// 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.Collections.Generic;
using System.Linq;
using Core.Common.Utils;
using NUnit.Framework;
using Ringtoets.HydraRing.Calculation.Data;
using Ringtoets.HydraRing.Calculation.Data.Input.Hydraulics;
using Ringtoets.HydraRing.Calculation.Data.Input.Overtopping;
using Ringtoets.HydraRing.Calculation.TestUtil;
namespace Ringtoets.HydraRing.Calculation.Test.Data.Input.Hydraulics
{
[TestFixture]
public class OvertoppingRateCalculationInputTest
{
[Test]
public void Constructor_Always_ExpectedValues()
{
// Setup
var returnPeriod = 10000;
int hydraulicBoundaryLocationId = 1000;
HydraRingSection section = new HydraRingSection(1, double.NaN, double.NaN);
const double dikeHeight = 1.1;
const double modelFactorCriticalOvertopping = 2.2;
const double factorFbMean = 3.3;
const double factorFbStandardDeviation = 4.4;
const double factorFnMean = 5.5;
const double factorFnStandardDeviation = 6.6;
const double modelFactorOvertopping = 7.7;
const double modelFactorFrunupMean = 8.8;
const double modelFactorFrunupStandardDeviation = 9.9;
const double exponentModelFactorShallowMean = 10.10;
const double exponentModelFactorShallowStandardDeviation = 11.11;
var expectedRingProfilePoints = new List
{
new HydraRingRoughnessProfilePoint(1.1, 2.2, 3.3)
};
var expectedRingForelandPoints = new List
{
new HydraRingForelandPoint(2.2, 3.3)
};
var expectedRingBreakWater = new HydraRingBreakWater(2, 3.3);
// Call
var input = new OvertoppingRateCalculationInput(hydraulicBoundaryLocationId, returnPeriod, section,
expectedRingProfilePoints, expectedRingForelandPoints, expectedRingBreakWater,
dikeHeight,
modelFactorCriticalOvertopping,
factorFbMean, factorFbStandardDeviation,
factorFnMean, factorFnStandardDeviation,
modelFactorOvertopping,
modelFactorFrunupMean, modelFactorFrunupStandardDeviation,
exponentModelFactorShallowMean, exponentModelFactorShallowStandardDeviation);
// Assert
double expectedBeta = StatisticsConverter.ReturnPeriodToReliability(returnPeriod);
Assert.IsInstanceOf(input);
Assert.AreEqual(9, input.CalculationTypeId);
Assert.AreEqual(hydraulicBoundaryLocationId, input.HydraulicBoundaryLocationId);
Assert.AreEqual(HydraRingFailureMechanismType.HydraulicLoads, input.FailureMechanismType);
Assert.AreEqual(17, input.VariableId);
Assert.IsNotNull(input.Section);
HydraRingDataEqualityHelper.AreEqual(GetDefaultOvertoppingRateVariables().ToArray(), input.Variables.ToArray());
CollectionAssert.AreEqual(expectedRingProfilePoints, input.ProfilePoints);
CollectionAssert.AreEqual(expectedRingForelandPoints, input.ForelandsPoints);
Assert.AreEqual(expectedRingBreakWater, input.BreakWater);
Assert.AreEqual(expectedBeta, input.Beta);
Assert.AreSame(section, input.Section);
}
[Test]
[TestCase(101, null)]
[TestCase(102, 94)]
[TestCase(103, 95)]
[TestCase(104, null)]
public void GetSubMechanismModelId_Always_ReturnsExpectedValues(int subMechanismModelId, int? expectedSubMechanismModelId)
{
// Setup
HydraRingSection section = new HydraRingSection(1, double.NaN, double.NaN);
// Call
var input = new OvertoppingRateCalculationInput(1, 1000, section,
new List(),
new List(),
new HydraRingBreakWater(0, 1.1),
2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12);
// Assert
Assert.AreEqual(expectedSubMechanismModelId, input.GetSubMechanismModelId(subMechanismModelId));
}
private static IEnumerable GetDefaultOvertoppingRateVariables()
{
yield return new HydraRingVariable(1, HydraRingDistributionType.Deterministic, 1.1, HydraRingDeviationType.Standard, double.NaN, double.NaN, double.NaN);
yield return new HydraRingVariable(8, HydraRingDistributionType.Deterministic, 2.2, HydraRingDeviationType.Standard, double.NaN, double.NaN, double.NaN);
yield return new HydraRingVariable(10, HydraRingDistributionType.Normal, double.NaN, HydraRingDeviationType.Standard, 3.3, 4.4, double.NaN);
yield return new HydraRingVariable(11, HydraRingDistributionType.Normal, double.NaN, HydraRingDeviationType.Standard, 5.5, 6.6, double.NaN);
yield return new HydraRingVariable(12, HydraRingDistributionType.Deterministic, 7.7, HydraRingDeviationType.Standard, double.NaN, double.NaN, double.NaN);
yield return new HydraRingVariable(17, HydraRingDistributionType.Deterministic, 0.0, HydraRingDeviationType.Standard, double.NaN, double.NaN, double.NaN);
yield return new HydraRingVariable(120, HydraRingDistributionType.Normal, double.NaN, HydraRingDeviationType.Standard, 8.8, 9.9, double.NaN);
yield return new HydraRingVariable(123, HydraRingDistributionType.Normal, double.NaN, HydraRingDeviationType.Standard, 10.10, 11.11, double.NaN);
}
}
}