPolderSideChartData = RiskeerChartDataFactory.CreateDitchPolderSideChartData(); bottomDitchPolderSideChartData = RiskeerChartDataFactory.CreateBottomDitchPolderSideChartData(); bottomDitchDikeSideChartData = RiskeerChartDataFactory.CreateBottomDitchDikeSideChartData(); ditchDikeSideChartData = RiskeerChartDataFactory.CreateDitchDikeSideChartData(); dikeToeAtPolderChartData = RiskeerChartDataFactory.CreateDikeToeAtPolderChartData(); shoulderTopInsideChartData = MacroStabilityInwardsChartDataFactory.CreateShoulderTopInsideChartData(); shoulderBaseInsideChartData = MacroStabilityInwardsChartDataFactory.CreateShoulderBaseInsideChartData(); dikeTopAtPolderChartData = MacroStabilityInwardsChartDataFactory.CreateDikeTopAtPolderChartData(); dikeToeAtRiverChartData = RiskeerChartDataFactory.CreateDikeToeAtRiverChartData(); dikeTopAtRiverChartData = MacroStabilityInwardsChartDataFactory.CreateDikeTopAtRiverChartData(); surfaceLevelOutsideChartData = MacroStabilityInwardsChartDataFactory.CreateSurfaceLevelOutsideChartData(); tangentLinesData = MacroStabilityInwardsChartDataFactory.CreateTangentLinesChartData(); leftGridChartData = MacroStabilityInwardsChartDataFactory.CreateLeftGridChartData(); rightGridChartData = MacroStabilityInwardsChartDataFactory.CreateRightGridChartData(); waternetZonesExtremeChartData = MacroStabilityInwardsChartDataFactory.CreateWaternetZonesExtremeChartDataCollection(); waternetZonesDailyChartData = MacroStabilityInwardsChartDataFactory.CreateWaternetZonesDailyChartDataCollection(); chartDataCollection.Add(soilProfileChartData); chartDataCollection.Add(surfaceLineChartData); chartDataCollection.Add(surfaceLevelInsideChartData); chartDataCollection.Add(ditchPolderSideChartData); chartDataCollection.Add(bottomDitchPolderSideChartData); chartDataCollection.Add(bottomDitchDikeSideChartData); chartDataCollection.Add(ditchDikeSideChartData); chartDataCollection.Add(dikeToeAtPolderChartData); chartDataCollection.Add(shoulderTopInsideChartData); chartDataCollection.Add(shoulderBaseInsideChartData); chartDataCollection.Add(dikeTopAtPolderChartData); chartDataCollection.Add(dikeToeAtRiverChartData); chartDataCollection.Add(dikeTopAtRiverChartData); chartDataCollection.Add(surfaceLevelOutsideChartData); chartDataCollection.Add(tangentLinesData); chartDataCollection.Add(leftGridChartData); chartDataCollection.Add(rightGridChartData); chartDataCollection.Add(waternetZonesExtremeChartData); chartDataCollection.Add(waternetZonesDailyChartData); soilLayerChartDataLookup = new List <ChartMultipleAreaData>(); SetChartData(); chartControl.Data = chartDataCollection; UpdateChartTitle(); UpdateTableData(); }