前言
本篇文章继续探索通过继承实现单例模式的可行方案,这次的方案将采用反射机制隐式创建派生类实例,示例代码为C#。
代码
v1.0
using System.Reflection;/// <summary>
/// 单例模式基类
/// </summary>
/// <typeparam name="T">单例类型</typeparam>
public abstract class Singleton<T>
where T : class
{public static T instance => _instance.Value;static readonly Lazy<T> _instance = new Lazy<T>(Create);#pragma warning disable CS8603static T Create(){return Activator.CreateInstance(typeof(T),BindingFlags.Public | BindingFlags.NonPublic | BindingFlags.Instance,null, null, null) as T;}
#pragma warning restore CS8603
}测试
单例模式基类
/// <summary>
/// 单例模式基类
/// </summary>
/// <typeparam name="T">单例类型</typeparam>
public abstract class SingletonWithTest<T>
where T : class
{public static T instance => _instance.Value;static readonly Lazy<T> _instance = new Lazy<T>(Create);#pragma warning disable CS8603static T Create(){return Activator.CreateInstance(typeof(T),BindingFlags.Public | BindingFlags.NonPublic | BindingFlags.Instance,null, null, null) as T;}
#pragma warning restore CS8603
}派生类
public class TestA : SingletonWithTest<TestA>
{public readonly string key;TestA() { key = "Default A"; }
}public class TestB : SingletonWithTest<TestB>
{public readonly string key;public TestB() { key = "Default B"; }
}public class TestC : SingletonWithTest<TestC>
{public readonly string key;public TestC(string key) { this.key = key; }
}public class TestD : SingletonWithTest<TestD>
{public readonly string key;public TestD() { key = "Default D"; }public TestD(string key) { this.key = key; }
}public class TestE : SingletonWithTest<TestE>
{public readonly string key;TestE() { key = "Default E"; }public TestE(string key) { this.key = key; }
}public class TestF : SingletonWithTest<TestF>
{public readonly string key = "Default F";
}测试代码
// ********************************* 线程安全测试:通过 *********************************Thread t1, t2, t3, t4, t5, t6;// 打印同一单例的 HashCode 测试:通过
// t1 = new Thread(() => Console.WriteLine("Thread1:" + TestA.instance.GetHashCode()));
// t2 = new Thread(() => Console.WriteLine("Thread2:" + TestA.instance.GetHashCode()));
// t3 = new Thread(() => Console.WriteLine("Thread3:" + TestA.instance.GetHashCode()));
// t4 = new Thread(() => Console.WriteLine("Thread4:" + TestA.instance.GetHashCode()));
// t5 = new Thread(() => Console.WriteLine("Thread5:" + TestA.instance.GetHashCode()));
// t6 = new Thread(() => Console.WriteLine("Thread6:" + TestA.instance.GetHashCode()));// 同时使用不同单例的测试:通过
t1 = new Thread(() => Console.WriteLine("Thread1:" + TestA.instance.GetHashCode()));
t2 = new Thread(() => Console.WriteLine("Thread2:" + TestB.instance.GetHashCode()));
t3 = new Thread(() => Console.WriteLine("Thread3:" + TestC.instance.GetHashCode())); // 没有无参构造函数,触发异常
t4 = new Thread(() => Console.WriteLine("Thread4:" + TestD.instance.GetHashCode()));
t5 = new Thread(() => Console.WriteLine("Thread5:" + TestE.instance.GetHashCode()));
t6 = new Thread(() => Console.WriteLine("Thread6:" + TestF.instance.GetHashCode()));t1.Start();
t2.Start();
t3.Start();
t4.Start();
t5.Start();
t6.Start();t1.Join();
t2.Join();
t3.Join();
t4.Join();
t5.Join();
t6.Join();优缺点分析
| 优点 | 1.继承实现单例模式; 2.按需加载,延迟初始化; 3.线程安全; 4.可以通过单例基类规范统一标准; 5.派生类的无参构造函数用于初始化; 6.将派生类实例创建权限交由派生类本身决定,通常,为遵循单例模式的原则应向外部关闭通过new关键字显式调用构造函数的权限,但这对派生类而言并非硬性要求; |
|---|---|
| 缺点 | 1.反射开销; 2.派生类必须具备无参构造函数,且无参构造函数需要向单例基类提供可进行反射访问的权限; |
版本改进
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系列文章
继承实现单例模式的探索(一)
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