using System.Collections.Generic; using Deltares.DamEngine.Calculators.KernelWrappers.Common; using Deltares.DamEngine.Calculators.KernelWrappers.DamPipingSellmeijer4Forces; using Deltares.DamEngine.Data.General.Results; using Deltares.DamEngine.Data.Standard.Logging; using NUnit.Framework; namespace Deltares.DamEngine.Calculators.Tests { [TestFixture] public class DamPipingSellmeijer4ForcesTests { [Test] public void TestCalculation() { // expected results are based on test in 'https://repos.deltares.nl/repos/dam/dam classic' revision 190 // reducedFall = HRiver - HExit - (Rc * DTotal) = 1.0 - 0.0 - (0.3 * 2.0) = 0.4 // FoSp = Hc / reducedFall = 4.7596 / 0.4 = 11.899 // For calculation of Hc see TestCanCalculateHCritical // See also "..\..\doc\Evaluation Piping\Nieuwe rekenregel bligh Sellmeijeruli.xls" const double diff = 0.0001; // ToDo Fill input var damKernelInput = new DamKernelInput(); var kernelWrapper = new DamPipingSellmeijer4ForcesKernelWrapper(); // Prepare the wrapper. Result is input for the calculation dll var damPipingInput = kernelWrapper.Prepare(damKernelInput); // Validate the input List messages; kernelWrapper.Validate(damPipingInput, out messages); Assert.AreEqual(0, messages.Count); // Run the dll DamPipingSellmeijer4ForcesOutput output = (DamPipingSellmeijer4ForcesOutput) kernelWrapper.Execute(damPipingInput, out messages); Assert.AreEqual(0, messages.Count); Assert.AreEqual(11.899117458988471, output.FoSp, diff); Assert.AreEqual(4.7596469835953883, output.Hc, diff); // Fill the design results DesignResult result; kernelWrapper.PostProcess(output, out result); Assert.AreEqual(11.899117458988471, result.PipingDesignResults.Sellmeijer4ForcesFactor, diff); Assert.AreEqual(4.7596469835953883, result.PipingDesignResults.Sellmeijer4ForcesHcritical, diff); } } }