自制简单实用IoC

时间:2021-06-07 16:51:10

IoC是个好东西,但是为了这个功能而使用类似 Castle 这种大型框架的话,感觉还是不大好

代码是之前写的,一直没详细搞,今天整理了一下,感觉挺实用的.

IoC定义接口:

using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks; namespace System
{
/// <summary>
/// 一个接口,支持IoC定义
/// </summary>
public interface IIoCDefine
{
/// <summary>
/// 定义类型
/// </summary>
/// <param name="type"></param>
/// <param name="implType"></param>
void Define(Type type, Type implType);
/// <summary>
/// 定义类型
/// </summary>
/// <typeparam name="T"></typeparam>
/// <typeparam name="Impl"></typeparam>
void Define<T, Impl>() where Impl : T;
}
}

IoC解析接口:

using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks; namespace System
{
/// <summary>
/// 一个接口,支持IoC解析
/// </summary>
public interface IIoCResolve
{ /// <summary>
/// 解析类型
/// </summary>
/// <param name="type"></param>
object Resolve(Type type);
/// <summary>
/// 解析类型
/// </summary>
/// <typeparam name="T"></typeparam>
T Resolve<T>();
}
}

具体实现:

using System;
using System.Collections.Generic;
using System.Linq;
using System.Reflection;
using System.Text;
using System.Threading;
using System.Threading.Tasks; namespace System
{
/// <summary>
/// 支持定义解析
/// </summary>
internal class ResolveBase : IIoCResolve, IIoCDefine
{ ICache<Type, Type> _typeMaps = CacheFactory.CreateCache<Type, Type>(); ICache<string, Type> _genericTypeMaps = CacheFactory.CreateCache<string, Type>(); /// <summary>
/// 定义类型
/// </summary>
/// <typeparam name="T"></typeparam>
/// <typeparam name="Impl"></typeparam>
public void Define<T, Impl>() where Impl : T
{
Define(typeof(T), typeof(Impl));
} /// <summary>
/// 定义类型
/// </summary>
/// <param name="type"></param>
/// <param name="implType"></param>
public void Define(Type type, Type implType)
{
if (type == null)
{
throw Error.ArgumentNullException("type");
}
if (implType == null)
{
throw Error.ArgumentNullException("implType");
} if (implType.IsInterface || implType.IsAbstract)
{
throw Error.ArgumentException("不能是抽象类型或接口", "implType");
} if (!type.IsGenericTypeDefinition == implType.IsGenericTypeDefinition)
{
throw Error.ArgumentException("泛型不能与非泛型互转", "implType");
} if (!implType.IsGenericTypeDefinition && !type.IsAssignableFrom(implType) && !type.GetTypeInfo().IsAssignableFrom(implType))
{
throw Error.ArgumentException("不是子类", "implType");
} _typeMaps[type] = implType; if (type.IsGenericType)
{
_genericTypeMaps[GetGenericTypeDefinitionKey(type)] = implType;
} } string GetGenericTypeDefinitionKey(Type type)
{ // var temp = _typeMaps.Keys.FirstOrDefault(o => o.IsGenericType && o.Name == type.Name && o.Namespace == o.Namespace && o.Module.Equals(type.Module));
//return type.Name + "_" + type.Namespace + "_" + type.Module.Name; return type.FullName + "_" + type.Module.Name;
} /// <summary>
/// 得到类型实例
/// </summary>
/// <typeparam name="T"></typeparam>
/// <returns></returns>
public T Resolve<T>()
{
Type type = typeof(T); return (T)Resolve(type);
} /// <summary>
/// 得到类型实例
/// </summary>
/// <returns></returns>
public object Resolve(Type type)
{ var instanceType = GetInstanceType(type); //if (instanceType.IsAbstract || instanceType.IsInterface)
//{
// throw Error.ArgumentException("解析失败 : 不能是接口或抽象类");
//} return ActivatorCache.CreateInstance(instanceType); // return Activator.CreateInstance(instanceType);
} /// <summary>
/// 得到解析类型
/// </summary>
/// <param name="type"></param>
/// <returns></returns>
Type GetInstanceType(Type type)
{
if (type == null)
{
throw Error.ArgumentNullException("type");
}
Type instanceType; if (!type.IsGenericType)
{
//如果非泛型,直接拿缓存
instanceType = _typeMaps[type];
if (instanceType == null)
{
throw Error.ArgumentException("解析失败 : 未定义解析类型");
}
return instanceType;
} //是泛型
instanceType = _genericTypeMaps[GetGenericTypeDefinitionKey(type)]; if (instanceType == null)
{
if (type.IsGenericTypeDefinition)
{
throw Error.ArgumentException("解析失败 : 未定义解析类型");
}
//找不到具体泛型类型
//从泛型定义中找
var genericType = type.GetGenericTypeDefinition();
instanceType = _genericTypeMaps[GetGenericTypeDefinitionKey(genericType)];
if (instanceType == null)
{
throw Error.ArgumentException("解析失败 : 未定义解析类型");
}
instanceType = instanceType.MakeGenericType(type.GenericTypeArguments);
} if (type.IsGenericTypeDefinition)
{
//指定泛型参数类型
var gType = instanceType.MakeGenericType(type.GenericTypeArguments);
instanceType = gType;
} return instanceType;
} //bool Equals(Type[] types1, Type[] types2)
//{
// if (types1 == null || types2 == null)
// {
// return false;
// }
// if (types1.Length != types2.Length)
// {
// return false;
// } // int length = types1.Length; // for (int i = 0; i < length; i++)
// {
// var type1 = types1[i];
// var type2 = types2[i]; // if (!types1.Equals(type2) && !(type1.IsAssignableFrom(type2) || type2.IsAssignableFrom(type1)))
// {
// return false;
// } // } // return true; //} public object Resolve(Type type, params object[] values)
{
var instanceType = GetInstanceType(type); if (instanceType.IsAbstract || instanceType.IsInterface)
{
throw Error.ArgumentException("解析失败 : 不能是接口或抽象类");
} var types = values.Select(o => o.GetType()).ToArray(); return ActivatorCache.CreateInstance(instanceType, values); // return Activator.CreateInstance(instanceType, values);
} public T Resolve<T>(params object[] values)
{ return (T)Resolve(typeof(T), values);
}
}
}

给个入口:

using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks; namespace System
{ /// <summary>
/// IoC入口对象
/// </summary>
public sealed class IoCManager : IIoCResolve, IIoCDefine
{
IoCManager()
{
var resolve = new ResolveBase();
_resolve = resolve;
_define = resolve;
} public static readonly IoCManager Instance = new IoCManager(); IIoCResolve _resolve; IIoCDefine _define; /// <summary>
/// 定义类型
/// </summary>
/// <param name="type"></param>
/// <param name="implType"></param>
public void Define(Type type, Type implType)
{
_define.Define(type, implType);
} /// <summary>
/// 定义类型
/// </summary>
/// <typeparam name="T"></typeparam>
/// <typeparam name="Impl"></typeparam>
public void Define<T, Impl>() where Impl : T
{
_define.Define<T, Impl>();
} /// <summary>
/// 解析类型
/// </summary>
/// <param name="type"></param>
/// <param name="implType"></param>
public object Resolve(Type type)
{
return _resolve.Resolve(type);
} /// <summary>
/// 解析类型
/// </summary>
/// <typeparam name="T"></typeparam>
/// <typeparam name="Impl"></typeparam>
public T Resolve<T>()
{
return _resolve.Resolve<T>();
} }
}

到这里就大功告成了!!!

测试:

using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks; namespace Dai.CommonLib.Tests.Models
{
public interface TestInterface
{
} public interface TestInterface<T>:TestInterface
{
} class TestClass : TestInterface
{ } class TestClass<T> : TestInterface<T>
{ } class TestClass1<T> : TestClass<T>
{ } }
      [TestMethod]
public void TestMethod2()
{ IoCManager.Instance.Define(typeof(TestInterface), typeof(TestClass<decimal>)); IoCManager.Instance.Define(typeof(TestInterface<>), typeof(TestClass<>)); IoCManager.Instance.Define(typeof(TestInterface<string>), typeof(TestClass1<string>)); var model = IoCManager.Instance.Resolve<TestInterface>(); var model1 = IoCManager.Instance.Resolve<TestInterface<int>>(); var model2 = IoCManager.Instance.Resolve<TestInterface<string>>(); Assert.IsTrue(model is TestClass<decimal>); Assert.IsTrue(model1 is TestClass<int>); Assert.IsTrue(model2 is TestClass1<string>); IoCManager.Instance.Define(typeof(TestInterface), typeof(TestClass)); var model3 = IoCManager.Instance.Resolve<TestInterface>(); Assert.IsTrue(model3 is TestClass);
}

优点: 支持泛型,如果指定了具体的泛型类型,那优先解析具体类型,否则从泛型类型定义中替换具体泛型类型参数,如上面的代码的 TestClass和TestClass1类型

下次写个Aop Inject 静态编织注入的文章