// 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 System.IO;
using System.Linq;
using Core.Common.Base.Data;
using Core.Common.Base.Service;
using Core.Common.TestUtil;
using NUnit.Framework;
using Rhino.Mocks;
using Ringtoets.Common.Data.AssessmentSection;
using Ringtoets.Common.Data.DikeProfiles;
using Ringtoets.Common.Data.Hydraulics;
using Ringtoets.Common.Data.TestUtil;
using Ringtoets.Common.Service.TestUtil;
using Ringtoets.HydraRing.Calculation.Calculator.Factory;
using Ringtoets.HydraRing.Calculation.Data;
using Ringtoets.HydraRing.Calculation.Data.Input.WaveConditions;
using Ringtoets.HydraRing.Calculation.TestUtil;
using Ringtoets.HydraRing.Calculation.TestUtil.Calculator;
using Ringtoets.Revetment.Data;
using Ringtoets.StabilityStoneCover.Data;
using Ringtoets.StabilityStoneCover.Service;
namespace Ringtoets.StabilityStoneCover.Integration.Test
{
[TestFixture]
public class StabilityStoneCoverWaveConditionsCalculationActivityIntegrationTest
{
private static readonly string testDataPath = TestHelper.GetTestDataPath(TestDataPath.Ringtoets.Integration.Service, "HydraRingCalculation");
private static readonly string validPreprocessorDirectory = TestHelper.GetScratchPadPath();
private static readonly string validFilePath = Path.Combine(testDataPath, "HRD dutch coast south.sqlite");
[Test]
public void Run_CalculationWithInvalidHydraulicBoundaryDatabaseFilePath_DoesNotPerformCalculationAndLogsError()
{
// Setup
IAssessmentSection assessmentSection = CreateAssessmentSectionWithHydraulicBoundaryOutput();
StabilityStoneCoverWaveConditionsCalculation calculation = CreateValidCalculation(assessmentSection.HydraulicBoundaryDatabase.Locations.First());
string invalidFilePath = Path.Combine(testDataPath, "NonExisting.sqlite");
var stabilityStoneCoverFailureMechanism = new StabilityStoneCoverFailureMechanism();
var activity = new StabilityStoneCoverWaveConditionsCalculationActivity(calculation,
invalidFilePath,
stabilityStoneCoverFailureMechanism,
assessmentSection);
var mockRepository = new MockRepository();
var calculatorFactory = mockRepository.StrictMock();
mockRepository.ReplayAll();
using (new HydraRingCalculatorFactoryConfig(calculatorFactory))
{
// Call
Action call = () => activity.Run();
// Assert
TestHelper.AssertLogMessages(call, messages =>
{
string[] msgs = messages.ToArray();
Assert.AreEqual(4, msgs.Length);
Assert.AreEqual($"Golfcondities voor blokken en zuilen berekenen voor '{calculation.Name}' is gestart.", msgs[0]);
CalculationServiceTestHelper.AssertValidationStartMessage(msgs[1]);
Assert.AreEqual($"Fout bij het lezen van bestand '{invalidFilePath}': het bestand bestaat niet.", msgs[2]);
CalculationServiceTestHelper.AssertValidationEndMessage(msgs[3]);
});
Assert.AreEqual(ActivityState.Failed, activity.State);
}
mockRepository.VerifyAll();
}
[Test]
public void Run_CalculationWithInvalidPreprocessorDirectory_DoesNotPerformCalculationAndLogsError()
{
// Setup
IAssessmentSection assessmentSection = CreateAssessmentSectionWithHydraulicBoundaryOutput();
StabilityStoneCoverWaveConditionsCalculation calculation = CreateValidCalculation(assessmentSection.HydraulicBoundaryDatabase.Locations.First());
assessmentSection.HydraulicBoundaryDatabase.CanUsePreprocessor = true;
assessmentSection.HydraulicBoundaryDatabase.UsePreprocessor = true;
assessmentSection.HydraulicBoundaryDatabase.PreprocessorDirectory = "InvalidPreprocessorDirectory";
var stabilityStoneCoverFailureMechanism = new StabilityStoneCoverFailureMechanism();
var activity = new StabilityStoneCoverWaveConditionsCalculationActivity(calculation,
validFilePath,
stabilityStoneCoverFailureMechanism,
assessmentSection);
var mockRepository = new MockRepository();
var calculatorFactory = mockRepository.StrictMock();
mockRepository.ReplayAll();
using (new HydraRingCalculatorFactoryConfig(calculatorFactory))
{
// Call
Action call = () => activity.Run();
// Assert
TestHelper.AssertLogMessages(call, messages =>
{
string[] msgs = messages.ToArray();
Assert.AreEqual(4, msgs.Length);
Assert.AreEqual($"Golfcondities voor blokken en zuilen berekenen voor '{calculation.Name}' is gestart.", msgs[0]);
CalculationServiceTestHelper.AssertValidationStartMessage(msgs[1]);
Assert.AreEqual("De bestandsmap waar de preprocessor bestanden opslaat is ongeldig. De bestandsmap bestaat niet.", msgs[2]);
CalculationServiceTestHelper.AssertValidationEndMessage(msgs[3]);
});
Assert.AreEqual(ActivityState.Failed, activity.State);
}
mockRepository.VerifyAll();
}
[Test]
public void Run_Always_SetProgressTexts()
{
// Setup
IAssessmentSection assessmentSection = CreateAssessmentSectionWithHydraulicBoundaryOutput();
StabilityStoneCoverWaveConditionsCalculation calculation = CreateValidCalculation(assessmentSection.HydraulicBoundaryDatabase.Locations.First());
var stabilityStoneCoverFailureMechanism = new StabilityStoneCoverFailureMechanism();
var activity = new StabilityStoneCoverWaveConditionsCalculationActivity(calculation,
validFilePath,
stabilityStoneCoverFailureMechanism,
assessmentSection);
RoundedDouble[] waterLevels = GetWaterLevels(calculation, assessmentSection).ToArray();
int nrOfCalculators = waterLevels.Length * 2;
var mockRepository = new MockRepository();
var calculatorFactory = mockRepository.StrictMock();
calculatorFactory.Expect(cf => cf.CreateWaveConditionsCosineCalculator(testDataPath, string.Empty))
.Return(new TestWaveConditionsCosineCalculator())
.Repeat
.Times(nrOfCalculators);
mockRepository.ReplayAll();
using (new HydraRingCalculatorFactoryConfig(calculatorFactory))
{
var progessTexts = new List();
activity.ProgressChanged += (sender, args) => progessTexts.Add(activity.ProgressText);
// Call
activity.Run();
// Assert
int totalSteps = waterLevels.Length * 2;
for (var i = 0; i < totalSteps; i++)
{
string text = $"Stap {i + 1} van {totalSteps} | Waterstand '{waterLevels[i % waterLevels.Length]}' berekenen.";
Assert.AreEqual(text, progessTexts[i]);
}
}
mockRepository.VerifyAll();
}
[Test]
[TestCase(BreakWaterType.Caisson)]
[TestCase(BreakWaterType.Wall)]
[TestCase(BreakWaterType.Dam)]
public void Run_Always_InputPropertiesCorrectlySendToService(BreakWaterType breakWaterType)
{
// Setup
const int nrOfCalculators = 6;
IAssessmentSection assessmentSection = CreateAssessmentSectionWithHydraulicBoundaryOutput();
StabilityStoneCoverWaveConditionsCalculation calculation = CreateValidCalculation(assessmentSection.HydraulicBoundaryDatabase.Locations.First());
calculation.InputParameters.BreakWater.Type = breakWaterType;
var stabilityStoneCoverFailureMechanism = new StabilityStoneCoverFailureMechanism();
var activity = new StabilityStoneCoverWaveConditionsCalculationActivity(calculation,
validFilePath,
stabilityStoneCoverFailureMechanism,
assessmentSection);
var mockRepository = new MockRepository();
var calculatorFactory = mockRepository.StrictMock();
var calculator = new TestWaveConditionsCosineCalculator();
calculatorFactory.Expect(cf => cf.CreateWaveConditionsCosineCalculator(testDataPath, string.Empty))
.Return(calculator)
.Repeat
.Times(nrOfCalculators);
mockRepository.ReplayAll();
using (new HydraRingCalculatorFactoryConfig(calculatorFactory))
{
// Call
activity.Run();
// Assert
WaveConditionsCosineCalculationInput[] testWaveConditionsInputs = calculator.ReceivedInputs.ToArray();
Assert.AreEqual(nrOfCalculators, testWaveConditionsInputs.Length);
GeneralStabilityStoneCoverWaveConditionsInput generalInput = stabilityStoneCoverFailureMechanism.GeneralInput;
WaveConditionsInput input = calculation.InputParameters;
RoundedDouble[] waterLevels = GetWaterLevels(calculation, assessmentSection).ToArray();
var waterLevelIndex = 0;
for (var i = 0; i < testWaveConditionsInputs.Length / 2; i++)
{
var expectedInput = new WaveConditionsCosineCalculationInput(1,
input.Orientation,
input.HydraulicBoundaryLocation.Id,
assessmentSection.FailureMechanismContribution.Norm,
input.ForeshoreProfile.Geometry.Select(c => new HydraRingForelandPoint(c.X, c.Y)),
new HydraRingBreakWater(BreakWaterTypeHelper.GetHydraRingBreakWaterType(breakWaterType), input.BreakWater.Height),
waterLevels[waterLevelIndex++],
generalInput.GeneralBlocksWaveConditionsInput.A,
generalInput.GeneralBlocksWaveConditionsInput.B,
generalInput.GeneralBlocksWaveConditionsInput.C);
HydraRingDataEqualityHelper.AreEqual(expectedInput, testWaveConditionsInputs[i]);
}
waterLevelIndex = 0;
for (int i = testWaveConditionsInputs.Length / 2; i < testWaveConditionsInputs.Length; i++)
{
var expectedInput = new WaveConditionsCosineCalculationInput(1,
input.Orientation,
input.HydraulicBoundaryLocation.Id,
assessmentSection.FailureMechanismContribution.Norm,
input.ForeshoreProfile.Geometry.Select(c => new HydraRingForelandPoint(c.X, c.Y)),
new HydraRingBreakWater(BreakWaterTypeHelper.GetHydraRingBreakWaterType(breakWaterType), input.BreakWater.Height),
waterLevels[waterLevelIndex++],
generalInput.GeneralColumnsWaveConditionsInput.A,
generalInput.GeneralColumnsWaveConditionsInput.B,
generalInput.GeneralColumnsWaveConditionsInput.C);
HydraRingDataEqualityHelper.AreEqual(expectedInput, testWaveConditionsInputs[i]);
}
}
mockRepository.VerifyAll();
}
[Test]
public void Cancel_WhenPerformingCalculationForBlocks_CurrentCalculationForWaterLevelCompletesAndSubsequentCalculationsDidNotRun()
{
// Setup
IAssessmentSection assessmentSection = CreateAssessmentSectionWithHydraulicBoundaryOutput();
StabilityStoneCoverWaveConditionsCalculation calculation = CreateValidCalculation(assessmentSection.HydraulicBoundaryDatabase.Locations.First());
var stabilityStoneCoverFailureMechanism = new StabilityStoneCoverFailureMechanism();
var activity = new StabilityStoneCoverWaveConditionsCalculationActivity(calculation,
validFilePath,
stabilityStoneCoverFailureMechanism,
assessmentSection);
var mockRepository = new MockRepository();
var calculatorFactory = mockRepository.StrictMock();
var calculator = new TestWaveConditionsCosineCalculator();
calculatorFactory.Expect(cf => cf.CreateWaveConditionsCosineCalculator(testDataPath, string.Empty)).Return(calculator);
mockRepository.ReplayAll();
using (new HydraRingCalculatorFactoryConfig(calculatorFactory))
{
activity.ProgressChanged += (sender, args) =>
{
if (activity.State != ActivityState.Canceled && activity.ProgressText.Contains("Stap 1 van 6"))
{
// Call
activity.Cancel();
}
};
// Assert
TestHelper.AssertLogMessages(() => activity.Run(), messages =>
{
string[] msgs = messages.ToArray();
RoundedDouble firstWaterLevel = GetWaterLevels(calculation, assessmentSection).First();
Assert.AreEqual(10, msgs.Length);
Assert.AreEqual($"Golfcondities voor blokken en zuilen berekenen voor '{calculation.Name}' is gestart.", msgs[0]);
CalculationServiceTestHelper.AssertValidationStartMessage(msgs[1]);
CalculationServiceTestHelper.AssertValidationEndMessage(msgs[2]);
CalculationServiceTestHelper.AssertCalculationStartMessage(msgs[3]);
Assert.AreEqual("Berekening voor blokken is gestart.", msgs[4]);
Assert.AreEqual($"Berekening voor waterstand '{firstWaterLevel}' is gestart.", msgs[5]);
StringAssert.StartsWith("Golfcondities berekening is uitgevoerd op de tijdelijke locatie", msgs[6]);
Assert.AreEqual($"Berekening voor waterstand '{firstWaterLevel}' is beëindigd.", msgs[7]);
Assert.AreEqual("Berekening voor blokken is beëindigd.", msgs[8]);
CalculationServiceTestHelper.AssertCalculationEndMessage(msgs[9]);
});
Assert.AreEqual(ActivityState.Canceled, activity.State);
}
mockRepository.VerifyAll();
}
[Test]
public void Cancel_WhenPerformingCalculationForColumns_CurrentCalculationForWaterLevelCompletesAndSubsequentCalculationsDidNotRun()
{
// Setup
IAssessmentSection assessmentSection = CreateAssessmentSectionWithHydraulicBoundaryOutput();
StabilityStoneCoverWaveConditionsCalculation calculation = CreateValidCalculation(assessmentSection.HydraulicBoundaryDatabase.Locations.First());
var stabilityStoneCoverFailureMechanism = new StabilityStoneCoverFailureMechanism();
var activity = new StabilityStoneCoverWaveConditionsCalculationActivity(calculation,
validFilePath,
stabilityStoneCoverFailureMechanism,
assessmentSection);
var mockRepository = new MockRepository();
var calculatorFactory = mockRepository.StrictMock();
calculatorFactory.Expect(cf => cf.CreateWaveConditionsCosineCalculator(testDataPath, string.Empty))
.Return(new TestWaveConditionsCosineCalculator())
.Repeat
.Times(4);
mockRepository.ReplayAll();
using (new HydraRingCalculatorFactoryConfig(calculatorFactory))
{
activity.ProgressChanged += (sender, args) =>
{
if (activity.State != ActivityState.Canceled && activity.ProgressText.Contains("Stap 4 van 6"))
{
// Call
activity.Cancel();
}
};
// Assert
TestHelper.AssertLogMessages(() => activity.Run(), messages =>
{
string[] msgs = messages.ToArray();
RoundedDouble[] waterLevels = GetWaterLevels(calculation, assessmentSection).ToArray();
Assert.AreEqual(21, msgs.Length);
Assert.AreEqual($"Golfcondities voor blokken en zuilen berekenen voor '{calculation.Name}' is gestart.", msgs[0]);
CalculationServiceTestHelper.AssertValidationStartMessage(msgs[1]);
CalculationServiceTestHelper.AssertValidationEndMessage(msgs[2]);
CalculationServiceTestHelper.AssertCalculationStartMessage(msgs[3]);
Assert.AreEqual("Berekening voor blokken is gestart.", msgs[4]);
Assert.AreEqual($"Berekening voor waterstand '{waterLevels[0]}' is gestart.", msgs[5]);
StringAssert.StartsWith("Golfcondities berekening is uitgevoerd op de tijdelijke locatie", msgs[6]);
Assert.AreEqual($"Berekening voor waterstand '{waterLevels[0]}' is beëindigd.", msgs[7]);
Assert.AreEqual($"Berekening voor waterstand '{waterLevels[1]}' is gestart.", msgs[8]);
StringAssert.StartsWith("Golfcondities berekening is uitgevoerd op de tijdelijke locatie", msgs[9]);
Assert.AreEqual($"Berekening voor waterstand '{waterLevels[1]}' is beëindigd.", msgs[10]);
Assert.AreEqual($"Berekening voor waterstand '{waterLevels[2]}' is gestart.", msgs[11]);
StringAssert.StartsWith("Golfcondities berekening is uitgevoerd op de tijdelijke locatie", msgs[12]);
Assert.AreEqual($"Berekening voor waterstand '{waterLevels[2]}' is beëindigd.", msgs[13]);
Assert.AreEqual("Berekening voor blokken is beëindigd.", msgs[14]);
Assert.AreEqual("Berekening voor zuilen is gestart.", msgs[15]);
Assert.AreEqual($"Berekening voor waterstand '{waterLevels[0]}' is gestart.", msgs[16]);
StringAssert.StartsWith("Golfcondities berekening is uitgevoerd op de tijdelijke locatie", msgs[17]);
Assert.AreEqual($"Berekening voor waterstand '{waterLevels[0]}' is beëindigd.", msgs[18]);
Assert.AreEqual("Berekening voor zuilen is beëindigd.", msgs[19]);
CalculationServiceTestHelper.AssertCalculationEndMessage(msgs[20]);
});
Assert.AreEqual(ActivityState.Canceled, activity.State);
}
mockRepository.VerifyAll();
}
[Test]
public void Run_WhenCanceled_OutputNull()
{
// Setup
IAssessmentSection assessmentSection = CreateAssessmentSectionWithHydraulicBoundaryOutput();
StabilityStoneCoverWaveConditionsCalculation calculation = CreateValidCalculation(assessmentSection.HydraulicBoundaryDatabase.Locations.First());
var stabilityStoneCoverFailureMechanism = new StabilityStoneCoverFailureMechanism();
var activity = new StabilityStoneCoverWaveConditionsCalculationActivity(calculation,
validFilePath,
stabilityStoneCoverFailureMechanism,
assessmentSection);
var mockRepository = new MockRepository();
var calculatorFactory = mockRepository.StrictMock();
calculatorFactory.Expect(cf => cf.CreateWaveConditionsCosineCalculator(testDataPath, string.Empty)).Return(new TestWaveConditionsCosineCalculator());
mockRepository.ReplayAll();
using (new HydraRingCalculatorFactoryConfig(calculatorFactory))
{
activity.ProgressChanged += (sender, args) =>
{
if (activity.State != ActivityState.Canceled)
{
activity.Cancel();
}
};
activity.Run();
// Call
activity.Finish();
// Assert
Assert.AreEqual(ActivityState.Canceled, activity.State);
Assert.IsNull(calculation.Output);
}
mockRepository.VerifyAll();
}
[Test]
public void Run_CalculationPerformed_SetsOutput()
{
// Setup
IAssessmentSection assessmentSection = CreateAssessmentSectionWithHydraulicBoundaryOutput();
StabilityStoneCoverWaveConditionsCalculation calculation = CreateValidCalculation(assessmentSection.HydraulicBoundaryDatabase.Locations.First());
var stabilityStoneCoverFailureMechanism = new StabilityStoneCoverFailureMechanism();
var activity = new StabilityStoneCoverWaveConditionsCalculationActivity(calculation,
validFilePath,
stabilityStoneCoverFailureMechanism,
assessmentSection);
int nrOfCalculators = GetWaterLevels(calculation, assessmentSection).Count() * 2;
var mockRepository = new MockRepository();
var calculatorFactory = mockRepository.StrictMock();
calculatorFactory.Expect(cf => cf.CreateWaveConditionsCosineCalculator(testDataPath, string.Empty))
.Return(new TestWaveConditionsCosineCalculator())
.Repeat
.Times(nrOfCalculators);
mockRepository.ReplayAll();
using (new HydraRingCalculatorFactoryConfig(calculatorFactory))
{
// Call
activity.Run();
// Assert
Assert.IsNotNull(calculation.Output);
Assert.AreEqual(3, calculation.Output.ColumnsOutput.Count());
Assert.AreEqual(3, calculation.Output.BlocksOutput.Count());
}
mockRepository.VerifyAll();
}
[Test]
[TestCaseSource(typeof(HydraRingCalculatorTestCaseProvider), nameof(HydraRingCalculatorTestCaseProvider.GetCalculatorFailingConditions), new object[]
{
nameof(Run_ErrorInCalculation_ActivityStateFailed)
})]
public void Run_ErrorInCalculation_ActivityStateFailed(bool endInFailure, string lastErrorFileContent)
{
// Setup
IAssessmentSection assessmentSection = CreateAssessmentSectionWithHydraulicBoundaryOutput();
StabilityStoneCoverWaveConditionsCalculation calculation = CreateValidCalculation(assessmentSection.HydraulicBoundaryDatabase.Locations.First());
var failureMechanism = new StabilityStoneCoverFailureMechanism();
var activity = new StabilityStoneCoverWaveConditionsCalculationActivity(calculation,
validFilePath,
failureMechanism,
assessmentSection);
var mockRepository = new MockRepository();
var calculatorFactory = mockRepository.StrictMock();
calculatorFactory.Expect(cf => cf.CreateWaveConditionsCosineCalculator(testDataPath, string.Empty)).Return(new TestWaveConditionsCosineCalculator
{
EndInFailure = endInFailure,
LastErrorFileContent = lastErrorFileContent
}).Repeat.Times(GetWaterLevels(calculation, assessmentSection).Count());
mockRepository.ReplayAll();
using (new HydraRingCalculatorFactoryConfig(calculatorFactory))
{
// Call
activity.Run();
// Assert
Assert.AreEqual(ActivityState.Failed, activity.State);
}
mockRepository.VerifyAll();
}
[Test]
[TestCaseSource(typeof(HydraRingCalculatorTestCaseProvider), nameof(HydraRingCalculatorTestCaseProvider.GetCalculatorFailingConditions), new object[]
{
nameof(Run_CalculationFailed_OutputNull)
})]
public void Run_CalculationFailed_OutputNull(bool endInFailure, string lastErrorFileContent)
{
// Setup
IAssessmentSection assessmentSection = CreateAssessmentSectionWithHydraulicBoundaryOutput();
StabilityStoneCoverWaveConditionsCalculation calculation = CreateValidCalculation(assessmentSection.HydraulicBoundaryDatabase.Locations.First());
var stabilityStoneCoverFailureMechanism = new StabilityStoneCoverFailureMechanism();
var activity = new StabilityStoneCoverWaveConditionsCalculationActivity(calculation,
validFilePath,
stabilityStoneCoverFailureMechanism,
assessmentSection);
var mockRepository = new MockRepository();
var calculatorFactory = mockRepository.StrictMock();
calculatorFactory.Expect(cf => cf.CreateWaveConditionsCosineCalculator(testDataPath, string.Empty)).Return(new TestWaveConditionsCosineCalculator
{
EndInFailure = endInFailure,
LastErrorFileContent = lastErrorFileContent
}).Repeat.Times(GetWaterLevels(calculation, assessmentSection).Count());
mockRepository.ReplayAll();
using (new HydraRingCalculatorFactoryConfig(calculatorFactory))
{
// Call
activity.Run();
// Assert
Assert.IsNull(calculation.Output);
}
mockRepository.VerifyAll();
}
[Test]
public void Run_HydraulicBoundaryDatabaseWithCanUsePreprocessorFalse_CreateWaveConditionsCosineCalculatorAsExpected()
{
// Setup
IAssessmentSection assessmentSection = CreateAssessmentSectionWithHydraulicBoundaryOutput();
StabilityStoneCoverWaveConditionsCalculation calculation = CreateValidCalculation(assessmentSection.HydraulicBoundaryDatabase.Locations.First());
var stabilityStoneCoverFailureMechanism = new StabilityStoneCoverFailureMechanism();
var activity = new StabilityStoneCoverWaveConditionsCalculationActivity(calculation,
validFilePath,
stabilityStoneCoverFailureMechanism,
assessmentSection);
int nrOfCalculators = GetWaterLevels(calculation, assessmentSection).Count() * 2;
var mockRepository = new MockRepository();
var calculatorFactory = mockRepository.StrictMock();
calculatorFactory.Expect(cf => cf.CreateWaveConditionsCosineCalculator(testDataPath, string.Empty))
.Return(new TestWaveConditionsCosineCalculator())
.Repeat
.Times(nrOfCalculators);
mockRepository.ReplayAll();
using (new HydraRingCalculatorFactoryConfig(calculatorFactory))
{
// Call
activity.Run();
}
// Assert
mockRepository.VerifyAll();
}
[Test]
public void Run_HydraulicBoundaryDatabaseWithUsePreprocessorTrue_CreateWaveConditionsCosineCalculatorAsExpected()
{
// Setup
IAssessmentSection assessmentSection = CreateAssessmentSectionWithHydraulicBoundaryOutput();
StabilityStoneCoverWaveConditionsCalculation calculation = CreateValidCalculation(assessmentSection.HydraulicBoundaryDatabase.Locations.First());
var stabilityStoneCoverFailureMechanism = new StabilityStoneCoverFailureMechanism();
assessmentSection.HydraulicBoundaryDatabase.CanUsePreprocessor = true;
assessmentSection.HydraulicBoundaryDatabase.UsePreprocessor = true;
assessmentSection.HydraulicBoundaryDatabase.PreprocessorDirectory = validPreprocessorDirectory;
var activity = new StabilityStoneCoverWaveConditionsCalculationActivity(calculation,
validFilePath,
stabilityStoneCoverFailureMechanism,
assessmentSection);
int nrOfCalculators = GetWaterLevels(calculation, assessmentSection).Count() * 2;
var mockRepository = new MockRepository();
var calculatorFactory = mockRepository.StrictMock();
calculatorFactory.Expect(cf => cf.CreateWaveConditionsCosineCalculator(testDataPath, validPreprocessorDirectory))
.Return(new TestWaveConditionsCosineCalculator())
.Repeat
.Times(nrOfCalculators);
mockRepository.ReplayAll();
using (new HydraRingCalculatorFactoryConfig(calculatorFactory))
{
// Call
activity.Run();
}
// Assert
mockRepository.VerifyAll();
}
[Test]
public void Run_HydraulicBoundaryDatabaseWithUsePreprocessorFalse_CreateWaveConditionsCosineCalculatorAsExpected()
{
// Setup
IAssessmentSection assessmentSection = CreateAssessmentSectionWithHydraulicBoundaryOutput();
StabilityStoneCoverWaveConditionsCalculation calculation = CreateValidCalculation(assessmentSection.HydraulicBoundaryDatabase.Locations.First());
var stabilityStoneCoverFailureMechanism = new StabilityStoneCoverFailureMechanism();
assessmentSection.HydraulicBoundaryDatabase.CanUsePreprocessor = true;
assessmentSection.HydraulicBoundaryDatabase.UsePreprocessor = false;
assessmentSection.HydraulicBoundaryDatabase.PreprocessorDirectory = "InvalidPreprocessorDirectory";
var activity = new StabilityStoneCoverWaveConditionsCalculationActivity(calculation,
validFilePath,
stabilityStoneCoverFailureMechanism,
assessmentSection);
int nrOfCalculators = GetWaterLevels(calculation, assessmentSection).Count() * 2;
var mockRepository = new MockRepository();
var calculatorFactory = mockRepository.StrictMock();
calculatorFactory.Expect(cf => cf.CreateWaveConditionsCosineCalculator(testDataPath, string.Empty))
.Return(new TestWaveConditionsCosineCalculator())
.Repeat
.Times(nrOfCalculators);
mockRepository.ReplayAll();
using (new HydraRingCalculatorFactoryConfig(calculatorFactory))
{
// Call
activity.Run();
}
// Assert
mockRepository.VerifyAll();
}
private static StabilityStoneCoverWaveConditionsCalculation CreateValidCalculation(HydraulicBoundaryLocation hydraulicBoundaryLocation)
{
return new StabilityStoneCoverWaveConditionsCalculation
{
InputParameters =
{
HydraulicBoundaryLocation = hydraulicBoundaryLocation,
CategoryType = AssessmentSectionCategoryType.LowerLimitNorm,
ForeshoreProfile = new TestForeshoreProfile(true),
UseForeshore = true,
UseBreakWater = true,
StepSize = WaveConditionsInputStepSize.Half,
LowerBoundaryRevetment = (RoundedDouble) 4,
UpperBoundaryRevetment = (RoundedDouble) 10,
UpperBoundaryWaterLevels = (RoundedDouble) 8,
LowerBoundaryWaterLevels = (RoundedDouble) 7.1
}
};
}
private static IAssessmentSection CreateAssessmentSectionWithHydraulicBoundaryOutput()
{
var hydraulicBoundaryLocation = new HydraulicBoundaryLocation(1300001, string.Empty, 0, 0);
var assessmentSection = new AssessmentSectionStub
{
HydraulicBoundaryDatabase =
{
FilePath = validFilePath,
Locations =
{
hydraulicBoundaryLocation
}
}
};
assessmentSection.SetHydraulicBoundaryLocationCalculations(new[]
{
hydraulicBoundaryLocation
});
assessmentSection.WaterLevelCalculationsForLowerLimitNorm.First().Output = new TestHydraulicBoundaryLocationCalculationOutput(9.3);
return assessmentSection;
}
private static IEnumerable GetWaterLevels(StabilityStoneCoverWaveConditionsCalculation calculation, IAssessmentSection assessmentSection)
{
return calculation.InputParameters.GetWaterLevels(assessmentSection.GetAssessmentLevel(
calculation.InputParameters.HydraulicBoundaryLocation,
calculation.InputParameters.CategoryType));
}
}
}