Mercurial > pub > bltoolkit
view UnitTests/CS/Aspects/OverloadAspectTest.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 |
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using System; using NUnit.Framework; using BLToolkit.Aspects; using BLToolkit.Reflection; using BLToolkit.TypeBuilder; namespace Aspects { [TestFixture] public class OverloadAspectTest { public abstract class TestObject<T> { public T Test(T inVal, out T outVal) { outVal = inVal; return inVal; } public string Test(DateTime dateVal, string inVal) { return inVal.ToUpper(); } [Overload] abstract public T Test(T inVal); [Overload] abstract public T Test(T inVal, out T outVal, ref T refVal); [Overload] abstract public T Test(T inVal, DateTime dateVal); } public abstract class TestObject { public int IntValue; public string StrValue; public Guid GuidValue; public void Test(int intVal, Guid guidVal) { IntValue = intVal; GuidValue = guidVal; StrValue = "(default)"; } public void Test(int intVal, string strVal) { IntValue = intVal; StrValue = strVal; GuidValue = Guid.Empty; } public void OutRefTest(int inVal, out int outVal, ref int refVal) { outVal = inVal; refVal += inVal; } public void OutRefStructTest(int? inVal, out int? outVal, ref int? refVal) { outVal = inVal; refVal += inVal; } protected static int StaticMethod(int intVal, ref Guid guidVal) { return intVal; } public T Generic<T>(T inVal, out T outVal) { outVal = inVal; return inVal; } // Becomes // public override void Test(Guid guidVal) // { // Test(default(int), guidVal); // } // [Overload] public abstract void Test(Guid guidVal); // Becomes // public override void Test(Guid guidVal, int intVal) // { // Test(intVal, guidVal); // } // [Overload] public abstract void Test(Guid guidVal, int intVal); // Becomes // public override void Test(string strVal) // { // Test(default(int), strVal); // } // [Overload] public abstract void Test(string strVal); // Overload method name may be altered. // [Overload("Test")] public abstract void GuidTest(Guid guidVal, DateTime dateVal); // Parameter types of the method to overload. // [Overload(typeof(int), typeof(Guid))] public abstract void Test(DateTime strVal); // There may be more or less parameters in the overloaded method. // [Overload] public abstract void OutRefTest(int inVal, out int outVal, ref int refVal, out string strVal); [Overload] public abstract void OutRefTest(int inVal); // Value types and ref value types also works. // [Overload] public abstract void OutRefStructTest(int? inVal, out int? outVal, ref int? refVal, out Guid guidVal); [Overload] public abstract void OutRefStructTest(int? inVal); // We can overload static methods. // [Overload] public abstract int StaticMethod(int intVal); // We can overload methods declared in a base type. // [Overload] public abstract string ToString(int intVal); // A generic method can be overloaded by an other generic method. // [Overload] public abstract T Generic<T>(T inVal); } [Test] public void OverloadTest() { TestObject o = TypeAccessor<TestObject>.CreateInstance(); o.Test(12345, "str"); Assert.AreEqual(12345, o.IntValue); Assert.AreEqual("str", o.StrValue); Assert.AreEqual(Guid.Empty, o.GuidValue); o.Test(Guid.NewGuid(), 123); Assert.AreEqual(123, o.IntValue); Assert.AreEqual("(default)", o.StrValue); Assert.AreNotEqual(Guid.Empty, o.GuidValue); o.Test("foo"); Assert.AreEqual(0, o.IntValue); Assert.AreEqual("foo", o.StrValue); Assert.AreEqual(Guid.Empty, o.GuidValue); o.Test(Guid.NewGuid()); Assert.AreEqual(0, o.IntValue); Assert.AreEqual("(default)", o.StrValue); Assert.AreNotEqual(Guid.Empty, o.GuidValue); Assert.AreEqual(1, o.Generic(1)); } [Test] public void AnyNameTest() { TestObject o = TypeAccessor<TestObject>.CreateInstance(); o.GuidTest(Guid.NewGuid(), DateTime.Now); Assert.AreEqual(0, o.IntValue); Assert.AreEqual("(default)", o.StrValue); Assert.AreNotEqual(Guid.Empty, o.GuidValue); } [Test] public void ExplicitParameterTypesTest() { TestObject o = TypeAccessor<TestObject>.CreateInstance(); o.Test(DateTime.Now); Assert.AreEqual(0, o.IntValue); Assert.AreEqual("(default)", o.StrValue); Assert.AreEqual(Guid.Empty, o.GuidValue); } [Test] public void StaticMethodTest() { TestObject o = TypeAccessor<TestObject>.CreateInstance(); int intVal = o.StaticMethod(123); Assert.AreEqual(123, intVal); } [Test] public void BaseTypeMethodTest() { TestObject o = TypeAccessor<TestObject>.CreateInstance(); Assert.AreEqual(o.ToString(), o.ToString(123)); } [Test] public void OutRefTest() { TestObject o = TypeAccessor<TestObject>.CreateInstance(); const int inVal = 123; int refVal = 99; int outVal; string strVal; o.OutRefTest(inVal, out outVal, ref refVal, out strVal); Assert.AreEqual(inVal, outVal); Assert.AreEqual(222, refVal); Assert.AreEqual(string.Empty, strVal); o.OutRefTest(inVal); } [Test] public void OutRefStructTest() { TestObject o = TypeAccessor<TestObject>.CreateInstance(); int? inVal = 123; int? refVal = 99; int? outVal; Guid guidVal; o.OutRefStructTest(inVal, out outVal, ref refVal, out guidVal); Assert.AreEqual(inVal, outVal); Assert.AreEqual(222, refVal); Assert.AreEqual(Guid.Empty, guidVal); o.OutRefStructTest(inVal); } [Test] public void GenericTypeTest() { TestObject<int?> o = TypeAccessor<TestObject<int?>>.CreateInstance(); int? inVal = 123; int? refVal = 99; int? outVal; o.Test(inVal, out outVal, ref refVal); Assert.AreEqual(inVal, outVal); Assert.AreEqual(refVal, 99); Assert.AreEqual(inVal, o.Test(inVal)); Assert.AreEqual(12, o.Test(12, DateTime.Now)); TestObject<string> o2 = TypeAccessor<TestObject<string>>.CreateInstance(); // When T is a string, method Test(DateTime, string) becomes the best match. // Assert.AreEqual("STR", o2.Test("str", DateTime.Now)); } } }