using System; using System.Linq; using Core.Common.Base.Data; using Core.Common.TestUtil; using NUnit.Framework; using Ringtoets.Common.Data.TestUtil; using Ringtoets.Piping.Data; using Ringtoets.Piping.Data.TestUtil; using Ringtoets.Piping.KernelWrapper.SubCalculator; using Ringtoets.Piping.KernelWrapper.TestUtil; using Ringtoets.Piping.KernelWrapper.TestUtil.SubCalculator; namespace Ringtoets.Piping.Service.Test { public class PipingCalculationServiceTest { [Test] public void Validate_Always_LogStartAndEndOfValidatingInputs() { // Setup const string name = ""; PipingCalculation pipingCalculation = PipingCalculationFactory.CreateCalculationWithValidInput(); pipingCalculation.Name = name; // Call Action call = () => PipingCalculationService.Validate(pipingCalculation); // Assert TestHelper.AssertLogMessages(call, messages => { var msgs = messages.ToArray(); StringAssert.StartsWith(String.Format("Validatie van '{0}' gestart om: ", name), msgs.First()); StringAssert.StartsWith(String.Format("Validatie van '{0}' beëindigd om: ", name), msgs.Last()); }); } [Test] public void Validate_InValidPipingCalculationWithOutput_ReturnsFalseNoOutputChange() { // Setup var output = new TestPipingOutput(); PipingCalculation invalidPipingCalculation = PipingCalculationFactory.CreateCalculationWithInvalidData(); invalidPipingCalculation.Output = output; // Call var isValid = PipingCalculationService.Validate(invalidPipingCalculation); // Assert Assert.IsFalse(isValid); Assert.AreSame(output, invalidPipingCalculation.Output); } [Test] public void Validate_InValidCalculationInput_LogsErrorAndReturnsFalse() { // Setup const string name = ""; var calculation = new PipingCalculation(new GeneralPipingInput(), new NormProbabilityPipingInput()); calculation.Name = name; // Call bool isValid = false; Action call = () => isValid = PipingCalculationService.Validate(calculation); // Assert TestHelper.AssertLogMessages(call, messages => { var msgs = messages.ToArray(); Assert.AreEqual(4, msgs.Length); StringAssert.StartsWith(String.Format("Validatie van '{0}' gestart om: ", name), msgs.First()); StringAssert.StartsWith("Validatie mislukt: Kan de dikte van het watervoerend pakket niet afleiden op basis van de invoer.", msgs[1]); StringAssert.StartsWith("Validatie mislukt: Kan de dikte van de deklaag niet afleiden op basis van de invoer.", msgs[2]); StringAssert.StartsWith(String.Format("Validatie van '{0}' beëindigd om: ", name), msgs.Last()); }); Assert.IsFalse(isValid); } [Test] public void PerformValidatedCalculation_ValidPipingCalculation_LogStartAndEndOfValidatingInputsAndCalculation() { // Setup const string name = ""; PipingCalculation validPipingCalculation = PipingCalculationFactory.CreateCalculationWithValidInput(); validPipingCalculation.Name = name; // Call Action call = () => { Assert.IsTrue(PipingCalculationService.Validate(validPipingCalculation)); PipingCalculationService.Calculate(validPipingCalculation); }; // Assert TestHelper.AssertLogMessages(call, messages => { var msgs = messages.ToArray(); StringAssert.StartsWith(String.Format("Validatie van '{0}' gestart om: ", name), msgs.First()); StringAssert.StartsWith(String.Format("Validatie van '{0}' beëindigd om: ", name), msgs[1]); StringAssert.StartsWith(String.Format("Berekening van '{0}' gestart om: ", name), msgs[2]); StringAssert.StartsWith(String.Format("Berekening van '{0}' beëindigd om: ", name), msgs.Last()); }); } [Test] public void PerformValidatedCalculation_ValidPipingCalculationNoOutput_ShouldSetOutput() { // Setup PipingCalculation validPipingCalculation = PipingCalculationFactory.CreateCalculationWithValidInput(); // Precondition Assert.IsNull(validPipingCalculation.Output); // Call Assert.IsTrue(PipingCalculationService.Validate(validPipingCalculation)); PipingCalculationService.Calculate(validPipingCalculation); // Assert Assert.IsNotNull(validPipingCalculation.Output); } [Test] public void PerformValidatedCalculation_ValidPipingCalculationWithOutput_ShouldChangeOutput() { // Setup var output = new TestPipingOutput(); PipingCalculation validPipingCalculation = PipingCalculationFactory.CreateCalculationWithValidInput(); validPipingCalculation.Output = output; // Call Assert.IsTrue(PipingCalculationService.Validate(validPipingCalculation)); PipingCalculationService.Calculate(validPipingCalculation); // Assert Assert.AreNotSame(output, validPipingCalculation.Output); } [Test] public void Validate_CompleteInput_InputSetOnSubCalculators() { // Setup PipingCalculation validPipingCalculation = PipingCalculationFactory.CreateCalculationWithValidInput(); PipingInput input = validPipingCalculation.InputParameters; using (new PipingSubCalculatorFactoryConfig()) { // Call PipingCalculationService.Validate(validPipingCalculation); // Assert AssertSubCalculatorInputs(input); } } [Test] public void Calculate_CompleteInput_InputSetOnSubCalculators() { // Setup PipingCalculation validPipingCalculation = PipingCalculationFactory.CreateCalculationWithValidInput(); PipingInput input = validPipingCalculation.InputParameters; using (new PipingSubCalculatorFactoryConfig()) { // Call PipingCalculationService.Calculate(validPipingCalculation); // Assert AssertSubCalculatorInputs(input); } } private void AssertSubCalculatorInputs(PipingInput input) { var testFactory = (TestPipingSubCalculatorFactory) PipingSubCalculatorFactory.Instance; var heaveCalculator = testFactory.LastCreatedHeaveCalculator; var upliftCalculator = testFactory.LastCreatedUpliftCalculator; var sellmeijerCalculator = testFactory.LastCreatedSellmeijerCalculator; Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetThicknessCoverageLayer(input).GetDesignValue(), heaveCalculator.DTotal, input.ThicknessCoverageLayer.GetAccuracy()); Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetPhreaticLevelExit(input).GetDesignValue(), heaveCalculator.HExit, input.PhreaticLevelExit.GetAccuracy()); Assert.AreEqual(input.CriticalHeaveGradient, heaveCalculator.Ich); Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetPhreaticLevelExit(input).GetDesignValue(), heaveCalculator.PhiPolder, input.PhreaticLevelExit.GetAccuracy()); Assert.AreEqual(input.PiezometricHeadExit.Value, heaveCalculator.PhiExit); Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetDampingFactorExit(input).GetDesignValue(), heaveCalculator.RExit, input.DampingFactorExit.GetAccuracy()); Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetPhreaticLevelExit(input).GetDesignValue(), upliftCalculator.HExit, input.PhreaticLevelExit.GetAccuracy()); Assert.AreEqual(input.AssessmentLevel.Value, upliftCalculator.HRiver); Assert.AreEqual(input.UpliftModelFactor, upliftCalculator.ModelFactorUplift); Assert.AreEqual(input.PiezometricHeadExit.Value, upliftCalculator.PhiExit); Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetPhreaticLevelExit(input).GetDesignValue(), upliftCalculator.PhiPolder, input.PhreaticLevelExit.GetAccuracy()); Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetDampingFactorExit(input).GetDesignValue(), upliftCalculator.RExit, input.DampingFactorExit.GetAccuracy()); Assert.AreEqual(input.WaterVolumetricWeight, upliftCalculator.VolumetricWeightOfWater); RoundedDouble effectiveStress = PipingSemiProbabilisticDesignValueFactory.GetThicknessCoverageLayer(input).GetDesignValue()* (PipingSemiProbabilisticDesignValueFactory.GetSaturatedVolumicWeightOfCoverageLayer(input).GetDesignValue() - input.WaterVolumetricWeight); Assert.AreEqual(effectiveStress, upliftCalculator.EffectiveStress, effectiveStress.GetAccuracy()); Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetSeepageLength(input).GetDesignValue(), sellmeijerCalculator.SeepageLength, input.SeepageLength.GetAccuracy()); Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetPhreaticLevelExit(input).GetDesignValue(), sellmeijerCalculator.HExit, input.PhreaticLevelExit.GetAccuracy()); Assert.AreEqual(input.AssessmentLevel.Value, sellmeijerCalculator.HRiver); Assert.AreEqual(input.WaterKinematicViscosity, sellmeijerCalculator.KinematicViscosityWater); Assert.AreEqual(input.SellmeijerModelFactor, sellmeijerCalculator.ModelFactorPiping); Assert.AreEqual(input.SellmeijerReductionFactor, sellmeijerCalculator.Rc); Assert.AreEqual(input.WaterVolumetricWeight, sellmeijerCalculator.VolumetricWeightOfWater); Assert.AreEqual(input.WhitesDragCoefficient, sellmeijerCalculator.WhitesDragCoefficient); Assert.AreEqual(input.BeddingAngle, sellmeijerCalculator.BeddingAngle); Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetThicknessCoverageLayer(input).GetDesignValue(), sellmeijerCalculator.DTotal, input.ThicknessCoverageLayer.GetAccuracy()); Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetDiameter70(input).GetDesignValue(), sellmeijerCalculator.D70, input.Diameter70.GetAccuracy()); Assert.AreEqual(input.MeanDiameter70, sellmeijerCalculator.D70Mean); Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetThicknessAquiferLayer(input).GetDesignValue(), sellmeijerCalculator.DAquifer, input.ThicknessAquiferLayer.GetAccuracy()); Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetDarcyPermeability(input).GetDesignValue(), sellmeijerCalculator.DarcyPermeability, input.DarcyPermeability.GetAccuracy()); Assert.AreEqual(input.SandParticlesVolumicWeight, sellmeijerCalculator.GammaSubParticles); Assert.AreEqual(input.Gravity, sellmeijerCalculator.Gravity); } } }