public void AssembleSectionAdoptableSectionWithoutProfileProbability_WithInput_ReturnsExpectedOutput(
AdoptableInitialFailureMechanismResultType initialFailureMechanismResultType, bool expectedHasProbabilitySpecified)
{
// Setup
var random = new Random(21);
bool isRelevant = random.NextBoolean();
double manualSectionProbability = random.NextDouble();
double calculatedSectionProbability = random.NextDouble();
var furtherAnalysisType = random.NextEnumValue <FailureMechanismSectionResultFurtherAnalysisType>();
double refinedSectionProbability = random.NextDouble();
var assessmentSection = new AssessmentSectionStub();
var sectionResult = new AdoptableFailureMechanismSectionResult(FailureMechanismSectionTestFactory.CreateFailureMechanismSection())
{
IsRelevant = isRelevant,
InitialFailureMechanismResultType = initialFailureMechanismResultType,
ManualInitialFailureMechanismResultSectionProbability = manualSectionProbability,
FurtherAnalysisType = furtherAnalysisType,
RefinedSectionProbability = refinedSectionProbability
};
using (new AssemblyToolCalculatorFactoryConfig())
{
var calculatorFactory = (TestAssemblyToolCalculatorFactory)AssemblyToolCalculatorFactory.Instance;
FailureMechanismSectionAssemblyCalculatorStub calculator = calculatorFactory.LastCreatedFailureMechanismSectionAssemblyCalculator;
// Call
FailureMechanismSectionAssemblyResultFactory.AssembleSection(sectionResult, assessmentSection, () => calculatedSectionProbability);
// Assert
FailureMechanismSectionAssemblyInput calculatorInput = calculator.FailureMechanismSectionAssemblyInput;
FailureMechanismContribution failureMechanismContribution = assessmentSection.FailureMechanismContribution;
Assert.AreEqual(failureMechanismContribution.SignalFloodingProbability, calculatorInput.SignalFloodingProbability);
Assert.AreEqual(failureMechanismContribution.MaximumAllowableFloodingProbability, calculatorInput.MaximumAllowableFloodingProbability);
Assert.AreEqual(isRelevant, calculatorInput.IsRelevant);
Assert.AreEqual(expectedHasProbabilitySpecified, calculatorInput.HasProbabilitySpecified);
double expectedInitialSectionProbability = IsInitialFailureMechanismResultTypeAdopt(initialFailureMechanismResultType)
? calculatedSectionProbability
: manualSectionProbability;
Assert.AreEqual(expectedInitialSectionProbability, calculatorInput.InitialSectionProbability);
Assert.AreEqual(furtherAnalysisType, calculatorInput.FurtherAnalysisType);
Assert.AreEqual(refinedSectionProbability, calculatorInput.RefinedSectionProbability);
}
}
public void MaximumAllowableFloodingProbability_SignalFloodingProbabilityBiggerThanMaximumAllowableFloodingProbability_ThrowsArgumentOutOfRangeException()
{
// Setup
const double probability = 1.0 / 30000;
const double newMaximumAllowableFloodingProbability = 1.0 / 1000000;
var failureMechanismContribution = new FailureMechanismContribution(probability, probability);
// Call
void Call() => failureMechanismContribution.MaximumAllowableFloodingProbability = newMaximumAllowableFloodingProbability;
// Assert
const string expectedMessage = "De omgevingswaarde moet gelijk zijn aan of groter zijn dan de signaleringsparameter.";
var exception = Assert.Throws <ArgumentOutOfRangeException>(Call);
StringAssert.StartsWith(expectedMessage, exception.Message);
Assert.AreEqual(newMaximumAllowableFloodingProbability, exception.ActualValue);
}
/// <summary>
/// Creates a <see cref="AssessmentSectionEntity"/> based on the information of the <see cref="AssessmentSection"/>.
/// </summary>
/// <param name="section">The section to create a database entity for.</param>
/// <param name="registry">The object keeping track of create operations.</param>
/// <returns>A new <see cref="AssessmentSectionEntity"/>.</returns>
/// <exception cref="ArgumentNullException">Thrown when <paramref name="registry"/> is <c>null</c>.</exception>
internal static AssessmentSectionEntity Create(this AssessmentSection section, PersistenceRegistry registry)
{
if (registry == null)
{
throw new ArgumentNullException(nameof(registry));
}
FailureMechanismContribution contribution = section.FailureMechanismContribution;
var entity = new AssessmentSectionEntity
{
Id = section.Id.DeepClone(),
Name = section.Name.DeepClone(),
Composition = Convert.ToByte(section.Composition),
Comments = section.Comments.Body.DeepClone(),
MaximumAllowableFloodingProbability = contribution.MaximumAllowableFloodingProbability,
SignalFloodingProbability = contribution.SignalFloodingProbability,
NormativeProbabilityType = Convert.ToByte(contribution.NormativeProbabilityType)
};
AddEntityForHydraulicDatabase(section.HydraulicBoundaryDatabase, entity, registry);
AddHydraulicLocationCalculationEntities(section, entity, registry);
AddHydraulicLocationCalculationForTargetProbabilityCollectionEntities(section, entity, registry);
AddEntityForReferenceLine(section, entity);
entity.BackgroundDataEntities.Add(section.BackgroundData.Create());
entity.FailureMechanismEntities.Add(section.Piping.Create(registry));
entity.FailureMechanismEntities.Add(section.GrassCoverErosionInwards.Create(registry));
entity.FailureMechanismEntities.Add(section.HeightStructures.Create(registry));
entity.FailureMechanismEntities.Add(section.WaterPressureAsphaltCover.Create(registry));
entity.FailureMechanismEntities.Add(section.ClosingStructures.Create(registry));
entity.FailureMechanismEntities.Add(section.MacroStabilityInwards.Create(registry));
entity.FailureMechanismEntities.Add(section.WaveImpactAsphaltCover.Create(registry));
entity.FailureMechanismEntities.Add(section.GrassCoverErosionOutwards.Create(registry));
entity.FailureMechanismEntities.Add(section.GrassCoverSlipOffInwards.Create(registry));
entity.FailureMechanismEntities.Add(section.GrassCoverSlipOffOutwards.Create(registry));
entity.FailureMechanismEntities.Add(section.Microstability.Create(registry));
entity.FailureMechanismEntities.Add(section.PipingStructure.Create(registry));
entity.FailureMechanismEntities.Add(section.StabilityStoneCover.Create(registry));
entity.FailureMechanismEntities.Add(section.DuneErosion.Create(registry));
entity.FailureMechanismEntities.Add(section.StabilityPointStructures.Create(registry));
AddSpecificFailureMechanismEntities(section, entity, registry);
return(entity);
}
public void AssembleSection_WithInput_SetsInputOnCalculator()
{
// Setup
var random = new Random(21);
FailureMechanismSection section = FailureMechanismSectionTestFactory.CreateFailureMechanismSection();
var sectionResult = new AdoptableWithProfileProbabilityFailureMechanismSectionResult(section)
{
IsRelevant = random.NextBoolean(),
InitialFailureMechanismResultType = AdoptableInitialFailureMechanismResultType.Manual,
ManualInitialFailureMechanismResultProfileProbability = random.NextDouble(),
ManualInitialFailureMechanismResultSectionProbability = random.NextDouble(),
FurtherAnalysisType = random.NextEnumValue <FailureMechanismSectionResultFurtherAnalysisType>(),
ProbabilityRefinementType = ProbabilityRefinementType.Both,
RefinedProfileProbability = random.NextDouble(),
RefinedSectionProbability = random.NextDouble()
};
var failureMechanism = new MacroStabilityInwardsFailureMechanism();
var assessmentSection = new AssessmentSectionStub();
using (new AssemblyToolCalculatorFactoryConfig())
{
var calculatorFactory = (TestAssemblyToolCalculatorFactory)AssemblyToolCalculatorFactory.Instance;
FailureMechanismSectionAssemblyCalculatorStub calculator = calculatorFactory.LastCreatedFailureMechanismSectionAssemblyCalculator;
// Call
MacroStabilityInwardsFailureMechanismAssemblyFactory.AssembleSection(sectionResult, failureMechanism, assessmentSection);
// Assert
FailureMechanismSectionWithProfileProbabilityAssemblyInput calculatorInput = calculator.FailureMechanismSectionWithProfileProbabilityAssemblyInput;
FailureMechanismContribution failureMechanismContribution = assessmentSection.FailureMechanismContribution;
Assert.AreEqual(failureMechanismContribution.SignalFloodingProbability, calculatorInput.SignalFloodingProbability);
Assert.AreEqual(failureMechanismContribution.MaximumAllowableFloodingProbability, calculatorInput.MaximumAllowableFloodingProbability);
Assert.AreEqual(sectionResult.IsRelevant, calculatorInput.IsRelevant);
Assert.IsTrue(calculatorInput.HasProbabilitySpecified);
Assert.AreEqual(sectionResult.ManualInitialFailureMechanismResultProfileProbability, calculatorInput.InitialProfileProbability);
Assert.AreEqual(sectionResult.ManualInitialFailureMechanismResultSectionProbability, calculatorInput.InitialSectionProbability);
Assert.AreEqual(sectionResult.FurtherAnalysisType, calculatorInput.FurtherAnalysisType);
Assert.AreEqual(sectionResult.RefinedProfileProbability, calculatorInput.RefinedProfileProbability);
Assert.AreEqual(sectionResult.RefinedSectionProbability, calculatorInput.RefinedSectionProbability);
}
}
public void GivenDataModelWithUnmatchableTargetProbabilities_WhenImporting_ThenLogMessageAndContinueImport(
FailureMechanismContribution failureMechanismContribution,
IEnumerable <HydraulicBoundaryLocationCalculationsForTargetProbability> calculationsForTargetProbabilities)
{
// Setup
string filePath = Path.Combine(path, "validConfigurationFullCalculation.xml");
var calculationGroup = new CalculationGroup();
var hydraulicBoundaryLocation = new HydraulicBoundaryLocation(1, "Locatie", 10, 20);
var foreshoreProfile = new ForeshoreProfile(new Point2D(0, 0), new[]
{
new Point2D(0, 0),
new Point2D(1, 1),
new Point2D(2, 2)
}, new BreakWater(BreakWaterType.Caisson, 0), new ForeshoreProfile.ConstructionProperties
{
Id = "Voorlandprofiel",
Name = "VoorlandProfielName"
});
var importer = new TestWaveConditionsCalculationConfigurationImporter(
filePath,
calculationGroup,
new[]
{
hydraulicBoundaryLocation
},
new[]
{
foreshoreProfile
},
failureMechanismContribution,
calculationsForTargetProbabilities);
// Call
var successful = false;
Action call = () => successful = importer.Import();
// Assert
const string expectedMessage = "De doelkans '0.01' kan niet worden gevonden en kan daarom niet gebruikt worden. Berekening 'Berekening 1' is overgeslagen.";
TestHelper.AssertLogMessageWithLevelIsGenerated(call, Tuple.Create(expectedMessage, LogLevelConstant.Error), 2);
Assert.IsTrue(successful);
CollectionAssert.IsEmpty(calculationGroup.Children);
}
/// <summary>
/// Creates a new instance of <see cref="AssessmentSectionAssemblyGroupsView"/>.
/// </summary>
/// <param name="failureMechanismContribution">The failure mechanism contribution belonging to the view.</param>
/// <exception cref="ArgumentNullException">Thrown when <paramref name="failureMechanismContribution"/>
/// is <c>null</c>.</exception>
public AssessmentSectionAssemblyGroupsView(FailureMechanismContribution failureMechanismContribution)
{
if (failureMechanismContribution == null)
{
throw new ArgumentNullException(nameof(failureMechanismContribution));
}
InitializeComponent();
failureMechanismContributionObserver = new Observer(UpdateTableData)
{
Observable = failureMechanismContribution
};
FailureMechanismContribution = failureMechanismContribution;
UpdateTableData();
}
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();
}
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_ExpectedValues()
{
// Setup
var mocks = new MockRepository();
var assessmentSection = mocks.Stub <IAssessmentSection>();
mocks.ReplayAll();
FailureMechanismContribution contribution = FailureMechanismContributionTestFactory.CreateFailureMechanismContribution();
// Call
var context = new NormContext(contribution, assessmentSection);
// Assert
Assert.IsInstanceOf <ObservableWrappedObjectContextBase <FailureMechanismContribution> >(context);
Assert.AreSame(contribution, context.WrappedData);
Assert.AreSame(assessmentSection, context.AssessmentSection);
mocks.VerifyAll();
}
private AssessmentSectionAssemblyGroupProperties[] GetAssessmentSectionAssemblyGroups()
{
FailureMechanismContribution contribution = data.FailureMechanismContribution;
AssessmentSectionAssemblyGroupProperties[] dataToSet;
try
{
dataToSet = AssessmentSectionAssemblyGroupBoundariesFactory.CreateAssessmentSectionAssemblyGroupBoundaries(contribution.SignalFloodingProbability, contribution.MaximumAllowableFloodingProbability)
.Select(assemblyGroupBoundaries => new AssessmentSectionAssemblyGroupProperties(assemblyGroupBoundaries))
.ToArray();
}
catch (AssemblyException)
{
dataToSet = Array.Empty <AssessmentSectionAssemblyGroupProperties>();
}
return(dataToSet);
}
public void GivenViewWithFailureMechanismContribution_WhenFailureMechanismContributionUpdated_ThenDataTableUpdated()
{
// Given
var random = new Random(21);
var mocks = new MockRepository();
var observer = mocks.StrictMock <IObserver>();
observer.Expect(o => o.UpdateObserver());
mocks.ReplayAll();
FailureMechanismContribution failureMechanismContribution = FailureMechanismContributionTestFactory.CreateFailureMechanismContribution();
failureMechanismContribution.Attach(observer);
using (new AssemblyToolCalculatorFactoryConfig())
using (var view = new AssessmentSectionAssemblyGroupsView(failureMechanismContribution))
{
var calculatorFactory = (TestAssemblyToolCalculatorFactory)AssemblyToolCalculatorFactory.Instance;
AssessmentSectionAssemblyGroupBoundariesCalculatorStub calculator = calculatorFactory.LastCreatedAssessmentSectionAssemblyGroupBoundariesCalculator;
AssemblyGroupsTable <AssessmentSectionAssemblyGroup> groupsTable = GetCategoriesTable(view);
// Precondition
Assert.AreEqual(calculator.AssessmentSectionAssemblyGroupBoundariesOutput.Count(), groupsTable.Rows.Count);
// When
var newOutput = new[]
{
new AssessmentSectionAssemblyGroupBoundaries(random.NextDouble(),
random.NextDouble(),
random.NextEnumValue <AssessmentSectionAssemblyGroup>())
};
calculator.AssessmentSectionAssemblyGroupBoundariesOutput = newOutput;
failureMechanismContribution.NotifyObservers();
// Then
Assert.AreEqual(newOutput.Length, groupsTable.Rows.Count);
}
mocks.VerifyAll();
}
/// <summary>
/// Initializes a new instance of the <see cref="AssessmentSection"/> class.
/// </summary>
/// <param name="composition">The composition of the assessment section, e.g. what
/// type of elements can be found within the assessment section.</param>
/// <param name="maximumAllowableFloodingProbability">The maximum allowable flooding probability of the assessment section.</param>
/// <param name="signalFloodingProbability">The signal flooding probability of the assessment section.</param>
/// <exception cref="ArgumentOutOfRangeException">Thrown when:
/// <list type="bullet">
/// <item><paramref name="maximumAllowableFloodingProbability"/> is not in the interval [0.000001, 0.1] or is <see cref="double.NaN"/>;</item>
/// <item><paramref name="signalFloodingProbability"/> is not in the interval [0.000001, 0.1] or is <see cref="double.NaN"/>;</item>
/// <item>The <paramref name="signalFloodingProbability"/> is larger than <paramref name="maximumAllowableFloodingProbability"/>.</item>
/// </list>
/// </exception>
/// <exception cref="InvalidEnumArgumentException">Thrown when <paramref name="composition"/>
/// is not a valid enum value of <see cref="AssessmentSectionComposition"/>.</exception>
/// <exception cref="NotSupportedException">Thrown when <paramref name="composition"/>
/// is not supported.</exception>
public AssessmentSection(AssessmentSectionComposition composition,
double maximumAllowableFloodingProbability = defaultFloodingProbability,
double signalFloodingProbability = defaultFloodingProbability)
{
Name = Resources.AssessmentSection_DisplayName;
Comments = new Comment();
BackgroundData = new BackgroundData(new WellKnownBackgroundDataConfiguration(defaultWellKnownTileSource))
{
Name = defaultWellKnownTileSource.GetDisplayName()
};
ReferenceLine = new ReferenceLine();
HydraulicBoundaryDatabase = new HydraulicBoundaryDatabase();
SpecificFailureMechanisms = new ObservableList <SpecificFailureMechanism>();
waterLevelCalculationsForSignalFloodingProbability = new ObservableList <HydraulicBoundaryLocationCalculation>();
waterLevelCalculationsForMaximumAllowableFloodingProbability = new ObservableList <HydraulicBoundaryLocationCalculation>();
WaterLevelCalculationsForUserDefinedTargetProbabilities = new ObservableList <HydraulicBoundaryLocationCalculationsForTargetProbability>();
WaveHeightCalculationsForUserDefinedTargetProbabilities = new ObservableList <HydraulicBoundaryLocationCalculationsForTargetProbability>();
Piping = new PipingFailureMechanism();
GrassCoverErosionInwards = new GrassCoverErosionInwardsFailureMechanism();
MacroStabilityInwards = new MacroStabilityInwardsFailureMechanism();
Microstability = new MicrostabilityFailureMechanism();
StabilityStoneCover = new StabilityStoneCoverFailureMechanism();
WaveImpactAsphaltCover = new WaveImpactAsphaltCoverFailureMechanism();
WaterPressureAsphaltCover = new WaterPressureAsphaltCoverFailureMechanism();
GrassCoverErosionOutwards = new GrassCoverErosionOutwardsFailureMechanism();
GrassCoverSlipOffOutwards = new GrassCoverSlipOffOutwardsFailureMechanism();
GrassCoverSlipOffInwards = new GrassCoverSlipOffInwardsFailureMechanism();
HeightStructures = new HeightStructuresFailureMechanism();
ClosingStructures = new ClosingStructuresFailureMechanism();
StabilityPointStructures = new StabilityPointStructuresFailureMechanism();
PipingStructure = new PipingStructureFailureMechanism();
DuneErosion = new DuneErosionFailureMechanism();
FailureMechanismContribution = new FailureMechanismContribution(maximumAllowableFloodingProbability, signalFloodingProbability);
ChangeComposition(composition);
}
public void Constructor_WithFailureMechanismContribution_CreatesViewAndTableWithData()
{
// Setup
FailureMechanismContribution failureMechanismContribution = FailureMechanismContributionTestFactory.CreateFailureMechanismContribution();
// Call
using (new AssemblyToolCalculatorFactoryConfig())
using (var view = new AssessmentSectionAssemblyGroupsView(failureMechanismContribution))
{
// Assert
Assert.IsInstanceOf <UserControl>(view);
Assert.IsInstanceOf <IView>(view);
Assert.IsNull(view.Data);
Assert.AreEqual(1, view.Controls.Count);
Assert.AreSame(failureMechanismContribution, view.FailureMechanismContribution);
AssemblyGroupsTable <AssessmentSectionAssemblyGroup> tableControl = GetCategoriesTable(view);
Assert.AreEqual(DockStyle.Fill, tableControl.Dock);
var calculatorFactory = (TestAssemblyToolCalculatorFactory)AssemblyToolCalculatorFactory.Instance;
AssessmentSectionAssemblyGroupBoundariesCalculatorStub calculator = calculatorFactory.LastCreatedAssessmentSectionAssemblyGroupBoundariesCalculator;
Assert.AreEqual(calculator.AssessmentSectionAssemblyGroupBoundariesOutput.Count(), tableControl.Rows.Count);
}
}
public void GivenMapLayerWithHydraulicBoundaryLocationsData_WhenFailureMechanismContributionUpdatedAndNotified_ThenMapDataUpdated()
{
// Given
var mocks = new MockRepository();
var observer = mocks.StrictMock <IObserver>();
observer.Expect(o => o.UpdateObserver());
mocks.ReplayAll();
var assessmentSection = new AssessmentSectionStub();
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
new HydraulicBoundaryLocation(1, "test1", 1.0, 2.0)
});
using (var mapLayer = new HydraulicBoundaryLocationsMapLayer(assessmentSection))
{
mapLayer.MapData.Attach(observer);
// Precondition
MapDataTestHelper.AssertHydraulicBoundaryLocationsMapData(assessmentSection, mapLayer.MapData);
// When
var random = new Random(21);
FailureMechanismContribution contribution = assessmentSection.FailureMechanismContribution;
contribution.MaximumAllowableFloodingProbability = random.NextDouble(0.000001, 0.1);
contribution.SignalFloodingProbability = contribution.MaximumAllowableFloodingProbability - 0.000001;
contribution.NotifyObservers();
// Then
MapDataTestHelper.AssertHydraulicBoundaryLocationsMapData(assessmentSection, mapLayer.MapData);
}
mocks.VerifyAll();
}
/// <inheritdoc />
/// <summary>
/// Creates a new instance of <see cref="GrassCoverErosionOutwardsWaveConditionsCalculationConfigurationImporter"/>.
/// </summary>
public GrassCoverErosionOutwardsWaveConditionsCalculationConfigurationImporter(string xmlFilePath,
CalculationGroup importTarget,
IEnumerable <HydraulicBoundaryLocation> hydraulicBoundaryLocations,
IEnumerable <ForeshoreProfile> foreshoreProfiles,
FailureMechanismContribution failureMechanismContribution,
IEnumerable <HydraulicBoundaryLocationCalculationsForTargetProbability> calculationsForTargetProbabilities)
: base(xmlFilePath, importTarget, hydraulicBoundaryLocations, foreshoreProfiles, failureMechanismContribution, calculationsForTargetProbabilities)
{
}
public void Import_ValidConfigurationWithValidData_DataAddedToModel(FailureMechanismContribution failureMechanismContribution,
HydraulicBoundaryLocationCalculationsForTargetProbability calculationsForTargetProbability,
WaveConditionsInputWaterLevelType expectedWaterLevelType)
{
// Setup
string filePath = Path.Combine(path, "validConfigurationFullCalculation.xml");
var calculationGroup = new CalculationGroup();
var hydraulicBoundaryLocation = new HydraulicBoundaryLocation(1, "Locatie", 10, 20);
var foreshoreProfile = new ForeshoreProfile(new Point2D(0, 0), new[]
{
new Point2D(0, 0),
new Point2D(1, 1),
new Point2D(2, 2)
}, new BreakWater(BreakWaterType.Caisson, 0), new ForeshoreProfile.ConstructionProperties
{
Id = "Voorlandprofiel",
Name = "VoorlandProfielName"
});
var importer = new TestWaveConditionsCalculationConfigurationImporter(
filePath,
calculationGroup,
new[]
{
hydraulicBoundaryLocation
},
new[]
{
foreshoreProfile
},
failureMechanismContribution,
new[]
{
calculationsForTargetProbability
});
// Call
var successful = false;
Action call = () => successful = importer.Import();
// Assert
TestHelper.AssertLogMessageIsGenerated(call, $"Gegevens zijn geïmporteerd vanuit bestand '{filePath}'.", 1);
Assert.IsTrue(successful);
var expectedCalculation = new TestTargetTestWaveConditionsCalculation
{
Name = "Berekening 1",
InputParameters =
{
HydraulicBoundaryLocation = hydraulicBoundaryLocation,
CalculationsTargetProbability = expectedWaterLevelType == WaveConditionsInputWaterLevelType.UserDefinedTargetProbability
? calculationsForTargetProbability
: null,
WaterLevelType = expectedWaterLevelType,
UpperBoundaryRevetment = (RoundedDouble)10,
LowerBoundaryRevetment = (RoundedDouble)2,
UpperBoundaryWaterLevels = (RoundedDouble)9,
LowerBoundaryWaterLevels = (RoundedDouble)4,
StepSize = WaveConditionsInputStepSize.Half,
ForeshoreProfile = foreshoreProfile,
Orientation = (RoundedDouble)5.5,
UseForeshore = false,
UseBreakWater = true,
BreakWater =
{
Height = (RoundedDouble)6.6,
Type = BreakWaterType.Caisson
}
}
};
Assert.AreEqual(1, calculationGroup.Children.Count);
AssertWaveConditionsCalculation(expectedCalculation, (ICalculation <WaveConditionsInput>)calculationGroup.Children[0]);
}
public void AssembleSectionAdoptableWithProfileProbability_WithInputAndUseLengthEffectTrue_SetsInputOnCalculator(
AdoptableInitialFailureMechanismResultType initialFailureMechanismResultType, bool expectedHasProbabilitySpecified)
{
// Setup
var random = new Random(21);
bool isRelevant = random.NextBoolean();
double manualInitialProfileProbability = random.NextDouble();
double manualInitialSectionProbability = random.NextDouble();
double calculatedStrategySectionProbability = random.NextDouble();
double calculatedStrategyProfileSectionProbability = random.NextDouble();
var furtherAnalysisType = random.NextEnumValue <FailureMechanismSectionResultFurtherAnalysisType>();
double manualRefinedSectionProbability = random.NextDouble();
double manualRefinedProfileProbability = random.NextDouble();
var mocks = new MockRepository();
var calculateStrategy = mocks.StrictMock <IFailureMechanismSectionResultCalculateProbabilityStrategy>();
bool isInitialFailureMechanismResultTypeAdopt = IsInitialFailureMechanismResultTypeAdopt(initialFailureMechanismResultType);
if (isInitialFailureMechanismResultTypeAdopt)
{
calculateStrategy.Expect(cs => cs.CalculateProfileProbability())
.Return(calculatedStrategyProfileSectionProbability);
calculateStrategy.Expect(cs => cs.CalculateSectionProbability())
.Return(calculatedStrategySectionProbability);
}
mocks.ReplayAll();
var assessmentSection = new AssessmentSectionStub();
var sectionResult = new AdoptableWithProfileProbabilityFailureMechanismSectionResult(FailureMechanismSectionTestFactory.CreateFailureMechanismSection())
{
IsRelevant = isRelevant,
InitialFailureMechanismResultType = initialFailureMechanismResultType,
ManualInitialFailureMechanismResultProfileProbability = manualInitialProfileProbability,
ManualInitialFailureMechanismResultSectionProbability = manualInitialSectionProbability,
FurtherAnalysisType = furtherAnalysisType,
ProbabilityRefinementType = ProbabilityRefinementType.Both,
RefinedProfileProbability = manualRefinedProfileProbability,
RefinedSectionProbability = manualRefinedSectionProbability
};
using (new AssemblyToolCalculatorFactoryConfig())
{
var calculatorFactory = (TestAssemblyToolCalculatorFactory)AssemblyToolCalculatorFactory.Instance;
FailureMechanismSectionAssemblyCalculatorStub calculator = calculatorFactory.LastCreatedFailureMechanismSectionAssemblyCalculator;
// Call
FailureMechanismSectionAssemblyResultFactory.AssembleSection(
sectionResult, assessmentSection, calculateStrategy, true, random.NextDouble());
// Assert
FailureMechanismSectionWithProfileProbabilityAssemblyInput calculatorInput = calculator.FailureMechanismSectionWithProfileProbabilityAssemblyInput;
FailureMechanismContribution failureMechanismContribution = assessmentSection.FailureMechanismContribution;
Assert.AreEqual(failureMechanismContribution.SignalFloodingProbability, calculatorInput.SignalFloodingProbability);
Assert.AreEqual(failureMechanismContribution.MaximumAllowableFloodingProbability, calculatorInput.MaximumAllowableFloodingProbability);
Assert.AreEqual(isRelevant, calculatorInput.IsRelevant);
Assert.AreEqual(expectedHasProbabilitySpecified, calculatorInput.HasProbabilitySpecified);
double expectedInitialProfileProbability = isInitialFailureMechanismResultTypeAdopt
? calculatedStrategyProfileSectionProbability
: manualInitialProfileProbability;
Assert.AreEqual(expectedInitialProfileProbability, calculatorInput.InitialProfileProbability);
double expectedInitialSectionProbability = isInitialFailureMechanismResultTypeAdopt
? calculatedStrategySectionProbability
: manualInitialSectionProbability;
Assert.AreEqual(expectedInitialSectionProbability, calculatorInput.InitialSectionProbability);
Assert.AreEqual(furtherAnalysisType, calculatorInput.FurtherAnalysisType);
Assert.AreEqual(manualRefinedProfileProbability, calculatorInput.RefinedProfileProbability);
Assert.AreEqual(manualRefinedSectionProbability, calculatorInput.RefinedSectionProbability);
}
}
