public void Constructor_ExpectedValues() { // Call var properties = new ClosingStructureProperties(); // Assert Assert.IsInstanceOf <ObjectProperties <ClosingStructure> >(properties); Assert.IsNull(properties.Data); }
public void Data_SetNewClosingStructureInstance_ReturnCorrectPropertyValues() { // Setup ClosingStructure structure = new TestClosingStructure(); var properties = new ClosingStructureProperties(); // Call properties.Data = structure; // Assert Assert.AreEqual(structure.Id, properties.Id); Assert.AreEqual(structure.Name, properties.Name); Assert.AreEqual(Math.Round(structure.Location.X), properties.Location.X); Assert.AreEqual(Math.Round(structure.Location.Y), properties.Location.Y); Assert.AreEqual(structure.StructureNormalOrientation, properties.StructureNormalOrientation); Assert.AreEqual(structure.InflowModelType, properties.InflowModelType); Assert.AreEqual("Normaal", properties.WidthFlowApertures.DistributionType); Assert.AreEqual(structure.WidthFlowApertures, properties.WidthFlowApertures.Data); Assert.IsTrue(properties.WidthFlowApertures.DynamicReadOnlyValidationMethod("Mean")); Assert.IsTrue(properties.WidthFlowApertures.DynamicReadOnlyValidationMethod("StandardDeviation")); Assert.AreEqual("Lognormaal", properties.AreaFlowApertures.DistributionType); Assert.AreEqual(structure.AreaFlowApertures, properties.AreaFlowApertures.Data); Assert.IsTrue(properties.AreaFlowApertures.DynamicReadOnlyValidationMethod("Mean")); Assert.IsTrue(properties.AreaFlowApertures.DynamicReadOnlyValidationMethod("StandardDeviation")); Assert.AreEqual(structure.IdenticalApertures, properties.IdenticalApertures); Assert.AreEqual("Lognormaal", properties.FlowWidthAtBottomProtection.DistributionType); Assert.AreEqual(structure.FlowWidthAtBottomProtection, properties.FlowWidthAtBottomProtection.Data); Assert.IsTrue(properties.FlowWidthAtBottomProtection.DynamicReadOnlyValidationMethod("Mean")); Assert.IsTrue(properties.FlowWidthAtBottomProtection.DynamicReadOnlyValidationMethod("StandardDeviation")); Assert.AreEqual("Lognormaal", properties.StorageStructureArea.DistributionType); Assert.AreEqual(structure.StorageStructureArea, properties.StorageStructureArea.Data); Assert.IsTrue(properties.StorageStructureArea.DynamicReadOnlyValidationMethod("Mean")); Assert.IsTrue(properties.StorageStructureArea.DynamicReadOnlyValidationMethod("CoefficientOfVariation")); Assert.AreEqual("Lognormaal", properties.AllowedLevelIncreaseStorage.DistributionType); Assert.AreEqual(structure.AllowedLevelIncreaseStorage, properties.AllowedLevelIncreaseStorage.Data); Assert.IsTrue(properties.AllowedLevelIncreaseStorage.DynamicReadOnlyValidationMethod("Mean")); Assert.IsTrue(properties.AllowedLevelIncreaseStorage.DynamicReadOnlyValidationMethod("StandardDeviation")); Assert.AreEqual("Normaal", properties.LevelCrestStructureNotClosing.DistributionType); Assert.AreEqual(structure.LevelCrestStructureNotClosing, properties.LevelCrestStructureNotClosing.Data); Assert.IsTrue(properties.LevelCrestStructureNotClosing.DynamicReadOnlyValidationMethod("Mean")); Assert.IsTrue(properties.LevelCrestStructureNotClosing.DynamicReadOnlyValidationMethod("StandardDeviation")); Assert.AreEqual("Normaal", properties.ThresholdHeightOpenWeir.DistributionType); Assert.AreEqual(structure.ThresholdHeightOpenWeir, properties.ThresholdHeightOpenWeir.Data); Assert.IsTrue(properties.ThresholdHeightOpenWeir.DynamicReadOnlyValidationMethod("Mean")); Assert.IsTrue(properties.ThresholdHeightOpenWeir.DynamicReadOnlyValidationMethod("StandardDeviation")); Assert.AreEqual("Normaal", properties.InsideWaterLevel.DistributionType); Assert.AreEqual(structure.InsideWaterLevel, properties.InsideWaterLevel.Data); Assert.IsTrue(properties.InsideWaterLevel.DynamicReadOnlyValidationMethod("Mean")); Assert.IsTrue(properties.InsideWaterLevel.DynamicReadOnlyValidationMethod("StandardDeviation")); Assert.AreEqual("Lognormaal", properties.CriticalOvertoppingDischarge.DistributionType); Assert.AreEqual(structure.CriticalOvertoppingDischarge, properties.CriticalOvertoppingDischarge.Data); Assert.IsTrue(properties.CriticalOvertoppingDischarge.DynamicReadOnlyValidationMethod("Mean")); Assert.IsTrue(properties.CriticalOvertoppingDischarge.DynamicReadOnlyValidationMethod("CoefficientOfVariation")); Assert.AreEqual(ProbabilityFormattingHelper.Format(structure.ProbabilityOpenStructureBeforeFlooding), properties.ProbabilityOpenStructureBeforeFlooding); Assert.AreEqual(ProbabilityFormattingHelper.Format(structure.FailureProbabilityOpenStructure), properties.FailureProbabilityOpenStructure); Assert.AreEqual(ProbabilityFormattingHelper.Format(structure.FailureProbabilityReparation), properties.FailureProbabilityReparation); }
public void Constructor_Always_PropertiesHaveExpectedAttributesValues() { // Setup ClosingStructure structure = new TestClosingStructure(); // Call var properties = new ClosingStructureProperties { Data = structure }; // Assert PropertyDescriptorCollection dynamicProperties = PropertiesTestHelper.GetAllVisiblePropertyDescriptors(properties); Assert.AreEqual(18, dynamicProperties.Count); const string schematizationCategory = "Schematisatie"; const string generalCategory = "Algemeen"; PropertyDescriptor idProperty = dynamicProperties[idPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(idProperty, generalCategory, "ID", "ID van het kunstwerk.", true); PropertyDescriptor nameProperty = dynamicProperties[namePropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(nameProperty, generalCategory, "Naam", "De naam van het kunstwerk.", true); PropertyDescriptor locationProperty = dynamicProperties[locationPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(locationProperty, generalCategory, "Locatie (RD) [m]", "De coördinaten van de locatie van het kunstwerk in het Rijksdriehoeksstelsel.", true); PropertyDescriptor identicalAperturesProperty = dynamicProperties[identicalAperturesPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(identicalAperturesProperty, schematizationCategory, "Aantal identieke doorstroomopeningen [-]", "Aantal identieke doorstroomopeningen.", true); PropertyDescriptor failureProbabilityOpenStructureProperty = dynamicProperties[failureProbabilityOpenStructurePropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(failureProbabilityOpenStructureProperty, schematizationCategory, "Kans mislukken sluiting [-]", "Kans op mislukken sluiting van geopend kunstwerk.", true); PropertyDescriptor probabilityOpenStructureBeforeFloodingProperty = dynamicProperties[probabilityOpenStructureBeforeFloodingPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(probabilityOpenStructureBeforeFloodingProperty, schematizationCategory, "Kans op open staan bij naderend hoogwater [-]", "Kans op open staan bij naderend hoogwater.", true); PropertyDescriptor failureProbabilityReparationProperty = dynamicProperties[failureProbabilityReparationPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(failureProbabilityReparationProperty, schematizationCategory, "Faalkans herstel van gefaalde situatie [-]", "Faalkans herstel van gefaalde situatie.", true); PropertyDescriptor inflowModelTypeProperty = dynamicProperties[inflowModelTypePropertyIndex]; Assert.IsInstanceOf <EnumConverter>(inflowModelTypeProperty.Converter); PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(inflowModelTypeProperty, schematizationCategory, "Instroommodel", "Instroommodel van het kunstwerk.", true); PropertyDescriptor insideWaterLevelProperty = dynamicProperties[insideWaterLevelPropertyIndex]; Assert.IsInstanceOf <ExpandableObjectConverter>(insideWaterLevelProperty.Converter); PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(insideWaterLevelProperty, schematizationCategory, "Binnenwaterstand [m+NAP]", "Binnenwaterstand.", true); PropertyDescriptor structureNormalOrientationProperty = dynamicProperties[structureNormalOrientationPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(structureNormalOrientationProperty, schematizationCategory, "Oriëntatie [°]", "Oriëntatie van de normaal van het kunstwerk ten opzichte van het noorden.", true); PropertyDescriptor areaFlowAperturesProperty = dynamicProperties[areaFlowAperturesPropertyIndex]; Assert.IsInstanceOf <ExpandableObjectConverter>(areaFlowAperturesProperty.Converter); PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(areaFlowAperturesProperty, schematizationCategory, "Doorstroomoppervlak [m²]", "Doorstroomoppervlak van doorstroomopeningen.", true); PropertyDescriptor thresholdHeightOpenWeirProperty = dynamicProperties[thresholdHeightOpenWeirPropertyIndex]; Assert.IsInstanceOf <ExpandableObjectConverter>(thresholdHeightOpenWeirProperty.Converter); PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(thresholdHeightOpenWeirProperty, schematizationCategory, "Drempelhoogte [m+NAP]", "Drempelhoogte niet gesloten kering of hoogte van de onderkant van de wand/drempel.", true); PropertyDescriptor levelCrestStructureNotClosingProperty = dynamicProperties[levelCrestStructureNotClosingPropertyIndex]; Assert.IsInstanceOf <ExpandableObjectConverter>(levelCrestStructureNotClosingProperty.Converter); PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(levelCrestStructureNotClosingProperty, schematizationCategory, "Kruinhoogte niet gesloten kering [m+NAP]", "Niveau kruin bij niet gesloten maximaal kerende keermiddelen.", true); PropertyDescriptor widthFlowAperturesProperty = dynamicProperties[widthFlowAperturesPropertyIndex]; Assert.IsInstanceOf <ExpandableObjectConverter>(widthFlowAperturesProperty.Converter); PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(widthFlowAperturesProperty, schematizationCategory, "Breedte van doorstroomopening [m]", "Breedte van de doorstroomopening.", true); PropertyDescriptor criticalOvertoppingDischargeProperty = dynamicProperties[criticalOvertoppingDischargePropertyIndex]; Assert.IsInstanceOf <ExpandableObjectConverter>(criticalOvertoppingDischargeProperty.Converter); PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(criticalOvertoppingDischargeProperty, schematizationCategory, "Kritiek instromend debiet [m³/s/m]", "Kritiek instromend debiet directe invoer per strekkende meter.", true); PropertyDescriptor flowWidthAtBottomProtectionProperty = dynamicProperties[flowWidthAtBottomProtectionPropertyIndex]; Assert.IsInstanceOf <ExpandableObjectConverter>(flowWidthAtBottomProtectionProperty.Converter); PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(flowWidthAtBottomProtectionProperty, schematizationCategory, "Stroomvoerende breedte bodembescherming [m]", "Stroomvoerende breedte bodembescherming.", true); PropertyDescriptor storageStructureAreaProperty = dynamicProperties[storageStructureAreaPropertyIndex]; Assert.IsInstanceOf <ExpandableObjectConverter>(storageStructureAreaProperty.Converter); PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(storageStructureAreaProperty, schematizationCategory, "Kombergend oppervlak [m²]", "Kombergend oppervlak.", true); PropertyDescriptor allowedLevelIncreaseStorageProperty = dynamicProperties[allowedLevelIncreaseStoragePropertyIndex]; Assert.IsInstanceOf <ExpandableObjectConverter>(allowedLevelIncreaseStorageProperty.Converter); PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(allowedLevelIncreaseStorageProperty, schematizationCategory, "Toegestane peilverhoging komberging [m]", "Toegestane peilverhoging komberging.", true); }