// Copyright (C) Stichting Deltares 2016. All rights reserved.
//
// This file is part of Ringtoets.
//
// Ringtoets is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see .
//
// All names, logos, and references to "Deltares" are registered trademarks of
// Stichting Deltares and remain full property of Stichting Deltares at all times.
// All rights reserved.
using System;
using System.ComponentModel;
using System.Globalization;
using Core.Common.Base;
using Core.Common.Base.Data;
using Core.Common.Gui.PropertyBag;
using Core.Common.TestUtil;
using NUnit.Framework;
using Rhino.Mocks;
using Ringtoets.Common.Data.AssessmentSection;
using Ringtoets.Common.Data.TestUtil;
using Ringtoets.Common.Forms.PropertyClasses;
using Ringtoets.HeightStructures.Data;
using Ringtoets.HeightStructures.Forms.PresentationObjects;
using Ringtoets.HeightStructures.Forms.Properties;
using Ringtoets.HeightStructures.Forms.PropertyClasses;
using Ringtoets.HydraRing.Data;
using CoreCommonBasePropertiesResources = Core.Common.Base.Properties.Resources;
namespace Ringtoets.HeightStructures.Forms.Test.PropertyClasses
{
[TestFixture]
public class HeightStructuresInputContextPropertiesTest
{
private MockRepository mockRepository;
[SetUp]
public void SetUp()
{
mockRepository = new MockRepository();
}
[Test]
public void Constructor_ExpectedValues()
{
// Call
var properties = new HeightStructuresInputContextProperties();
// Assert
Assert.IsInstanceOf>(properties);
Assert.IsNull(properties.Data);
}
[Test]
public void Data_SetNewInputContextInstance_ReturnCorrectPropertyValues()
{
// Setup
var assessmentSectionMock = mockRepository.StrictMock();
mockRepository.ReplayAll();
var failureMechanism = new HeightStructuresFailureMechanism();
var calculation = new HeightStructuresCalculation();
var input = new HeightStructuresInput();
var properties = new HeightStructuresInputContextProperties();
var inputContext = new HeightStructuresInputContext(input, calculation, failureMechanism, assessmentSectionMock);
// Call
properties.Data = inputContext;
// Assert
var modelFactorOvertoppingSuperCriticalFlowProperties = new NormalDistributionProperties
{
Data = input.ModelFactorOvertoppingSuperCriticalFlow
};
AssertDistributionProperties(modelFactorOvertoppingSuperCriticalFlowProperties, properties.ModelFactorOvertoppingSuperCriticalFlow);
Assert.AreEqual(input.OrientationOfTheNormalOfTheStructure, properties.OrientationOfTheNormalOfTheStructure);
var levelOfCrestOfStructureProperties = new NormalDistributionProperties
{
Data = input.LevelOfCrestOfStructure
};
AssertDistributionProperties(levelOfCrestOfStructureProperties, properties.LevelOfCrestOfStructure);
var allowableIncreaseOfLevelForStorageProperties = new LogNormalDistributionProperties
{
Data = input.AllowableIncreaseOfLevelForStorage
};
AssertDistributionProperties(allowableIncreaseOfLevelForStorageProperties, properties.AllowableIncreaseOfLevelForStorage);
var storageStructureAreaProperties = new LogNormalDistributionVariationProperties
{
Data = input.StorageStructureArea
};
AssertLogNormalDistributionVariationProperties(storageStructureAreaProperties, properties.StorageStructureArea);
var flowWidthAtBottomProtectionProperties = new LogNormalDistributionProperties
{
Data = input.FlowWidthAtBottomProtection
};
AssertDistributionProperties(flowWidthAtBottomProtectionProperties, properties.FlowWidthAtBottomProtection);
var widthOfFlowAperturesProperties = new NormalDistributionVariationProperties
{
Data = input.WidthOfFlowApertures
};
AssertDistributionProperties(widthOfFlowAperturesProperties, properties.WidthOfFlowApertures);
var criticalOvertoppingDischargeProperties = new LogNormalDistributionVariationProperties
{
Data = input.CriticalOvertoppingDischarge
};
AssertLogNormalDistributionVariationProperties(criticalOvertoppingDischargeProperties, properties.CriticalOvertoppingDischarge);
var expectedFailureProbabilityOfStructureGivenErosion = string.Format(CoreCommonBasePropertiesResources.ProbabilityPerYearFormat,
input.FailureProbabilityOfStructureGivenErosion);
Assert.AreEqual(expectedFailureProbabilityOfStructureGivenErosion, properties.FailureProbabilityOfStructureGivenErosion);
Assert.AreEqual(input.HydraulicBoundaryLocation, properties.HydraulicBoundaryLocation);
var stormDurationProperties = new LogNormalDistributionVariationProperties
{
Data = input.StormDuration
};
AssertLogNormalDistributionVariationProperties(stormDurationProperties, properties.StormDuration);
mockRepository.VerifyAll();
}
[Test]
public void SetProperties_IndividualProperties_UpdateDataAndNotifyObservers()
{
// Setup
var observerMock = mockRepository.StrictMock();
const int numberProperties = 3;
observerMock.Expect(o => o.UpdateObserver()).Repeat.Times(numberProperties);
var hydraulicBoundaryLocation = new HydraulicBoundaryLocation(0, "name", 0.0, 1.1);
var assessmentSectionMock = mockRepository.StrictMock();
mockRepository.ReplayAll();
var failureMechanism = new HeightStructuresFailureMechanism();
var calculation = new HeightStructuresCalculation();
var input = calculation.InputParameters;
input.Attach(observerMock);
var inputContext = new HeightStructuresInputContext(input, calculation, failureMechanism, assessmentSectionMock);
var properties = new HeightStructuresInputContextProperties
{
Data = inputContext
};
var random = new Random(100);
var newOrientationOfTheNormalOfTheStructure = new RoundedDouble(2, random.NextDouble());
// Call
properties.OrientationOfTheNormalOfTheStructure = newOrientationOfTheNormalOfTheStructure;
properties.FailureProbabilityOfStructureGivenErosion = "1e-2";
properties.HydraulicBoundaryLocation = hydraulicBoundaryLocation;
// Assert
Assert.AreEqual(newOrientationOfTheNormalOfTheStructure, properties.OrientationOfTheNormalOfTheStructure);
Assert.AreEqual(0.01, input.FailureProbabilityOfStructureGivenErosion, input.FailureProbabilityOfStructureGivenErosion.GetAccuracy());
Assert.AreEqual("1/100", properties.FailureProbabilityOfStructureGivenErosion);
Assert.AreSame(hydraulicBoundaryLocation, properties.HydraulicBoundaryLocation);
mockRepository.VerifyAll();
}
[Test]
[TestCase(double.MaxValue)]
public void SetFailureProbabilityOfStructureGivenErosion_InvalidValues_ThrowsArgumentException(double newValue)
{
// Setup
var assessmentSectionMock = mockRepository.StrictMock();
mockRepository.ReplayAll();
var failureMechanism = new HeightStructuresFailureMechanism();
var calculation = new HeightStructuresCalculation();
var input = new HeightStructuresInput();
var inputContext = new HeightStructuresInputContext(input, calculation, failureMechanism, assessmentSectionMock);
var properties = new HeightStructuresInputContextProperties
{
Data = inputContext
};
// Call
TestDelegate call = () => properties.FailureProbabilityOfStructureGivenErosion = newValue.ToString(CultureInfo.InvariantCulture);
// Assert
TestHelper.AssertThrowsArgumentExceptionAndTestMessage(call, Resources.FailureProbabilityOfStructureGivenErosion_Value_too_large);
}
[Test]
[TestCase("no double value")]
[TestCase("")]
public void SetFailureProbabilityOfStructureGivenErosion_ValuesUnableToParse_ThrowsArgumentException(string newValue)
{
// Setup
var assessmentSectionMock = mockRepository.StrictMock();
mockRepository.ReplayAll();
var failureMechanism = new HeightStructuresFailureMechanism();
var calculation = new HeightStructuresCalculation();
var input = new HeightStructuresInput();
var inputContext = new HeightStructuresInputContext(input, calculation, failureMechanism, assessmentSectionMock);
var properties = new HeightStructuresInputContextProperties
{
Data = inputContext
};
// Call
TestDelegate call = () => properties.FailureProbabilityOfStructureGivenErosion = newValue;
// Assert
TestHelper.AssertThrowsArgumentExceptionAndTestMessage(call, Resources.FailureProbabilityOfStructureGivenErosion_Could_not_parse_string_to_double_value);
}
[Test]
public void SetFailureProbabilityOfStructureGivenErosion_NullValue_ThrowsArgumentException()
{
// Setup
var assessmentSectionMock = mockRepository.StrictMock();
mockRepository.ReplayAll();
var failureMechanism = new HeightStructuresFailureMechanism();
var calculation = new HeightStructuresCalculation();
var input = new HeightStructuresInput();
var inputContext = new HeightStructuresInputContext(input, calculation, failureMechanism, assessmentSectionMock);
var properties = new HeightStructuresInputContextProperties
{
Data = inputContext
};
// Call
TestDelegate call = () => properties.FailureProbabilityOfStructureGivenErosion = null;
// Assert
TestHelper.AssertThrowsArgumentExceptionAndTestMessage(call, Resources.FailureProbabilityOfStructureGivenErosion_Value_cannot_be_null);
}
[Test]
public void PropertyAttributes_ReturnExpectedValues()
{
// Setup
var assessmentSectionMock = mockRepository.StrictMock();
mockRepository.ReplayAll();
var failureMechanism = new HeightStructuresFailureMechanism();
var calculation = new HeightStructuresCalculation();
var input = new HeightStructuresInput();
var inputContext = new HeightStructuresInputContext(input, calculation, failureMechanism, assessmentSectionMock);
// Call
var properties = new HeightStructuresInputContextProperties
{
Data = inputContext
};
// Assert
var dynamicPropertyBag = new DynamicPropertyBag(properties);
PropertyDescriptorCollection dynamicProperties = dynamicPropertyBag.GetProperties();
Assert.AreEqual(12, dynamicProperties.Count);
PropertyDescriptor orientationOfTheNormalOfTheStructureProperty = dynamicProperties[orientationOfTheNormalOfTheStructurePropertyIndex];
Assert.IsFalse(orientationOfTheNormalOfTheStructureProperty.IsReadOnly);
Assert.AreEqual("Schematisatie", orientationOfTheNormalOfTheStructureProperty.Category);
Assert.AreEqual("Oriëntatie [°]", orientationOfTheNormalOfTheStructureProperty.DisplayName);
Assert.AreEqual("Oriëntatie van het kunstwerk.", orientationOfTheNormalOfTheStructureProperty.Description);
PropertyDescriptor levelOfCrestOfStructureProperty = dynamicProperties[levelOfCrestOfStructurePropertyIndex];
Assert.IsTrue(levelOfCrestOfStructureProperty.Converter is ExpandableObjectConverter);
Assert.AreEqual("Schematisatie", levelOfCrestOfStructureProperty.Category);
Assert.AreEqual("Kerende hoogte [m]", levelOfCrestOfStructureProperty.DisplayName);
Assert.AreEqual("De kerende hoogte van het kunstwerk.", levelOfCrestOfStructureProperty.Description);
PropertyDescriptor allowableIncreaseOfLevelForStorageProperty = dynamicProperties[allowableIncreaseOfLevelForStoragePropertyIndex];
Assert.IsTrue(allowableIncreaseOfLevelForStorageProperty.Converter is ExpandableObjectConverter);
Assert.AreEqual("Schematisatie", allowableIncreaseOfLevelForStorageProperty.Category);
Assert.AreEqual("Toegestane peilverhoging komberging [m]", allowableIncreaseOfLevelForStorageProperty.DisplayName);
Assert.AreEqual("De toegestane peilverhoging op het kombergend oppervlak.", allowableIncreaseOfLevelForStorageProperty.Description);
PropertyDescriptor storageStructureAreaProperty = dynamicProperties[storageStructureAreaPropertyIndex];
Assert.IsTrue(storageStructureAreaProperty.Converter is ExpandableObjectConverter);
Assert.AreEqual("Schematisatie", storageStructureAreaProperty.Category);
Assert.AreEqual("Kombergend oppervlak [m²]", storageStructureAreaProperty.DisplayName);
Assert.AreEqual("Het kombergend oppervlak.", storageStructureAreaProperty.Description);
PropertyDescriptor flowWidthAtBottomProtectionProperty = dynamicProperties[flowWidthAtBottomProtectionPropertyIndex];
Assert.IsTrue(flowWidthAtBottomProtectionProperty.Converter is ExpandableObjectConverter);
Assert.AreEqual("Schematisatie", flowWidthAtBottomProtectionProperty.Category);
Assert.AreEqual("Stroomvoerende breedte bij bodembescherming [m]", flowWidthAtBottomProtectionProperty.DisplayName);
Assert.AreEqual("De stroomvoerende breedte bij bodembescherming.", flowWidthAtBottomProtectionProperty.Description);
PropertyDescriptor widthOfFlowAperturesProperty = dynamicProperties[widthOfFlowAperturesPropertyIndex];
Assert.IsTrue(widthOfFlowAperturesProperty.Converter is ExpandableObjectConverter);
Assert.AreEqual("Schematisatie", widthOfFlowAperturesProperty.Category);
Assert.AreEqual("Breedte van de kruin van het kunstwerk [m]", widthOfFlowAperturesProperty.DisplayName);
Assert.AreEqual("De breedte van de kruin van het kunstwerk.", widthOfFlowAperturesProperty.Description);
PropertyDescriptor criticalOvertoppingDischargeProperty = dynamicProperties[criticalOvertoppingDischargePropertyIndex];
Assert.IsTrue(criticalOvertoppingDischargeProperty.Converter is ExpandableObjectConverter);
Assert.AreEqual("Schematisatie", criticalOvertoppingDischargeProperty.Category);
Assert.AreEqual("Kritiek overslagdebiet [m³/s/m]", criticalOvertoppingDischargeProperty.DisplayName);
Assert.AreEqual("Het kritieke overslagdebiet per strekkende meter.", criticalOvertoppingDischargeProperty.Description);
PropertyDescriptor failureProbabilityOfStructureGivenErosionProperty = dynamicProperties[failureProbabilityOfStructureGivenErosionPropertyIndex];
Assert.IsFalse(failureProbabilityOfStructureGivenErosionProperty.IsReadOnly);
Assert.AreEqual("Schematisatie", failureProbabilityOfStructureGivenErosionProperty.Category);
Assert.AreEqual("Faalkans kunstwerk gegeven erosie bodem [-]", failureProbabilityOfStructureGivenErosionProperty.DisplayName);
Assert.AreEqual("De faalkans van het kunstwerk gegeven de erosie in de bodem.", failureProbabilityOfStructureGivenErosionProperty.Description);
PropertyDescriptor modelFactorOvertoppingSuperCriticalFlowProperty = dynamicProperties[modelFactorOvertoppingSuperCriticalFlowPropertyIndex];
Assert.IsTrue(modelFactorOvertoppingSuperCriticalFlowProperty.Converter is ExpandableObjectConverter);
Assert.AreEqual("Modelfactoren", modelFactorOvertoppingSuperCriticalFlowProperty.Category);
Assert.AreEqual("Modelfactor van overloopdebiet bij superkritische stroming [-]", modelFactorOvertoppingSuperCriticalFlowProperty.DisplayName);
Assert.AreEqual("Het modelfactor van overloopdebiet bij superkritische stroming.", modelFactorOvertoppingSuperCriticalFlowProperty.Description);
PropertyDescriptor hydraulicBoundaryLocationProperty = dynamicProperties[hydraulicBoundaryLocationPropertyIndex];
Assert.IsFalse(hydraulicBoundaryLocationProperty.IsReadOnly);
Assert.AreEqual("Hydraulische gegevens", hydraulicBoundaryLocationProperty.Category);
Assert.AreEqual("Locatie met hydraulische randvoorwaarden", hydraulicBoundaryLocationProperty.DisplayName);
Assert.AreEqual("De locatie met hydraulische randvoorwaarden.", hydraulicBoundaryLocationProperty.Description);
PropertyDescriptor stormDurationProperty = dynamicProperties[stormDurationPropertyIndex];
Assert.IsTrue(stormDurationProperty.Converter is ExpandableObjectConverter);
Assert.AreEqual("Hydraulische gegevens", stormDurationProperty.Category);
Assert.AreEqual("Stormduur [uur]", stormDurationProperty.DisplayName);
Assert.AreEqual("De duur van de storm.", stormDurationProperty.Description);
mockRepository.VerifyAll();
}
private static void AssertDistributionProperties(DistributionProperties expected, DistributionProperties actual)
{
Assert.AreEqual(expected.DistributionType, actual.DistributionType);
Assert.AreEqual(expected.Data, actual.Data);
}
private static void AssertLogNormalDistributionVariationProperties(LogNormalDistributionVariationProperties expected,
LogNormalDistributionVariationProperties actual)
{
Assert.AreEqual(expected.Data, actual.Data);
}
private const int orientationOfTheNormalOfTheStructurePropertyIndex = 0;
private const int levelOfCrestOfStructurePropertyIndex = 1;
private const int allowableIncreaseOfLevelForStoragePropertyIndex = 2;
private const int storageStructureAreaPropertyIndex = 3;
private const int flowWidthAtBottomProtectionPropertyIndex = 4;
private const int widthOfFlowAperturesPropertyIndex = 5;
private const int criticalOvertoppingDischargePropertyIndex = 6;
private const int failureProbabilityOfStructureGivenErosionPropertyIndex = 7;
private const int modelFactorOvertoppingSuperCriticalFlowPropertyIndex = 8;
private const int hydraulicBoundaryLocationPropertyIndex = 9;
private const int stormDurationPropertyIndex = 10;
}
}