java中基于TaskEngine类封装实现定时任务

时间:2023-03-08 17:26:14

主要包括如下几个类:

文章标题:java中基于TaskEngine类封装实现定时任务

文章地址: http://blog.****.net/5iasp/article/details/10950529

作者: javaboy2012
Email:yanek@163.com
qq:    1046011462

1. 核心工具类: TaskEngine

package com.yanek.task;

import java.util.*;

import java.util.LinkedList;

import org.apache.log4j.Logger;

public class TaskEngine

{

	static Logger logger = Logger.getLogger(TaskEngine.class.getName());

    private static class PriorityQueue

    {

        public void enqueue(int priority, Object object)

        {

            if(priority > HIGH_PRIORITY)

                priority = HIGH_PRIORITY;

            else

            if(priority < LOW_PRIORITY)

                priority = LOW_PRIORITY;

            switch(priority)

            {

            case HIGH_PRIORITY: // '\002'

                high.addFirst(object);

                break;

            case MEDIUM_PRIORITY: // '\001'

                medium.addFirst(object);

                break;

            case LOW_PRIORITY: // '\0'

                low.addFirst(object);

                break;

            }

        }

        public boolean isEmpty()

        {

            return high.isEmpty() && medium.isEmpty() && low.isEmpty();

        }

        public int size()

        {

            return high.size() + medium.size() + low.size();

        }

        public Object dequeue()

        {

            Object object;

            if(!high.isEmpty())

                object = high.removeLast();

            else

            if(!medium.isEmpty())

                object = medium.removeLast();

            else

            if(!low.isEmpty())

                object = low.removeLast();

            else

                throw new NoSuchElementException("Queue is empty.");

            if(!low.isEmpty())

                medium.addFirst(low.removeLast());

            if(!medium.isEmpty())

                high.addFirst(medium.removeLast());

            return object;

        }

        private LinkedList high;

        private LinkedList medium;

        private LinkedList low;

        private PriorityQueue()

        {

            high = new LinkedList();

            medium = new LinkedList();

            low = new LinkedList();

        }

    }

    private static class ScheduledTask extends TimerTask

    {

        public void run()

        {

            TaskEngine.addTask(priority, task);

        }

        private int priority;

        private Runnable task;

        ScheduledTask(int priority, Runnable task)

        {

            this.priority = priority;

            this.task = task;

        }

    }

    private static class TaskEngineWorker extends Thread

    {

        public void stopWorker()

        {

            done = true;

        }

        public void run()

        {

            do

            {

                if(done)

                    break;

                int currentThreadPriority = getPriority();

                int newThreadPriority = currentThreadPriority;

                try

                {

                    TaskWrapper wrapper = TaskEngine.nextTask();

                    int desiredTaskPriority = wrapper.getPriority();

                    newThreadPriority = desiredTaskPriority != 2 ? ((int) (desiredTaskPriority != 1 ? 2 : 5)) : 9;

                    if(newThreadPriority != currentThreadPriority)

                        try

                        {

                            logger.debug("Running task engine worker (" + wrapper.getTask().getClass() + ") at thread priority " + newThreadPriority);

                            setPriority(newThreadPriority);

                        }

                        catch(Exception e)

                        {

                            logger.error(e);

                        }

                    logger.debug("Executing task (" + wrapper.getTask().getClass() + ")");

                    wrapper.getTask().run();

                    logger.debug("Completed execution task (" + wrapper.getTask().getClass() + ")");

                    if(newThreadPriority != currentThreadPriority)

                        try

                        {

                            logger.debug("Restoring task engine worker thread to thread priority - " + currentThreadPriority);

                            setPriority(currentThreadPriority);

                        }

                        catch(Exception e)

                        {

                            logger.error(e);

                        }

                }

                catch(Exception e)

                {

                    logger.error(e);

                    if(newThreadPriority != currentThreadPriority)

                        try

                        {

                            logger.debug("Restoring task engine worker thread to thread priority - " + currentThreadPriority);

                            setPriority(currentThreadPriority);

                        }

                        catch(Exception e2)

                        {

                            logger.error(e2);

                        }

                }

            } while(true);

        }

        private boolean done;

        TaskEngineWorker(String name)

        {

            super(TaskEngine.threadGroup, name);

            done = false;

        }

    }

    private TaskEngine()

    {

    }

    public static void start()

    {

        synchronized(lock)

        {

            started = true;

            lock.notifyAll();

        }

    }

    private static void initialize()

    {

        taskTimer = new Timer(true);

        taskQueue = new PriorityQueue();

        threadGroup = new ThreadGroup("Task Engine Workers");

        workers = new TaskEngineWorker[5];

        for(int i = 0; i < workers.length; i++)

        {

            workers[i] = new TaskEngineWorker("Task Engine Worker " + i);

            workers[i].setDaemon(true);

            workers[i].start();

        }

    }

    public static int size()

    {

    	synchronized(lock){

    		return taskQueue.size();

    	}

    }

    public static int getNumWorkers()

    {

        return workers.length;

    }

    public static void addTask(Runnable task)

    {

        addTask(1, task);

    }

    public static void addTask(int priority, Runnable task)

    {

        synchronized(lock)

        {

            if((double)taskQueue.size() > Math.ceil(workers.length / 2))

            {

                busyTimestamp = System.currentTimeMillis();

                addWorker();

            } else

            if(workers.length > 3)

                removeWorker();

            TaskWrapper wrapper = new TaskWrapper(priority, task);

            taskQueue.enqueue(priority, wrapper);

            lock.notify();

        }

    }

    public static TimerTask scheduleTask(Runnable task, Date date)

    {

        return scheduleTask(1, task, date);

    }

    public static TimerTask scheduleTask(int priority, Runnable task, Date date)

    {

        TimerTask timerTask = new ScheduledTask(priority, task);

        taskTimer.schedule(timerTask, date);

        return timerTask;

    }

    //在1delay秒后执行此任务,每次间隔2秒period

    public static TimerTask scheduleTask(Runnable task, long delay, long period)

    {

        return scheduleTask(1, task, delay, period);

    }

    public static TimerTask scheduleTask(int priority, Runnable task, long delay, long period)

    {

        TimerTask timerTask = new ScheduledTask(priority, task);

        taskTimer.scheduleAtFixedRate(timerTask, delay, period);

        return timerTask;

    }

    public static void shutdown()

    {

        taskTimer.cancel();

    }

    public static void restart()

    {

        taskTimer.cancel();

        initialize();

    }

    private static TaskWrapper nextTask()

    {

    	synchronized(lock){

    		while(taskQueue.isEmpty() || !started)

    			try

    		{

    				lock.wait();

    		}

    		catch(InterruptedException ie) { }

    		return (TaskWrapper)taskQueue.dequeue();

    	}

    }

    private static void addWorker()

    {

        if(workers.length < 30 && System.currentTimeMillis() > newWorkerTimestamp + 2000L)

        {

            int newSize = workers.length + 1;

            int lastIndex = newSize - 1;

            TaskEngineWorker newWorkers[] = new TaskEngineWorker[newSize];

            System.arraycopy(workers, 0, newWorkers, 0, workers.length);

            newWorkers[lastIndex] = new TaskEngineWorker("Task Engine Worker " + lastIndex);

            newWorkers[lastIndex].setDaemon(true);

            newWorkers[lastIndex].start();

            workers = newWorkers;

            newWorkerTimestamp = System.currentTimeMillis();

        }

    }

    private static void removeWorker()

    {

        if(workers.length > 3 && System.currentTimeMillis() > busyTimestamp + 5000L)

        {

            workers[workers.length - 1].stopWorker();

            int newSize = workers.length - 1;

            TaskEngineWorker newWorkers[] = new TaskEngineWorker[newSize];

            System.arraycopy(workers, 0, newWorkers, 0, newSize);

            workers = newWorkers;

            busyTimestamp = System.currentTimeMillis();

        }

    }

    public static final int HIGH_PRIORITY = 2;

    public static final int MEDIUM_PRIORITY = 1;

    public static final int LOW_PRIORITY = 0;

    private static PriorityQueue taskQueue = null;

    private static ThreadGroup threadGroup;

    private static TaskEngineWorker workers[] = null;

    private static Timer taskTimer = null;

    private static Object lock = new Object();

    private static long newWorkerTimestamp = System.currentTimeMillis();

    private static long busyTimestamp = System.currentTimeMillis();

    private static boolean started = false;

    static

    {

        initialize();

    }

}

2. TaskWrapper 任务包装类

package com.yanek.task;

public class TaskWrapper

{

    public TaskWrapper(int priority, Runnable task)

    {

        this.priority = priority;

        this.task = task;

    }

    public Runnable getTask()

    {

        return task;

    }

    public void setTask(Runnable task)

    {

        this.task = task;

    }

    public int getPriority()

    {

        return priority;

    }

    public void setPriority(int priority)

    {

        this.priority = priority;

    }

    private Runnable task;

    private int priority;

}

3. 测试任务类:

package com.yanek.task;

import org.apache.log4j.Logger;

//import com.aspboy.jxc.tcp.SocketClient;

public class TestTask implements Runnable

{

	static Logger Log = Logger.getLogger(TestTask.class.getName());

	public void run()

	{

		System.out.println("time==="+System.currentTimeMillis());

			}

}

4. 监听器类: 启动时加载任务和启动任务

package com.yanek.task;

import javax.servlet.ServletContext;

import javax.servlet.ServletContextEvent;

import javax.servlet.ServletContextListener;

public class TaskListener implements ServletContextListener {

	public static final long SECOND = 1000L;

	private ServletContext context;

	public TaskListener() {

		System.out.println("LifeCycleListener new ... ");

	}

	public void contextInitialized(ServletContextEvent event) {

		System.out.println("ServletContext Initialized... ");

		context = event.getServletContext();

		String prefix = event.getServletContext().getRealPath("/");

		System.out.println("root path===" + prefix);

				 TestTask testtask = new TestTask();

		 TaskEngine.scheduleTask(testtask, SECOND * 1, SECOND * 2);

		 TaskEngine.start();

	}

	public void contextDestroyed(ServletContextEvent event) {

		System.out.println("ServletContext Destroyed... ");

		TaskEngine.shutdown();

	}

}

最后在web.xml配置监听器类:

<?xml version="1.0" encoding="UTF-8"?>

<web-app version="2.5"

 xmlns="http://java.sun.com/xml/ns/javaee"

 xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"

 xsi:schemaLocation="http://java.sun.com/xml/ns/javaee

 http://java.sun.com/xml/ns/javaee/web-app_2_5.xsd">

 <listener>

        <listener-class>com.yanek.task.TaskListener</listener-class>

    </listener>

  <welcome-file-list>

    <welcome-file>index.jsp</welcome-file>

  </welcome-file-list>

</web-app>

启动web容器,即可开始执行任务。

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