using System; using Core.Common.Base.Data; using Core.Common.Gui.PropertyBag; using NUnit.Framework; using Ringtoets.Piping.Data; using Ringtoets.Piping.Forms.PropertyClasses; namespace Ringtoets.Piping.Forms.Test.PropertyClasses { [TestFixture] public class PipingSemiProbabilisticOutputPropertiesTest { [Test] public void DefaultConstructor_ExpectedValues() { // Call var properties = new PipingSemiProbabilisticOutputProperties(); // Assert Assert.IsInstanceOf>(properties); Assert.IsNull(properties.Data); } [Test] public void GetProperties_WithData_ReturnExpectedValues() { // Setup var random = new Random(22); double upliftFactorOfSafety = random.NextDouble(); double upliftReliability = random.NextDouble(); double upliftProbability = random.NextDouble(); double heaveFactorOfSafety = random.NextDouble(); double heaveReliability = random.NextDouble(); double heaveProbability = random.NextDouble(); double sellmeijerFactorOfSafety = random.NextDouble(); double sellmeijerReliability = random.NextDouble(); double sellmeijerProbability = random.NextDouble(); double requiredProbability = random.NextDouble(); double requiredReliability = random.NextDouble(); double pipingProbability = random.NextDouble(); double pipingReliability = random.NextDouble(); double pipingFactorOfSafety = random.NextDouble(); // Call var semiProbabilisticOutput = new PipingSemiProbabilisticOutput( upliftFactorOfSafety, upliftReliability, upliftProbability, heaveFactorOfSafety, heaveReliability, heaveProbability, sellmeijerFactorOfSafety, sellmeijerReliability, sellmeijerProbability, requiredProbability, requiredReliability, pipingProbability, pipingReliability, pipingFactorOfSafety); var properties = new PipingSemiProbabilisticOutputProperties { Data = semiProbabilisticOutput }; // Call & Assert Assert.AreEqual(upliftFactorOfSafety, properties.UpliftFactorOfSafety, GetAccuracy(properties.UpliftFactorOfSafety)); Assert.AreEqual(upliftReliability, properties.UpliftReliability, GetAccuracy(properties.UpliftReliability)); Assert.AreEqual(upliftProbability, properties.UpliftProbability, GetAccuracy(properties.UpliftProbability)); Assert.AreEqual(heaveFactorOfSafety, properties.HeaveFactorOfSafety, GetAccuracy(properties.HeaveFactorOfSafety)); Assert.AreEqual(heaveReliability, properties.HeaveReliability, GetAccuracy(properties.HeaveReliability)); Assert.AreEqual(heaveProbability, properties.HeaveProbability, GetAccuracy(properties.HeaveProbability)); Assert.AreEqual(sellmeijerFactorOfSafety, properties.SellmeijerFactorOfSafety, GetAccuracy(properties.SellmeijerFactorOfSafety)); Assert.AreEqual(sellmeijerReliability, properties.SellmeijerReliability, GetAccuracy(properties.SellmeijerReliability)); Assert.AreEqual(sellmeijerProbability, properties.SellmeijerProbability, GetAccuracy(properties.SellmeijerProbability)); Assert.AreEqual(requiredProbability, properties.RequiredProbability, GetAccuracy(properties.RequiredProbability)); Assert.AreEqual(requiredReliability, properties.RequiredReliability, GetAccuracy(properties.RequiredReliability)); Assert.AreEqual(pipingProbability, properties.PipingProbability, GetAccuracy(properties.PipingProbability)); Assert.AreEqual(pipingReliability, properties.PipingReliability, GetAccuracy(properties.PipingReliability)); Assert.AreEqual(pipingFactorOfSafety, properties.PipingFactorOfSafety, GetAccuracy(properties.PipingFactorOfSafety)); } private static double GetAccuracy(RoundedDouble d) { return Math.Pow(10.0, -d.NumberOfDecimalPlaces); } } }