/// <summary> /// Returns a collection of modified <see cref="ClosingStructure"/> entities, which all differ /// except for their id. /// </summary> /// <param name="targetName">The name of the target to test while using the test case source.</param> /// <param name="testResultDescription">A description of the result of the test while using the test case source.</param> /// <returns>The collection of test case data.</returns> /// <example> /// <code> /// [TestCaseSource( /// typeof(ClosingStructurePermutationHelper), /// nameof(ClosingStructurePermutationHelper.DifferentClosingStructuresWithSameId), /// new object[] /// { /// "TargetMethodName", /// "TestResult" /// })] /// </code> /// </example> public static IEnumerable <TestCaseData> DifferentClosingStructuresWithSameId(string targetName, string testResultDescription) { string referenceStructureId = new TestClosingStructure().Id; var testCaseData = new List <TestCaseData> { new TestCaseData(new TestClosingStructure(referenceStructureId, "Different name")) .SetName($"{targetName}_DifferentName_{testResultDescription}"), new TestCaseData(new TestClosingStructure(new Point2D(1, 1), referenceStructureId)) .SetName($"{targetName}_DifferentLocation_{testResultDescription}") }; testCaseData.AddRange(DifferentClosingStructuresWithSameIdNameAndLocation(targetName, testResultDescription)); return(testCaseData); }
private static ClosingStructure.ConstructionProperties CreateTestClosingStructureConstructionProperties() { var referenceStructure = new TestClosingStructure(); return(new ClosingStructure.ConstructionProperties { Name = referenceStructure.Name, Id = referenceStructure.Id, Location = referenceStructure.Location, AllowedLevelIncreaseStorage = { Mean = referenceStructure.AllowedLevelIncreaseStorage.Mean, StandardDeviation = referenceStructure.AllowedLevelIncreaseStorage.StandardDeviation }, AreaFlowApertures = { Mean = referenceStructure.AreaFlowApertures.Mean, StandardDeviation = referenceStructure.AreaFlowApertures.StandardDeviation }, CriticalOvertoppingDischarge = { Mean = referenceStructure.CriticalOvertoppingDischarge.Mean, CoefficientOfVariation = referenceStructure.CriticalOvertoppingDischarge.CoefficientOfVariation }, FlowWidthAtBottomProtection = { Mean = referenceStructure.FlowWidthAtBottomProtection.Mean, StandardDeviation = referenceStructure.FlowWidthAtBottomProtection.StandardDeviation }, InsideWaterLevel = { Mean = referenceStructure.InsideWaterLevel.Mean, StandardDeviation = referenceStructure.InsideWaterLevel.StandardDeviation }, LevelCrestStructureNotClosing = { Mean = referenceStructure.LevelCrestStructureNotClosing.Mean, StandardDeviation = referenceStructure.LevelCrestStructureNotClosing.StandardDeviation }, StorageStructureArea = { Mean = referenceStructure.StorageStructureArea.Mean, CoefficientOfVariation = referenceStructure.StorageStructureArea.CoefficientOfVariation }, ThresholdHeightOpenWeir = { Mean = referenceStructure.ThresholdHeightOpenWeir.Mean, StandardDeviation = referenceStructure.ThresholdHeightOpenWeir.StandardDeviation }, WidthFlowApertures = { Mean = referenceStructure.WidthFlowApertures.Mean, StandardDeviation = referenceStructure.WidthFlowApertures.StandardDeviation }, FailureProbabilityReparation = referenceStructure.FailureProbabilityReparation, FailureProbabilityOpenStructure = referenceStructure.FailureProbabilityOpenStructure, IdenticalApertures = referenceStructure.IdenticalApertures, InflowModelType = referenceStructure.InflowModelType, ProbabilityOpenStructureBeforeFlooding = referenceStructure.ProbabilityOpenStructureBeforeFlooding, StructureNormalOrientation = referenceStructure.StructureNormalOrientation }); }