using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading.Tasks; using Xunit; using xUnitStudy.Model; namespace xUnitStudy.WebApi.Test { [Trait("测试断言分组", "默认组")] public class UseXUnitAssertTest : IDisposable { public UseXUnitAssertTest() { } [Fact] public void Equal_String_Test() { Assert.Equal("ping", "ping"); } [Fact] public void NotEqual_String_Test() { Assert.NotEqual("ping", "ack"); } /// /// 断言 string 相等 /// 设置大小写、行尾符、空白符号 比较选项 /// [Fact] public void Equal_String_Ignore_Test() { //ignoreCase:忽略字符大小写差异.如果为true,比较时忽略字符大小写 Assert.Equal("ABcdEF", "abcdef", ignoreCase: true); //ignoreLineEndingDifferences:忽略行尾结束符差异。设置为true,则将\rn、\r和\n视为等效。 Assert.Equal("One line\r\n", "one line\n", ignoreCase: true, ignoreLineEndingDifferences: true); //ignoreWhiteSpaceDifferences:忽略"空白"(空格、Tab)差异。设置为true,则将空格和制表符(以任何非零量)视为等效。 Assert.Equal("One line\r", "one line\n", ignoreCase: true, ignoreLineEndingDifferences: true, ignoreWhiteSpaceDifferences: true); } [Fact] public void Equal_Double_Test() { //注意:先舍入,然后再比较 //舍入规则:四舍五入 //精度范围[0,15]位小数 Assert.Equal(1.14d, 1.11d, precision: 1); Assert.Equal(1.15d, 1.19d, precision: 1); Assert //1.14d 约等于1.1 而1.15d 约等于1.2 所以不相等 .NotEqual(1.14d, 1.15d, precision: 1); //四舍五入到2位小数精度,相等 Assert.Equal(2.123d, 2.124d, 2); //四舍五入到3位小数精度,相等 Assert.Equal(3.1234d, 3.1231d, 3); //四舍五入到4位小数精度,不等 Assert.NotEqual(3.12345d, 3.12349d, 4); //四舍五入到整数,相等 Assert.Equal(15d, 15.111d, precision: 0); //没有小数位,四舍五入到整数 Assert.Equal(15d, 15d, precision: 0); } [Fact] public void NotEqual_Double_Test() { //注意:先舍入,然后再比较 //舍入规则:四舍五入 //精度范围[0,15]位小数 Assert //1.14d 约等于1.1 而1.15d 约等于1.2 所以不相等 .NotEqual(1.14d, 1.15d, precision: 1); //舍入到2位小数精度,相等 Assert.NotEqual(2.124d, 2.126d, 2); //舍入到3位小数精度,相等 Assert.NotEqual(3.1234d, 3.1239d, 3); //舍入到4位小数精度,不等 Assert.NotEqual(3.12346d, 3.12341d, 4); //舍入到整数,相等 Assert.NotEqual(16d, 15.111d, precision: 0); //没有小数位,舍入到整数 Assert.NotEqual(16d, 160d, precision: 0); } [Fact] public void Equal_Decimal_Test() { //注意:先舍入,然后再比较 //舍入规则:四舍五入 //精度范围[0,15]位小数 Assert.Equal(1.14M, 1.11M, precision: 1); Assert.Equal(1.15M, 1.19M, precision: 1); Assert //1.14M 约等于1.1 而1.15M 约等于1.2 所以不相等 .NotEqual(1.14M, 1.15M, precision: 1); //四舍五入到2位小数精度,相等 Assert.Equal(2.123M, 2.124M, 2); //四舍五入到3位小数精度,相等 Assert.Equal(3.1234M, 3.1231M, 3); //四舍五入到4位小数精度,不等 Assert.NotEqual(3.12345M, 3.12349M, 4); //四舍五入到整数,相等 Assert.Equal(15M, 15.111M, precision: 0); //没有小数位,四舍五入到整数 Assert.Equal(15M, 15M, precision: 0); } [Fact] public void NotEqual_Decimal_Test() { //注意:先舍入,然后再比较 //舍入规则:四舍五入 //精度范围[0,15]位小数 Assert //1.14M 约等于1.1 而1.15M 约等于1.2 所以不相等 .NotEqual(1.14M, 1.15M, precision: 1); //四舍五入到2位小数精度,不等 Assert.NotEqual(2.123M, 2.129M, 2); //四舍五入到3位小数精度,不等 Assert.NotEqual(3.1234M, 3.1236M, 3); //四舍五入到4位小数精度,不等 Assert.NotEqual(3.12345M, 3.12349M, 4); //四舍五入到整数,不等 Assert.NotEqual(15M, 15.501M, precision: 0); //没有小数位,四舍五入到整数 Assert.NotEqual(29M, 15M, precision: 0); } [Fact] public void Equal_Datetime_Test() { Assert.Equal(DateTime.Now, DateTime.Now.AddSeconds(1), TimeSpan.FromSeconds(2)); Assert.Equal(DateTime.Now, DateTime.Now.AddMinutes(1), TimeSpan.FromMinutes(2)); } /// /// Equal 泛型版本 /// 泛型版基本上都有简化写法 /// [Fact] public void Equal_GenericT_Test() { //形如:Assert.Equal(Expected T, Actual T); //常见类型都可以简化,或是有更好的非泛型版,此时,一般用非泛型版 Assert.Equal("ping", "ping"); Assert //基本使用非泛型版本 .Equal("ping", "ping"); Assert.Equal(3, 3); Assert //简化为 .Equal(3, 3); Assert.Equal(3, 3); Assert //简化为 .Equal(3L, 3L); Assert.Equal(5.5d, 5.5d); Assert //简化为 .Equal(5.5d, 5.5d); Assert.Equal(5.5M, 5.5M); Assert //简化为 .Equal(5.5M, 5.5M); Assert.Equal(DateTime.Now.Date, DateTime.Now.Date); Assert //简化为 .Equal(DateTime.Now.Date, DateTime.Now.Date); //类或其它自定义结构比较,可以使用 var obj = new object(); Assert.Equal(obj, obj); Assert //简化为 .Equal(obj, obj); } /// /// Equal 实现了IEqualityComparer接口的泛型版本 /// [Fact] public void Equal_Generic_IEqualityComparer_Test() { //形如:Assert.Equal(Expected T, Actual T,IEqualityComparer comparer); //实现 IEqualityComparer 接口 var expected = new AssertEqualDemo() { Id = 1, Name = "zhansan" }; var actual = new AssertEqualDemo() { Id = 1, Name = "lisi" }; //实现 IEqualityComparer 接口的,可以是被比较对象自己实现接口,也可以是单独的类。 var comparer = new AssertEqualDemo(); Assert.Equal(expected, actual, comparer); Assert.//可以简写为 Equal(expected, actual, comparer); //id不一样,则不相等 expected.Id = 3; Assert.NotEqual(expected, actual, comparer); } /// /// 实现IEnumerable接口对象的 Equal比较 /// [Fact] public void Equal_Generic_IEnumerable_Test() { //对实现IEnumerable接口的对象进行 Equal比较 //形如:Equal(IEnumerable expected, IEnumerable actual); List expected = new List() {"first","second" }; List actual = new List() {"first","second" }; Assert.Equal>(expected, actual); Assert.//简写为 Equal(expected, actual); } /// /// 实现IEnumerable接口对象的 Equal 比较 /// 传入实现IEqualityComparer接口的比较器 /// [Fact] public void Equal_Generic_IEnumerable_IEqualityComparer_Test() { //对实现IEnumerable接口的对象进行 Equal比较 //形如:Equal(IEnumerable expected, IEnumerable actual,IEqualityComparer comparer) //传入实现了 IEqualityComparer 接口的比较参数 var expected = new List() { new AssertEqualDemo() { Id = 1, Name = "zhansan" }, new AssertEqualDemo() { Id = 2, Name = "lis" }, }; var actual = new List() { new AssertEqualDemo() { Id = 1, Name = "wangwu" }, new AssertEqualDemo() { Id = 2, Name = "zhaoliu" }, }; //实现 IEqualityComparer 接口的,可以是被比较对象自己实现接口,也可以是单独的类。 var comparer = new AssertEqualDemo(); Assert.Equal(expected, actual, comparer); Assert.//可以简写为 Equal(expected, actual, comparer); //id不一样,则不相等 expected[0].Id = 100; Assert.NotEqual(expected, actual, comparer); } public void Dispose() { } } }