public void Constructor_DikeHeightOutput_ExpectedValues() { // Setup var dikeHeightOutput = new TestDikeHeightOutput(0.5); // Call var properties = new DikeHeightOutputProperties(dikeHeightOutput); // Assert Assert.IsInstanceOf <ObjectProperties <DikeHeightOutput> >(properties); Assert.AreSame(dikeHeightOutput, properties.Data); }
public void IllustrationPoints_WithoutGeneralResult_ReturnsEmptyTopLevelFaultTreeIllustrationPointPropertiesArray() { // Setup var dikeHeightOutput = new TestDikeHeightOutput(0.5); var properties = new DikeHeightOutputProperties(dikeHeightOutput); // Call TopLevelFaultTreeIllustrationPointProperties[] illustrationPoints = properties.IllustrationPoints; // Assert Assert.IsEmpty(illustrationPoints); }
public void GetProperties_WithData_ReturnExpectedValues() { // Setup var random = new Random(); double dikeHeight = random.NextDouble(); double dikeHeightTargetProbability = random.NextDouble(); double dikeHeightTargetReliability = random.NextDouble(); double dikeHeightCalculatedProbability = random.NextDouble(); double dikeHeightCalculatedReliability = random.NextDouble(); var dikeHeightConvergence = random.NextEnumValue <CalculationConvergence>(); var generalResult = new TestGeneralResultFaultTreeIllustrationPoint(); var dikeHeightOutput = new DikeHeightOutput(dikeHeight, dikeHeightTargetProbability, dikeHeightTargetReliability, dikeHeightCalculatedProbability, dikeHeightCalculatedReliability, dikeHeightConvergence, generalResult); // Call var properties = new DikeHeightOutputProperties(dikeHeightOutput); // Assert Assert.AreEqual(2, properties.DikeHeight.NumberOfDecimalPlaces); Assert.AreEqual(dikeHeight, properties.DikeHeight, properties.DikeHeight.GetAccuracy()); Assert.AreEqual(dikeHeightTargetProbability, properties.DikeHeightTargetProbability); TestHelper.AssertTypeConverter <GrassCoverErosionInwardsOutputProperties, NoProbabilityValueDoubleConverter>( nameof(GrassCoverErosionInwardsOutputProperties.DikeHeightTargetProbability)); Assert.AreEqual(dikeHeightTargetReliability, properties.DikeHeightTargetReliability, properties.DikeHeightTargetReliability.GetAccuracy()); TestHelper.AssertTypeConverter <GrassCoverErosionInwardsOutputProperties, NoValueRoundedDoubleConverter>( nameof(GrassCoverErosionInwardsOutputProperties.DikeHeightTargetReliability)); Assert.AreEqual(dikeHeightCalculatedProbability, properties.DikeHeightCalculatedProbability); TestHelper.AssertTypeConverter <GrassCoverErosionInwardsOutputProperties, NoProbabilityValueDoubleConverter>( nameof(GrassCoverErosionInwardsOutputProperties.DikeHeightCalculatedProbability)); Assert.AreEqual(dikeHeightCalculatedReliability, properties.DikeHeightCalculatedReliability, properties.DikeHeightCalculatedReliability.GetAccuracy()); TestHelper.AssertTypeConverter <GrassCoverErosionInwardsOutputProperties, NoValueRoundedDoubleConverter>( nameof(GrassCoverErosionInwardsOutputProperties.DikeHeightCalculatedReliability)); string dikeHeightConvergenceValue = EnumDisplayNameHelper.GetDisplayName(dikeHeightConvergence); Assert.AreEqual(dikeHeightConvergenceValue, properties.DikeHeightConvergence); Assert.AreEqual(generalResult.GoverningWindDirection.Name, properties.WindDirection); TestHelper.AssertTypeConverter <StructuresOutputProperties, KeyValueExpandableArrayConverter>( nameof(StructuresOutputProperties.AlphaValues)); TestHelper.AssertTypeConverter <StructuresOutputProperties, KeyValueExpandableArrayConverter>( nameof(StructuresOutputProperties.Durations)); int nrOfExpectedStochasts = generalResult.Stochasts.Count(); Assert.AreEqual(nrOfExpectedStochasts, properties.AlphaValues.Length); Assert.AreEqual(nrOfExpectedStochasts, properties.Durations.Length); Stochast expectedStochast = generalResult.Stochasts.First(); Assert.AreEqual(expectedStochast.Alpha, properties.AlphaValues[0].Alpha); Assert.AreEqual(expectedStochast.Duration, properties.Durations[0].Duration); TestHelper.AssertTypeConverter <StructuresOutputProperties, ExpandableArrayConverter>( nameof(StructuresOutputProperties.IllustrationPoints)); int nrOfExpectedTopLevelIllustrationPoints = generalResult.TopLevelIllustrationPoints.Count(); Assert.AreEqual(nrOfExpectedTopLevelIllustrationPoints, properties.IllustrationPoints.Length); CollectionAssert.AreEqual(generalResult.TopLevelIllustrationPoints, properties.IllustrationPoints.Select(i => i.Data)); }
public void PropertyAttributes_HasGeneralResult_ReturnExpectedValues() { // Setup var dikeHeightOutput = new TestDikeHeightOutput(new TestGeneralResultFaultTreeIllustrationPoint()); // Call var properties = new DikeHeightOutputProperties(dikeHeightOutput); // Assert PropertyDescriptorCollection dynamicProperties = PropertiesTestHelper.GetAllVisiblePropertyDescriptors(properties); Assert.AreEqual(10, dynamicProperties.Count); PropertyDescriptor dikeHeightProperty = dynamicProperties[dikeHeightPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(dikeHeightProperty, dikeHeightCategory, "HBN [m+NAP]", "Het berekende Hydraulisch Belasting Niveau (HBN).", true); PropertyDescriptor targetProbability = dynamicProperties[targetProbabilityPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(targetProbability, dikeHeightCategory, "Doelkans [1/jaar]", "De ingevoerde kans waarvoor het resultaat moet worden berekend.", true); PropertyDescriptor targetReliability = dynamicProperties[targetReliabilityPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(targetReliability, dikeHeightCategory, "Betrouwbaarheidsindex doelkans [-]", "Betrouwbaarheidsindex van de ingevoerde kans waarvoor het resultaat moet worden berekend.", true); PropertyDescriptor calculatedProbability = dynamicProperties[calculatedProbabilityPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(calculatedProbability, dikeHeightCategory, "Berekende kans [1/jaar]", "De berekende kans van voorkomen van het berekende resultaat.", true); PropertyDescriptor calculatedReliability = dynamicProperties[calculatedReliabilityPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(calculatedReliability, dikeHeightCategory, "Betrouwbaarheidsindex berekende kans [-]", "Betrouwbaarheidsindex van de berekende kans van voorkomen van het berekende resultaat.", true); PropertyDescriptor calculationConvergence = dynamicProperties[convergencePropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(calculationConvergence, dikeHeightCategory, "Convergentie", "Is convergentie bereikt in de HBN berekening?", true); PropertyDescriptor windDirectionProperty = dynamicProperties[windDirectionPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(windDirectionProperty, illustrationPointsCategoryName, "Maatgevende windrichting", "De windrichting waarvoor de berekende betrouwbaarheidsindex het laagst is.", true); PropertyDescriptor alphaValuesProperty = dynamicProperties[alphaValuesPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(alphaValuesProperty, illustrationPointsCategoryName, "Invloedscoëfficiënten [-]", "Berekende invloedscoëfficiënten voor alle beschouwde stochasten.", true); PropertyDescriptor durationsProperty = dynamicProperties[durationsPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(durationsProperty, illustrationPointsCategoryName, "Tijdsduren [uur]", "Tijdsduren waarop de stochasten betrekking hebben.", true); PropertyDescriptor illustrationPointProperty = dynamicProperties[illustrationPointsPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(illustrationPointProperty, illustrationPointsCategoryName, "Illustratiepunten", "De lijst van illustratiepunten voor de berekening.", true); }
public void PropertyAttributes_NoGeneralResult_ReturnExpectedValues() { // Setup var dikeHeightOutput = new TestDikeHeightOutput(10); // Call var properties = new DikeHeightOutputProperties(dikeHeightOutput); // Assert PropertyDescriptorCollection dynamicProperties = PropertiesTestHelper.GetAllVisiblePropertyDescriptors(properties); Assert.AreEqual(6, dynamicProperties.Count); PropertyDescriptor dikeHeightProperty = dynamicProperties[dikeHeightPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(dikeHeightProperty, dikeHeightCategory, "HBN [m+NAP]", "Het berekende Hydraulisch Belasting Niveau (HBN).", true); PropertyDescriptor targetProbability = dynamicProperties[targetProbabilityPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(targetProbability, dikeHeightCategory, "Doelkans [1/jaar]", "De ingevoerde kans waarvoor het resultaat moet worden berekend.", true); PropertyDescriptor targetReliability = dynamicProperties[targetReliabilityPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(targetReliability, dikeHeightCategory, "Betrouwbaarheidsindex doelkans [-]", "Betrouwbaarheidsindex van de ingevoerde kans waarvoor het resultaat moet worden berekend.", true); PropertyDescriptor calculatedProbability = dynamicProperties[calculatedProbabilityPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(calculatedProbability, dikeHeightCategory, "Berekende kans [1/jaar]", "De berekende kans van voorkomen van het berekende resultaat.", true); PropertyDescriptor calculatedReliability = dynamicProperties[calculatedReliabilityPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(calculatedReliability, dikeHeightCategory, "Betrouwbaarheidsindex berekende kans [-]", "Betrouwbaarheidsindex van de berekende kans van voorkomen van het berekende resultaat.", true); PropertyDescriptor calculationConvergence = dynamicProperties[convergencePropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(calculationConvergence, dikeHeightCategory, "Convergentie", "Is convergentie bereikt in de HBN berekening?", true); }