// 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.IO;
using System.Linq;
using System.Xml.Schema;
using Core.Common.Base.IO;
using Core.Common.TestUtil;
using NUnit.Framework;
using Ringtoets.Common.IO.Readers;
using Ringtoets.Piping.IO.Readers;
namespace Ringtoets.Piping.IO.Test.Readers
{
[TestFixture]
public class PipingCalculationConfigurationReaderTest
{
private readonly string testDirectoryPath = TestHelper.GetTestDataPath(TestDataPath.Ringtoets.Piping.IO,
"PipingCalculationConfigurationReader");
private static IEnumerable InvalidConfigurations
{
get
{
yield return new TestCaseData("invalidAssessmentLevelEmpty.xml",
"The 'toetspeil' element is invalid - The value '' is invalid according to its datatype 'Double'")
.SetName("invalidAssessmentLevelEmpty");
yield return new TestCaseData("invalidAssessmentLevelNoDouble.xml",
"The 'toetspeil' element is invalid - The value 'string' is invalid according to its datatype 'Double'")
.SetName("invalidAssessmentLevelNoDouble");
yield return new TestCaseData("invalidAssessmentLevelWrongCulture.xml",
"The 'toetspeil' element is invalid - The value '1,2' is invalid according to its datatype 'Double'")
.SetName("invalidAssessmentLevelWrongCulture");
yield return new TestCaseData("invalidEntryPointEmpty.xml",
"The 'intredepunt' element is invalid - The value '' is invalid according to its datatype 'Double'")
.SetName("invalidEntryPointEmpty");
yield return new TestCaseData("invalidEntryPointNoDouble.xml",
"The 'intredepunt' element is invalid - The value 'string' is invalid according to its datatype 'Double'")
.SetName("invalidEntryPointNoDouble");
yield return new TestCaseData("invalidEntryPointWrongCulture.xml",
"The 'intredepunt' element is invalid - The value '1,2' is invalid according to its datatype 'Double'")
.SetName("invalidEntryPointWrongCulture");
yield return new TestCaseData("invalidExitPointEmpty.xml",
"The 'uittredepunt' element is invalid - The value '' is invalid according to its datatype 'Double'")
.SetName("invalidExitPointEmpty");
yield return new TestCaseData("invalidExitPointNoDouble.xml",
"The 'uittredepunt' element is invalid - The value 'string' is invalid according to its datatype 'Double'")
.SetName("invalidExitPointNoDouble");
yield return new TestCaseData("invalidExitPointWrongCulture.xml",
"The 'uittredepunt' element is invalid - The value '1,2' is invalid according to its datatype 'Double'")
.SetName("invalidExitPointWrongCulture");
yield return new TestCaseData("invalidStochastNoName.xml",
"The required attribute 'naam' is missing.")
.SetName("invalidStochastNoName");
yield return new TestCaseData("invalidStochastUnknownName.xml",
"The 'naam' attribute is invalid - The value 'Test' is invalid according to its datatype 'nameType' - The Enumeration constraint failed.")
.SetName("invalidStochastUnknownName");
yield return new TestCaseData("invalidStochastMultipleMean.xml",
"The element 'stochast' has invalid child element 'verwachtingswaarde'.")
.SetName("invalidStochastMultipleMean");
yield return new TestCaseData("invalidStochastMultipleStandardDeviation.xml",
"The element 'stochast' has invalid child element 'standaardafwijking'.")
.SetName("invalidStochastMultipleStandardDeviation");
yield return new TestCaseData("invalidStochastMeanEmpty.xml",
"The 'verwachtingswaarde' element is invalid - The value '' is invalid according to its datatype 'Double'")
.SetName("invalidStochastMeanEmpty");
yield return new TestCaseData("invalidStochastMeanNoDouble.xml",
"The 'verwachtingswaarde' element is invalid - The value 'string' is invalid according to its datatype 'Double'")
.SetName("invalidStochastMeanNoDouble");
yield return new TestCaseData("invalidStochastMeanWrongCulture.xml",
"The 'verwachtingswaarde' element is invalid - The value '1,2' is invalid according to its datatype 'Double'")
.SetName("invalidStochastMeanWrongCulture");
yield return new TestCaseData("invalidStochastStandardDeviationEmpty.xml",
"The 'standaardafwijking' element is invalid - The value '' is invalid according to its datatype 'Double'")
.SetName("invalidStochastStandardDeviationEmpty");
yield return new TestCaseData("invalidStochastStandardDeviationNoDouble.xml",
"The 'standaardafwijking' element is invalid - The value 'string' is invalid according to its datatype 'Double'")
.SetName("invalidStochastStandardDeviationNoDouble");
yield return new TestCaseData("invalidStochastStandardDeviationWrongCulture.xml",
"The 'standaardafwijking' element is invalid - The value '1,2' is invalid according to its datatype 'Double'")
.SetName("invalidStochastStandardDeviationWrongCulture");
yield return new TestCaseData("invalidMultiplePhreaticLevelExitStochast.xml",
"There is a duplicate key sequence 'polderpeil' for the 'uniqueStochastNameConstraint' key or unique identity constraint.")
.SetName("invalidMultiplePhreaticLevelExitStochast");
yield return new TestCaseData("invalidMultipleDampingFactorExitStochast.xml",
"There is a duplicate key sequence 'dempingsfactor' for the 'uniqueStochastNameConstraint' key or unique identity constraint.")
.SetName("invalidMultipleDampingFactorExitStochast");
yield return new TestCaseData("invalidContainingBothAssessmentLevelAndHydraulicBoundaryLocation.xml",
"The element 'berekening' has invalid child element 'hrlocatie'.")
.SetName("invalidContainingBothAssessmentLevelAndHydraulicBoundaryLocation");
yield return new TestCaseData("invalidCalculationMultipleAssessmentLevel.xml",
"The element 'berekening' has invalid child element 'toetspeil'.")
.SetName("invalidCalculationMultipleAssessmentLevel");
yield return new TestCaseData("invalidCalculationMultipleHydraulicBoundaryLocation.xml",
"The element 'berekening' has invalid child element 'hrlocatie'.")
.SetName("invalidCalculationMultipleHydraulicBoundaryLocation");
yield return new TestCaseData("invalidCalculationMultipleSurfaceLine.xml",
"The element 'berekening' has invalid child element 'profielschematisatie'.")
.SetName("invalidCalculationMultipleSurfaceLine");
yield return new TestCaseData("invalidCalculationMultipleEntryPoint.xml",
"The element 'berekening' has invalid child element 'intredepunt'.")
.SetName("invalidCalculationMultipleEntryPoint");
yield return new TestCaseData("invalidCalculationMultipleExitPoint.xml",
"The element 'berekening' has invalid child element 'uittredepunt'.")
.SetName("invalidCalculationMultipleExitPoint");
yield return new TestCaseData("invalidCalculationMultipleStochasticSoilModel.xml",
"The element 'berekening' has invalid child element 'ondergrondmodel'.")
.SetName("invalidCalculationMultipleStochasticSoilModel");
yield return new TestCaseData("invalidCalculationMultipleStochasticSoilProfile.xml",
"The element 'berekening' has invalid child element 'ondergrondschematisatie'.")
.SetName("invalidCalculationMultipleStochasticSoilProfile");
yield return new TestCaseData("invalidCalculationMultipleStochasts.xml",
"The element 'berekening' has invalid child element 'stochasten'.")
.SetName("invalidCalculationMultipleStochasts");
yield return new TestCaseData("invalidConfigurationCalculationContainingEmptyHydraulicBoundaryLocation.xml",
"The 'hrlocatie' element is invalid - The value '' is invalid according to its datatype 'String' - The actual length is less than the MinLength value.")
.SetName("invalidConfigurationCalculationContainingEmptyHydraulicBoundaryLocation");
yield return new TestCaseData("invalidConfigurationCalculationContainingEmptySurfaceLine.xml",
"The 'profielschematisatie' element is invalid - The value '' is invalid according to its datatype 'String' - The actual length is less than the MinLength value.")
.SetName("invalidConfigurationCalculationContainingEmptySurfaceLine");
yield return new TestCaseData("invalidConfigurationCalculationContainingEmptySoilModel.xml",
"The 'ondergrondmodel' element is invalid - The value '' is invalid according to its datatype 'String' - The actual length is less than the MinLength value.")
.SetName("invalidConfigurationCalculationContainingEmptySoilModel");
yield return new TestCaseData("invalidConfigurationCalculationContainingEmptySoilProfile.xml",
"The 'ondergrondschematisatie' element is invalid - The value '' is invalid according to its datatype 'String' - The actual length is less than the MinLength value.")
.SetName("invalidConfigurationCalculationContainingEmptySoilProfile");
}
}
[Test]
[TestCaseSource(nameof(InvalidConfigurations))]
public void Constructor_FileInvalidBasedOnSchemaDefinition_ThrowCriticalFileReadException(string fileName, string expectedParsingMessage)
{
// Setup
string filePath = Path.Combine(testDirectoryPath, fileName);
// Call
TestDelegate call = () => new PipingCalculationConfigurationReader(filePath);
// Assert
var exception = Assert.Throws(call);
Assert.IsInstanceOf(exception.InnerException);
StringAssert.Contains(expectedParsingMessage, exception.InnerException?.Message);
}
[Test]
public void Constructor_ValidConfiguration_ExpectedValues()
{
// Setup
string filePath = Path.Combine(testDirectoryPath, "validConfigurationEmptyCalculation.xml");
// Call
var reader = new PipingCalculationConfigurationReader(filePath);
// Assert
Assert.IsInstanceOf>(reader);
}
[Test]
public void Read_ValidConfigurationWithEmptyCalculation_ReturnExpectedReadPipingCalculation()
{
// Setup
string filePath = Path.Combine(testDirectoryPath, "validConfigurationEmptyCalculation.xml");
var reader = new PipingCalculationConfigurationReader(filePath);
// Call
IList readConfigurationItems = reader.Read().ToList();
// Assert
Assert.AreEqual(1, readConfigurationItems.Count);
var calculation = readConfigurationItems[0] as ReadPipingCalculation;
Assert.IsNotNull(calculation);
Assert.AreEqual("Calculation", calculation.Name);
Assert.IsNull(calculation.AssessmentLevel);
Assert.IsNull(calculation.HydraulicBoundaryLocation);
Assert.IsNull(calculation.SurfaceLine);
Assert.IsNull(calculation.EntryPointL);
Assert.IsNull(calculation.ExitPointL);
Assert.IsNull(calculation.StochasticSoilModel);
Assert.IsNull(calculation.StochasticSoilProfile);
Assert.IsNull(calculation.PhreaticLevelExitMean);
Assert.IsNull(calculation.PhreaticLevelExitStandardDeviation);
Assert.IsNull(calculation.DampingFactorExitMean);
Assert.IsNull(calculation.DampingFactorExitStandardDeviation);
}
[Test]
public void Read_ValidConfigurationWithCalculationContainingEmptyStochasts_ReturnExpectedReadPipingCalculation()
{
// Setup
string filePath = Path.Combine(testDirectoryPath, "validConfigurationCalculationContainingEmptyStochasts.xml");
var reader = new PipingCalculationConfigurationReader(filePath);
// Call
IList readConfigurationItems = reader.Read().ToList();
// Assert
Assert.AreEqual(1, readConfigurationItems.Count);
var calculation = readConfigurationItems[0] as ReadPipingCalculation;
Assert.IsNotNull(calculation);
Assert.IsNull(calculation.PhreaticLevelExitMean);
Assert.IsNull(calculation.PhreaticLevelExitStandardDeviation);
Assert.IsNull(calculation.DampingFactorExitMean);
Assert.IsNull(calculation.DampingFactorExitStandardDeviation);
}
[Test]
public void Read_ValidConfigurationWithCalculationContainingNaNs_ReturnExpectedReadPipingCalculation()
{
// Setup
string filePath = Path.Combine(testDirectoryPath, "validConfigurationCalculationContainingNaNs.xml");
var reader = new PipingCalculationConfigurationReader(filePath);
// Call
IList readConfigurationItems = reader.Read().ToList();
// Assert
Assert.AreEqual(1, readConfigurationItems.Count);
var calculation = readConfigurationItems[0] as ReadPipingCalculation;
Assert.IsNotNull(calculation);
Assert.IsNaN(calculation.AssessmentLevel);
Assert.IsNaN(calculation.EntryPointL);
Assert.IsNaN(calculation.ExitPointL);
Assert.IsNaN(calculation.PhreaticLevelExitMean);
Assert.IsNaN(calculation.PhreaticLevelExitStandardDeviation);
Assert.IsNaN(calculation.DampingFactorExitMean);
Assert.IsNaN(calculation.DampingFactorExitStandardDeviation);
}
[Test]
public void Read_ValidConfigurationWithCalculationContainingInfinities_ReturnExpectedReadPipingCalculation()
{
// Setup
string filePath = Path.Combine(testDirectoryPath, "validConfigurationCalculationContainingInfinities.xml");
var reader = new PipingCalculationConfigurationReader(filePath);
// Call
IList readConfigurationItems = reader.Read().ToList();
// Assert
Assert.AreEqual(1, readConfigurationItems.Count);
var calculation = readConfigurationItems[0] as ReadPipingCalculation;
Assert.IsNotNull(calculation);
Assert.IsNotNull(calculation.AssessmentLevel);
Assert.IsNotNull(calculation.EntryPointL);
Assert.IsNotNull(calculation.ExitPointL);
Assert.IsNotNull(calculation.PhreaticLevelExitMean);
Assert.IsNotNull(calculation.PhreaticLevelExitStandardDeviation);
Assert.IsNotNull(calculation.DampingFactorExitMean);
Assert.IsNotNull(calculation.DampingFactorExitStandardDeviation);
Assert.IsTrue(double.IsNegativeInfinity(calculation.AssessmentLevel.Value));
Assert.IsTrue(double.IsNegativeInfinity(calculation.EntryPointL.Value));
Assert.IsTrue(double.IsPositiveInfinity(calculation.ExitPointL.Value));
Assert.IsTrue(double.IsNegativeInfinity(calculation.PhreaticLevelExitMean.Value));
Assert.IsTrue(double.IsPositiveInfinity(calculation.PhreaticLevelExitStandardDeviation.Value));
Assert.IsTrue(double.IsPositiveInfinity(calculation.DampingFactorExitMean.Value));
Assert.IsTrue(double.IsPositiveInfinity(calculation.DampingFactorExitStandardDeviation.Value));
}
[Test]
public void Read_ValidConfigurationWithFullCalculationContainingHydraulicBoundaryLocation_ReturnExpectedReadPipingCalculation()
{
// Setup
string filePath = Path.Combine(testDirectoryPath, "validConfigurationFullCalculationContainingHydraulicBoundaryLocation.xml");
var reader = new PipingCalculationConfigurationReader(filePath);
// Call
IList readConfigurationItems = reader.Read().ToList();
// Assert
Assert.AreEqual(1, readConfigurationItems.Count);
var calculation = readConfigurationItems[0] as ReadPipingCalculation;
Assert.IsNotNull(calculation);
Assert.AreEqual("Calculation", calculation.Name);
Assert.IsNull(calculation.AssessmentLevel);
Assert.AreEqual("HRlocatie", calculation.HydraulicBoundaryLocation);
Assert.AreEqual("Profielschematisatie", calculation.SurfaceLine);
Assert.AreEqual(2.2, calculation.EntryPointL);
Assert.AreEqual(3.3, calculation.ExitPointL);
Assert.AreEqual("Ondergrondmodel", calculation.StochasticSoilModel);
Assert.AreEqual("Ondergrondschematisatie", calculation.StochasticSoilProfile);
Assert.AreEqual(4.4, calculation.PhreaticLevelExitMean);
Assert.AreEqual(5.5, calculation.PhreaticLevelExitStandardDeviation);
Assert.AreEqual(6.6, calculation.DampingFactorExitMean);
Assert.AreEqual(7.7, calculation.DampingFactorExitStandardDeviation);
}
[Test]
public void Read_ValidConfigurationWithFullCalculationContainingAssessmentLevel_ReturnExpectedReadPipingCalculation()
{
// Setup
string filePath = Path.Combine(testDirectoryPath, "validConfigurationFullCalculationContainingAssessmentLevel.xml");
var reader = new PipingCalculationConfigurationReader(filePath);
// Call
IList readConfigurationItems = reader.Read().ToList();
// Assert
Assert.AreEqual(1, readConfigurationItems.Count);
var calculation = readConfigurationItems[0] as ReadPipingCalculation;
Assert.IsNotNull(calculation);
Assert.AreEqual("Calculation", calculation.Name);
Assert.AreEqual(1.1, calculation.AssessmentLevel);
Assert.IsNull(calculation.HydraulicBoundaryLocation);
Assert.AreEqual("Profielschematisatie", calculation.SurfaceLine);
Assert.AreEqual(2.2, calculation.EntryPointL);
Assert.AreEqual(3.3, calculation.ExitPointL);
Assert.AreEqual("Ondergrondmodel", calculation.StochasticSoilModel);
Assert.AreEqual("Ondergrondschematisatie", calculation.StochasticSoilProfile);
Assert.AreEqual(4.4, calculation.PhreaticLevelExitMean);
Assert.AreEqual(5.5, calculation.PhreaticLevelExitStandardDeviation);
Assert.AreEqual(6.6, calculation.DampingFactorExitMean);
Assert.AreEqual(7.7, calculation.DampingFactorExitStandardDeviation);
}
[Test]
public void Read_ValidConfigurationWithPartialCalculation_ReturnExpectedReadPipingCalculation()
{
// Setup
string filePath = Path.Combine(testDirectoryPath, "validConfigurationPartialCalculation.xml");
var reader = new PipingCalculationConfigurationReader(filePath);
// Call
IList readConfigurationItems = reader.Read().ToList();
// Assert
Assert.AreEqual(1, readConfigurationItems.Count);
var calculation = readConfigurationItems[0] as ReadPipingCalculation;
Assert.IsNotNull(calculation);
Assert.AreEqual("Calculation", calculation.Name);
Assert.AreEqual(1.1, calculation.AssessmentLevel);
Assert.IsNull(calculation.HydraulicBoundaryLocation);
Assert.IsNull(calculation.SurfaceLine);
Assert.IsNull(calculation.EntryPointL);
Assert.AreEqual(2.2, calculation.ExitPointL);
Assert.IsNull(calculation.StochasticSoilModel);
Assert.AreEqual("Ondergrondschematisatie", calculation.StochasticSoilProfile);
Assert.AreEqual(3.3, calculation.PhreaticLevelExitMean);
Assert.AreEqual(4.4, calculation.PhreaticLevelExitStandardDeviation);
Assert.IsNull(calculation.DampingFactorExitMean);
Assert.IsNull(calculation.DampingFactorExitStandardDeviation);
}
[Test]
public void Read_ValidConfigurationWithMissingStochastMean_ExpectedValues()
{
// Setup
string filePath = Path.Combine(testDirectoryPath, "validConfigurationStochastNoMean.xml");
var reader = new PipingCalculationConfigurationReader(filePath);
// Call
IList readConfigurationItems = reader.Read().ToList();
// Assert
Assert.AreEqual(1, readConfigurationItems.Count);
var calculation = readConfigurationItems[0] as ReadPipingCalculation;
Assert.IsNotNull(calculation);
Assert.IsNull(calculation.PhreaticLevelExitMean);
Assert.AreEqual(0.1, calculation.PhreaticLevelExitStandardDeviation);
}
[Test]
public void Read_ValidConfigurationWithMissingStochastStandardDeviation_ExpectedValues()
{
// Setup
string filePath = Path.Combine(testDirectoryPath, "validConfigurationStochastNoStandardDeviation.xml");
var reader = new PipingCalculationConfigurationReader(filePath);
// Call
IList readConfigurationItems = reader.Read().ToList();
// Assert
Assert.AreEqual(1, readConfigurationItems.Count);
var calculation = readConfigurationItems[0] as ReadPipingCalculation;
Assert.IsNotNull(calculation);
Assert.AreEqual(0.0, calculation.PhreaticLevelExitMean);
Assert.IsNull(calculation.PhreaticLevelExitStandardDeviation);
}
}
}