// 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 Core.Common.Gui.PropertyBag;
using Core.Common.TestUtil;
using Core.Common.Utils.Reflection;
using NUnit.Framework;
using Ringtoets.Common.Data.Hydraulics;
using Ringtoets.Common.Data.Probability;
using Ringtoets.Common.Data.TestUtil;
using Ringtoets.Common.Forms.Helpers;
using Ringtoets.Common.Forms.TypeConverters;
using Ringtoets.GrassCoverErosionInwards.Data;
using Ringtoets.GrassCoverErosionInwards.Data.TestUtil;
using Ringtoets.GrassCoverErosionInwards.Forms.PropertyClasses;
namespace Ringtoets.GrassCoverErosionInwards.Forms.Test.PropertyClasses
{
[TestFixture]
public class GrassCoverErosionInwardsOutputPropertiesTest
{
private const int requiredProbabilityPropertyIndex = 0;
private const int requiredReliabilityPropertyIndex = 1;
private const int probabilityPropertyIndex = 2;
private const int reliabilityPropertyIndex = 3;
private const int factorOfSafetyPropertyIndex = 4;
private const int waveHeightIndex = 5;
private const int isDominantIndex = 6;
private const int dikeHeightIndex = 7;
private const int dikeHeightTargetProbabilityIndex = 8;
private const int dikeHeightTargetReliabilityIndex = 9;
private const int dikeHeightCalculatedProbabilityIndex = 10;
private const int dikeHeightCalculatedReliabilityIndex = 11;
private const int dikeHeightCalculationConvergenceIndex = 12;
[Test]
public void Constructor_ExpectedValues()
{
// Call
var properties = new GrassCoverErosionInwardsOutputProperties();
// Assert
Assert.IsInstanceOf>(properties);
Assert.IsNull(properties.Data);
}
[Test]
public void Data_SetNewInputContextInstance_ReturnCorrectPropertyValues()
{
// Setup
var random = new Random(21);
double waveHeight = random.NextDouble();
bool isOvertoppingDominant = Convert.ToBoolean(random.Next(0, 2));
double requiredProbability = random.NextDouble();
double requiredReliability = random.NextDouble();
double probability = random.NextDouble();
double reliability = random.NextDouble();
double factorOfSafety = random.NextDouble();
double dikeHeight = random.NextDouble();
double dikeTargetProbability = random.NextDouble();
double dikeTargetReliability = random.NextDouble();
double dikeCalculatedProbability = random.NextDouble();
double dikeCalculatedReliability = random.NextDouble();
CalculationConvergence dikeHeightConvergence = CalculationConvergence.NotCalculated;
var probabilityAssessmentOutput = new ProbabilityAssessmentOutput(requiredProbability, requiredReliability, probability, reliability, factorOfSafety);
var dikeHeightAssessmentOutput = new DikeHeightAssessmentOutput(dikeHeight, dikeTargetProbability, dikeTargetReliability, dikeCalculatedProbability, dikeCalculatedReliability, dikeHeightConvergence);
var output = new GrassCoverErosionInwardsOutput(waveHeight, isOvertoppingDominant, probabilityAssessmentOutput, dikeHeightAssessmentOutput);
// Call
var properties = new GrassCoverErosionInwardsOutputProperties
{
Data = output
};
// Assert
Assert.AreEqual(2, properties.WaveHeight.NumberOfDecimalPlaces);
Assert.AreEqual(waveHeight, properties.WaveHeight, properties.WaveHeight.GetAccuracy());
Assert.AreEqual(reliability, properties.Reliability, properties.Reliability.GetAccuracy());
Assert.AreEqual(requiredReliability, properties.RequiredReliability, properties.RequiredReliability.GetAccuracy());
Assert.AreEqual(3, properties.FactorOfSafety.NumberOfDecimalPlaces);
Assert.AreEqual(factorOfSafety, properties.FactorOfSafety, properties.FactorOfSafety.GetAccuracy());
Assert.AreEqual(ProbabilityFormattingHelper.Format(requiredProbability), properties.RequiredProbability);
Assert.AreEqual(ProbabilityFormattingHelper.Format(probability), properties.Probability);
Assert.AreEqual(isOvertoppingDominant, properties.IsOvertoppingDominant);
Assert.AreEqual(2, properties.DikeHeight.NumberOfDecimalPlaces);
Assert.AreEqual(dikeHeight, properties.DikeHeight, properties.DikeHeight.GetAccuracy());
Assert.AreEqual(dikeTargetProbability, properties.TargetProbability);
Assert.IsTrue(TypeUtils.HasTypeConverter(p => p.TargetProbability));
Assert.AreEqual(dikeTargetReliability, properties.TargetReliability, properties.TargetReliability.GetAccuracy());
Assert.IsTrue(TypeUtils.HasTypeConverter(p => p.TargetReliability));
Assert.AreEqual(dikeCalculatedProbability, properties.CalculatedProbability);
Assert.IsTrue(TypeUtils.HasTypeConverter(p => p.CalculatedProbability));
Assert.AreEqual(dikeCalculatedReliability, properties.CalculatedReliability, properties.CalculatedReliability.GetAccuracy());
Assert.IsTrue(TypeUtils.HasTypeConverter(p => p.CalculatedReliability));
Assert.AreEqual("", properties.Convergence);
}
[Test]
public void PropertyAttributes_WithDikeHeightCalculated_ReturnExpectedValues()
{
// Setup
var probabilityAssessmentOutput = new ProbabilityAssessmentOutput(double.NaN, double.NaN, double.NaN, double.NaN, double.NaN);
var dikeHeightAssessmentOutput = new TestDikeHeightAssessmentOutput(double.NaN);
var output = new GrassCoverErosionInwardsOutput(double.NaN, true, probabilityAssessmentOutput,
dikeHeightAssessmentOutput);
// Call
var properties = new GrassCoverErosionInwardsOutputProperties
{
Data = output
};
// Assert
PropertyDescriptorCollection dynamicProperties = PropertiesTestHelper.GetAllVisiblePropertyDescriptors(properties);
Assert.AreEqual(13, dynamicProperties.Count);
PropertyDescriptor requiredProbabilityProperty = dynamicProperties[requiredProbabilityPropertyIndex];
const string resultCategory = "\t\tResultaat";
const string indicativeWaveHeightCategory = "\tIndicatieve golfhoogte";
const string hbnCategory = "HBN";
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(requiredProbabilityProperty,
resultCategory,
"Faalkanseis [1/jaar]",
"De maximaal toegestane faalkanseis voor het toetsspoor.",
true);
PropertyDescriptor requiredReliabilityProperty = dynamicProperties[requiredReliabilityPropertyIndex];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(requiredReliabilityProperty,
resultCategory,
"Betrouwbaarheidsindex faalkanseis [-]",
"De betrouwbaarheidsindex van de faalkanseis voor het toetsspoor.",
true);
PropertyDescriptor probabilityProperty = dynamicProperties[probabilityPropertyIndex];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(probabilityProperty,
resultCategory,
"Faalkans [1/jaar]",
"De kans dat het toetsspoor optreedt voor deze berekening.",
true);
PropertyDescriptor reliabilityProperty = dynamicProperties[reliabilityPropertyIndex];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(reliabilityProperty,
resultCategory,
"Betrouwbaarheidsindex faalkans [-]",
"De betrouwbaarheidsindex van de faalkans voor deze berekening.",
true);
PropertyDescriptor factorOfSafetyProperty = dynamicProperties[factorOfSafetyPropertyIndex];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(factorOfSafetyProperty,
resultCategory,
"Veiligheidsfactor [-]",
"De veiligheidsfactor voor deze berekening.",
true);
PropertyDescriptor waveHeightProperty = dynamicProperties[waveHeightIndex];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(waveHeightProperty,
indicativeWaveHeightCategory,
"Golfhoogte (Hs) [m]",
"De golfhoogte van de overslag deelberekening.",
true);
PropertyDescriptor isDominantProperty = dynamicProperties[isDominantIndex];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(isDominantProperty,
indicativeWaveHeightCategory,
"Overslag dominant [-]",
"Is het resultaat van de overslag deelberekening dominant over de overloop deelberekening.",
true);
PropertyDescriptor dikeHeightProperty = dynamicProperties[dikeHeightIndex];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(dikeHeightProperty,
hbnCategory,
"HBN [m+NAP]",
"Het berekende Hydraulisch Belasting Niveau (HBN).",
true);
PropertyDescriptor dikeHeightTargetProbability = dynamicProperties[dikeHeightTargetProbabilityIndex];
Assert.IsNotNull(dikeHeightTargetProbability);
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(dikeHeightTargetProbability,
hbnCategory,
"Doelkans [1/jaar]",
"De ingevoerde kans waarvoor het resultaat moet worden berekend.",
true);
PropertyDescriptor dikeHeightTargetReliability = dynamicProperties[dikeHeightTargetReliabilityIndex];
Assert.IsNotNull(dikeHeightTargetReliability);
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(dikeHeightTargetReliability,
hbnCategory,
"Betrouwbaarheidsindex doelkans [-]",
"Betrouwbaarheidsindex van de ingevoerde kans waarvoor het resultaat moet worden berekend.",
true);
PropertyDescriptor dikeHeightCalculatedProbability = dynamicProperties[dikeHeightCalculatedProbabilityIndex];
Assert.IsNotNull(dikeHeightCalculatedProbability);
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(dikeHeightCalculatedProbability,
hbnCategory,
"Berekende kans [1/jaar]",
"De berekende kans van voorkomen van het berekende resultaat.",
true);
PropertyDescriptor dikeHeightCalculatedReliability = dynamicProperties[dikeHeightCalculatedReliabilityIndex];
Assert.IsNotNull(dikeHeightCalculatedReliability);
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(dikeHeightCalculatedReliability,
hbnCategory,
"Betrouwbaarheidsindex berekende kans [-]",
"Betrouwbaarheidsindex van de berekende kans van voorkomen van het berekende resultaat.",
true);
PropertyDescriptor dikeHeightCalculationConvergence = dynamicProperties[dikeHeightCalculationConvergenceIndex];
Assert.IsNotNull(dikeHeightCalculationConvergence);
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(dikeHeightCalculationConvergence,
hbnCategory,
"Convergentie",
"Is convergentie bereikt in de HBN berekening?",
true);
}
[Test]
public void PropertyAttributes_WithoutDikeHeightCalculated_ReturnExpectedValues()
{
// Setup
ProbabilityAssessmentOutput probabilityAssessmentOutput = new ProbabilityAssessmentOutput(double.NaN, double.NaN, double.NaN, double.NaN, double.NaN);
var output = new GrassCoverErosionInwardsOutput(double.NaN, true, probabilityAssessmentOutput, null);
// Call
var properties = new GrassCoverErosionInwardsOutputProperties
{
Data = output
};
// Assert
PropertyDescriptorCollection dynamicProperties = PropertiesTestHelper.GetAllVisiblePropertyDescriptors(properties);
Assert.AreEqual(7, dynamicProperties.Count);
PropertyDescriptor requiredProbabilityProperty = dynamicProperties[requiredProbabilityPropertyIndex];
const string resultCategory = "\t\tResultaat";
const string indicativeWaveHeightCategory = "\tIndicatieve golfhoogte";
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(requiredProbabilityProperty,
resultCategory,
"Faalkanseis [1/jaar]",
"De maximaal toegestane faalkanseis voor het toetsspoor.",
true);
PropertyDescriptor requiredReliabilityProperty = dynamicProperties[requiredReliabilityPropertyIndex];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(requiredReliabilityProperty,
resultCategory,
"Betrouwbaarheidsindex faalkanseis [-]",
"De betrouwbaarheidsindex van de faalkanseis voor het toetsspoor.",
true);
PropertyDescriptor probabilityProperty = dynamicProperties[probabilityPropertyIndex];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(probabilityProperty,
resultCategory,
"Faalkans [1/jaar]",
"De kans dat het toetsspoor optreedt voor deze berekening.",
true);
PropertyDescriptor reliabilityProperty = dynamicProperties[reliabilityPropertyIndex];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(reliabilityProperty,
resultCategory,
"Betrouwbaarheidsindex faalkans [-]",
"De betrouwbaarheidsindex van de faalkans voor deze berekening.",
true);
PropertyDescriptor factorOfSafetyProperty = dynamicProperties[factorOfSafetyPropertyIndex];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(factorOfSafetyProperty,
resultCategory,
"Veiligheidsfactor [-]",
"De veiligheidsfactor voor deze berekening.",
true);
PropertyDescriptor waveHeightProperty = dynamicProperties[waveHeightIndex];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(waveHeightProperty,
indicativeWaveHeightCategory,
"Golfhoogte (Hs) [m]",
"De golfhoogte van de overslag deelberekening.",
true);
PropertyDescriptor isDominantProperty = dynamicProperties[isDominantIndex];
PropertiesTestHelper.AssertRequiredPropertyDescriptorProperties(isDominantProperty,
indicativeWaveHeightCategory,
"Overslag dominant [-]",
"Is het resultaat van de overslag deelberekening dominant over de overloop deelberekening.",
true);
}
}
}