public void UpdateObserver_DataUpdated_MapLayersSameOrder()
{
// Setup
var referenceLine = new ReferenceLine();
referenceLine.SetGeometry(new[]
{
new Point2D(1.0, 2.0),
new Point2D(2.0, 1.0)
});
var assessmentSection = new AssessmentSectionStub
{
ReferenceLine = referenceLine
};
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
new HydraulicBoundaryLocation(1, "test1", 1.0, 2.0)
});
AssessmentSectionExtendedView extendedView = ShowCalculationsView(assessmentSection);
MapDataCollection mapData = extendedView.Map.Data;
MapData dataToMove = mapData.Collection.ElementAt(0);
mapData.Remove(dataToMove);
mapData.Add(dataToMove);
// Precondition
var referenceLineMapData = (MapLineData)mapData.Collection.ElementAt(referenceLineIndex + 1);
Assert.AreEqual("Referentielijn", referenceLineMapData.Name);
var hrLocationsMapData = (MapPointData)mapData.Collection.ElementAt(hydraulicBoundaryLocationsIndex - 1);
Assert.AreEqual("Hydraulische belastingen", hrLocationsMapData.Name);
// Call
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
new HydraulicBoundaryLocation(2, "test2", 2.0, 3.0)
});
assessmentSection.HydraulicBoundaryDatabase.Locations.NotifyObservers();
// Assert
var actualReferenceLineMapData = (MapLineData)mapData.Collection.ElementAt(referenceLineIndex + 1);
Assert.AreEqual("Referentielijn", actualReferenceLineMapData.Name);
var actualHrLocationsMapData = (MapPointData)mapData.Collection.ElementAt(hydraulicBoundaryLocationsIndex - 1);
Assert.AreEqual("Hydraulische belastingen", actualHrLocationsMapData.Name);
}
public void CreateCalculationActivity_WithValidCalculation_ReturnsGrassCoverErosionOutwardsWaveConditionsCalculationActivityWithParametersSet()
{
// Setup
GrassCoverErosionOutwardsFailureMechanism failureMechanism = new GrassCoverErosionOutwardsFailureMechanism();
var assessmentSection = new AssessmentSectionStub();
HydraulicBoundaryDatabase hydraulicBoundaryDatabase = assessmentSection.HydraulicBoundaryDatabase;
hydraulicBoundaryDatabase.FilePath = validFilePath;
var hydraulicBoundaryLocation = new TestHydraulicBoundaryLocation("locationName 1");
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
}, true);
GrassCoverErosionOutwardsWaveConditionsCalculation calculation = CreateValidCalculation(hydraulicBoundaryLocation);
// Call
CalculatableActivity activity = GrassCoverErosionOutwardsCalculationActivityFactory.CreateWaveConditionsCalculationActivity(calculation,
failureMechanism,
assessmentSection);
// Assert
Assert.IsInstanceOf <GrassCoverErosionOutwardsWaveConditionsCalculationActivity>(activity);
AssertGrassCoverErosionOutwardsWaveConditionsCalculationActivity(
activity,
calculation,
assessmentSection.WaterLevelCalculationsForSignalFloodingProbability.Single().Output.Result,
hydraulicBoundaryDatabase);
}
public void CreateHydraulicBoundaryLocationFeatures_WithLocations_ReturnsLocationFeaturesCollection(bool setOutput)
{
// Setup
var assessmentSection = new AssessmentSectionStub();
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
new HydraulicBoundaryLocation(1, "location1", 1, 1),
new HydraulicBoundaryLocation(2, "location2", 2, 2)
}, setOutput);
Dictionary <IObservableEnumerable <HydraulicBoundaryLocationCalculation>, string> waterLevels =
assessmentSection.WaterLevelCalculationsForUserDefinedTargetProbabilities.ToDictionary(
tp => (IObservableEnumerable <HydraulicBoundaryLocationCalculation>)tp.HydraulicBoundaryLocationCalculations,
tp => $"h - {ProbabilityFormattingHelper.Format(tp.TargetProbability)}");
waterLevels.Add(assessmentSection.WaterLevelCalculationsForMaximumAllowableFloodingProbability, "h - 1/30.000");
waterLevels.Add(assessmentSection.WaterLevelCalculationsForSignalFloodingProbability, "h - 1/30.000 (1)");
IEnumerable <AggregatedHydraulicBoundaryLocation> locations = AggregatedHydraulicBoundaryLocationFactory.CreateAggregatedHydraulicBoundaryLocations(
assessmentSection.HydraulicBoundaryDatabase.Locations,
waterLevels,
assessmentSection.WaveHeightCalculationsForUserDefinedTargetProbabilities.ToDictionary(
tp => (IObservableEnumerable <HydraulicBoundaryLocationCalculation>)tp.HydraulicBoundaryLocationCalculations,
tp => $"Hs - {ProbabilityFormattingHelper.Format(tp.TargetProbability)}"));
// Call
IEnumerable <MapFeature> features = RiskeerMapDataFeaturesFactory.CreateHydraulicBoundaryLocationFeatures(locations);
// Assert
MapFeaturesTestHelper.AssertHydraulicBoundaryFeaturesData(assessmentSection, features);
}
public void GetAssessmentLevel_ValidInputWithHydraulicBoundaryLocation_ReturnsExpectedValue(
WaveConditionsInputWaterLevelType waterLevelType,
Func <WaveConditionsInput, IAssessmentSection, double> getExpectedAssessmentLevel)
{
// Setup
var assessmentSection = new AssessmentSectionStub();
var hydraulicBoundaryLocation = new TestHydraulicBoundaryLocation();
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
}, true);
var input = new WaveConditionsInput
{
HydraulicBoundaryLocation = hydraulicBoundaryLocation,
WaterLevelType = waterLevelType,
CalculationsTargetProbability = assessmentSection.WaterLevelCalculationsForUserDefinedTargetProbabilities.First()
};
// Call
double assessmentLevel = WaveConditionsInputHelper.GetAssessmentLevel(input, assessmentSection);
// Assert
Assert.AreEqual(getExpectedAssessmentLevel(input, assessmentSection), assessmentLevel);
}
public void CreateCalculationActivity_WithValidCalculation_ReturnsMacroStabilityInwardsCalculationActivityWithParametersSet()
{
// Setup
var hydraulicBoundaryLocation = new TestHydraulicBoundaryLocation();
var assessmentSection = new AssessmentSectionStub
{
FailureMechanismContribution =
{
NormativeProbabilityType = NormativeProbabilityType.MaximumAllowableFloodingProbability
}
};
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
});
var random = new Random(39);
HydraulicBoundaryLocationCalculation hydraulicBoundaryLocationCalculation = assessmentSection.WaterLevelCalculationsForMaximumAllowableFloodingProbability.Single();
hydraulicBoundaryLocationCalculation.Output = new TestHydraulicBoundaryLocationCalculationOutput(random.NextDouble());
MacroStabilityInwardsCalculationScenario calculation = CreateValidCalculation(hydraulicBoundaryLocation);
// Call
CalculatableActivity activity = MacroStabilityInwardsCalculationActivityFactory.CreateCalculationActivity(calculation, new GeneralMacroStabilityInwardsInput(), assessmentSection);
// Assert
Assert.IsInstanceOf <MacroStabilityInwardsCalculationActivity>(activity);
AssertMacroStabilityInwardsCalculationActivity(activity, calculation, hydraulicBoundaryLocationCalculation);
}
private IAssessmentSection CreateAssessmentSectionWithHydraulicBoundaryOutput()
{
var hydraulicBoundaryLocation = new HydraulicBoundaryLocation(1300001, string.Empty, 0, 0);
var assessmentSection = new AssessmentSectionStub
{
HydraulicBoundaryDatabase =
{
FilePath = validFilePath,
Locations =
{
hydraulicBoundaryLocation
}
}
};
HydraulicBoundaryDatabaseTestHelper.SetHydraulicBoundaryLocationConfigurationSettings(assessmentSection.HydraulicBoundaryDatabase);
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
});
assessmentSection.WaterLevelCalculationsForMaximumAllowableFloodingProbability.First().Output = new TestHydraulicBoundaryLocationCalculationOutput(9.3);
return(assessmentSection);
}
private static IEnumerable <TestCaseData> GetAssessmentSectionConfigurations()
{
var assessmentSectionWithTargetProbabilities = new AssessmentSectionStub();
assessmentSectionWithTargetProbabilities.SetHydraulicBoundaryLocationCalculations(new[]
{
new HydraulicBoundaryLocation(123, "aName", 1.1, 2.2)
});
yield return(new TestCaseData(assessmentSectionWithTargetProbabilities, new[]
{
"Waterstanden bij vaste doelkans/Waterstanden_30000.shp",
"Waterstanden bij vaste doelkans/Waterstanden_30000 (1).shp",
"Waterstanden bij vrije doelkans/Waterstanden_10000.shp",
"Waterstanden bij vrije doelkans/Waterstanden_100000.shp",
"Golfhoogten bij vrije doelkans/Golfhoogten_4000.shp",
"Golfhoogten bij vrije doelkans/Golfhoogten_40000.shp"
}).SetName("With UserDefinedTargetProbabilities"));
var assessmentSectionWithoutTargetProbabilities = new AssessmentSectionStub();
assessmentSectionWithoutTargetProbabilities.SetHydraulicBoundaryLocationCalculations(new[]
{
new HydraulicBoundaryLocation(123, "aName", 1.1, 2.2)
});
assessmentSectionWithoutTargetProbabilities.WaterLevelCalculationsForUserDefinedTargetProbabilities.Clear();
assessmentSectionWithoutTargetProbabilities.WaveHeightCalculationsForUserDefinedTargetProbabilities.Clear();
yield return(new TestCaseData(assessmentSectionWithoutTargetProbabilities, new[]
{
"Waterstanden bij vaste doelkans/Waterstanden_30000.shp",
"Waterstanden bij vaste doelkans/Waterstanden_30000 (1).shp"
}).SetName("Without UserDefinedTargetProbabilities"));
}
public void GivenMapLayerWithHydraulicBoundaryLocationsData_WhenSelectedWaveHeightTargetProbabilityIndexUpdatedAndCollectionNotified_ThenMapDataAndSelectedMetaDataAttributeUpdated(
Action <ObservableList <HydraulicBoundaryLocationCalculationsForTargetProbability> > shiftItemAction,
string selectedTargetProbabilityFormat, string expectedSelectedTargetProbabilityFormat)
{
// Given
var mocks = new MockRepository();
var observer = mocks.StrictMock <IObserver>();
observer.Expect(o => o.UpdateObserver());
mocks.ReplayAll();
const double targetProbability = 0.001;
var assessmentSection = new AssessmentSectionStub();
assessmentSection.WaveHeightCalculationsForUserDefinedTargetProbabilities.Clear();
assessmentSection.WaveHeightCalculationsForUserDefinedTargetProbabilities.AddRange(new[]
{
new HydraulicBoundaryLocationCalculationsForTargetProbability(targetProbability),
new HydraulicBoundaryLocationCalculationsForTargetProbability(targetProbability),
new HydraulicBoundaryLocationCalculationsForTargetProbability(targetProbability)
});
var hydraulicBoundaryLocation = new HydraulicBoundaryLocation(1, "test1", 1.0, 2.0);
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
});
using (var mapLayer = new HydraulicBoundaryLocationsMapLayer(assessmentSection))
{
string targetProbabilityString = ProbabilityFormattingHelper.Format(targetProbability);
string selectedProbabilityString = string.Format(selectedTargetProbabilityFormat, targetProbabilityString);
mapLayer.MapData.SelectedMetaDataAttribute = string.Format(waveHeightDisplayNameFormat, selectedProbabilityString);
mapLayer.MapData.NotifyObservers();
mapLayer.MapData.Attach(observer);
// Precondition
MapDataTestHelper.AssertHydraulicBoundaryLocationsMapData(assessmentSection, mapLayer.MapData);
// When
ObservableList <HydraulicBoundaryLocationCalculationsForTargetProbability> waveHeightCalculationsForUserDefinedTargetProbabilities =
assessmentSection.WaveHeightCalculationsForUserDefinedTargetProbabilities;
shiftItemAction(waveHeightCalculationsForUserDefinedTargetProbabilities);
waveHeightCalculationsForUserDefinedTargetProbabilities.NotifyObservers();
// Then
MapDataTestHelper.AssertHydraulicBoundaryLocationsMapData(assessmentSection, mapLayer.MapData);
string expectedSelectedProbabilityString = string.Format(expectedSelectedTargetProbabilityFormat, targetProbabilityString);
Assert.AreEqual(string.Format(waveHeightDisplayNameFormat, expectedSelectedProbabilityString),
mapLayer.MapData.SelectedMetaDataAttribute);
}
mocks.VerifyAll();
}
private static void SetHydraulicBoundaryLocationToAssessmentSection(AssessmentSectionStub assessmentSection, TestHydraulicBoundaryLocation hydraulicBoundaryLocation)
{
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
});
assessmentSection.WaterLevelCalculationsForSignalFloodingProbability.Single().Output = new TestHydraulicBoundaryLocationCalculationOutput(2.0);
}
/// <summary>
/// Gets a collection of <see cref="TestCaseData"/> containing an assessment level configuration for all types
/// of <see cref="WaveConditionsInputWaterLevelType"/>.
/// </summary>
/// <returns>A collection of <see cref="TestCaseData"/>, in which each item contains:
/// <list type="bullet">
/// <item>the configured assessment section;</item>
/// <item>a method for configuring the wave conditions input at stake;</item>
/// <item>the expected assessment level given the combination of the before-mentioned assessment section, the configured
/// hydraulic boundary location and the configured water level type.</item>
/// </list>
/// </returns>
public static IEnumerable <TestCaseData> GetAssessmentLevelConfigurationPerWaterLevelType()
{
var calculationsForTargetProbability = new HydraulicBoundaryLocationCalculationsForTargetProbability(0.01);
var assessmentSection = new AssessmentSectionStub
{
WaterLevelCalculationsForUserDefinedTargetProbabilities =
{
calculationsForTargetProbability
}
};
var hydraulicBoundaryLocation = new TestHydraulicBoundaryLocation();
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
}, true);
yield return(new TestCaseData(
assessmentSection,
new Action <WaveConditionsInput>(input =>
{
input.HydraulicBoundaryLocation = hydraulicBoundaryLocation;
input.WaterLevelType = WaveConditionsInputWaterLevelType.None;
}),
RoundedDouble.NaN));
yield return(new TestCaseData(
assessmentSection,
new Action <WaveConditionsInput>(input =>
{
input.HydraulicBoundaryLocation = hydraulicBoundaryLocation;
input.WaterLevelType = WaveConditionsInputWaterLevelType.MaximumAllowableFloodingProbability;
}),
assessmentSection.WaterLevelCalculationsForMaximumAllowableFloodingProbability.First().Output.Result));
yield return(new TestCaseData(
assessmentSection,
new Action <WaveConditionsInput>(input =>
{
input.HydraulicBoundaryLocation = hydraulicBoundaryLocation;
input.WaterLevelType = WaveConditionsInputWaterLevelType.SignalFloodingProbability;
}),
assessmentSection.WaterLevelCalculationsForSignalFloodingProbability.First().Output.Result));
yield return(new TestCaseData(
assessmentSection,
new Action <WaveConditionsInput>(input =>
{
input.HydraulicBoundaryLocation = hydraulicBoundaryLocation;
input.WaterLevelType = WaveConditionsInputWaterLevelType.UserDefinedTargetProbability;
input.CalculationsTargetProbability = calculationsForTargetProbability;
}),
calculationsForTargetProbability.HydraulicBoundaryLocationCalculations.First().Output.Result));
}
public void Run_CalculationWithInvalidHydraulicBoundaryDatabaseFilePath_DoesNotPerformCalculationAndLogsError()
{
// Setup
string invalidFilePath = Path.Combine(testDataPath, "NonExisting.sqlite");
var assessmentSection = new AssessmentSectionStub
{
HydraulicBoundaryDatabase =
{
FilePath = invalidFilePath
}
};
var hydraulicBoundaryLocation = new TestHydraulicBoundaryLocation();
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
});
StabilityStoneCoverWaveConditionsCalculation calculation = CreateValidCalculation(hydraulicBoundaryLocation);
CalculatableActivity activity = StabilityStoneCoverWaveConditionsCalculationActivityFactory.CreateCalculationActivity(
calculation,
new StabilityStoneCoverFailureMechanism(),
assessmentSection);
var mockRepository = new MockRepository();
var calculatorFactory = mockRepository.StrictMock <IHydraRingCalculatorFactory>();
mockRepository.ReplayAll();
using (new HydraRingCalculatorFactoryConfig(calculatorFactory))
{
// Call
void Call() => activity.Run();
// Assert
TestHelper.AssertLogMessages(Call, messages =>
{
string[] msgs = messages.ToArray();
Assert.AreEqual(4, msgs.Length);
Assert.AreEqual($"Golfcondities berekenen voor '{calculation.Name}' is gestart.", msgs[0]);
CalculationServiceTestHelper.AssertValidationStartMessage(msgs[1]);
Assert.AreEqual("Herstellen van de verbinding met de hydraulische belastingendatabase is mislukt. " +
$"Fout bij het lezen van bestand '{invalidFilePath}': het bestand bestaat niet.", msgs[2]);
CalculationServiceTestHelper.AssertValidationEndMessage(msgs[3]);
});
Assert.AreEqual(ActivityState.Failed, activity.State);
}
mockRepository.VerifyAll();
}
public void ContextMenuStrip_ClickOnValidateAllItem_ValidateAllChildCalculations()
{
// Setup
using (var treeViewControl = new TreeViewControl())
{
var assessmentSection = new AssessmentSectionStub();
var hydraulicBoundaryLocation = new TestHydraulicBoundaryLocation();
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
}, true);
var failureMechanism = new MacroStabilityInwardsFailureMechanism();
MacroStabilityInwardsCalculationScenario validCalculation = MacroStabilityInwardsCalculationScenarioTestFactory.CreateMacroStabilityInwardsCalculationScenarioWithValidInput(hydraulicBoundaryLocation);
validCalculation.Name = "A";
MacroStabilityInwardsCalculationScenario invalidCalculation = MacroStabilityInwardsCalculationScenarioTestFactory.CreateMacroStabilityInwardsCalculationScenarioWithInvalidInput();
invalidCalculation.Name = "B";
failureMechanism.CalculationsGroup.Children.Add(validCalculation);
failureMechanism.CalculationsGroup.Children.Add(invalidCalculation);
var context = new MacroStabilityInwardsFailureMechanismContext(failureMechanism, assessmentSection);
var menuBuilder = new CustomItemsOnlyContextMenuBuilder();
var gui = mocks.Stub <IGui>();
gui.Stub(g => g.Get(context, treeViewControl)).Return(menuBuilder);
mocks.ReplayAll();
plugin.Gui = gui;
using (ContextMenuStrip contextMenu = info.ContextMenuStrip(context, null, treeViewControl))
using (new MacroStabilityInwardsCalculatorFactoryConfig())
{
// Call
void Call() => contextMenu.Items[contextMenuValidateAllIndex].PerformClick();
// Assert
TestHelper.AssertLogMessages(Call, messages =>
{
string[] msgs = messages.ToArray();
Assert.AreEqual(9, msgs.Length);
CalculationServiceTestHelper.AssertValidationStartMessage(msgs[0]);
Assert.AreEqual("Validatie van waterspanningen in extreme omstandigheden is gestart.", msgs[1]);
Assert.AreEqual("Validatie van waterspanningen in dagelijkse omstandigheden is gestart.", msgs[2]);
CalculationServiceTestHelper.AssertValidationEndMessage(msgs[3]);
CalculationServiceTestHelper.AssertValidationStartMessage(msgs[4]);
CalculationServiceTestHelper.AssertValidationEndMessage(msgs[8]);
});
}
}
}
public void CreateCalculationActivitiesForCalculationGroup_WithValidCalculations_ReturnsMacroStabilityInwardsCalculationActivitiesWithParametersSet()
{
// Setup
var hydraulicBoundaryLocation1 = new TestHydraulicBoundaryLocation();
var hydraulicBoundaryLocation2 = new TestHydraulicBoundaryLocation();
var assessmentSection = new AssessmentSectionStub
{
FailureMechanismContribution =
{
NormativeProbabilityType = NormativeProbabilityType.MaximumAllowableFloodingProbability
}
};
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation1,
hydraulicBoundaryLocation2
});
var random = new Random(39);
HydraulicBoundaryLocationCalculation hydraulicBoundaryLocationCalculation1 = assessmentSection.WaterLevelCalculationsForMaximumAllowableFloodingProbability.First();
hydraulicBoundaryLocationCalculation1.Output = new TestHydraulicBoundaryLocationCalculationOutput(random.NextDouble());
HydraulicBoundaryLocationCalculation hydraulicBoundaryLocationCalculation2 = assessmentSection.WaterLevelCalculationsForMaximumAllowableFloodingProbability.ElementAt(1);
hydraulicBoundaryLocationCalculation2.Output = new TestHydraulicBoundaryLocationCalculationOutput(random.NextDouble());
MacroStabilityInwardsCalculationScenario calculation1 = CreateValidCalculation(hydraulicBoundaryLocation1);
MacroStabilityInwardsCalculationScenario calculation2 = CreateValidCalculation(hydraulicBoundaryLocation2);
var calculations = new CalculationGroup
{
Children =
{
calculation1,
calculation2
}
};
// Call
IEnumerable <CalculatableActivity> activities = MacroStabilityInwardsCalculationActivityFactory.CreateCalculationActivities(
calculations, new GeneralMacroStabilityInwardsInput(), assessmentSection);
// Assert
CollectionAssert.AllItemsAreInstancesOfType(activities, typeof(MacroStabilityInwardsCalculationActivity));
Assert.AreEqual(2, activities.Count());
AssertMacroStabilityInwardsCalculationActivity(activities.First(), calculation1, hydraulicBoundaryLocationCalculation1);
AssertMacroStabilityInwardsCalculationActivity(activities.ElementAt(1), calculation2, hydraulicBoundaryLocationCalculation2);
}
public void CreateWaterLevelCalculationActivitiesForNormTargetProbabilities_WithValidDataAndUsePreprocessorStates_ExpectedInputSetToActivities(bool usePreprocessor)
{
// Setup
AssessmentSectionStub assessmentSection = CreateAssessmentSection(usePreprocessor);
var hydraulicBoundaryLocation1 = new TestHydraulicBoundaryLocation("locationName 1");
var hydraulicBoundaryLocation2 = new TestHydraulicBoundaryLocation("locationName 2");
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation1,
hydraulicBoundaryLocation2
});
// Call
IEnumerable <CalculatableActivity> activities =
AssessmentSectionHydraulicBoundaryLocationCalculationActivityFactory.CreateWaterLevelCalculationActivitiesForNormTargetProbabilities(assessmentSection);
// Assert
Assert.AreEqual(4, activities.Count());
HydraulicBoundaryDatabase hydraulicBoundaryDatabase = assessmentSection.HydraulicBoundaryDatabase;
double maximumAllowableFloodingProbability = assessmentSection.FailureMechanismContribution.MaximumAllowableFloodingProbability;
const string expectedMaximumAllowableFloodingProbabilityText = "1/30.000";
double signalFloodingProbability = assessmentSection.FailureMechanismContribution.SignalFloodingProbability;
const string expectedSignalFloodingProbabilityText = "1/30.000 (1)";
AssertDesignWaterLevelCalculationActivity(activities.ElementAt(0),
hydraulicBoundaryLocation1,
maximumAllowableFloodingProbability,
expectedMaximumAllowableFloodingProbabilityText,
hydraulicBoundaryDatabase);
AssertDesignWaterLevelCalculationActivity(activities.ElementAt(1),
hydraulicBoundaryLocation2,
maximumAllowableFloodingProbability,
expectedMaximumAllowableFloodingProbabilityText,
hydraulicBoundaryDatabase);
AssertDesignWaterLevelCalculationActivity(activities.ElementAt(2),
hydraulicBoundaryLocation1,
signalFloodingProbability,
expectedSignalFloodingProbabilityText,
hydraulicBoundaryDatabase);
AssertDesignWaterLevelCalculationActivity(activities.ElementAt(3),
hydraulicBoundaryLocation2,
signalFloodingProbability,
expectedSignalFloodingProbabilityText,
hydraulicBoundaryDatabase);
}
public void ContextMenuStrip_AllRequiredInputSet_ContextMenuItemCalculateAllAndValidateAllEnabled()
{
// Setup
using (var treeViewControl = new TreeViewControl())
{
var assessmentSection = new AssessmentSectionStub();
var hydraulicBoundaryLocation = new TestHydraulicBoundaryLocation();
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
}, true);
var failureMechanism = new MacroStabilityInwardsFailureMechanism
{
CalculationsGroup =
{
Children =
{
MacroStabilityInwardsCalculationScenarioTestFactory.CreateMacroStabilityInwardsCalculationScenarioWithValidInput(hydraulicBoundaryLocation)
}
}
};
var context = new MacroStabilityInwardsFailureMechanismContext(failureMechanism, assessmentSection);
var menuBuilder = new CustomItemsOnlyContextMenuBuilder();
var gui = mocks.Stub <IGui>();
gui.Stub(cmp => cmp.Get(context, treeViewControl)).Return(menuBuilder);
mocks.ReplayAll();
plugin.Gui = gui;
// Call
using (ContextMenuStrip contextMenu = info.ContextMenuStrip(context, null, treeViewControl))
{
// Assert
TestHelper.AssertContextMenuStripContainsItem(contextMenu, contextMenuCalculateAllIndex,
"Alles be&rekenen",
"Voer alle berekeningen binnen dit faalmechanisme uit.",
RiskeerCommonFormsResources.CalculateAllIcon);
TestHelper.AssertContextMenuStripContainsItem(contextMenu, contextMenuValidateAllIndex,
"Alles &valideren",
"Valideer alle berekeningen binnen dit faalmechanisme.",
RiskeerCommonFormsResources.ValidateAllIcon);
}
}
}
private static IAssessmentSection GetConfiguredAssessmentSectionWithHydraulicBoundaryLocationCalculations()
{
var assessmentSection = new AssessmentSectionStub();
var hydraulicBoundaryLocations = new[]
{
new TestHydraulicBoundaryLocation(),
new TestHydraulicBoundaryLocation(),
new TestHydraulicBoundaryLocation()
};
assessmentSection.SetHydraulicBoundaryLocationCalculations(hydraulicBoundaryLocations, true);
return(assessmentSection);
}
public void GivenMapLayerWithHydraulicBoundaryLocations_WhenChangingHydraulicBoundaryLocationsDataAndObserversNotified_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
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
new HydraulicBoundaryLocation(2, "test2", 2.0, 3.0)
});
assessmentSection.HydraulicBoundaryDatabase.Locations.NotifyObservers();
// Then
MapDataTestHelper.AssertHydraulicBoundaryLocationsMapData(assessmentSection, mapLayer.MapData);
}
mocks.VerifyAll();
}
public void CreateInstance_WithContextAndNormativeProbabilityTypeSignalFloodingProbability_ExpectedProperties()
{
// Setup
var assessmentSection = new AssessmentSectionStub
{
FailureMechanismContribution =
{
NormativeProbabilityType = NormativeProbabilityType.SignalFloodingProbability
}
};
var hydraulicBoundaryLocation = new TestHydraulicBoundaryLocation();
var scenario = new MacroStabilityInwardsCalculationScenario
{
InputParameters =
{
HydraulicBoundaryLocation = hydraulicBoundaryLocation
}
};
var failureMechanism = new MacroStabilityInwardsFailureMechanism();
var context = new MacroStabilityInwardsInputContext(
scenario.InputParameters,
scenario,
Enumerable.Empty <MacroStabilityInwardsSurfaceLine>(),
Enumerable.Empty <MacroStabilityInwardsStochasticSoilModel>(),
failureMechanism,
assessmentSection);
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
}, true);
// Call
IObjectProperties objectProperties = info.CreateInstance(context);
// Assert
Assert.IsInstanceOf <MacroStabilityInwardsInputContextProperties>(objectProperties);
Assert.AreSame(context, objectProperties.Data);
double expectedAssessmentLevel = assessmentSection.WaterLevelCalculationsForSignalFloodingProbability.ElementAt(0).Output.Result;
Assert.AreEqual(expectedAssessmentLevel, ((MacroStabilityInwardsInputContextProperties)objectProperties).AssessmentLevel);
}
public void GetNormativeAssessmentLevel_NoCorrespondingAssessmentLevelOutput_ReturnsNaN()
{
// Setup
var assessmentSection = new AssessmentSectionStub();
var hydraulicBoundaryLocation = new TestHydraulicBoundaryLocation();
assessmentSection.FailureMechanismContribution.NormativeProbabilityType = new Random(32).NextEnumValue <NormativeProbabilityType>();
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
});
// Call
RoundedDouble normativeAssessmentLevel = assessmentSection.GetNormativeAssessmentLevel(hydraulicBoundaryLocation);
// Assert
Assert.IsNaN(normativeAssessmentLevel);
}
private static AssessmentSectionStub CreateAssessmentSection()
{
var assessmentSection = new AssessmentSectionStub
{
HydraulicBoundaryDatabase =
{
FilePath = validFilePath
}
};
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
new TestHydraulicBoundaryLocation()
});
HydraulicBoundaryDatabaseTestHelper.SetHydraulicBoundaryLocationConfigurationSettings(assessmentSection.HydraulicBoundaryDatabase);
return(assessmentSection);
}
public void Constructor_ExpectedValues()
{
// Setup
var assessmentSection = new AssessmentSectionStub();
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
new HydraulicBoundaryLocation(1, "test", 1.0, 2.0)
});
// Call
using (var mapLayer = new HydraulicBoundaryLocationsMapLayer(assessmentSection))
{
// Assert
Assert.IsInstanceOf <IDisposable>(mapLayer);
MapDataTestHelper.AssertHydraulicBoundaryLocationsMapData(assessmentSection, mapLayer.MapData);
}
}
public void GivenMapLayerWithHydraulicBoundaryLocationsData_WhenCalculationsForUserDefinedTargetProbabilitiesUpdatedAndNotified_ThenMapDataUpdated(
Func <IAssessmentSection, ObservableList <HydraulicBoundaryLocationCalculationsForTargetProbability> > getTargetProbabilitiesFunc)
{
// Given
var mocks = new MockRepository();
var observer = mocks.StrictMock <IObserver>();
observer.Expect(o => o.UpdateObserver());
mocks.ReplayAll();
var hydraulicBoundaryLocation = new HydraulicBoundaryLocation(1, "test1", 1.0, 2.0);
var assessmentSection = new AssessmentSectionStub();
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
});
using (var mapLayer = new HydraulicBoundaryLocationsMapLayer(assessmentSection))
{
ObservableList <HydraulicBoundaryLocationCalculationsForTargetProbability> targetProbabilities = getTargetProbabilitiesFunc(assessmentSection);
var newTargetProbability = new HydraulicBoundaryLocationCalculationsForTargetProbability(0.1);
newTargetProbability.HydraulicBoundaryLocationCalculations.AddRange(assessmentSection.HydraulicBoundaryDatabase.Locations
.Select(l => new HydraulicBoundaryLocationCalculation(l))
.ToArray());
targetProbabilities.Add(newTargetProbability);
targetProbabilities.NotifyObservers();
mapLayer.MapData.Attach(observer);
// Precondition
MapDataTestHelper.AssertHydraulicBoundaryLocationsMapData(assessmentSection, mapLayer.MapData);
// When
HydraulicBoundaryLocationCalculation calculation = newTargetProbability.HydraulicBoundaryLocationCalculations.First();
calculation.Output = new TestHydraulicBoundaryLocationCalculationOutput(new Random(21).NextDouble());
calculation.NotifyObservers();
// Then
MapDataTestHelper.AssertHydraulicBoundaryLocationsMapData(assessmentSection, mapLayer.MapData);
}
mocks.VerifyAll();
}
public void GivenMapLayerWithHydraulicBoundaryLocationsData_WhenNotSelectedTargetProbabilityRemovedAndNotified_ThenMapDataUpdated(
Func <IAssessmentSection, ObservableList <HydraulicBoundaryLocationCalculationsForTargetProbability> > getTargetProbabilitiesFunc, string displayName)
{
// Given
var mocks = new MockRepository();
var observer = mocks.StrictMock <IObserver>();
observer.Expect(o => o.UpdateObserver());
mocks.ReplayAll();
var hydraulicBoundaryLocation = new HydraulicBoundaryLocation(1, "test1", 1.0, 2.0);
var assessmentSection = new AssessmentSectionStub();
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
});
using (var mapLayer = new HydraulicBoundaryLocationsMapLayer(assessmentSection))
{
ObservableList <HydraulicBoundaryLocationCalculationsForTargetProbability> targetProbabilities = getTargetProbabilitiesFunc(assessmentSection);
HydraulicBoundaryLocationCalculationsForTargetProbability calculationsForTargetProbabilityToRemove = targetProbabilities.First();
HydraulicBoundaryLocationCalculationsForTargetProbability calculationsForTargetProbability = targetProbabilities.Last();
mapLayer.MapData.SelectedMetaDataAttribute = string.Format(displayName, ProbabilityFormattingHelper.Format(calculationsForTargetProbability.TargetProbability));
mapLayer.MapData.NotifyObservers();
mapLayer.MapData.Attach(observer);
// Precondition
MapDataTestHelper.AssertHydraulicBoundaryLocationsMapData(assessmentSection, mapLayer.MapData);
// When
targetProbabilities.Remove(calculationsForTargetProbabilityToRemove);
targetProbabilities.NotifyObservers();
// Then
MapDataTestHelper.AssertHydraulicBoundaryLocationsMapData(assessmentSection, mapLayer.MapData);
Assert.AreEqual(string.Format(displayName, ProbabilityFormattingHelper.Format(calculationsForTargetProbability.TargetProbability)),
mapLayer.MapData.SelectedMetaDataAttribute);
}
mocks.VerifyAll();
}
public void CreateWaveConditionsCalculationActivitiesForCalculationGroup_WithValidCalculations_ReturnsGrassCoverErosionOutwardsWaveConditionsCalculationActivitiesWithParametersSet()
{
// Setup
GrassCoverErosionOutwardsFailureMechanism failureMechanism = new GrassCoverErosionOutwardsFailureMechanism();
var assessmentSection = new AssessmentSectionStub();
HydraulicBoundaryDatabase hydraulicBoundaryDatabase = assessmentSection.HydraulicBoundaryDatabase;
hydraulicBoundaryDatabase.FilePath = validFilePath;
var hydraulicBoundaryLocation = new TestHydraulicBoundaryLocation("locationName 1");
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
}, true);
GrassCoverErosionOutwardsWaveConditionsCalculation calculation1 = CreateValidCalculation(hydraulicBoundaryLocation);
GrassCoverErosionOutwardsWaveConditionsCalculation calculation2 = CreateValidCalculation(hydraulicBoundaryLocation);
var calculations = new CalculationGroup
{
Children =
{
calculation1,
calculation2
}
};
// Call
IEnumerable <CalculatableActivity> activities = GrassCoverErosionOutwardsCalculationActivityFactory.CreateWaveConditionsCalculationActivities(
calculations, failureMechanism, assessmentSection);
// Assert
CollectionAssert.AllItemsAreInstancesOfType(activities, typeof(GrassCoverErosionOutwardsWaveConditionsCalculationActivity));
Assert.AreEqual(2, activities.Count());
RoundedDouble assessmentLevel = assessmentSection.WaterLevelCalculationsForSignalFloodingProbability.Single().Output.Result;
AssertGrassCoverErosionOutwardsWaveConditionsCalculationActivity(activities.First(), calculation1, assessmentLevel, hydraulicBoundaryDatabase);
AssertGrassCoverErosionOutwardsWaveConditionsCalculationActivity(activities.ElementAt(1), calculation2, assessmentLevel, hydraulicBoundaryDatabase);
}
public void Export_CreatingZipFileThrowsCriticalFileWriteException_LogErrorAndReturnFalse()
{
// Setup
var assessmentSection = new AssessmentSectionStub();
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
new HydraulicBoundaryLocation(123, "aName", 1.1, 2.2)
});
string directoryPath = TestHelper.GetScratchPadPath(nameof(Export_CreatingZipFileThrowsCriticalFileWriteException_LogErrorAndReturnFalse));
Directory.CreateDirectory(directoryPath);
string filePath = Path.Combine(directoryPath, "test.zip");
var exporter = new HydraulicBoundaryLocationCalculationsExporter(assessmentSection, filePath);
try
{
using (var helper = new FileDisposeHelper(filePath))
{
helper.LockFiles();
// Call
var isExported = true;
void Call() => isExported = exporter.Export();
// Assert
string expectedMessage = $"Er is een onverwachte fout opgetreden tijdens het schrijven van het bestand '{filePath}'. " +
"Er zijn geen hydraulische belastingenlocaties geëxporteerd.";
TestHelper.AssertLogMessageIsGenerated(Call, expectedMessage);
Assert.IsFalse(isExported);
}
}
finally
{
DirectoryHelper.TryDelete(directoryPath);
}
}
public void Constructor_WithReferenceLineAndHydraulicBoundaryDatabase_DataUpdatedToCollectionOfFilledMapData()
{
// Setup
var referenceLine = new ReferenceLine();
referenceLine.SetGeometry(new[]
{
new Point2D(1.0, 2.0),
new Point2D(2.0, 1.0)
});
var assessmentSection = new AssessmentSectionStub
{
ReferenceLine = referenceLine
};
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
new HydraulicBoundaryLocation(1, "test", 1.0, 2.0)
});
// Call
AssessmentSectionExtendedView extendedView = ShowCalculationsView(assessmentSection);
// Assert
Assert.IsInstanceOf <MapDataCollection>(extendedView.Map.Data);
MapDataCollection mapData = extendedView.Map.Data;
Assert.IsNotNull(mapData);
MapData hydraulicBoundaryLocationsMapData = mapData.Collection.ElementAt(hydraulicBoundaryLocationsIndex);
MapDataTestHelper.AssertHydraulicBoundaryLocationsMapData(assessmentSection, hydraulicBoundaryLocationsMapData);
MapData referenceLineMapData = mapData.Collection.ElementAt(referenceLineIndex);
MapDataTestHelper.AssertReferenceLineMapData(referenceLine, referenceLineMapData);
Assert.IsTrue(referenceLineMapData.IsVisible);
}
public void GetAssessmentLevel_ValidInputWithoutHydraulicBoundaryLocation_ReturnsNaN(WaveConditionsInputWaterLevelType waterLevelType)
{
// Setup
var assessmentSection = new AssessmentSectionStub();
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
new TestHydraulicBoundaryLocation()
}, true);
var input = new WaveConditionsInput
{
WaterLevelType = waterLevelType,
CalculationsTargetProbability = assessmentSection.WaterLevelCalculationsForUserDefinedTargetProbabilities.First()
};
// Call
double assessmentLevel = WaveConditionsInputHelper.GetAssessmentLevel(input, assessmentSection);
// Assert
Assert.IsNaN(assessmentLevel);
}
private static IEnumerable <TestCaseData> GetNormativeHydraulicBoundaryLocationCalculationPerNormativeProbabilityType()
{
var assessmentSection = new AssessmentSectionStub();
var hydraulicBoundaryLocation = new TestHydraulicBoundaryLocation();
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
}, true);
yield return(new TestCaseData(
assessmentSection,
hydraulicBoundaryLocation,
NormativeProbabilityType.SignalFloodingProbability,
assessmentSection.WaterLevelCalculationsForSignalFloodingProbability.ElementAt(0)));
yield return(new TestCaseData(
assessmentSection,
hydraulicBoundaryLocation,
NormativeProbabilityType.MaximumAllowableFloodingProbability,
assessmentSection.WaterLevelCalculationsForMaximumAllowableFloodingProbability.ElementAt(0)));
}
public void Export_HydraulicBoundaryLocationCalculationsExporterReturnsFalse_LogErrorAndReturnFalse()
{
// Setup
var assessmentSection = new AssessmentSectionStub();
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
new HydraulicBoundaryLocation(123, "aName", 1.1, 2.2)
});
string directoryPath = TestHelper.GetScratchPadPath(nameof(Export_HydraulicBoundaryLocationCalculationsExporterReturnsFalse_LogErrorAndReturnFalse));
Directory.CreateDirectory(directoryPath);
string filePath = Path.Combine(directoryPath, "test.zip");
var exporter = new HydraulicBoundaryLocationCalculationsExporter(assessmentSection, filePath);
try
{
using (new DirectoryPermissionsRevoker(directoryPath, FileSystemRights.Write))
{
// Call
var isExported = true;
void Call() => isExported = exporter.Export();
// Assert
string expectedFilePath = Path.Combine(directoryPath, "~temp", "Waterstanden bij vaste doelkans", "Waterstanden_30000.shp");
string expectedMessage = $"Er is een onverwachte fout opgetreden tijdens het schrijven van het bestand '{expectedFilePath}'. " +
"Er zijn geen hydraulische belastingenlocaties geëxporteerd.";
TestHelper.AssertLogMessageIsGenerated(Call, expectedMessage);
Assert.IsFalse(isExported);
}
}
finally
{
DirectoryHelper.TryDelete(directoryPath);
}
}
public void CreateSemiProbabilisticPipingCalculationActivity_WithValidCalculation_ReturnsActivityWithParametersSet()
{
// Setup
var hydraulicBoundaryLocation = new TestHydraulicBoundaryLocation();
var assessmentSection = new AssessmentSectionStub
{
FailureMechanismContribution =
{
NormativeProbabilityType = NormativeProbabilityType.MaximumAllowableFloodingProbability
}
};
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
});
var random = new Random(39);
HydraulicBoundaryLocationCalculation hydraulicBoundaryLocationCalculation = assessmentSection.WaterLevelCalculationsForMaximumAllowableFloodingProbability.Single();
hydraulicBoundaryLocationCalculation.Output = new TestHydraulicBoundaryLocationCalculationOutput(random.NextDouble());
var calculation =
SemiProbabilisticPipingCalculationTestFactory.CreateCalculationWithValidInput <TestSemiProbabilisticPipingCalculation>(
hydraulicBoundaryLocation);
var generalPipingInput = new GeneralPipingInput();
// Call
CalculatableActivity activity = PipingCalculationActivityFactory.CreateSemiProbabilisticPipingCalculationActivity(calculation,
generalPipingInput,
assessmentSection);
// Assert
Assert.IsInstanceOf <SemiProbabilisticPipingCalculationActivity>(activity);
AssertSemiProbabilisticPipingCalculationActivity(activity, calculation, hydraulicBoundaryLocationCalculation);
}
