自制线程池4

需求：

有一种任务需要定时的执行，而且非常的耗时，因此我把它放到线程池中执行，并设置线程池为1，如果该任务已经在队列中或正在执行该任务，则不要再将该任务加入线程池中了。

测试代码如下

1 using System;
2 using System.Collections.Generic;
3 using System.Linq;
4 using System.Text;
5 using System.Threading;
6 using ThreadPool2;
7
8 namespace ThreadPoolTest.MyThreadPool2Test
9 {
10     class Class6
11     {
12         static void Main(string[] args)
13         {
14             MyThreadPool2 pool=new MyThreadPool2(1,true,30000);
15             object obj=new object();
16             Random rnd=new Random();
17             for (var i = 0; i < 20;i++ )
18                 pool.QueueUserWorkItem(call, obj, rnd.Next(1,4).ToString(), succ, err);
19             Console.ReadLine();
20         }
21
22         private static void err(object state)
23         {
24                 Console.WriteLine("err

");
25         }
26
27         private static void succ(object state, object result)
28         {
29             Console.WriteLine("succ

");
30         }
31
32         private static object call(object state)
33         {
34             while(true)
35             {
36                 Thread.Sleep(2000);
37                 Console.WriteLine("exec

");
38             }
39         }
40     }
41 }
42

线程池代码如下，

using System;

using System.Collections;

using System.Collections.Generic;

using System.Diagnostics;

using System.Linq;

using System.Text;

using System.Threading;

using Amib.Threading.Internal;

using Rhino.Commons;

namespace ThreadPool2

{

public delegate object WaitCallback2(object state);

public delegate void SuccCallback(object state, object result);

public delegate void ErrCallback(object state);

/// <summary>

/// 此线程池的作用是将某一类特殊的任务交给此线程池执行，

/// 可以设定该线程池的最大线程数，

/// 这类线程池的优点时，占用的资源少，优先级低，

/// 适合于执行任务需要长期执行，不考虑时间因素的任务

/// 同时根据在传入线程池时的标记key，可以Aborted指定任务，

/// 若该任务正在执行或尚在执行队列中

/// </summary>

public class MyThreadPool2

{

/// <summary>

/// 任务执行队列

/// </summary>

//static ThreadSafeQueue<WorkerThread> queue = new ThreadSafeQueue<WorkerThread>();

List<WorkerThread> queue = new List<WorkerThread>();

/// <summary>

/// 目前暂定为只使用一个线程，以免耗近资源

/// </summary>

SynchronizedDictionary<string, WorkerThread> dict = new SynchronizedDictionary<string, WorkerThread>();

private object state;

AutoResetEvent wait = new AutoResetEvent(false);

AutoResetEvent wait2 = new AutoResetEvent(false);

private int MaxLimitedTime { get; set; }

private bool IsLimitedExecTime { get; set; }

private int IdleTimeout { get; set; }

//private static int _maxThreadNum = 1;

private int MaxThreadNum

{

//get { return _maxThreadNum; }

//set { _maxThreadNum = value; }

get;

set;

}

private MyThreadPool2()

{

//System.Threading.ThreadPool.RegisterWaitForSingleObject(wait, new WaitOrTimerCallback(aa), state, 2000,true);

//SetMaxThreadNum(2);

//SetMaxExecTime(false, 10000);

}

/// <summary>

/// 设置专用线程池的初始参数

/// </summary>

/// <param name="num">线程池的最大线程数，最小为１</param>

/// <param name="b">是否起用限制最大单个任务执行时间设定</param>

/// <param name="MaxLimitedTime">单个任务执行的最大时间</param>

public MyThreadPool2(int num, bool b, int MaxLimitedTime)

{

System.Threading.ThreadPool.RegisterWaitForSingleObject(wait, new WaitOrTimerCallback(aa), state, 2000, true);

if (num < 1)

num = 1;

MaxThreadNum = num;

IsLimitedExecTime = b;

this.MaxLimitedTime = MaxLimitedTime;

if (IsLimitedExecTime)

System.Threading.ThreadPool.RegisterWaitForSingleObject(wait2, new WaitOrTimerCallback(bb), state,

this.MaxLimitedTime, true);

}

/// <summary>

/// 定时将队列中的数据装载到线程中执行，如果还没有到达最大线程数还有任务则创建线程

/// </summary>

/// <param name="state"></param>

/// <param name="timedOut"></param>

private void aa(object state, bool timedOut)

{

//Console.WriteLine("执行aa()将队列中的任务加到线程中");

lock(WorkerThread.Manual){

WorkerThread.Manual.Reset();

lock (queue)

{

Console.WriteLine("queue count={0}",queue.Count);

//判断任务队列中有无积压的任务且有无空闲的线程，如果符合上述条件则执行之

List<string> removeKey = new List<string>();

List<WorkerThread> newTask = new List<WorkerThread>();

List<string> tasks = new List<string>();

//Dictionary<string,WorkerThread> addDict=new Dictionary<string, WorkerThread>();

foreach (var kvp in dict)

{//kvp.Value.ThreadState == ThreadState.Unstarted ||

//if (kvp.Value.Thread.ThreadState == ThreadState.Suspended)

//将不活动的线程记录下来并移除

if (!kvp.Value.Thread.IsAlive)

tasks.Add(kvp.Key);

//将活动且空闲的线程赋于新的任务

if (kvp.Value.Thread.IsAlive == true && kvp.Value.CurrentThreadState == WorkerThreadState.Idle)

{

//dict.Remove(kvp.Key);//cancle because of lock

WorkerThread a = queue.FirstOrDefault();

if (a != null)

{

removeKey.Add(kvp.Key);

//addDict.Add(a.Key, kvp.Value.Change(a));

newTask.Add(kvp.Value.Change(a));

//a.Thread = kvp.Value.Thread;

//newTask.Add(a);

queue.RemoveAt(0);

//dict.Add(a.Key, kvp.Value.Change(a));//cancle because of lock

//将参数加到线程中，并改变线程的状态

//dict[a.Key].Thread.Resume();

}

else

break;

//else

//{

// System.Threading.ThreadPool.RegisterWaitForSingleObject(wait, new WaitOrTimerCallback(aa), state,

// 2000, true);

// return;

//}

}

tasks.ForEach(t =>

{

dict.Remove(t);

Debug.WriteLine("移除销毁线程对应的dict中的键值项，key="+t);

});

removeKey.ForEach(t => dict.Remove(t));

newTask.ForEach(t =>

{

Debug.WriteLine("复用线程用于执行新任务"+t.Key);

dict.Add(t.Key, t);

//t.StartExecTime = DateTime.Now;

t.Auto.Set();

//t.CurrentThreadState = WorkerThreadState.Busy;

//t.Thread.Resume();

});

while (queue.Count > 0 && dict.Count < MaxThreadNum)

{

//未到线程池最大池程数时，增加线程

WorkerThread b = queue.FirstOrDefault();

if (b != null)

{

queue.RemoveAt(0);

//Thread thd = new Thread(new ThreadStart(b.Exec));

//thd.Priority = ThreadPriority.Lowest;

//dict.Add(b.Key, thd);

//thd.Start();

WorkerThread wt = new WorkerThread();

wt.Start(b);

dict.Add(wt.Key, wt);

wt.Thread.Start();

Debug.WriteLine("新建线程用于执行新任务"+ wt.Key);

//将参数加到线程中，并改变线程的状态

}

System.Threading.ThreadPool.RegisterWaitForSingleObject(wait, new WaitOrTimerCallback(aa), state, 2000,

true);

}

WorkerThread.Manual.Set();

}

private void SetMaxThreadNum(int num)

{

if (num < 1)

num = 1;

MaxThreadNum = num;

}

private WorkerThread FindSpecificWorkerThreadByKey(string key)

{

WorkerThread wt;

dict.TryGetValue(key, out wt);

return wt;

}

/// <summary>

/// 设定单线程允许执行任务的最长时间,该方法不能在运行时改变，须事前设定

/// </summary>

/// <param name="b"></param>

/// <param name="time"></param>

[Obsolete("abandon")]

private void SetMaxExecTime(bool b, int time)

{

IsLimitedExecTime = b;

MaxLimitedTime = time;

if (IsLimitedExecTime)

System.Threading.ThreadPool.RegisterWaitForSingleObject(wait2, new WaitOrTimerCallback(bb), state,

MaxLimitedTime, true);

}

/// <summary>

/// 当任务执行超时时，注销该线程

/// </summary>

/// <param name="state"></param>

/// <param name="timedOut"></param>

private void bb(object state, bool timedOut)

{

//GC.Collect();

Console.WriteLine("执行bb(),检测是否有线程超时");

lock (WorkerThread.Manual)

{

WorkerThread.Manual.Reset();

//lock (obj)

lock (dict.SyncRoot)

{

List<string> temp = new List<string>();

foreach (var kvp in dict)

{

if (kvp.Value.CurrentThreadState==WorkerThreadState.Busy &&DateTime.Now.Subtract(kvp.Value.StartExecTime).TotalMilliseconds > MaxLimitedTime)

{

Console.WriteLine("now={0}",DateTime.Now);

Console.WriteLine("before={0}",kvp.Value.StartExecTime);

temp.Add(kvp.Key);

}

foreach (var s in temp)

{

Debug.WriteLine("key="+s+"的任务超时，执行该任务的线程将被销毁");

_Aborted(s);

}

System.Threading.ThreadPool.RegisterWaitForSingleObject(wait2, new WaitOrTimerCallback(bb), state, MaxLimitedTime, true);

}

WorkerThread.Manual.Set();

}

public void Aborted(string key)

{

lock (WorkerThread.Manual)

{

WorkerThread.Manual.Reset();

_Aborted(key);

WorkerThread.Manual.Set();

}

private void _Aborted(string key)

{

lock (queue)

{

//任务如果还在队列中则删除该任务

int index = queue.FindIndex(t => t.Key == key);

if (index > -1)

{

queue.RemoveAt(index);

Debug.WriteLine("从任务队列中移除指定key="+key+"的任务");

}

//lock (dict.SyncRoot)

//{

old way now extract method FindSpecificWorkerThreadByKey to split this

WorkerThread v = FindSpecificWorkerThreadByKey(key);

//没有发现指定key的线程表示，对应该key的任务已经执行完了，不需要再来取消该任务

//或者指的key的线程虽然还在但它的状态已变为suspended，任务已完成，将等待下一个任务，实际不需要终止该线程

//只有但指定的key的任务在执行时才删除

//if (v != null && v.Thread.ThreadState != ThreadState.Suspended)

if (v != null && v.CurrentThreadState == WorkerThreadState.Busy)

{

dict.Remove(key);

在调用Abort方法时，在指定线程上引发ThreadAbortException。以开始终止此线程的

过程。ThreadAbortException是—个可以由应用程序代码捕获的特殊异常，但除非调用

ResetAbort，否则会在catch块的结尾再次引发它。ResetAbod可以取消Abort的请求，并

阻止ThreadAbortException终止此线程。但是，线程不一定会立即中止，或者根本不中止。

如果线程在作为中止过程的一部分被调用的finally块中做非常大量的计算，从而无限期延

迟中止操作，则会发生这种情况。若要确保线程已经终止，请在调用Abort之后对线程调

用Join方法。

Debug.WriteLine("销毁正在执行Key="+key+"的任务的线程");

//这里将回调的方法放线程终止之前，是防止在同一线程时，线程终止了，放在后面回调就不执行了

if (v.ErrorCallback != null)

{

v.ErrorCallback(v.State);

//最后完成任务的时间

v.EndExecTime = DateTime.Now;

}

v.Thread.Abort();

v.Thread.Join();

}

//}

//wait.Set();

}

public void QueueUserWorkItem(WaitCallback2 callback, object state, string key, SuccCallback succ, ErrCallback err)

{

WorkerThread.Manual.Reset();

WorkerThread p = new WorkerThread()

{

WaitCallback = callback,

State = state,

Key = key,

ErrorCallback = err,

SuccessCallback = succ

};

//queue.Enqueue(p);

lock (queue)

{

if(queue.FindIndex(t=>t.Key==p.Key)==-1 && dict.Contains(p.Key)==false)

{

queue.Add(p);

wait.Set();

}

else

{

Console.WriteLine("由于队列或是正在执行的线程中拥有一个同名的key,此次加入线程的工作将被自动抛弃");

}

//Monitor.Pulse(queue);

}

WorkerThread.Manual.Set();

}

public void QueueUserWorkItem(WaitCallback2 callback, object state, SuccCallback succ, ErrCallback err)

{

QueueUserWorkItem(callback, state, System.Guid.NewGuid().ToString(), succ, err);

}

public void QueueUserWorkItem(WaitCallback2 callback, object state, string key)

{

//WorkerThread p = new WorkerThread()

// {

// WaitCallback = callback,

// State = state,

// Key = key

// };

////queue.Enqueue(p);

//queue.Add(p);

//wait.Set();

QueueUserWorkItem(callback, state, key, null, null);

}

public void QueueUserWorkItem(WaitCallback2 callback, object state)

{

QueueUserWorkItem(callback, state, System.Guid.NewGuid().ToString());

}

public enum WorkerThreadState : byte

{

None = 0,

Busy = 1,

Idle = 2

}

public class WorkerThread

{

public AutoResetEvent Auto = new AutoResetEvent(false);

public static ManualResetEvent Manual = new ManualResetEvent(true);

public WorkerThreadState CurrentThreadState { get; set; }

public DateTime StartExecTime { get; set; }

public DateTime EndExecTime { get; set; }

public Thread Thread { get; set; }

public string Key { get; set; }

public WaitCallback2 WaitCallback { get; set; }

public SuccCallback SuccessCallback { get; set; }

public ErrCallback ErrorCallback { get; set; }

public Object State { get; set; }

public void Exec()

{

while (true)

{

this.CurrentThreadState = WorkerThreadState.Busy;

this.StartExecTime = DateTime.Now;

if (this.SuccessCallback != null)

this.SuccessCallback(this.State, this.WaitCallback(this.State));

else

this.WaitCallback(this.State);//如何将执行的结果返回，目前是通过SuccessCallback将结果作为参数返回，如果没有使用SuccessCallback将不能返回执行的结果

this.EndExecTime = DateTime.Now;

//如何将任务执行的起讫时间发给任务

this.CurrentThreadState = WorkerThreadState.Idle;

//this.Thread.Suspend();

//等待60s如果在此期间未接收到新的任务该线程就退出

if (!Auto.WaitOne(60 * 1000, false))

break;

Manual.WaitOne();

}

Debug.WriteLine("线程销毁");

}

public WorkerThread Change(WorkerThread wt)

{

this.Key = wt.Key;

this.WaitCallback = wt.WaitCallback;

this.State = wt.State;

//this.StartExecTime = wt.StartExecTime;

this.ErrorCallback = wt.ErrorCallback;

this.SuccessCallback = wt.SuccessCallback;

return this;

}

public void Start(WorkerThread wt)

{

this.Change(wt);

this.Thread = new Thread(new ThreadStart(this.Exec));

this.Thread.Priority = ThreadPriority.Lowest;

}

//public void Start(WaitCallback callback,Object state)

//{

// this.WaitCallback = callback;

// this.State = state;

// if(this.Thread==null){

// this.Thread = new Thread(new ThreadStart(this.Exec));

// this.Thread.Priority = ThreadPriority.Lowest;

// this.Thread.IsBackground = true;

// this.Thread.Start();

// return;

// }

// if(this.Thread.ThreadState==ThreadState.Suspended)

// {

// this.Thread.Resume();

// }

//}

}