public void Constructor_ExpectedValues() { // Setup var failureMechanism = new TestFailureMechanism(); string sourcePath = TestHelper.GetScratchPadPath(); var random = new Random(39); var probabilityAssessmentInput = new TestProbabilityAssessmentInput(random.NextDouble(), random.NextDouble()); IEnumerable <FailureMechanismSection> sections = new[] { FailureMechanismSectionTestFactory.CreateFailureMechanismSection() }; failureMechanism.SetSections(sections, sourcePath); // Call using (var properties = new FailureMechanismSectionsProbabilityAssessmentProperties( failureMechanism, probabilityAssessmentInput)) { // Assert Assert.IsInstanceOf <ObjectProperties <IFailureMechanism> >(properties); Assert.IsInstanceOf <IDisposable>(properties); Assert.AreSame(failureMechanism, properties.Data); TestHelper.AssertTypeConverter <FailureMechanismSectionsProperties, ExpandableArrayConverter>( nameof(FailureMechanismSectionsProperties.Sections)); Assert.AreEqual(sections.Count(), properties.Sections.Length); double sectionStart = 0; for (var i = 0; i < sections.Count(); i++) { FailureMechanismSection section = sections.ElementAt(i); FailureMechanismSectionProbabilityAssessmentProperties property = properties.Sections[i]; Assert.AreSame(section, property.Data); Assert.AreEqual(1 + probabilityAssessmentInput.A * section.Length / probabilityAssessmentInput.B, property.N, property.N.GetAccuracy()); double sectionEnd = sectionStart + section.Length; Assert.AreEqual(sectionStart, property.SectionStart, property.SectionStart.GetAccuracy()); Assert.AreEqual(sectionEnd, property.SectionEnd, property.SectionEnd.GetAccuracy()); sectionStart = sectionEnd; } Assert.AreEqual(sourcePath, properties.SourcePath); } }
public void GivenPropertyControlWithData_WhenFailureMechanismUpdated_RefreshRequiredEventRaised() { // Given var random = new Random(39); var probabilityAssessmentInput = new TestProbabilityAssessmentInput(random.NextDouble(), random.NextDouble()); var failureMechanism = new TestFailureMechanism(); using (var properties = new FailureMechanismSectionsProbabilityAssessmentProperties( failureMechanism, probabilityAssessmentInput)) { var refreshRequiredRaised = 0; properties.RefreshRequired += (sender, args) => refreshRequiredRaised++; // When failureMechanism.NotifyObservers(); // Then Assert.AreEqual(1, refreshRequiredRaised); } }
public void Constructor_Always_PropertiesHaveExpectedAttributesValues() { // Setup var mocks = new MockRepository(); var failureMechanism = mocks.Stub <IFailureMechanism>(); mocks.ReplayAll(); var random = new Random(39); var probabilityAssessmentInput = new TestProbabilityAssessmentInput(random.NextDouble(), random.NextDouble()); // Call using (var properties = new FailureMechanismSectionsProbabilityAssessmentProperties( failureMechanism, probabilityAssessmentInput)) { // Assert PropertyDescriptorCollection dynamicProperties = PropertiesTestHelper.GetAllVisiblePropertyDescriptors(properties); Assert.AreEqual(2, dynamicProperties.Count); var generalCategoryName = "Algemeen"; PropertyDescriptor sourcePathProperty = dynamicProperties[0]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(sourcePathProperty, generalCategoryName, "Bronlocatie", "De locatie van het bestand waaruit de vakindeling is geïmporteerd.", true); PropertyDescriptor sectionsProperty = dynamicProperties[1]; PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(sectionsProperty, generalCategoryName, "Vakindeling", "Vakindeling waarmee de waterkering voor dit faalmechanisme is " + "geschematiseerd ten behoeve van de beoordeling.", true); mocks.VerifyAll(); } }