// 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.Linq; using Core.Common.Base; using Core.Common.Base.Geometry; using NUnit.Framework; using Ringtoets.ClosingStructures.Data; using Ringtoets.ClosingStructures.Data.TestUtil; using Ringtoets.Common.Data.Calculation; using Ringtoets.Common.Data.FailureMechanism; using Ringtoets.Common.Data.Hydraulics; using Ringtoets.Common.Data.Structures; using Ringtoets.Common.Data.TestUtil; using Ringtoets.Common.Service; namespace Ringtoets.ClosingStructures.Service.Test { [TestFixture] public class ClosingStructuresDataSynchronizationServiceTest { [Test] public void ClearAllCalculationOutput_FailureMechanismNull_ThrowsArgumentNullException() { // Call TestDelegate call = () => ClosingStructuresDataSynchronizationService.ClearAllCalculationOutput(null); // Assert var exception = Assert.Throws(call); Assert.AreEqual("failureMechanism", exception.ParamName); } [Test] public void ClearAllCalculationOutput_WithOutput_ClearsCalculationsOutput() { // Setup var failureMechanism = new ClosingStructuresFailureMechanism(); var calculation1 = new StructuresCalculation { Output = new TestStructuresOutput() }; var calculation2 = new StructuresCalculation { Output = new TestStructuresOutput() }; var calculation3 = new StructuresCalculation(); failureMechanism.CalculationsGroup.Children.Add(calculation1); failureMechanism.CalculationsGroup.Children.Add(calculation2); failureMechanism.CalculationsGroup.Children.Add(calculation3); // Call IEnumerable affectedItems = ClosingStructuresDataSynchronizationService.ClearAllCalculationOutput(failureMechanism); // Assert // Note: To make sure the clear is performed regardless of what is done with // the return result, no ToArray() should be called before these assertions: foreach (StructuresCalculation calculation in failureMechanism.Calculations.Cast>()) { Assert.IsNull(calculation.Output); } CollectionAssert.AreEqual(new[] { calculation1, calculation2 }, affectedItems); } [Test] public void ClearAllCalculationOutputAndHydraulicBoundaryLocations_WithoutFailureMechanism_ThrowsArgumentNullException() { // Call TestDelegate call = () => ClosingStructuresDataSynchronizationService.ClearAllCalculationOutputAndHydraulicBoundaryLocations(null); // Assert var exception = Assert.Throws(call); Assert.AreEqual("failureMechanism", exception.ParamName); } [Test] public void ClearAllCalculationOutputAndHydraulicBoundaryLocations_CalculationsWithHydraulicBoundaryLocationAndOutput_ClearsHydraulicBoundaryLocationAndCalculationsAndReturnsAffectedObjects() { // Setup var failureMechanism = new ClosingStructuresFailureMechanism(); var hydraulicBoundaryLocation = new HydraulicBoundaryLocation(1, string.Empty, 0, 0); var calculation1 = new StructuresCalculation { InputParameters = { HydraulicBoundaryLocation = hydraulicBoundaryLocation }, Output = new TestStructuresOutput() }; var calculation2 = new StructuresCalculation { InputParameters = { HydraulicBoundaryLocation = hydraulicBoundaryLocation }, Output = new TestStructuresOutput() }; var calculation3 = new StructuresCalculation(); failureMechanism.CalculationsGroup.Children.Add(calculation1); failureMechanism.CalculationsGroup.Children.Add(calculation2); failureMechanism.CalculationsGroup.Children.Add(calculation3); // Call IEnumerable affectedItems = ClosingStructuresDataSynchronizationService.ClearAllCalculationOutputAndHydraulicBoundaryLocations(failureMechanism); // Assert // Note: To make sure the clear is performed regardless of what is done with // the return result, no ToArray() should be called before these assertions: foreach (StructuresCalculation calculation in failureMechanism.CalculationsGroup.Children.Cast>()) { Assert.IsNull(calculation.InputParameters.HydraulicBoundaryLocation); Assert.IsNull(calculation.Output); } CollectionAssert.AreEquivalent(new IObservable[] { calculation1, calculation1.InputParameters, calculation2, calculation2.InputParameters }, affectedItems); } [Test] public void ClearAllCalculationOutputAndHydraulicBoundaryLocations_CalculationsWithHydraulicBoundaryLocationNoOutput_ClearsHydraulicBoundaryLocationAndReturnsAffectedInputs() { // Setup var failureMechanism = new ClosingStructuresFailureMechanism(); var hydraulicBoundaryLocation = new HydraulicBoundaryLocation(1, string.Empty, 0, 0); var calculation1 = new StructuresCalculation { InputParameters = { HydraulicBoundaryLocation = hydraulicBoundaryLocation } }; var calculation2 = new StructuresCalculation { InputParameters = { HydraulicBoundaryLocation = hydraulicBoundaryLocation } }; var calculation3 = new StructuresCalculation(); failureMechanism.CalculationsGroup.Children.Add(calculation1); failureMechanism.CalculationsGroup.Children.Add(calculation2); failureMechanism.CalculationsGroup.Children.Add(calculation3); // Call IEnumerable affectedItems = ClosingStructuresDataSynchronizationService.ClearAllCalculationOutputAndHydraulicBoundaryLocations(failureMechanism); // Assert // Note: To make sure the clear is performed regardless of what is done with // the return result, no ToArray() should be called before these assertions: foreach (StructuresCalculation calculation in failureMechanism.CalculationsGroup.Children.Cast>()) { Assert.IsNull(calculation.InputParameters.HydraulicBoundaryLocation); } CollectionAssert.AreEqual(new[] { calculation1.InputParameters, calculation2.InputParameters }, affectedItems); } [Test] public void ClearAllCalculationOutputAndHydraulicBoundaryLocations_CalculationsWithOutputAndNoHydraulicBoundaryLocation_ClearsOutputAndReturnsAffectedCalculations() { // Setup var failureMechanism = new ClosingStructuresFailureMechanism(); var calculation1 = new StructuresCalculation { Output = new TestStructuresOutput() }; var calculation2 = new StructuresCalculation { Output = new TestStructuresOutput() }; var calculation3 = new StructuresCalculation(); failureMechanism.CalculationsGroup.Children.Add(calculation1); failureMechanism.CalculationsGroup.Children.Add(calculation2); failureMechanism.CalculationsGroup.Children.Add(calculation3); // Call IEnumerable affectedItems = ClosingStructuresDataSynchronizationService.ClearAllCalculationOutputAndHydraulicBoundaryLocations(failureMechanism); // Assert // Note: To make sure the clear is performed regardless of what is done with // the return result, no ToArray() should be called before these assertions: foreach (StructuresCalculation calculation in failureMechanism.CalculationsGroup.Children.Cast>()) { Assert.IsNull(calculation.Output); } CollectionAssert.AreEqual(new[] { calculation1, calculation2 }, affectedItems); } [Test] public void ClearAllCalculationOutputAndHydraulicBoundaryLocations_CalculationWithoutOutputAndHydraulicBoundaryLocation_ReturnNoAffectedCalculations() { // Setup var failureMechanism = new ClosingStructuresFailureMechanism(); var calculation1 = new StructuresCalculation(); var calculation2 = new StructuresCalculation(); var calculation3 = new StructuresCalculation(); failureMechanism.CalculationsGroup.Children.Add(calculation1); failureMechanism.CalculationsGroup.Children.Add(calculation2); failureMechanism.CalculationsGroup.Children.Add(calculation3); // Call IEnumerable affectedItems = ClosingStructuresDataSynchronizationService.ClearAllCalculationOutputAndHydraulicBoundaryLocations(failureMechanism); // Assert CollectionAssert.IsEmpty(affectedItems); } [Test] public void ClearReferenceLineDependentData_FailureMechanismNull_ThrowArgumentNullException() { // Call TestDelegate call = () => ClosingStructuresDataSynchronizationService.ClearReferenceLineDependentData(null); // Assert string paramName = Assert.Throws(call).ParamName; Assert.AreEqual("failureMechanism", paramName); } [Test] public void ClearReferenceLineDependentData_FullyConfiguredFailureMechanism_RemoveFailureMechanismDependentData() { // Setup ClosingStructuresFailureMechanism failureMechanism = CreateFullyConfiguredFailureMechanism(); object[] expectedRemovedObjects = failureMechanism.Sections.OfType() .Concat(failureMechanism.SectionResults) .Concat(failureMechanism.CalculationsGroup.GetAllChildrenRecursive()) .Concat(failureMechanism.ForeshoreProfiles) .Concat(failureMechanism.ClosingStructures) .ToArray(); // Call ClearResults results = ClosingStructuresDataSynchronizationService.ClearReferenceLineDependentData(failureMechanism); // Assert CollectionAssert.IsEmpty(failureMechanism.Sections); CollectionAssert.IsEmpty(failureMechanism.SectionResults); CollectionAssert.IsEmpty(failureMechanism.CalculationsGroup.Children); CollectionAssert.IsEmpty(failureMechanism.ForeshoreProfiles); CollectionAssert.IsEmpty(failureMechanism.ClosingStructures); IObservable[] array = results.ChangedObjects.ToArray(); Assert.AreEqual(4, array.Length); CollectionAssert.Contains(array, failureMechanism); CollectionAssert.Contains(array, failureMechanism.CalculationsGroup); CollectionAssert.Contains(array, failureMechanism.ForeshoreProfiles); CollectionAssert.Contains(array, failureMechanism.ClosingStructures); CollectionAssert.AreEquivalent(expectedRemovedObjects, results.RemovedObjects); } private ClosingStructuresFailureMechanism CreateFullyConfiguredFailureMechanism() { var section1 = new FailureMechanismSection("A", new[] { new Point2D(-1, 0), new Point2D(2, 0) }); var section2 = new FailureMechanismSection("B", new[] { new Point2D(2, 0), new Point2D(4, 0) }); var structure1 = new TestClosingStructure(new Point2D(1, 0), "structure1"); var structure2 = new TestClosingStructure(new Point2D(3, 0), "structure2"); var profile = new TestForeshoreProfile(); StructuresCalculation calculation1 = new TestClosingStructuresCalculation { InputParameters = { ForeshoreProfile = profile, Structure = structure1 }, Output = new TestStructuresOutput() }; StructuresCalculation calculation2 = new TestClosingStructuresCalculation { InputParameters = { ForeshoreProfile = profile, Structure = structure2 } }; StructuresCalculation calculation3 = new TestClosingStructuresCalculation { InputParameters = { ForeshoreProfile = profile, Structure = structure1 } }; var failureMechanism = new ClosingStructuresFailureMechanism { CalculationsGroup = { Children = { calculation1, new CalculationGroup { Children = { calculation2 } }, calculation3 } } }; failureMechanism.ClosingStructures.AddRange(new[] { structure1, structure2 }, "some path"); failureMechanism.ForeshoreProfiles.AddRange(new[] { profile }, "path"); failureMechanism.AddSection(section1); failureMechanism.AddSection(section2); StructuresFailureMechanismSectionResult result1 = failureMechanism.SectionResults .First(sr => ReferenceEquals(sr.Section, section1)); StructuresFailureMechanismSectionResult result2 = failureMechanism.SectionResults .First(sr => ReferenceEquals(sr.Section, section2)); result1.Calculation = calculation1; result2.Calculation = calculation2; return failureMechanism; } } }