Mercurial > pub > bltoolkit
view UnitTests/CS/Patterns/DuckTypingTest.cs @ 8:a34cfdde80d6
removed strong signing
added FrameworkPathOverride for linux builds
author | cin |
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date | Wed, 29 Nov 2017 12:43:52 +0300 |
parents | f990fcb411a9 |
children |
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using System; using NUnit.Framework; using BLToolkit.Patterns; namespace Patterns { [TestFixture] public class DuckTypingTest { public interface TestInterface { int Method(int value); void Method(int v1, out int v2); int Prop { get; } event EventHandler Event; void CallEvent(); } public interface TestInterface2 { int Method(int value); void I2Method(int v1, out int v2); } public class TestClass { public static int Field; public int Method(int value) { return value + 2; } public void Method(int v1, out int v2) { v2 = v1; } public void I2Method(int v1, out int v2) { v2 = v1; } public int Prop { get { return 22; } } public event EventHandler Event; public void CallEvent() { Event(this, EventArgs.Empty); } } [Test] public void Test() { var duck = DuckTyping.Implement<TestInterface> (new TestClass()); var same = DuckTyping.Implement<TestInterface> (duck); var duck2 = DuckTyping.Implement<TestInterface2>(same); Assert.AreSame(duck, same); int value; duck.Method(33, out value); Assert.AreEqual(33, value); Assert.AreEqual(42, duck.Method(40)); Assert.AreEqual(22, duck.Prop); duck.Event += duck_Event; duck.CallEvent(); Assert.AreEqual(55, eventValue); duck2.I2Method(33, out value); Assert.AreEqual(33, value); Assert.AreEqual(42, duck2.Method(40)); } int eventValue; void duck_Event(object sender, EventArgs e) { eventValue = 55; } public class Child1 : TestClass { public new int Method(int value) { return value + 5; } } public class Child2 : TestClass { public new int Method(int value) { return value + 10; } } [Test] public void BulkTest() { var ducks = DuckTyping.Implement<TestInterface,TestClass>(new Child1(), new Child2()); Assert.IsNotEmpty(ducks); Assert.AreEqual(42, ducks[0].Method(40)); Assert.AreEqual(42, ducks[1].Method(40)); } [Test] public void BulkTest2() { var ducks = DuckTyping.Implement<TestInterface>(new Child1(), new Child2()); Assert.IsNotEmpty(ducks); Assert.AreEqual(45, ducks[0].Method(40)); Assert.AreEqual(50, ducks[1].Method(40)); } [Test] public void InheritanceTest() { var duck1 = DuckTyping.Implement<TestInterface>(new Child1()); var duck2 = DuckTyping.Implement<TestInterface>(new Child2()); Assert.AreNotSame(duck1, duck2); Assert.AreEqual(45, duck1.Method(40)); Assert.AreEqual(50, duck2.Method(40)); } [Test] public void InheritanceTest2() { var duck1 = DuckTyping.Implement<TestInterface,TestClass>(new Child1()); var duck2 = DuckTyping.Implement<TestInterface,TestClass>(new Child2()); Assert.AreNotSame(duck1, duck2); Assert.AreEqual(42, duck1.Method(40)); Assert.AreEqual(42, duck2.Method(40)); } public class StaticClass { public static int Method(int value) { return value + 3; } } [Test] public void StaticTest() { DuckTyping.AllowStaticMembers = true; var duck = DuckTyping.Implement<TestInterface,StaticClass>(new StaticClass()); Assert.AreEqual(43, duck.Method(40)); } public struct TestStruct { public int Method(int value) { return value + 3; } } [Test] public void StructTest() { DuckTyping.AllowStaticMembers = true; var duck = DuckTyping.Implement<TestInterface>(new TestStruct()); Assert.AreEqual(43, duck.Method(40)); } public interface GenericInterface<T> { T Method(T value); } public class GenericClass<T> { public T Method(T value) { return value; } public void I2Method(int v1, out int v2) { v2 = v1 + 2; } } [Test] public void GenericInterfaceTest() { var o = new GenericClass<int>(); var duck = DuckTyping.Implement<GenericInterface<int>>(o); var duck2 = DuckTyping.Implement<TestInterface2> (o); Assert.AreEqual(40, duck .Method(40)); Assert.AreEqual(40, duck2.Method(40)); int value; duck2.I2Method (33, out value); Assert.AreEqual(35, value); } [Test, ExpectedException(typeof(ArgumentNullException))] public void InvalidArgTest1() { TestInterface o = null; var duck1 = DuckTyping.Implement<TestInterface>(o); var duck2 = (TestInterface)DuckTyping.Implement(typeof(TestInterface), o); } interface NonPublicInterface { } [Test, ExpectedException(typeof(ArgumentException))] public void InvalidArgTest2() { var duck = (NonPublicInterface)DuckTyping.Implement(typeof(NonPublicInterface), new TestClass()); } [Test, ExpectedException(typeof(ArgumentException))] public void InvalidArgTest3() { var duck = (Child1)DuckTyping.Implement(typeof(Child1), new Child2()); } [Test, ExpectedException(typeof(ArgumentException))] public void InvalidArgTest4() { var duck = (TestInterface)DuckTyping.Implement(typeof(TestInterface), typeof(TestInterface), new TestClass()); } #region Aggregate public interface IAggregatable { int Method1(); int Method2(); } public interface IClass1 { int Method1(); int Method3(); } public interface IClass2 { int Method2(); } public class AggregateClass1: IClass1 { public int Method1() { return 1; } public int Method3() { return 3; } } public class AggregateClass2: IClass2 { public int Method2() { return 2; } } [Test] public void AggregateTest() { var duck = DuckTyping.Aggregate<IAggregatable>(new AggregateClass1(), new AggregateClass2()); Assert.IsNotNull(duck); Assert.AreEqual(1, duck.Method1()); Assert.AreEqual(2, duck.Method2()); // It is still possible to get access // to an interface of an underlying object. // var cls2 = DuckTyping.Implement<IClass2>(duck); Assert.IsNotNull(cls2); Assert.AreEqual(2, cls2.Method2()); // Even to switch from one aggregated object to another // var cls1 = DuckTyping.Implement<IClass1>(cls2); Assert.IsNotNull(cls1); Assert.AreEqual(1, cls1.Method1()); Assert.AreEqual(3, cls1.Method3()); } [Test] public void MissedMethodsAggregateTest() { var duck = DuckTyping.Aggregate<IClass1>(new Version(1,0), Guid.NewGuid()); Assert.That(duck, Is.Not.Null); // Neither System.Guid nor System.Version will ever have Method1. // Assert.That(duck.Method1(), Is.EqualTo(0)); } #endregion } }