Index: Ringtoets/ClosingStructures/test/Ringtoets.ClosingStructures.Data.Test/ClosingStructuresInputTest.cs =================================================================== diff -u -r12e5f6a6009617b69828d1b6e31b1eb3deda96b2 -r64fea503e6e9cacfb0ff8f22cfdd864b60c95bab --- Ringtoets/ClosingStructures/test/Ringtoets.ClosingStructures.Data.Test/ClosingStructuresInputTest.cs (.../ClosingStructuresInputTest.cs) (revision 12e5f6a6009617b69828d1b6e31b1eb3deda96b2) +++ Ringtoets/ClosingStructures/test/Ringtoets.ClosingStructures.Data.Test/ClosingStructuresInputTest.cs (.../ClosingStructuresInputTest.cs) (revision 64fea503e6e9cacfb0ff8f22cfdd864b60c95bab) @@ -20,17 +20,13 @@ // All rights reserved. using System; -using System.Collections.Generic; -using Core.Common.Base; using Core.Common.Base.Data; -using Core.Common.Base.Geometry; using Core.Common.TestUtil; using NUnit.Framework; -using Ringtoets.Common.Data.Calculation; -using Ringtoets.Common.Data.DikeProfiles; +using Ringtoets.ClosingStructures.Data.TestUtil; using Ringtoets.Common.Data.Probabilistics; +using Ringtoets.Common.Data.Structures; using Ringtoets.Common.Data.TestUtil; -using Ringtoets.HydraRing.Data; namespace Ringtoets.ClosingStructures.Data.Test { @@ -47,18 +43,6 @@ StandardDeviation = (RoundedDouble) 0.1 }; - var stormDuration = new VariationCoefficientLogNormalDistribution(2) - { - Mean = (RoundedDouble) 6, - CoefficientOfVariation = (RoundedDouble) 0.25 - }; - - var modelFactorSuperCriticalFlow = new NormalDistribution(2) - { - Mean = (RoundedDouble) 1.1, - StandardDeviation = (RoundedDouble) 0.03 - }; - var drainCoefficient = new NormalDistribution(2) { Mean = (RoundedDouble) 1, @@ -83,76 +67,23 @@ StandardDeviation = (RoundedDouble) 0.05 }; - var allowedLevelIncreaseStorage = new LogNormalDistribution(2) - { - Mean = (RoundedDouble) double.NaN, - StandardDeviation = (RoundedDouble) 0.1 - }; - - var storageStructureArea = new VariationCoefficientLogNormalDistribution(2) - { - Mean = (RoundedDouble) double.NaN, - CoefficientOfVariation = (RoundedDouble) 0.1 - }; - - var flowWidthAtBottomProtection = new LogNormalDistribution(2) - { - Mean = (RoundedDouble) double.NaN, - StandardDeviation = (RoundedDouble) 0.05 - }; - - var criticalOvertoppingDischarge = new VariationCoefficientLogNormalDistribution(2) - { - Mean = (RoundedDouble) double.NaN, - CoefficientOfVariation = (RoundedDouble) 0.15 - }; - - var widthFlowApertures = new VariationCoefficientNormalDistribution(2) - { - Mean = (RoundedDouble) double.NaN, - CoefficientOfVariation = (RoundedDouble) 0.05 - }; - // Call var input = new ClosingStructuresInput(); // Assert - Assert.IsInstanceOf(input); - Assert.IsInstanceOf(input); + Assert.IsInstanceOf>(input); - Assert.IsNull(input.HydraulicBoundaryLocation); - Assert.IsNull(input.ClosingStructure); - - AssertEqualValue(double.NaN, input.StructureNormalOrientation); - Assert.AreEqual(2, input.StructureNormalOrientation.NumberOfDecimalPlaces); - - Assert.IsNull(input.ForeshoreProfile); - Assert.IsFalse(input.UseBreakWater); - Assert.AreEqual(BreakWaterType.Dam, input.BreakWater.Type); - Assert.AreEqual(0, input.BreakWater.Height.Value); - Assert.AreEqual(2, input.BreakWater.Height.NumberOfDecimalPlaces); - Assert.IsFalse(input.UseForeshore); - CollectionAssert.IsEmpty(input.ForeshoreGeometry); - Assert.IsNaN(input.FailureProbabilityOpenStructure); - Assert.IsNaN(input.FailureProbabilityStructureWithErosion); Assert.IsNaN(input.FailureProbabilityReparation); Assert.IsNaN(input.FactorStormDurationOpenStructure); Assert.IsNaN(input.DeviationWaveDirection); DistributionAssert.AreEqual(insideWaterLevel, input.InsideWaterLevel); - DistributionAssert.AreEqual(stormDuration, input.StormDuration); - DistributionAssert.AreEqual(modelFactorSuperCriticalFlow, input.ModelFactorSuperCriticalFlow); DistributionAssert.AreEqual(drainCoefficient, input.DrainCoefficient); DistributionAssert.AreEqual(thresholdHeightOpenWeir, input.ThresholdHeightOpenWeir); DistributionAssert.AreEqual(areaFlowApertures, input.AreaFlowApertures); DistributionAssert.AreEqual(levelCrestStructureNotClosing, input.LevelCrestStructureNotClosing); - DistributionAssert.AreEqual(allowedLevelIncreaseStorage, input.AllowedLevelIncreaseStorage); - DistributionAssert.AreEqual(storageStructureArea, input.StorageStructureArea); - DistributionAssert.AreEqual(flowWidthAtBottomProtection, input.FlowWidthAtBottomProtection); - DistributionAssert.AreEqual(criticalOvertoppingDischarge, input.CriticalOvertoppingDischarge); - DistributionAssert.AreEqual(widthFlowApertures, input.WidthFlowApertures); Assert.AreEqual(1.0, input.ProbabilityOpenStructureBeforeFlooding); Assert.AreEqual(0, input.IdenticalApertures); @@ -175,184 +106,6 @@ } [Test] - public void Properties_HydraulicBoundaryLocation_ExpectedValues() - { - // Setup - var input = new ClosingStructuresInput(); - var location = new HydraulicBoundaryLocation(0, "test", 0, 0); - - // Call - input.HydraulicBoundaryLocation = location; - - // Assert - Assert.AreSame(location, input.HydraulicBoundaryLocation); - } - - [Test] - [Combinatorial] - public void ForeshoreProfile_SetNewValue_InputSyncedAccordingly( - [Values(true, false)] bool withBreakWater, - [Values(true, false)] bool withValidForeshore) - { - // Setup - var input = new ClosingStructuresInput(); - BreakWaterType originalBreakWaterType = input.BreakWater.Type; - RoundedDouble originalBreakWaterHeight = input.BreakWater.Height; - HydraulicBoundaryLocation originalHydraulicBoundaryLocation = input.HydraulicBoundaryLocation; - - var foreshoreGeometry = new List - { - new Point2D(2.2, 3.3) - }; - - if (withValidForeshore) - { - foreshoreGeometry.Add(new Point2D(4.4, 5.5)); - } - - BreakWater breakWater = null; - if (withBreakWater) - { - var nonDefaultBreakWaterType = BreakWaterType.Wall; - var nonDefaultBreakWaterHeight = 5.5; - - // Precondition - Assert.AreNotEqual(nonDefaultBreakWaterType, input.BreakWater.Type); - Assert.AreNotEqual(nonDefaultBreakWaterHeight, input.BreakWater.Height); - - breakWater = new BreakWater(nonDefaultBreakWaterType, nonDefaultBreakWaterHeight); - } - - double orientation = 96; - var foreshoreProfile = new ForeshoreProfile(new Point2D(0, 0), - foreshoreGeometry.ToArray(), - breakWater, - new ForeshoreProfile.ConstructionProperties - { - Orientation = orientation - }); - - // Call - input.ForeshoreProfile = foreshoreProfile; - - // Assert - Assert.AreSame(foreshoreProfile, input.ForeshoreProfile); - Assert.AreEqual(withBreakWater, input.UseBreakWater); - Assert.AreEqual(withBreakWater ? foreshoreProfile.BreakWater.Type : originalBreakWaterType, input.BreakWater.Type); - Assert.AreEqual(withBreakWater ? foreshoreProfile.BreakWater.Height : originalBreakWaterHeight, input.BreakWater.Height); - Assert.AreEqual(withValidForeshore, input.UseForeshore); - CollectionAssert.AreEqual(foreshoreProfile.Geometry, input.ForeshoreGeometry); - Assert.AreEqual(originalHydraulicBoundaryLocation, input.HydraulicBoundaryLocation); - } - - [Test] - public void Foreshore_SetNullValue_InputSyncedToDefaults() - { - // Setup - var input = new ClosingStructuresInput(); - BreakWaterType originalBreakWaterType = input.BreakWater.Type; - RoundedDouble originalBreakWaterHeight = input.BreakWater.Height; - HydraulicBoundaryLocation originalHydraulicBoundaryLocation = input.HydraulicBoundaryLocation; - - var foreshoreProfile = new ForeshoreProfile(new Point2D(0, 0), - new[] - { - new Point2D(3.3, 4.4), - new Point2D(5.5, 6.6) - }, - new BreakWater(BreakWaterType.Caisson, 2.2), - new ForeshoreProfile.ConstructionProperties - { - Orientation = 96 - }); - - input.ForeshoreProfile = foreshoreProfile; - - // Precondition - Assert.AreSame(foreshoreProfile, input.ForeshoreProfile); - Assert.IsTrue(input.UseBreakWater); - Assert.AreNotEqual(originalBreakWaterType, input.BreakWater.Type); - Assert.AreNotEqual(originalBreakWaterHeight, input.BreakWater.Height); - Assert.IsTrue(input.UseForeshore); - CollectionAssert.IsNotEmpty(input.ForeshoreGeometry); - Assert.AreEqual(originalHydraulicBoundaryLocation, input.HydraulicBoundaryLocation); - - // Call - input.ForeshoreProfile = null; - - // Assert - Assert.IsFalse(input.UseBreakWater); - Assert.AreEqual(originalBreakWaterType, input.BreakWater.Type); - Assert.AreEqual(originalBreakWaterHeight, input.BreakWater.Height); - Assert.IsFalse(input.UseForeshore); - CollectionAssert.IsEmpty(input.ForeshoreGeometry); - Assert.AreEqual(originalHydraulicBoundaryLocation, input.HydraulicBoundaryLocation); - } - - [Test] - [TestCase(360.004)] - [TestCase(300)] - [TestCase(0)] - [TestCase(-0.004)] - [TestCase(double.NaN)] - public void Properties_StructureNormalOrientationValidValues_NewValueSet(double orientation) - { - // Setup - var input = new ClosingStructuresInput(); - - // Call - input.StructureNormalOrientation = (RoundedDouble) orientation; - - // Assert - Assert.AreEqual(2, input.StructureNormalOrientation.NumberOfDecimalPlaces); - AssertEqualValue(orientation, input.StructureNormalOrientation); - } - - [Test] - [TestCase(400)] - [TestCase(360.05)] - [TestCase(-0.005)] - [TestCase(-23)] - [TestCase(double.PositiveInfinity)] - [TestCase(double.NegativeInfinity)] - public void Properties_StructureNormalOrientationInValidValues_ThrowsArgumentOutOfRangeException(double invalidValue) - { - // Setup - var input = new ClosingStructuresInput(); - - // Call - TestDelegate call = () => input.StructureNormalOrientation = (RoundedDouble) invalidValue; - - // Assert - TestHelper.AssertThrowsArgumentExceptionAndTestMessage(call, "De waarde voor de oriƫntatie moet in het bereik tussen [0, 360] graden liggen."); - } - - [Test] - public void Properties_ModelFactorSuperCriticalFlow_ExpectedValues() - { - // Setup - var random = new Random(22); - var input = new ClosingStructuresInput(); - var mean = (RoundedDouble) (0.01 + random.NextDouble()); - var expectedDistribution = new NormalDistribution(2) - { - Mean = mean, - StandardDeviation = input.ModelFactorSuperCriticalFlow.StandardDeviation - }; - var distributionToSet = new NormalDistribution(5) - { - Mean = mean, - StandardDeviation = (RoundedDouble) random.NextDouble() - }; - - // Call - input.ModelFactorSuperCriticalFlow = distributionToSet; - - // Assert - AssertDistributionCorrectlySet(input.ModelFactorSuperCriticalFlow, distributionToSet, expectedDistribution); - } - - [Test] public void Properties_FactorStormDurationOpenStructure_ExpectedValues() { // Setup @@ -366,7 +119,7 @@ // Assert Assert.AreEqual(2, input.FactorStormDurationOpenStructure.NumberOfDecimalPlaces); - AssertEqualValue(factorStormDuration, input.FactorStormDurationOpenStructure); + AssertAreEqual(factorStormDuration, input.FactorStormDurationOpenStructure); } [Test] @@ -579,120 +332,33 @@ } [Test] - public void Properties_AllowedLevelIncreaseStorage_ExpectedValues() + public void Properties_DeviationWaveDirection_ExpectedValues() { // Setup - var random = new Random(22); var input = new ClosingStructuresInput(); - var mean = (RoundedDouble) (0.01 + random.NextDouble()); - var standardDeviation = (RoundedDouble) (0.01 + random.NextDouble()); - var expectedDistribution = new LogNormalDistribution(2) - { - Mean = mean, - StandardDeviation = standardDeviation - }; - var distributionToSet = new LogNormalDistribution(5) - { - Mean = mean, - StandardDeviation = standardDeviation - }; - - // Call - input.AllowedLevelIncreaseStorage = distributionToSet; - - // Assert - AssertDistributionCorrectlySet(input.AllowedLevelIncreaseStorage, distributionToSet, expectedDistribution); - } - - [Test] - public void Properties_StorageStructureArea_ExpectedValues() - { - // Setup var random = new Random(22); - var input = new ClosingStructuresInput(); - var mean = (RoundedDouble) (0.01 + random.NextDouble()); - var variation = (RoundedDouble) (0.01 + random.NextDouble()); - var expectedDistribution = new VariationCoefficientLogNormalDistribution(2) - { - Mean = mean, - CoefficientOfVariation = variation - }; - var distributionToSet = new VariationCoefficientLogNormalDistribution(5) - { - Mean = mean, - CoefficientOfVariation = variation - }; - // Call - input.StorageStructureArea = distributionToSet; + var deviationWaveDirection = new RoundedDouble(5, random.NextDouble()); - // Assert - AssertDistributionCorrectlySet(input.StorageStructureArea, distributionToSet, expectedDistribution); - } - - [Test] - public void Properties_FlowWidthAtBottomProtection_ExpectedValues() - { - // Setup - var random = new Random(22); - var input = new ClosingStructuresInput(); - var mean = (RoundedDouble) (0.01 + random.NextDouble()); - var standardDeviation = (RoundedDouble) (0.01 + random.NextDouble()); - var expectedDistribution = new LogNormalDistribution(2) - { - Mean = mean, - StandardDeviation = standardDeviation - }; - var distributionToSet = new LogNormalDistribution(5) - { - Mean = mean, - StandardDeviation = standardDeviation - }; - // Call - input.FlowWidthAtBottomProtection = distributionToSet; + input.DeviationWaveDirection = deviationWaveDirection; // Assert - AssertDistributionCorrectlySet(input.FlowWidthAtBottomProtection, distributionToSet, expectedDistribution); + Assert.AreEqual(2, input.DeviationWaveDirection.NumberOfDecimalPlaces); + AssertAreEqual(deviationWaveDirection, input.DeviationWaveDirection); } [Test] - public void Properties_CriticalOvertoppingDischarge_ExpectedValues() - { - // Setup - var random = new Random(22); - var input = new ClosingStructuresInput(); - var mean = (RoundedDouble) (0.01 + random.NextDouble()); - var variation = (RoundedDouble) (0.01 + random.NextDouble()); - var expectedDistribution = new VariationCoefficientLogNormalDistribution(2) - { - Mean = mean, - CoefficientOfVariation = variation - }; - var distributionToSet = new VariationCoefficientLogNormalDistribution(5) - { - Mean = mean, - CoefficientOfVariation = variation - }; - - // Call - input.CriticalOvertoppingDischarge = distributionToSet; - - // Assert - AssertDistributionCorrectlySet(input.CriticalOvertoppingDischarge, distributionToSet, expectedDistribution); - } - - [Test] [TestCase(-1.1)] [TestCase(2)] [TestCase(double.NaN)] - public void Properties_FailureProbabilityStructureWithErosion_ThrowArgumentOutOfRangeException(double probability) + public void Properties_ProbabilityOpenStructureBeforeFlooding_ThrowArgumentException(double probability) { // Setup var input = new ClosingStructuresInput(); // Call - TestDelegate call = () => input.FailureProbabilityStructureWithErosion = probability; + TestDelegate call = () => input.ProbabilityOpenStructureBeforeFlooding = probability; // Assert TestHelper.AssertThrowsArgumentExceptionAndTestMessage(call, "De waarde voor de faalkans moet in het bereik tussen [0, 1] liggen."); @@ -702,120 +368,90 @@ [TestCase(0)] [TestCase(0.5)] [TestCase(1.0)] - public void Properties_FailureProbabilityStructureWithErosion_ExpectedValues(double probability) + public void Properties_ProbabilityOpenStructureBeforeFlooding_ExpectedValues(double probability) { // Setup var input = new ClosingStructuresInput(); // Call - input.FailureProbabilityStructureWithErosion = probability; + input.ProbabilityOpenStructureBeforeFlooding = probability; // Assert - Assert.AreEqual(probability, input.FailureProbabilityStructureWithErosion); + Assert.AreEqual(probability, input.ProbabilityOpenStructureBeforeFlooding); } [Test] - public void Properties_WidthFlowApertures_ExpectedValues() + public void Properties_StructureNull_DoesNotChangeValues() { - // Setup - var random = new Random(22); var input = new ClosingStructuresInput(); - var mean = (RoundedDouble) (0.01 + random.NextDouble()); - var variation = (RoundedDouble) (0.01 + random.NextDouble()); - var expectedDistribution = new VariationCoefficientNormalDistribution(2) - { - Mean = mean, - CoefficientOfVariation = variation - }; - var distributionToSet = new VariationCoefficientNormalDistribution(5) - { - Mean = mean, - CoefficientOfVariation = variation - }; // Call - input.WidthFlowApertures = distributionToSet; + input.Structure = null; // Assert - AssertDistributionCorrectlySet(input.WidthFlowApertures, distributionToSet, expectedDistribution); + AssertClosingStructure(null, input); } [Test] - public void Properties_DeviationWaveDirection_ExpectedValues() + public void Properties_Structure_UpdateValuesAccordingly() { // Setup var input = new ClosingStructuresInput(); - var random = new Random(22); + TestClosingStructure structure = new TestClosingStructure(); - var deviationWaveDirection = new RoundedDouble(5, random.NextDouble()); - // Call - input.DeviationWaveDirection = deviationWaveDirection; + input.Structure = structure; // Assert - Assert.AreEqual(2, input.DeviationWaveDirection.NumberOfDecimalPlaces); - AssertEqualValue(deviationWaveDirection, input.DeviationWaveDirection); + AssertClosingStructure(structure, input); } - [Test] - public void Properties_StormDuration_ExpectedValues() + private static void AssertClosingStructure(ClosingStructure expectedClosingStructure, ClosingStructuresInput input) { - // Setup - var random = new Random(22); - var input = new ClosingStructuresInput(); - var mean = (RoundedDouble) (0.01 + random.NextDouble()); - var expectedDistribution = new VariationCoefficientLogNormalDistribution(2) + if (expectedClosingStructure == null) { - Mean = mean, - CoefficientOfVariation = input.StormDuration.CoefficientOfVariation - }; - var distributionToSet = new VariationCoefficientLogNormalDistribution(5) + Assert.IsNull(input.Structure); + var defaultInput = new ClosingStructuresInput(); + AssertAreEqual(defaultInput.StructureNormalOrientation, input.StructureNormalOrientation); + + DistributionAssert.AreEqual(defaultInput.LevelCrestStructureNotClosing, input.LevelCrestStructureNotClosing); + DistributionAssert.AreEqual(defaultInput.FlowWidthAtBottomProtection, input.FlowWidthAtBottomProtection); + DistributionAssert.AreEqual(defaultInput.CriticalOvertoppingDischarge, input.CriticalOvertoppingDischarge); + DistributionAssert.AreEqual(defaultInput.WidthFlowApertures, input.WidthFlowApertures); + DistributionAssert.AreEqual(defaultInput.StorageStructureArea, input.StorageStructureArea); + DistributionAssert.AreEqual(defaultInput.AllowedLevelIncreaseStorage, input.AllowedLevelIncreaseStorage); + Assert.AreEqual(defaultInput.InflowModelType, input.InflowModelType); + DistributionAssert.AreEqual(defaultInput.AreaFlowApertures, input.AreaFlowApertures); + Assert.AreEqual(defaultInput.FailureProbabilityOpenStructure, input.FailureProbabilityOpenStructure); + Assert.AreEqual(defaultInput.FailureProbabilityReparation, input.FailureProbabilityReparation); + Assert.AreEqual(defaultInput.IdenticalApertures, input.IdenticalApertures); + DistributionAssert.AreEqual(defaultInput.InsideWaterLevel, input.InsideWaterLevel); + Assert.AreEqual(defaultInput.ProbabilityOpenStructureBeforeFlooding, input.ProbabilityOpenStructureBeforeFlooding); + DistributionAssert.AreEqual(defaultInput.ThresholdHeightOpenWeir, input.ThresholdHeightOpenWeir); + } + else { - Mean = mean, - CoefficientOfVariation = (RoundedDouble) random.NextDouble() - }; + AssertAreEqual(expectedClosingStructure.StructureNormalOrientation, input.StructureNormalOrientation); - // Call - input.StormDuration = distributionToSet; - - // Assert - AssertDistributionCorrectlySet(input.StormDuration, distributionToSet, expectedDistribution); + DistributionAssert.AreEqual(expectedClosingStructure.LevelCrestStructureNotClosing, input.LevelCrestStructureNotClosing); + DistributionAssert.AreEqual(expectedClosingStructure.FlowWidthAtBottomProtection, input.FlowWidthAtBottomProtection); + DistributionAssert.AreEqual(expectedClosingStructure.CriticalOvertoppingDischarge, input.CriticalOvertoppingDischarge); + DistributionAssert.AreEqual(expectedClosingStructure.WidthFlowApertures, input.WidthFlowApertures); + DistributionAssert.AreEqual(expectedClosingStructure.StorageStructureArea, input.StorageStructureArea); + DistributionAssert.AreEqual(expectedClosingStructure.AllowedLevelIncreaseStorage, input.AllowedLevelIncreaseStorage); + Assert.AreEqual(expectedClosingStructure.InflowModelType, input.InflowModelType); + DistributionAssert.AreEqual(expectedClosingStructure.AreaFlowApertures, input.AreaFlowApertures); + Assert.AreEqual(expectedClosingStructure.FailureProbabilityOpenStructure, input.FailureProbabilityOpenStructure); + Assert.AreEqual(expectedClosingStructure.FailureProbabilityReparation, input.FailureProbabilityReparation); + Assert.AreEqual(expectedClosingStructure.IdenticalApertures, input.IdenticalApertures); + DistributionAssert.AreEqual(expectedClosingStructure.InsideWaterLevel, input.InsideWaterLevel); + Assert.AreEqual(expectedClosingStructure.ProbabilityOpenStructureBeforeFlooding, input.ProbabilityOpenStructureBeforeFlooding); + DistributionAssert.AreEqual(expectedClosingStructure.ThresholdHeightOpenWeir, input.ThresholdHeightOpenWeir); + } } - - [Test] - [TestCase(-1.1)] - [TestCase(2)] - [TestCase(double.NaN)] - public void Properties_ProbabilityOpenStructureBeforeFlooding_ThrowArgumentException(double probability) + + private static void AssertAreEqual(double expectedValue, RoundedDouble actualValue) { - // Setup - var input = new ClosingStructuresInput(); - - // Call - TestDelegate call = () => input.ProbabilityOpenStructureBeforeFlooding = probability; - - // Assert - TestHelper.AssertThrowsArgumentExceptionAndTestMessage(call, "De waarde voor de faalkans moet in het bereik tussen [0, 1] liggen."); - } - - [Test] - [TestCase(0)] - [TestCase(0.5)] - [TestCase(1.0)] - public void Properties_ProbabilityOpenStructureBeforeFlooding_ExpectedValues(double probability) - { - // Setup - var input = new ClosingStructuresInput(); - - // Call - input.ProbabilityOpenStructureBeforeFlooding = probability; - - // Assert - Assert.AreEqual(probability, input.ProbabilityOpenStructureBeforeFlooding); - } - - private static void AssertEqualValue(double expectedValue, RoundedDouble actualValue) - { Assert.AreEqual(expectedValue, actualValue, actualValue.GetAccuracy()); } @@ -824,11 +460,5 @@ Assert.AreNotSame(setDistribution, distributionToAssert); DistributionAssert.AreEqual(expectedDistribution, distributionToAssert); } - - private static void AssertDistributionCorrectlySet(IVariationCoefficientDistribution distributionToAssert, IVariationCoefficientDistribution setDistribution, IVariationCoefficientDistribution expectedDistribution) - { - Assert.AreNotSame(setDistribution, distributionToAssert); - DistributionAssert.AreEqual(expectedDistribution, distributionToAssert); - } } } \ No newline at end of file