public void IsDynamicVisible_WithOtherProperties_ReturnsFalse(string property) { // Setup var illustrationPoint = new TestFaultTreeIllustrationPoint(); var properties = new FaultTreeIllustrationPointProperties(illustrationPoint, new IllustrationPointNode[0], "N", string.Empty); // Call bool isVisible = properties.IsDynamicVisible(property); // Assert Assert.IsFalse(isVisible); }
public void IsDynamicVisible_WithEmptyClosingSituation_ReturnsFalse() { // Setup var illustrationPoint = new TestFaultTreeIllustrationPoint(); var properties = new FaultTreeIllustrationPointProperties(illustrationPoint, new IllustrationPointNode[0], "N", string.Empty); // Call bool isVisible = properties.IsDynamicVisible(nameof(IllustrationPointProperties.ClosingSituation)); // Assert Assert.IsFalse(isVisible); }
public void IsDynamicVisible_WithoutChildren_ReturnsFalse() { // Setup var illustrationPoint = new TestFaultTreeIllustrationPoint(); var properties = new FaultTreeIllustrationPointProperties(illustrationPoint, new IllustrationPointNode[0], "N", "Regular"); // Call bool isVisible = properties.IsDynamicVisible(nameof(properties.IllustrationPoints)); // Assert Assert.IsFalse(isVisible); }
public void IsDynamicVisible_WithChildren_ReturnsTrue() { // Setup var illustrationPoint = new TestFaultTreeIllustrationPoint(); var childNodes = new[] { new IllustrationPointNode(new TestSubMechanismIllustrationPoint("A")), new IllustrationPointNode(new TestSubMechanismIllustrationPoint("B")) }; var properties = new FaultTreeIllustrationPointProperties(illustrationPoint, childNodes, "N", "Regular"); // Call bool isVisible = properties.IsDynamicVisible(nameof(properties.IllustrationPoints)); // Assert Assert.IsTrue(isVisible); }
public void Constructor_ExpectedValues() { // Setup var stochast = new Stochast("Stochast A", 10.0, 2.5); var illustrationPoint = new FaultTreeIllustrationPoint("Fault tree Test", 1.5, new[] { stochast }, CombinationType.And); var illustrationPointNodeChild1 = new IllustrationPointNode(new FaultTreeIllustrationPoint("Fault tree child", 3.5, new[] { stochast }, CombinationType.Or)); var illustrationPointNodeChild2 = new IllustrationPointNode(new FaultTreeIllustrationPoint("Fault tree child 2", 3.5, new Stochast[0], CombinationType.Or)); IllustrationPointNode[] illustrationPointNodeChildren = { illustrationPointNodeChild1, illustrationPointNodeChild2 }; // Call var properties = new FaultTreeIllustrationPointProperties(illustrationPoint, illustrationPointNodeChildren, "NNE", "closing situation"); // Assert Assert.IsInstanceOf <IllustrationPointProperties>(properties); PropertyDescriptorCollection dynamicProperties = PropertiesTestHelper.GetAllVisiblePropertyDescriptors(properties); PropertyDescriptor alphasProperty = dynamicProperties[alphasPropertyIndex]; Assert.NotNull(alphasProperty.Attributes[typeof(KeyValueElementAttribute)]); PropertyDescriptor durationsProperty = dynamicProperties[durationsPropertyIndex]; Assert.NotNull(durationsProperty.Attributes[typeof(KeyValueElementAttribute)]); Assert.AreEqual("NNE", properties.WindDirection); Assert.AreEqual(illustrationPoint.Beta, properties.Reliability, properties.Reliability.GetAccuracy()); Assert.AreEqual(5, properties.Reliability.NumberOfDecimalPlaces); Assert.AreEqual(StatisticsConverter.ReliabilityToProbability(illustrationPoint.Beta), properties.CalculatedProbability); Assert.AreEqual("closing situation", properties.ClosingSituation); TestHelper.AssertTypeConverter <FaultTreeIllustrationPointProperties, KeyValueExpandableArrayConverter>( nameof(FaultTreeIllustrationPointProperties.AlphaValues)); CollectionAssert.IsNotEmpty(properties.AlphaValues); CollectionAssert.AreEqual(new[] { stochast }, properties.AlphaValues); TestHelper.AssertTypeConverter <FaultTreeIllustrationPointProperties, KeyValueExpandableArrayConverter>( nameof(FaultTreeIllustrationPointProperties.Durations)); CollectionAssert.AreEqual(new[] { stochast }, properties.Durations); TestHelper.AssertTypeConverter <FaultTreeIllustrationPointProperties, ExpandableArrayConverter>( nameof(FaultTreeIllustrationPointProperties.IllustrationPoints)); Assert.AreEqual(2, properties.IllustrationPoints.Length); Assert.AreSame(illustrationPointNodeChild1.Data, properties.IllustrationPoints.ElementAt(0).Data); Assert.AreSame(illustrationPointNodeChild2.Data, properties.IllustrationPoints.ElementAt(1).Data); }
public void VisibleProperties_WithChildIllustrationPointNodes_ExpectedAttributesValues() { // Setup var illustrationPoint = new TestFaultTreeIllustrationPoint(); var childNodes = new[] { new IllustrationPointNode(new TestSubMechanismIllustrationPoint("A")), new IllustrationPointNode(new TestSubMechanismIllustrationPoint("B")) }; // Call var properties = new FaultTreeIllustrationPointProperties(illustrationPoint, childNodes, "N", "Regular"); // Assert PropertyDescriptorCollection dynamicProperties = PropertiesTestHelper.GetAllVisiblePropertyDescriptors(properties); Assert.AreEqual(7, dynamicProperties.Count); const string illustrationPointsCategoryName = "Illustratiepunten"; PropertyDescriptor probabilityProperty = dynamicProperties[probabilityPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(probabilityProperty, illustrationPointsCategoryName, "Berekende kans [-]", "De berekende kans van voorkomen van het berekende resultaat.", true); PropertyDescriptor reliabilityProperty = dynamicProperties[reliabilityPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(reliabilityProperty, illustrationPointsCategoryName, "Betrouwbaarheidsindex berekende kans [-]", "Betrouwbaarheidsindex van de berekende kans van voorkomen van het berekende resultaat.", true); PropertyDescriptor windDirectionProperty = dynamicProperties[windDirectionPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(windDirectionProperty, illustrationPointsCategoryName, "Windrichting", "De windrichting waarvoor dit illlustratiepunt is berekend.", true); PropertyDescriptor closingScenarioProperty = dynamicProperties[closingScenarioPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(closingScenarioProperty, illustrationPointsCategoryName, "Keringsituatie", "De keringsituatie waarvoor dit illustratiepunt is berekend.", true); PropertyDescriptor alphasProperty = dynamicProperties[alphasPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(alphasProperty, 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[illustrationPointPropertyIndex]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(illustrationPointProperty, illustrationPointsCategoryName, "Illustratiepunten", "De lijst van illustratiepunten voor de berekening.", true); }