// 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 Core.Common.TestUtil;
using NUnit.Framework;
using Ringtoets.MacroStabilityInwards.KernelWrapper.Calculators.UpliftVan.Input;
using Ringtoets.MacroStabilityInwards.KernelWrapper.Calculators.Waternet.Input;
using Ringtoets.MacroStabilityInwards.KernelWrapper.TestUtil.Calculators.Input;
using Ringtoets.MacroStabilityInwards.Primitives;
namespace Ringtoets.MacroStabilityInwards.KernelWrapper.Test.Calculators.Waternet.Input
{
[TestFixture]
public class WaternetCalculatorInputTest
{
[Test]
public void Constructor_ConstructionPropertiesNull_ThrowsArgumentNullException()
{
// Call
TestDelegate call = () => new WaternetCalculatorInput(null);
// Assert
var exception = Assert.Throws(call);
Assert.AreEqual("properties", exception.ParamName);
}
[Test]
public void Constructor_WithConstructionProperties_PropertiesAreSet()
{
// Setup
var random = new Random(11);
double hRiverValue = random.NextDouble();
var surfaceLine = new MacroStabilityInwardsSurfaceLine(string.Empty);
var soilProfile = new TestSoilProfile();
double waterLevelRiverAverage = random.Next();
double waterLevelPolderExtreme = random.Next();
double waterLevelPolderDaily = random.Next();
double minimumLevelPhreaticLineAtDikeTopRiver = random.Next();
double minimumLevelPhreaticLineAtDikeTopPolder = random.Next();
double leakageLengthOutwardsPhreaticLine3 = random.Next();
double leakageLengthInwardsPhreaticLine3 = random.Next();
double leakageLengthOutwardsPhreaticLine4 = random.Next();
double leakageLengthInwardsPhreaticLine4 = random.Next();
double piezometricHeadPhreaticLine2Outwards = random.Next();
double piezometricHeadPhreaticLine2Inwards = random.Next();
double penetrationLength = random.Next();
bool adjustPhreaticLine3And4ForUplift = random.NextBoolean();
var dikeSoilScenario = random.NextEnumValue();
// Call
var input = new WaternetCalculatorInput(
new WaternetCalculatorInput.ConstructionProperties
{
AssessmentLevel = hRiverValue,
SurfaceLine = surfaceLine,
SoilProfile = soilProfile,
WaterLevelRiverAverage = waterLevelRiverAverage,
WaterLevelPolderExtreme = waterLevelPolderExtreme,
WaterLevelPolderDaily = waterLevelPolderDaily,
MinimumLevelPhreaticLineAtDikeTopRiver = minimumLevelPhreaticLineAtDikeTopRiver,
MinimumLevelPhreaticLineAtDikeTopPolder = minimumLevelPhreaticLineAtDikeTopPolder,
LeakageLengthOutwardsPhreaticLine3 = leakageLengthOutwardsPhreaticLine3,
LeakageLengthInwardsPhreaticLine3 = leakageLengthInwardsPhreaticLine3,
LeakageLengthOutwardsPhreaticLine4 = leakageLengthOutwardsPhreaticLine4,
LeakageLengthInwardsPhreaticLine4 = leakageLengthInwardsPhreaticLine4,
PiezometricHeadPhreaticLine2Outwards = piezometricHeadPhreaticLine2Outwards,
PiezometricHeadPhreaticLine2Inwards = piezometricHeadPhreaticLine2Inwards,
PenetrationLength = penetrationLength,
AdjustPhreaticLine3And4ForUplift = adjustPhreaticLine3And4ForUplift,
DikeSoilScenario = dikeSoilScenario
});
// Assert
Assert.AreEqual(hRiverValue, input.AssessmentLevel);
Assert.AreSame(surfaceLine, input.SurfaceLine);
Assert.AreSame(soilProfile, input.SoilProfile);
Assert.AreEqual(waterLevelRiverAverage, input.WaterLevelRiverAverage);
Assert.AreEqual(waterLevelPolderExtreme, input.WaterLevelPolderExtreme);
Assert.AreEqual(waterLevelPolderDaily, input.WaterLevelPolderDaily);
Assert.AreEqual(minimumLevelPhreaticLineAtDikeTopRiver, input.MinimumLevelPhreaticLineAtDikeTopRiver);
Assert.AreEqual(minimumLevelPhreaticLineAtDikeTopPolder, input.MinimumLevelPhreaticLineAtDikeTopPolder);
Assert.AreEqual(leakageLengthOutwardsPhreaticLine3, input.LeakageLengthOutwardsPhreaticLine3);
Assert.AreEqual(leakageLengthInwardsPhreaticLine3, input.LeakageLengthInwardsPhreaticLine3);
Assert.AreEqual(leakageLengthOutwardsPhreaticLine4, input.LeakageLengthOutwardsPhreaticLine4);
Assert.AreEqual(leakageLengthInwardsPhreaticLine4, input.LeakageLengthInwardsPhreaticLine4);
Assert.AreEqual(piezometricHeadPhreaticLine2Outwards, input.PiezometricHeadPhreaticLine2Outwards);
Assert.AreEqual(piezometricHeadPhreaticLine2Inwards, input.PiezometricHeadPhreaticLine2Inwards);
Assert.AreEqual(penetrationLength, input.PenetrationLength);
Assert.AreEqual(adjustPhreaticLine3And4ForUplift, input.AdjustPhreaticLine3And4ForUplift);
Assert.AreEqual(dikeSoilScenario, input.DikeSoilScenario);
}
[Test]
public void Constructor_EmptyConstructionProperties_ExpectedValues()
{
// Setup
var surfaceLine = new MacroStabilityInwardsSurfaceLine(string.Empty);
var soilProfile = new TestSoilProfile();
// Call
var input = new WaternetCalculatorInput(
new WaternetCalculatorInput.ConstructionProperties
{
SurfaceLine = surfaceLine,
SoilProfile = soilProfile
});
// Assert
Assert.IsNaN(input.AssessmentLevel);
Assert.IsNaN(input.WaterLevelRiverAverage);
Assert.IsNaN(input.WaterLevelPolderExtreme);
Assert.IsNaN(input.WaterLevelPolderDaily);
Assert.IsNaN(input.MinimumLevelPhreaticLineAtDikeTopRiver);
Assert.IsNaN(input.MinimumLevelPhreaticLineAtDikeTopPolder);
Assert.IsNaN(input.LeakageLengthOutwardsPhreaticLine3);
Assert.IsNaN(input.LeakageLengthInwardsPhreaticLine3);
Assert.IsNaN(input.LeakageLengthOutwardsPhreaticLine4);
Assert.IsNaN(input.LeakageLengthInwardsPhreaticLine4);
Assert.IsNaN(input.PiezometricHeadPhreaticLine2Outwards);
Assert.IsNaN(input.PiezometricHeadPhreaticLine2Inwards);
Assert.IsNaN(input.PenetrationLength);
Assert.IsFalse(input.AdjustPhreaticLine3And4ForUplift);
Assert.AreEqual(MacroStabilityInwardsDikeSoilScenario.ClayDikeOnClay, input.DikeSoilScenario);
}
[Test]
public void Constructor_SurfaceLineNull_ThrowsArgumentException()
{
// Call
TestDelegate test = () => new WaternetCalculatorInput(
new WaternetCalculatorInput.ConstructionProperties
{
SoilProfile = new TestSoilProfile()
});
// Assert
TestHelper.AssertThrowsArgumentExceptionAndTestMessage(test, "SurfaceLine must be set.");
}
[Test]
public void Constructor_SoilProfileNull_ThrowsArgumentException()
{
// Call
TestDelegate test = () => new WaternetCalculatorInput(
new WaternetCalculatorInput.ConstructionProperties
{
SurfaceLine = new MacroStabilityInwardsSurfaceLine("test")
});
// Assert
TestHelper.AssertThrowsArgumentExceptionAndTestMessage(test, "SoilProfile must be set.");
}
}
}