// Copyright (C) Stichting Deltares 2017. 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 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.Piping.Data;
using Ringtoets.Piping.Data.TestUtil;
using Ringtoets.Piping.Forms.PropertyClasses;
namespace Ringtoets.Piping.Forms.Test.PropertyClasses
{
[TestFixture]
public class PipingOutputPropertiesTest
{
[Test]
public void Constructor_OutputNull_ThrowsArgumentNullException()
{
// Setup
var mocks = new MockRepository();
var assessmentSection = mocks.Stub();
mocks.ReplayAll();
// Call
TestDelegate test = () => new PipingOutputProperties(null, new PipingFailureMechanism(), assessmentSection);
// Assert
string paramName = Assert.Throws(test).ParamName;
Assert.AreEqual("output", paramName);
mocks.VerifyAll();
}
[Test]
public void Constructor_FailureMechanismNull_ThrowsArgumentNullException()
{
// Setup
var mocks = new MockRepository();
var assessmentSection = mocks.Stub();
mocks.ReplayAll();
// Call
TestDelegate test = () => new PipingOutputProperties(new TestPipingOutput(), null, assessmentSection);
// Assert
string paramName = Assert.Throws(test).ParamName;
Assert.AreEqual("failureMechanism", paramName);
mocks.VerifyAll();
}
[Test]
public void Constructore_AssessmentSectionNull_ThrowsArgumentNullException()
{
// Call
TestDelegate call = () => new PipingOutputProperties(new TestPipingOutput(), new PipingFailureMechanism(), null);
// Assert
var exception = Assert.Throws(call);
Assert.AreEqual("assessmentSection", exception.ParamName);
}
[Test]
public void Constructor_ExpectedValues()
{
// Setup
var failureMechanism = new PipingFailureMechanism();
var mocks = new MockRepository();
IAssessmentSection assessmentSection = AssessmentSectionHelper.CreateAssessmentSectionStub(failureMechanism, mocks);
var output = new TestPipingOutput();
// Call
var properties = new PipingOutputProperties(output, failureMechanism, assessmentSection);
// Assert
Assert.IsInstanceOf>(properties);
Assert.AreSame(output, properties.Data);
mocks.VerifyAll();
}
[Test]
public void GetProperties_WithData_ReturnExpectedValues()
{
// Setup
var failureMechanism = new PipingFailureMechanism();
var mocks = new MockRepository();
IAssessmentSection assessmentSection = AssessmentSectionHelper.CreateAssessmentSectionStub(failureMechanism, mocks);
var random = new Random(22);
double upliftEffectiveStress = random.NextDouble();
double heaveGradient = random.NextDouble();
double sellmeijerCreepCoefficient = random.NextDouble();
double sellmeijerCriticalFall = random.NextDouble();
double sellmeijerReducedFall = random.NextDouble();
double upliftFactorOfSafety = random.NextDouble();
double heaveFactorOfSafety = random.NextDouble();
double sellmeijerFactorOfSafety = random.NextDouble();
var output = new PipingOutput(new PipingOutput.ConstructionProperties
{
UpliftEffectiveStress = upliftEffectiveStress,
HeaveGradient = heaveGradient,
SellmeijerCreepCoefficient = sellmeijerCreepCoefficient,
SellmeijerCriticalFall = sellmeijerCriticalFall,
SellmeijerReducedFall = sellmeijerReducedFall,
UpliftFactorOfSafety = upliftFactorOfSafety,
HeaveFactorOfSafety = heaveFactorOfSafety,
SellmeijerFactorOfSafety = sellmeijerFactorOfSafety
});
// Call
var properties = new PipingOutputProperties(output, failureMechanism, assessmentSection);
// Assert
var expectedDerivedOutput = DerivedPipingOutputFactory.Create(output, failureMechanism.PipingProbabilityAssessmentInput,
assessmentSection.FailureMechanismContribution.Norm, failureMechanism.Contribution);
const string probabilityFormat = "1/{0:n0}";
Assert.AreEqual(upliftFactorOfSafety, properties.UpliftFactorOfSafety, properties.UpliftFactorOfSafety.GetAccuracy());
Assert.AreEqual(expectedDerivedOutput.UpliftReliability, properties.UpliftReliability, properties.UpliftReliability.GetAccuracy());
Assert.AreEqual(string.Format(probabilityFormat, 1.0 / expectedDerivedOutput.UpliftProbability), properties.UpliftProbability);
Assert.AreEqual(heaveFactorOfSafety, properties.HeaveFactorOfSafety, properties.HeaveFactorOfSafety.GetAccuracy());
Assert.AreEqual(expectedDerivedOutput.HeaveReliability, properties.HeaveReliability, properties.HeaveReliability.GetAccuracy());
Assert.AreEqual(string.Format(probabilityFormat, 1.0 / expectedDerivedOutput.HeaveProbability), properties.HeaveProbability);
Assert.AreEqual(sellmeijerFactorOfSafety, properties.SellmeijerFactorOfSafety, properties.SellmeijerFactorOfSafety.GetAccuracy());
Assert.AreEqual(expectedDerivedOutput.SellmeijerReliability, properties.SellmeijerReliability, properties.SellmeijerReliability.GetAccuracy());
Assert.AreEqual(string.Format(probabilityFormat, 1.0 / expectedDerivedOutput.SellmeijerProbability), properties.SellmeijerProbability);
Assert.AreEqual(string.Format(probabilityFormat, 1.0 / expectedDerivedOutput.RequiredProbability), properties.RequiredProbability);
Assert.AreEqual(expectedDerivedOutput.RequiredReliability, properties.RequiredReliability, properties.RequiredReliability.GetAccuracy());
Assert.AreEqual(string.Format(probabilityFormat, 1.0 / expectedDerivedOutput.PipingProbability), properties.PipingProbability);
Assert.AreEqual(expectedDerivedOutput.PipingReliability, properties.PipingReliability, properties.PipingReliability.GetAccuracy());
Assert.AreEqual(expectedDerivedOutput.PipingFactorOfSafety, properties.PipingFactorOfSafety, properties.PipingFactorOfSafety.GetAccuracy());
Assert.AreEqual(upliftEffectiveStress, properties.UpliftEffectiveStress, properties.UpliftEffectiveStress.GetAccuracy());
Assert.AreEqual(heaveGradient, properties.HeaveGradient, properties.HeaveGradient.GetAccuracy());
Assert.AreEqual(sellmeijerCreepCoefficient, properties.SellmeijerCreepCoefficient, properties.SellmeijerCreepCoefficient.GetAccuracy());
Assert.AreEqual(sellmeijerCriticalFall, properties.SellmeijerCriticalFall, properties.SellmeijerCriticalFall.GetAccuracy());
Assert.AreEqual(sellmeijerReducedFall, properties.SellmeijerReducedFall, properties.SellmeijerReducedFall.GetAccuracy());
mocks.VerifyAll();
}
[Test]
public void Constructor_Always_PropertiesHaveExpectedAttributesValues()
{
// Setup
var failureMechanism = new PipingFailureMechanism();
var mocks = new MockRepository();
IAssessmentSection assessmentSection = AssessmentSectionHelper.CreateAssessmentSectionStub(failureMechanism, mocks);
// Call
var properties = new PipingOutputProperties(new TestPipingOutput(), failureMechanism, assessmentSection);
// Assert
PropertyDescriptorCollection dynamicProperties = PropertiesTestHelper.GetAllVisiblePropertyDescriptors(properties);
Assert.AreEqual(19, dynamicProperties.Count);
const string heaveCategory = "\t\tHeave";
const string upliftCategory = "\t\t\tOpbarsten";
const string sellmeijerCategory = "\tTerugschrijdende erosie (Sellmeijer)";
const string pipingCategory = "Piping";
PropertyDescriptor upliftEffectiveStress = dynamicProperties[0];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(upliftEffectiveStress,
upliftCategory,
"Gewicht van de deklaag [kN/m²]",
"Het effectieve gewicht van de deklaag.",
true);
PropertyDescriptor upliftFactorOfSafetyProperty = dynamicProperties[1];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(upliftFactorOfSafetyProperty,
upliftCategory,
"Veiligheidsfactor [-]",
"De veiligheidsfactor voor het submechanisme opbarsten voor deze berekening.",
true);
PropertyDescriptor upliftReliabilityProperty = dynamicProperties[2];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(upliftReliabilityProperty,
upliftCategory,
"Betrouwbaarheidsindex [-]",
"De betrouwbaarheidsindex voor het submechanisme opbarsten voor deze berekening.",
true);
PropertyDescriptor upliftProbabilityProperty = dynamicProperties[3];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(upliftProbabilityProperty,
upliftCategory,
"Kans van voorkomen [1/jaar]",
"De kans dat het submechanisme opbarsten optreedt voor deze berekening.",
true);
PropertyDescriptor heaveGradientProperty = dynamicProperties[4];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(heaveGradientProperty,
heaveCategory,
"Heave gradiënt [-]",
"De optredende verticale gradiënt in het opbarstkanaal.",
true);
PropertyDescriptor heaveFactorOfSafetyProperty = dynamicProperties[5];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(heaveFactorOfSafetyProperty,
heaveCategory,
"Veiligheidsfactor [-]",
"De veiligheidsfactor voor het submechanisme heave voor deze berekening.",
true);
PropertyDescriptor heaveReliabilityProperty = dynamicProperties[6];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(heaveReliabilityProperty,
heaveCategory,
"Betrouwbaarheidsindex [-]",
"De betrouwbaarheidsindex voor het submechanisme heave voor deze berekening.",
true);
PropertyDescriptor heaveProbabilityProperty = dynamicProperties[7];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(heaveProbabilityProperty,
heaveCategory,
"Kans van voorkomen [1/jaar]",
"De kans dat het submechanisme heave optreedt voor deze berekening.",
true);
PropertyDescriptor sellmeijerCreepCoefficientProperty = dynamicProperties[8];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(sellmeijerCreepCoefficientProperty,
sellmeijerCategory,
"Creep coëfficiënt [-]",
"De verhouding tussen de kwelweglengte en het berekende kritieke verval op basis van de regel van Sellmeijer (analoog aan de vuistregel van Bligh).",
true);
PropertyDescriptor sellmeijerCriticalFallProperty = dynamicProperties[9];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(sellmeijerCriticalFallProperty,
sellmeijerCategory,
"Kritiek verval [m]",
"Het kritieke verval over de waterkering.",
true);
PropertyDescriptor sellmeijerReducedFallProperty = dynamicProperties[10];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(sellmeijerReducedFallProperty,
sellmeijerCategory,
"Gereduceerd verval [m]",
"Het verschil tussen de buitenwaterstand en de binnenwaterstand, gecorrigeerd voor de drukval in het opbarstkanaal.",
true);
PropertyDescriptor sellmeijerFactorOfSafetyProperty = dynamicProperties[11];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(sellmeijerFactorOfSafetyProperty,
sellmeijerCategory,
"Veiligheidsfactor [-]",
"De veiligheidsfactor voor het submechanisme terugschrijdende erosie (Sellmeijer) voor deze berekening.",
true);
PropertyDescriptor sellmeijerReliabilityProperty = dynamicProperties[12];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(sellmeijerReliabilityProperty,
sellmeijerCategory,
"Betrouwbaarheidsindex [-]",
"De betrouwbaarheidsindex voor het submechanisme terugschrijdende erosie (Sellmeijer) voor deze berekening.",
true);
PropertyDescriptor sellmeijerProbabilityProperty = dynamicProperties[13];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(sellmeijerProbabilityProperty,
sellmeijerCategory,
"Kans van voorkomen [1/jaar]",
"De kans dat het submechanisme terugschrijdende erosie (Sellmeijer) optreedt voor deze berekening.",
true);
PropertyDescriptor requiredProbabilityProperty = dynamicProperties[14];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(requiredProbabilityProperty,
pipingCategory,
"Faalkanseis [1/jaar]",
"De maximaal toegestane kans dat het toetsspoor piping optreedt.",
true);
PropertyDescriptor requiredReliabilityProperty = dynamicProperties[15];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(requiredReliabilityProperty,
pipingCategory,
"Betrouwbaarheidsindex faalkanseis [-]",
"De betrouwbaarheidsindex van de faalkanseis voor het toetsspoor piping.",
true);
PropertyDescriptor pipingProbabilityProperty = dynamicProperties[16];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(pipingProbabilityProperty,
pipingCategory,
"Benaderde faalkans [1/jaar]",
"De benaderde kans dat het toetsspoor piping optreedt voor deze berekening.",
true);
PropertyDescriptor pipingReliabilityProperty = dynamicProperties[17];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(pipingReliabilityProperty,
pipingCategory,
"Betrouwbaarheidsindex faalkans [-]",
"De betrouwbaarheidsindex van de faalkans voor deze berekening.",
true);
PropertyDescriptor pipingFactorOfSafetyProperty = dynamicProperties[18];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(pipingFactorOfSafetyProperty,
pipingCategory,
"Veiligheidsfactor [-]",
"De veiligheidsfactor voor deze berekening.",
true);
mocks.VerifyAll();
}
}
}