public void CreateRevetmentGeometryPoints_InputWithForeshoreProfile_ReturnRevetmentGeometryPointsCollection( IEnumerable <Point2D> foreshoreProfileGeometry) { // Setup const double lowerBoundaryRevetment = 2; const double upperBoundaryRevetment = 9; var input = new WaveConditionsInput { LowerBoundaryRevetment = (RoundedDouble)lowerBoundaryRevetment, UpperBoundaryRevetment = (RoundedDouble)upperBoundaryRevetment, ForeshoreProfile = new TestForeshoreProfile(foreshoreProfileGeometry) }; // Call IEnumerable <Point2D> points = WaveConditionsChartDataPointsFactory.CreateRevetmentGeometryPoints(input); // Assert Point2D lastGeometryPoint = foreshoreProfileGeometry.Last(); double startPointX = ((lowerBoundaryRevetment - lastGeometryPoint.Y) / 3) + lastGeometryPoint.X; double endPointX = ((upperBoundaryRevetment - lastGeometryPoint.Y) / 3) + lastGeometryPoint.X; var expectedGeometry = new[] { new Point2D(startPointX, lowerBoundaryRevetment), new Point2D(endPointX, upperBoundaryRevetment) }; CollectionAssert.AreEqual(expectedGeometry, points); }
public void CreateRevetmentGeometryPoints_InputUseForeshoreProfileFalse_ReturnRevetmentGeometryPointsCollection() { // Setup const double lowerBoundaryRevetment = 2; const double upperBoundaryRevetment = 8; var input = new WaveConditionsInput { LowerBoundaryRevetment = (RoundedDouble)lowerBoundaryRevetment, UpperBoundaryRevetment = (RoundedDouble)upperBoundaryRevetment, ForeshoreProfile = new TestForeshoreProfile(new[] { new Point2D(1, 1), new Point2D(3, 5), new Point2D(10, 7) }), UseForeshore = false }; // Call IEnumerable <Point2D> points = WaveConditionsChartDataPointsFactory.CreateRevetmentGeometryPoints(input); // Assert CollectionAssert.AreEqual(new[] { new Point2D(lowerBoundaryRevetment / 3, 2), new Point2D(upperBoundaryRevetment / 3, 8) }, points); }
public void CreateRevetmentBaseGeometryPoints_BoundariesNotSet_ReturnsEmptyPointsCollection(WaveConditionsInput input) { // Call IEnumerable <Point2D> points = WaveConditionsChartDataPointsFactory.CreateRevetmentGeometryPoints(input); // Assert CollectionAssert.IsEmpty(points); }
public void CreateRevetmentGeometryPoints_InputNull_ReturnsEmptyPointsCollection() { // Call IEnumerable <Point2D> points = WaveConditionsChartDataPointsFactory.CreateRevetmentGeometryPoints(null); // Assert CollectionAssert.IsEmpty(points); }
private void SetChartData() { WaveConditionsInput input = calculation.InputParameters; WaveConditionsChartDataFactory.UpdateForeshoreGeometryChartDataName(foreshoreChartData, input); foreshoreChartData.Points = WaveConditionsChartDataPointsFactory.CreateForeshoreGeometryPoints(input); lowerBoundaryRevetmentChartData.Points = WaveConditionsChartDataPointsFactory.CreateLowerBoundaryRevetmentGeometryPoints(input); upperBoundaryRevetmentChartData.Points = WaveConditionsChartDataPointsFactory.CreateUpperBoundaryRevetmentGeometryPoints(input); lowerBoundaryWaterLevelsChartData.Points = WaveConditionsChartDataPointsFactory.CreateLowerBoundaryWaterLevelsGeometryPoints(input); upperBoundaryWaterLevelsChartData.Points = WaveConditionsChartDataPointsFactory.CreateUpperBoundaryWaterLevelsGeometryPoints(input); RoundedDouble assessmentLevel = getHydraulicBoundaryLocationCalculationFunc()?.Output?.Result ?? RoundedDouble.NaN; assessmentLevelChartData.Points = WaveConditionsChartDataPointsFactory.CreateAssessmentLevelGeometryPoints(input, assessmentLevel); waterLevelsChartData.Lines = WaveConditionsChartDataPointsFactory.CreateWaterLevelsGeometryPoints(input, assessmentLevel); revetmentBaseChartData.Points = WaveConditionsChartDataPointsFactory.CreateRevetmentBaseGeometryPoints(input); revetmentChartData.Points = WaveConditionsChartDataPointsFactory.CreateRevetmentGeometryPoints(input); }