using ConsoleApp1; using Microsoft.Analytics.Interfaces; using Microsoft.Analytics.Interfaces.Streaming; using Microsoft.Analytics.Types.Sql; using Microsoft.Analytics.UnitTest; using Microsoft.VisualStudio.TestTools.UnitTesting; using System; using System.Collections.Generic; using System.IO; using System.Linq; using System.Text; using PR1; using System.Numerics; namespace USqlCSharpUdoUnitTestProject1 { [TestClass] public class UnitTest1 { Calculator Calculator1 = new Calculator(); public UnitTest1() { // // TODO: Add constructor logic here // } private TestContext testContextInstance; /// ///Gets or sets the test context which provides ///information about and functionality for the current test run. /// public TestContext TestContext { get { return testContextInstance; } set { testContextInstance = value; } } #region Additional test attributes // // You can use the following additional attributes as you write your tests: // // Use ClassInitialize to run code before running the first test in the class // [ClassInitialize()] // public static void MyClassInitialize(TestContext testContext) { } // // Use ClassCleanup to run code after all tests in a class have run // [ClassCleanup()] // public static void MyClassCleanup() { } // // Use TestInitialize to run code before running each test // [TestInitialize()] // public void MyTestInitialize() { } // // Use TestCleanup to run code after each test has run // [TestCleanup()] // public void MyTestCleanup() { } // #endregion [TestMethod] public void TestMethod1() { double x = 2; double y = 5; double result1 = 7; double result2 = -3; double result3 = 10; double result4 = 0.4; Assert.AreEqual(Calculator1.Addiction(x, y), result1); Assert.AreEqual(Calculator1.Subtraction(x, y), result2); Assert.AreEqual(Calculator1.Multipliction(x, y), result3); Assert.AreEqual(Calculator1.Division(x, y), result4); } [TestMethod] public void TestMethod2() { double x = -2; double y = -5; double result1 = -7; double result2 = 3; double result3 = 10; double result4 = 0.4; Assert.AreEqual(Calculator1.Addiction(x, y), result1); Assert.AreEqual(Calculator1.Subtraction(x, y), result2); Assert.AreEqual(Calculator1.Multipliction(x, y), result3); Assert.AreEqual(Calculator1.Division(x, y), result4); } [TestMethod] public void TestMethod3() { double x = 2.5; double y = 3.6; double result1 = 6.1; double result2 = -1.1; double result3 = 9; double result4 = 0.69444444444444444444444444444444; Assert.AreEqual(Calculator1.Addiction(x, y), result1); Assert.AreEqual(Calculator1.Subtraction(x, y), result2); Assert.AreEqual(Calculator1.Multipliction(x, y), result3); Assert.AreEqual(Calculator1.Division(x, y), result4); } [TestMethod] public void TestMethod4() { double x = 4; double y = 1; double result = 4; Assert.AreEqual(Calculator1.Division(x, y), result); } [TestMethod] public void TestMethod5() { double x = 4; double y = 0; double result = double.PositiveInfinity; Assert.AreEqual(Calculator1.Division(x, y), result); } [TestMethod] public void TestMethod6() { double x = int.MaxValue; double y = int.MaxValue; double result1 = 4294967294; double result2 = 0; double result3 = 4611686014132420609; double result4 = 1; Assert.AreEqual(Calculator1.Addiction(x, y), result1); Assert.AreEqual(Calculator1.Subtraction(x, y), result2); Assert.AreEqual(Calculator1.Multipliction(x, y), result3); Assert.AreEqual(Calculator1.Division(x, y), result4); } [TestMethod] public void TestMethod7() { long x = int.MaxValue; long y = int.MaxValue; double result1 = 4294967294; double result2 = 0; double result3 = 4611686014132420609L; double result4 = 1; Assert.AreEqual(Calculator1.Addiction(x, y), result1); Assert.AreEqual(Calculator1.Subtraction(x, y), result2); Assert.AreEqual(Calculator1.Multipliction(x, y), result3); Assert.AreEqual(Calculator1.Division(x, y), result4); } [TestMethod] public void TestMethod8() { double x = 2.5; double y = 3.6; double result1 = 6.1; double result2 = -1.1; double result3 = 9; double result4 = 0.69444444444444444444444444444444; Assert.AreEqual(Calculator1.Addiction(x, y), result1); Assert.AreEqual(Calculator1.Subtraction(x, y), result2); Assert.AreEqual(Calculator1.Multipliction(x, y), result3); Assert.AreEqual(Calculator1.Division(x, y), result4); } [TestMethod] public void TestMethod9() { double large = double.MaxValue; double result1 = 0; double result2 = 1; Assert.IsTrue(double.IsInfinity(Calculator1.Addiction(large, large))); Assert.IsTrue(double.IsInfinity(Calculator1.Multipliction(large, large))); Assert.AreEqual(Calculator1.Subtraction(large, large), result1); Assert.AreEqual(Calculator1.Division(large, large), result2); } [TestMethod] public void TestMethod10() { double x = 1e-308; double y = 2e-308; double result1 = 1e-320; double result2 = -1e-308; double result3 = 0; double result4 = 0.5; Assert.AreEqual(Calculator1.Addiction(x, y), result1); Assert.AreEqual(Calculator1.Subtraction(x, y), result2); Assert.AreEqual(Calculator1.Multipliction(x, y), result3); Assert.AreEqual(Calculator1.Division(x, y), result4); } } }