public void Constructor_ValidData_ExpectedValues() { // Setup var mocks = new MockRepository(); var failureMechanismContributionNormChangeHandler = mocks.Stub <IFailureMechanismContributionNormChangeHandler>(); mocks.ReplayAll(); FailureMechanismContribution failureMechanismContribution = FailureMechanismContributionTestFactory.CreateFailureMechanismContribution(); // Call var properties = new NormProperties(failureMechanismContribution, failureMechanismContributionNormChangeHandler); // Assert Assert.IsInstanceOf <ObjectProperties <FailureMechanismContribution> >(properties); Assert.AreSame(failureMechanismContribution, properties.Data); TestHelper.AssertTypeConverter <NormProperties, NoProbabilityValueDoubleConverter>( nameof(NormProperties.SignalFloodingProbability)); TestHelper.AssertTypeConverter <NormProperties, NoProbabilityValueDoubleConverter>( nameof(NormProperties.MaximumAllowableFloodingProbability)); TestHelper.AssertTypeConverter <NormProperties, EnumTypeConverter>( nameof(NormProperties.NormativeProbabilityType)); mocks.VerifyAll(); }
public void NormativeProbabilityType_Always_HandlerCalledAndPropertySet() { // Setup FailureMechanismContribution failureMechanismContribution = FailureMechanismContributionTestFactory.CreateFailureMechanismContribution(); var mocks = new MockRepository(); var failureMechanismContributionNormChangeHandler = mocks.StrictMock <IFailureMechanismContributionNormChangeHandler>(); failureMechanismContributionNormChangeHandler.Expect(h => h.ChangeNormativeProbabilityType(null)) .IgnoreArguments() .WhenCalled(invocation => { var actionToPerform = (Action)invocation.Arguments[0]; actionToPerform(); }); mocks.ReplayAll(); var properties = new NormProperties(failureMechanismContribution, failureMechanismContributionNormChangeHandler); const NormativeProbabilityType newValue = NormativeProbabilityType.SignalFloodingProbability; // Call properties.NormativeProbabilityType = newValue; // Assert Assert.AreEqual(newValue, failureMechanismContribution.NormativeProbabilityType); mocks.VerifyAll(); }
public void GivenNormativeProbabilityTypeIsMaximumAllowableFloodingProbability_WhenChangingSignalFloodingProbability_ThenHandlerCalledAndPropertySet() { // Given FailureMechanismContribution failureMechanismContribution = FailureMechanismContributionTestFactory.CreateFailureMechanismContribution(); var mocks = new MockRepository(); var failureMechanismContributionNormChangeHandler = mocks.StrictMock <IFailureMechanismContributionNormChangeHandler>(); failureMechanismContributionNormChangeHandler.Expect(h => h.ChangeProbability(null)) .IgnoreArguments() .WhenCalled(invocation => { var actionToPerform = (Action)invocation.Arguments[0]; actionToPerform(); }); mocks.ReplayAll(); var properties = new NormProperties(failureMechanismContribution, failureMechanismContributionNormChangeHandler); const double newValue = 0.00001; // When properties.SignalFloodingProbability = newValue; // Then Assert.AreEqual(newValue, failureMechanismContribution.SignalFloodingProbability); mocks.VerifyAll(); }
public void GetProperties_WithData_ReturnExpectedValues() { // Setup var mocks = new MockRepository(); var failureMechanismContributionNormChangeHandler = mocks.Stub <IFailureMechanismContributionNormChangeHandler>(); mocks.ReplayAll(); FailureMechanismContribution failureMechanismContribution = FailureMechanismContributionTestFactory.CreateFailureMechanismContribution(); // Call var properties = new NormProperties(failureMechanismContribution, failureMechanismContributionNormChangeHandler); // Assert Assert.AreEqual(failureMechanismContribution.MaximumAllowableFloodingProbability, properties.MaximumAllowableFloodingProbability); Assert.AreEqual(failureMechanismContribution.SignalFloodingProbability, properties.SignalFloodingProbability); Assert.AreEqual(failureMechanismContribution.NormativeProbabilityType, properties.NormativeProbabilityType); mocks.VerifyAll(); }
public void Constructor_Always_PropertiesHaveExpectedAttributesValues() { // Setup var mocks = new MockRepository(); var failureMechanismContributionNormChangeHandler = mocks.Stub <IFailureMechanismContributionNormChangeHandler>(); mocks.ReplayAll(); FailureMechanismContribution failureMechanismContribution = FailureMechanismContributionTestFactory.CreateFailureMechanismContribution(); // Call var properties = new NormProperties(failureMechanismContribution, failureMechanismContributionNormChangeHandler); // Assert PropertyDescriptorCollection dynamicProperties = PropertiesTestHelper.GetAllVisiblePropertyDescriptors(properties); Assert.AreEqual(3, dynamicProperties.Count); const string expectedCategory = "Algemeen"; PropertyDescriptor maximumAllowableFloodingProbabilityProperty = dynamicProperties[0]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(maximumAllowableFloodingProbabilityProperty, expectedCategory, "Omgevingswaarde [1/jaar]", "De maximale toelaatbare overstromingskans van het traject."); PropertyDescriptor signalFloodingProbabilityProperty = dynamicProperties[1]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(signalFloodingProbabilityProperty, expectedCategory, "Signaleringsparameter [1/jaar]", "De overstromingskans voor de signalering over de veiligheid van het traject."); PropertyDescriptor normativeProbabilityTypeProperty = dynamicProperties[2]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(normativeProbabilityTypeProperty, expectedCategory, "Rekenwaarde voor waterstanden", "De doelkans die wordt gebruikt om de lokale waterstand te bepalen voor de semi-probabilistische toets voor 'Piping' en 'Macrostabiliteit binnenwaarts'."); mocks.VerifyAll(); }