// Copyright (c) Microsoft Corporation // The Microsoft Corporation licenses this file to you under the MIT license. // See the LICENSE file in the project root for more information. using System; using System.Collections.Generic; using System.Globalization; using Microsoft.VisualStudio.TestTools.UnitTesting; namespace Microsoft.PowerToys.Run.Plugin.Calculator.UnitTests { [TestClass] public class ExtendedCalculatorParserTests { [DataTestMethod] [DataRow(null)] [DataRow("")] [DataRow(" ")] public void InputValid_ThrowError_WhenCalledNullOrEmpty(string input) { // Act Assert.ThrowsException(() => CalculateHelper.InputValid(input)); } [DataTestMethod] [DataRow(null)] [DataRow("")] [DataRow(" ")] public void Interpret_ThrowError_WhenCalledNullOrEmpty(string input) { // Arrange var engine = new CalculateEngine(); // Act Assert.ThrowsException(() => engine.Interpret(input, CultureInfo.CurrentCulture, out _)); } [DataTestMethod] [DataRow("test")] [DataRow("pi(2)")] // Incorrect input, constant is being treated as a function. [DataRow("e(2)")] [DataRow("[10,10]")] // '[10,10]' is interpreted as array by mages engine public void Interpret_NoResult_WhenCalled(string input) { // Arrange var engine = new CalculateEngine(); // Act var result = engine.Interpret(input, CultureInfo.CurrentCulture, out _); // Assert Assert.AreEqual(default(CalculateResult), result); } private static IEnumerable Interpret_NoErrors_WhenCalledWithRounding_Data => new[] { new object[] { "2 * 2", 4M }, new object[] { "-2 ^ 2", 4M }, new object[] { "-(2 ^ 2)", -4M }, new object[] { "2 * pi", 6.28318530717959M }, new object[] { "round(2 * pi)", 6M }, new object[] { "1 == 2", default(decimal) }, new object[] { "pi * ( sin ( cos ( 2)))", -1.26995475603563M }, new object[] { "5.6/2", 2.8M }, new object[] { "123 * 4.56", 560.88M }, new object[] { "1 - 9.0 / 10", 0.1M }, new object[] { "0.5 * ((2*-395.2)+198.2)", -296.1M }, new object[] { "2+2.11", 4.11M }, new object[] { "8.43 + 4.43 - 12.86", 0M }, new object[] { "8.43 + 4.43 - 12.8", 0.06M }, new object[] { "exp(5)", 148.413159102577M }, new object[] { "e^5", 148.413159102577M }, new object[] { "e*2", 5.43656365691809M }, new object[] { "ln(3)", 1.09861228866810M }, new object[] { "log(3)", 0.47712125471966M }, new object[] { "ln(e)", 1M }, new object[] { "cosh(0)", 1M }, }; [DataTestMethod] [DynamicData(nameof(Interpret_NoErrors_WhenCalledWithRounding_Data))] public void Interpret_NoErrors_WhenCalledWithRounding(string input, decimal expectedResult) { // Arrange var engine = new CalculateEngine(); // Act // Using InvariantCulture since this is internal var result = engine.Interpret(input, CultureInfo.InvariantCulture, out _); // Assert Assert.IsNotNull(result); Assert.AreEqual(CalculateEngine.Round(expectedResult), result.RoundedResult); } private static IEnumerable Interpret_QuirkOutput_WhenCalled_Data => new[] { new object[] { "123 456", 56088M }, // BUG: Framework accepts ' ' as multiplication }; [DynamicData(nameof(Interpret_QuirkOutput_WhenCalled_Data))] [DataTestMethod] public void Interpret_QuirkOutput_WhenCalled(string input, decimal expectedResult) { // Arrange var engine = new CalculateEngine(); // Act // Using InvariantCulture since this is internal var result = engine.Interpret(input, CultureInfo.InvariantCulture, out _); // Assert Assert.IsNotNull(result); Assert.AreEqual(expectedResult, result.Result); } private static IEnumerable Interpret_GreaterPrecision_WhenCalled_Data => new[] { new object[] { "0.100000000000000000000", 0.1M }, new object[] { "0.200000000000000000000000", 0.2M }, }; [DynamicData(nameof(Interpret_GreaterPrecision_WhenCalled_Data))] [DataTestMethod] public void Interpret_GreaterPrecision_WhenCalled(string input, decimal expectedResult) { // Arrange var engine = new CalculateEngine(); // Act // Using InvariantCulture since this is internal var result = engine.Interpret(input, CultureInfo.InvariantCulture, out _); // Assert Assert.IsNotNull(result); Assert.AreEqual(expectedResult, result.Result); } private static IEnumerable Interpret_DifferentCulture_WhenCalled_Data => new[] { new object[] { "4.5/3", 1.5M, "nl-NL" }, new object[] { "4.5/3", 1.5M, "en-EN" }, new object[] { "4.5/3", 1.5M, "de-DE" }, }; [DataTestMethod] [DynamicData(nameof(Interpret_DifferentCulture_WhenCalled_Data))] public void Interpret_DifferentCulture_WhenCalled(string input, decimal expectedResult, string cultureName) { // Arrange var cultureInfo = CultureInfo.GetCultureInfo(cultureName); var engine = new CalculateEngine(); // Act var result = engine.Interpret(input, cultureInfo, out _); // Assert Assert.IsNotNull(result); Assert.AreEqual(CalculateEngine.Round(expectedResult), result.RoundedResult); } [DataTestMethod] [DataRow("log(3)", true)] [DataRow("ln(3)", true)] [DataRow("log", false)] [DataRow("ln", false)] [DataRow("ceil(2 * (pi ^ 2))", true)] [DataRow("((1 * 2)", false)] [DataRow("(1 * 2)))", false)] [DataRow("abcde", false)] [DataRow("1 + 2 +", false)] [DataRow("1+2*", false)] [DataRow("1 && 3 &&", false)] [DataRow("sqrt( 36)", true)] [DataRow("max 4", false)] [DataRow("sin(0)", true)] [DataRow("sinh(1)", true)] [DataRow("tanh(0)", true)] [DataRow("artanh(pi/2)", true)] [DataRow("cosh", false)] [DataRow("cos", false)] [DataRow("abs", false)] [DataRow("1+1.1e3", true)] public void InputValid_TestValid_WhenCalled(string input, bool valid) { // Act var result = CalculateHelper.InputValid(input); // Assert Assert.AreEqual(valid, result); } [DataTestMethod] [DataRow("1-1")] [DataRow("sin(0)")] [DataRow("sinh(0)")] public void Interpret_MustReturnResult_WhenResultIsZero(string input) { // Arrange var engine = new CalculateEngine(); // Act // Using InvariantCulture since this is internal var result = engine.Interpret(input, CultureInfo.InvariantCulture, out _); // Assert Assert.IsNotNull(result); Assert.AreEqual(0.0M, result.Result); } private static IEnumerable Interpret_MustReturnExpectedResult_WhenCalled_Data => new[] { new object[] { "factorial(5)", 120M }, new object[] { "sign(-2)", -1M }, new object[] { "sign(2)", +1M }, new object[] { "abs(-2)", 2M }, new object[] { "abs(2)", 2M }, }; [DataTestMethod] [DynamicData(nameof(Interpret_MustReturnExpectedResult_WhenCalled_Data))] public void Interpret_MustReturnExpectedResult_WhenCalled(string input, decimal expectedResult) { // Arrange var engine = new CalculateEngine(); // Act // Using InvariantCulture since this is internal var result = engine.Interpret(input, CultureInfo.InvariantCulture, out _); // Assert Assert.IsNotNull(result); Assert.AreEqual(expectedResult, result.Result); } } }