// 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.Collections.Generic;
using Core.Common.IO.Readers;
using NUnit.Framework;
using Rhino.Mocks;
using Ringtoets.Common.IO.Exceptions;
using Ringtoets.Common.IO.SoilProfile;
using Ringtoets.Common.IO.SoilProfile.Schema;
namespace Ringtoets.Common.IO.Test.SoilProfile
{
[TestFixture]
public class LayerPropertiesTest
{
[Test]
public void LayerProperties_ReaderNull_ThrowsArgumentNullException()
{
// Call
TestDelegate test = () => new LayerProperties(null, "");
// Assert
string paramName = Assert.Throws(test).ParamName;
Assert.AreEqual("reader", paramName);
}
[Test]
public void LayerProperties_ProfileNameNull_ThrowsArgumentNullException()
{
// Setup
var mockRepository = new MockRepository();
var reader = mockRepository.StrictMock();
mockRepository.ReplayAll();
// Call
TestDelegate test = () => new LayerProperties(reader, null);
// Assert
string paramName = Assert.Throws(test).ParamName;
Assert.AreEqual("profileName", paramName);
mockRepository.VerifyAll();
}
[Test]
public void LayerProperties_WithReaderAndProfileName_SetProperties()
{
// Setup
var random = new Random(21);
double isAquifer = random.NextDouble();
const string materialName = "materialName";
double color = random.NextDouble();
int belowPhreaticLevelDistribution = random.Next();
double belowPhreaticLevelShift = random.NextDouble();
double belowPhreaticLevelMean = random.NextDouble();
double belowPhreaticLevelDeviation = random.NextDouble();
double belowPhreaticLevelCoefficientOfVariation = random.NextDouble();
int diameterD70Distribution = random.Next();
double diameterD70Shift = random.NextDouble();
double diameterD70Mean = random.NextDouble();
double diameterD70CoefficientOfVariation = random.NextDouble();
int permeabilityDistribution = random.Next();
double permeabilityShift = random.NextDouble();
double permeabilityMean = random.NextDouble();
double permeabilityCoefficientOfVariation = random.NextDouble();
double usePop = random.NextDouble();
double shearStrengthModel = random.NextDouble();
int abovePhreaticLevelDistribution = random.Next();
double abovePhreaticLevelMean = random.NextDouble();
double abovePhreaticLevelCoefficientOfVariation = random.NextDouble();
double abovePhreaticLevelShift = random.NextDouble();
int cohesionDistribution = random.Next();
double cohesionMean = random.NextDouble();
double cohesionCoefficientOfVariation = random.NextDouble();
double cohesionShift = random.NextDouble();
double frictionAngleMean = random.NextDouble();
int frictionAngleDistribution = random.Next();
double frictionAngleCoefficientOfVariation = random.NextDouble();
double frictionAngleShift = random.NextDouble();
int shearStrengthRatioDistribution = random.Next();
double shearStrengthRatioMean = random.NextDouble();
double shearStrengthRatioCoefficientOfVariation = random.NextDouble();
double shearStrengthRatioShift = random.NextDouble();
int strengthIncreaseExponentDistribution = random.Next();
double strengthIncreaseExponentMean = random.NextDouble();
double strengthIncreaseExponentCoefficientOfVariation = random.NextDouble();
double strengthIncreaseExponentShift = random.NextDouble();
int popDistribution = random.Next();
double popMean = random.NextDouble();
double popCoefficientOfVariation = random.NextDouble();
double popShift = random.NextDouble();
var mockRepository = new MockRepository();
var reader = mockRepository.StrictMock();
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.IsAquifer)).Return(isAquifer);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.MaterialName)).Return(materialName);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.Color)).Return(color);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.BelowPhreaticLevelDistribution)).Return(belowPhreaticLevelDistribution);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.BelowPhreaticLevelShift)).Return(belowPhreaticLevelShift);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.BelowPhreaticLevelMean)).Return(belowPhreaticLevelMean);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.BelowPhreaticLevelDeviation)).Return(belowPhreaticLevelDeviation);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.BelowPhreaticLevelCoefficientOfVariation)).Return(belowPhreaticLevelCoefficientOfVariation);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.DiameterD70Distribution)).Return(diameterD70Distribution);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.DiameterD70Shift)).Return(diameterD70Shift);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.DiameterD70Mean)).Return(diameterD70Mean);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.DiameterD70CoefficientOfVariation)).Return(diameterD70CoefficientOfVariation);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.PermeabilityDistribution)).Return(permeabilityDistribution);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.PermeabilityShift)).Return(permeabilityShift);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.PermeabilityMean)).Return(permeabilityMean);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.PermeabilityCoefficientOfVariation)).Return(permeabilityCoefficientOfVariation);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.UsePop)).Return(usePop);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.ShearStrengthModel)).Return(shearStrengthModel);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.AbovePhreaticLevelDistribution)).Return(abovePhreaticLevelDistribution);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.AbovePhreaticLevelMean)).Return(abovePhreaticLevelMean);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.AbovePhreaticLevelCoefficientOfVariation)).Return(abovePhreaticLevelCoefficientOfVariation);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.AbovePhreaticLevelShift)).Return(abovePhreaticLevelShift);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.CohesionDistribution)).Return(cohesionDistribution);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.CohesionMean)).Return(cohesionMean);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.CohesionCoefficientOfVariation)).Return(cohesionCoefficientOfVariation);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.CohesionShift)).Return(cohesionShift);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.FrictionAngleDistribution)).Return(frictionAngleDistribution);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.FrictionAngleMean)).Return(frictionAngleMean);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.FrictionAngleCoefficientOfVariation)).Return(frictionAngleCoefficientOfVariation);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.FrictionAngleShift)).Return(frictionAngleShift);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.ShearStrengthRatioDistribution)).Return(shearStrengthRatioDistribution);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.ShearStrengthRatioMean)).Return(shearStrengthRatioMean);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.ShearStrengthRatioCoefficientOfVariation)).Return(shearStrengthRatioCoefficientOfVariation);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.ShearStrengthRatioShift)).Return(shearStrengthRatioShift);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.StrengthIncreaseExponentDistribution)).Return(strengthIncreaseExponentDistribution);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.StrengthIncreaseExponentMean)).Return(strengthIncreaseExponentMean);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.StrengthIncreaseExponentCoefficientOfVariation)).Return(strengthIncreaseExponentCoefficientOfVariation);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.StrengthIncreaseExponentShift)).Return(strengthIncreaseExponentShift);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.PopDistribution)).Return(popDistribution);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.PopMean)).Return(popMean);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.PopCoefficientOfVariation)).Return(popCoefficientOfVariation);
reader.Expect(r => r.ReadOrDefault(SoilProfileTableDefinitions.PopShift)).Return(popShift);
mockRepository.ReplayAll();
// Call
var properties = new LayerProperties(reader, "");
// Assert
Assert.AreEqual(isAquifer, properties.IsAquifer);
Assert.AreEqual(materialName, properties.MaterialName);
Assert.AreEqual(color, properties.Color);
Assert.AreEqual(belowPhreaticLevelDistribution, properties.BelowPhreaticLevelDistribution);
Assert.AreEqual(belowPhreaticLevelShift, properties.BelowPhreaticLevelShift);
Assert.AreEqual(belowPhreaticLevelMean, properties.BelowPhreaticLevelMean);
Assert.AreEqual(belowPhreaticLevelDeviation, properties.BelowPhreaticLevelDeviation);
Assert.AreEqual(belowPhreaticLevelCoefficientOfVariation, properties.BelowPhreaticLevelCoefficientOfVariation);
Assert.AreEqual(diameterD70Distribution, properties.DiameterD70Distribution);
Assert.AreEqual(diameterD70Shift, properties.DiameterD70Shift);
Assert.AreEqual(diameterD70Mean, properties.DiameterD70Mean);
Assert.AreEqual(diameterD70CoefficientOfVariation, properties.DiameterD70CoefficientOfVariation);
Assert.AreEqual(permeabilityDistribution, properties.PermeabilityDistribution);
Assert.AreEqual(permeabilityShift, properties.PermeabilityShift);
Assert.AreEqual(permeabilityMean, properties.PermeabilityMean);
Assert.AreEqual(permeabilityCoefficientOfVariation, properties.PermeabilityCoefficientOfVariation);
Assert.AreEqual(usePop, properties.UsePop);
Assert.AreEqual(shearStrengthModel, properties.ShearStrengthModel);
Assert.AreEqual(abovePhreaticLevelDistribution, properties.AbovePhreaticLevelDistribution);
Assert.AreEqual(abovePhreaticLevelMean, properties.AbovePhreaticLevelMean);
Assert.AreEqual(abovePhreaticLevelCoefficientOfVariation, properties.AbovePhreaticLevelCoefficientOfVariation);
Assert.AreEqual(abovePhreaticLevelShift, properties.AbovePhreaticLevelShift);
Assert.AreEqual(cohesionDistribution, properties.CohesionDistribution);
Assert.AreEqual(cohesionMean, properties.CohesionMean);
Assert.AreEqual(cohesionCoefficientOfVariation, properties.CohesionCoefficientOfVariation);
Assert.AreEqual(cohesionShift, properties.CohesionShift);
Assert.AreEqual(frictionAngleDistribution, properties.FrictionAngleDistribution);
Assert.AreEqual(frictionAngleMean, properties.FrictionAngleMean);
Assert.AreEqual(frictionAngleCoefficientOfVariation, properties.FrictionAngleCoefficientOfVariation);
Assert.AreEqual(frictionAngleShift, properties.FrictionAngleShift);
Assert.AreEqual(shearStrengthRatioDistribution, properties.ShearStrengthRatioDistribution);
Assert.AreEqual(shearStrengthRatioMean, properties.ShearStrengthRatioMean);
Assert.AreEqual(shearStrengthRatioCoefficientOfVariation, properties.ShearStrengthRatioCoefficientOfVariation);
Assert.AreEqual(shearStrengthRatioShift, properties.ShearStrengthRatioShift);
Assert.AreEqual(strengthIncreaseExponentDistribution, properties.StrengthIncreaseExponentDistribution);
Assert.AreEqual(strengthIncreaseExponentMean, properties.StrengthIncreaseExponentMean);
Assert.AreEqual(strengthIncreaseExponentCoefficientOfVariation, properties.StrengthIncreaseExponentCoefficientOfVariation);
Assert.AreEqual(strengthIncreaseExponentShift, properties.StrengthIncreaseExponentShift);
Assert.AreEqual(popDistribution, properties.PopDistribution);
Assert.AreEqual(popMean, properties.PopMean);
Assert.AreEqual(popCoefficientOfVariation, properties.PopCoefficientOfVariation);
Assert.AreEqual(popShift, properties.PopShift);
mockRepository.VerifyAll();
}
[Test]
[TestCaseSource(nameof(LayerProperties))]
public void LayerProperties_ReaderThrowsInvalidCastException_ThrowsSoilProfileReadException(string columnName)
{
// Setup
const string path = "path";
const string profileName = "SomeProfile";
var invalidCastException = new InvalidCastException();
var mockRepository = new MockRepository();
var reader = mockRepository.Stub();
reader.Stub(r => r.ReadOrDefault(columnName)).Throw(invalidCastException);
reader.Stub(r => r.ReadOrDefault(columnName)).Throw(invalidCastException);
reader.Stub(r => r.ReadOrDefault(columnName)).Throw(invalidCastException);
reader.Stub(r => r.ReadOrDefault(Arg.Matches(s => s != columnName)))
.Return(0);
reader.Stub(r => r.ReadOrDefault(Arg.Matches(s => s != columnName)))
.Return(0);
reader.Stub(r => r.ReadOrDefault(Arg.Matches(s => s != columnName)))
.Return("");
reader.Expect(r => r.Path).Return(path);
mockRepository.ReplayAll();
// Call
TestDelegate test = () => new LayerProperties(reader, profileName);
// Assert
string expectedMessage = $"Fout bij het lezen van bestand '{path}' (ondergrondschematisatie '{profileName}'): " +
$"ondergrondschematisatie bevat geen geldige waarde in kolom '{columnName}'.";
var exception = Assert.Throws(test);
Assert.AreEqual(expectedMessage, exception.Message);
Assert.AreEqual(profileName, exception.ProfileName);
Assert.AreSame(invalidCastException, exception.InnerException);
mockRepository.VerifyAll();
}
private static IEnumerable LayerProperties()
{
yield return SoilProfileTableDefinitions.IsAquifer;
yield return SoilProfileTableDefinitions.MaterialName;
yield return SoilProfileTableDefinitions.Color;
yield return SoilProfileTableDefinitions.BelowPhreaticLevelDistribution;
yield return SoilProfileTableDefinitions.BelowPhreaticLevelShift;
yield return SoilProfileTableDefinitions.BelowPhreaticLevelMean;
yield return SoilProfileTableDefinitions.BelowPhreaticLevelDeviation;
yield return SoilProfileTableDefinitions.BelowPhreaticLevelCoefficientOfVariation;
yield return SoilProfileTableDefinitions.DiameterD70Distribution;
yield return SoilProfileTableDefinitions.DiameterD70Shift;
yield return SoilProfileTableDefinitions.DiameterD70Mean;
yield return SoilProfileTableDefinitions.DiameterD70CoefficientOfVariation;
yield return SoilProfileTableDefinitions.PermeabilityDistribution;
yield return SoilProfileTableDefinitions.PermeabilityShift;
yield return SoilProfileTableDefinitions.PermeabilityMean;
yield return SoilProfileTableDefinitions.PermeabilityCoefficientOfVariation;
yield return SoilProfileTableDefinitions.UsePop;
yield return SoilProfileTableDefinitions.AbovePhreaticLevelDistribution;
yield return SoilProfileTableDefinitions.AbovePhreaticLevelMean;
yield return SoilProfileTableDefinitions.AbovePhreaticLevelCoefficientOfVariation;
yield return SoilProfileTableDefinitions.AbovePhreaticLevelShift;
yield return SoilProfileTableDefinitions.CohesionDistribution;
yield return SoilProfileTableDefinitions.CohesionMean;
yield return SoilProfileTableDefinitions.CohesionCoefficientOfVariation;
yield return SoilProfileTableDefinitions.CohesionShift;
yield return SoilProfileTableDefinitions.FrictionAngleDistribution;
yield return SoilProfileTableDefinitions.FrictionAngleMean;
yield return SoilProfileTableDefinitions.FrictionAngleCoefficientOfVariation;
yield return SoilProfileTableDefinitions.FrictionAngleShift;
yield return SoilProfileTableDefinitions.ShearStrengthRatioDistribution;
yield return SoilProfileTableDefinitions.ShearStrengthRatioMean;
yield return SoilProfileTableDefinitions.ShearStrengthRatioCoefficientOfVariation;
yield return SoilProfileTableDefinitions.ShearStrengthRatioShift;
yield return SoilProfileTableDefinitions.StrengthIncreaseExponentDistribution;
yield return SoilProfileTableDefinitions.StrengthIncreaseExponentMean;
yield return SoilProfileTableDefinitions.StrengthIncreaseExponentCoefficientOfVariation;
yield return SoilProfileTableDefinitions.StrengthIncreaseExponentShift;
yield return SoilProfileTableDefinitions.PopDistribution;
yield return SoilProfileTableDefinitions.PopMean;
yield return SoilProfileTableDefinitions.PopCoefficientOfVariation;
yield return SoilProfileTableDefinitions.PopShift;
}
}
}