using System; using Core.Common.Base.Geometry; using MathNet.Numerics.LinearAlgebra.Double; using NUnit.Framework; namespace Ringtoets.Piping.Data.Test { [TestFixture] public class Point2DTest { [Test] public void DefaultConstructor_ExpectedValues() { // Call var point = new Point2D(); // Assert Assert.AreEqual(0, point.X); Assert.AreEqual(0, point.Y); } [Test] public void Constructor_WithXandY_SetPropeties() { // Setup var random = new Random(22); var x = random.NextDouble(); var y = random.NextDouble(); // Call var point = new Point2D(x,y); // Assert Assert.AreEqual(x, point.X); Assert.AreEqual(y, point.Y); } [Test] public void Equals_ToNull_ReturnsFalse() { // Setup var point = new Point2D(); // Call var result = point.Equals(null); // Assert Assert.IsFalse(result); } [Test] public void Equals_ToOtherType_ReturnsFalse() { // Setup var point = new Point2D(); // Call var result = point.Equals(new Point3D()); // Assert Assert.IsFalse(result); } [Test] public void Equals_ToItself_ReturnsTrue() { // Setup var point = new Point2D(); // Call var result = point.Equals(point); // Assert Assert.IsTrue(result); } [Test] [TestCase(0, 0)] [TestCase(1, 2)] public void Equals_OtherWithSameCoordinates_ReturnsTrue(double x, double y) { // Setup var point = new Point2D ( x, y ); var otherPoint = new Point2D ( x, y ); // Call var result = point.Equals(otherPoint); // Assert Assert.IsTrue(result); } [Test] [TestCase(1e-8, 0)] [TestCase(0, 1e-8)] public void Equals_CloseToOtherPoint_ReturnsFalse(double deltaX, double deltaY) { // Setup var random = new Random(22); var x = random.NextDouble(); var y = random.NextDouble(); var point = new Point2D(x, y); var otherPoint = new Point2D(x + deltaX, y + deltaY); // Call var result = point.Equals(otherPoint); // Assert Assert.IsFalse(result); } [Test] public void GetHashCode_PointsAreEqual_PointsHashesEqual() { // Setup var random = new Random(22); var x = random.NextDouble(); var y = random.NextDouble(); var point = new Point2D(x, y); var otherPoint = new Point2D(x, y); // Call var result = point.GetHashCode(); var otherResult = otherPoint.GetHashCode(); // Assert Assert.AreEqual(result, otherResult); } [Test] [SetCulture("nl-NL")] public void ToString_HasCoordinatValues_NL_PrintCoordinateValuesInLocalCulture() { DoToString_HasCoordinateValues_PrintCoordinateValuesInLocalCulture(); } [Test] [SetCulture("en-US")] public void ToString_HasCoordinatValues_EN_PrintCoordinateValuesInLocalCulture() { DoToString_HasCoordinateValues_PrintCoordinateValuesInLocalCulture(); } [Test] public void SubstractOperation_TwoDifferentPoints_Return2DVector() { // Setup var point1 = new Point2D(3.0, 4.0); var point2 = new Point2D(1.0, 1.0); // Call Vector vector = point1 - point2; // Assert Assert.AreEqual(2, vector.Count); Assert.AreEqual(point1.X - point2.X, vector[0]); Assert.AreEqual(point1.Y - point2.Y, vector[1]); } private static void DoToString_HasCoordinateValues_PrintCoordinateValuesInLocalCulture() { // Setup var point = new Point2D(1.1, 2.2); // Call var stringRepresentation = point.ToString(); // Assert var expectedText = String.Format("({0}, {1})", point.X, point.Y); Assert.AreEqual(expectedText, stringRepresentation); } } }