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Java中线程池自定义实现详解

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前言

最初使用线程池的时候,网上的文章告诉我说线程池可以线程复用,提高线程的创建效率。从此我的脑海中便为线程池打上了一个标签——线程池可以做到线程的复用。但是我总以为线程的复用是指在创建出来的线程可以多次的更换run()方法的内容,来达到线程复用的目的,于是我尝试了一下.同一个线程调用多次,然后使run的内容不一样,但是我发现我错了,一个线程第一次运行是没问题的,当再次调用start方法是会抛出异常(java.lang.IllegalThreadStateException)。

线程为什么不能多次调用start方法

从源码可以得知,调用start方法时,程序还会判断当前的线程状态

这里又引申出另一个问题,线程到底有几种状态

年轻的时候背八股文时,只是说五种状态,这五种状态也不知道是哪里来的,不知道有没有人和我一样,当初只是知其然不知其所以然。贴出源码来:

public enum State {
    /**
     * Thread state for a thread which has not yet started.
     */
    NEW, // 新建

    /**
     * Thread state for a runnable thread.  A thread in the runnable
     * state is executing in the Java virtual machine but it may
     * be waiting for other resources from the operating system
     * such as processor.
     */
    RUNNABLE, // 运行中

    /**
     * Thread state for a thread blocked waiting for a monitor lock.
     * A thread in the blocked state is waiting for a monitor lock
     * to enter a synchronized block/method or
     * reenter a synchronized block/method after calling
     * {@link Object#wait() Object.wait}.
     */
    BLOCKED, // 阻塞

    /**
     * Thread state for a waiting thread.
     * A thread is in the waiting state due to calling one of the
     * following methods:
     * <ul>
     *   <li>{@link Object#wait() Object.wait} with no timeout</li>
     *   <li>{@link #join() Thread.join} with no timeout</li>
     *   <li>{@link LockSupport#park() LockSupport.park}</li>
     * </ul>
     *
     * <p>A thread in the waiting state is waiting for another thread to
     * perform a particular action.
     *
     * For example, a thread that has called <tt>Object.wait()</tt>
     * on an object is waiting for another thread to call
     * <tt>Object.notify()</tt> or <tt>Object.notifyAll()</tt> on
     * that object. A thread that has called <tt>Thread.join()</tt>
     * is waiting for a specified thread to terminate.
     */
    WAITING, // 等待

    /**
     * Thread state for a waiting thread with a specified waiting time.
     * A thread is in the timed waiting state due to calling one of
     * the following methods with a specified positive waiting time:
     * <ul>
     *   <li>{@link #sleep Thread.sleep}</li>
     *   <li>{@link Object#wait(long) Object.wait} with timeout</li>
     *   <li>{@link #join(long) Thread.join} with timeout</li>
     *   <li>{@link LockSupport#parkNanos LockSupport.parkNanos}</li>
     *   <li>{@link LockSupport#parkUntil LockSupport.parkUntil}</li>
     * </ul>
     */
    TIMED_WAITING, // 定时等待

    /**
     * Thread state for a terminated thread.
     * The thread has completed execution.
     */
    TERMINATED; // 结束状态
}

综上,其实线程的状态有六种:

可以看出八股文不能乱背,之前傻呵呵背的八股文很有可能是错误的,比如线程的运行中状态(RUNNING),其实这个状态根本不存在,RUNABLE状态就已经包含了RUNNNING状态了。

再回到标题的问题,为什么不能多次调用start方法,原因其实源码的注释上已经说明了,

/**
 * This method is not invoked for the main method thread or "system"
 * group threads created/set up by the VM. Any new functionality added
 * to this method in the future may have to also be added to the VM.
 *
 * A zero status value corresponds to state "NEW". 
 */

0状态对应的是NEW,也就是说只有新建状态的线程才能调用start方法,其他状态的线程调用就会抛出异常,而一般第二次调用时,线程状态肯定不是new状态了。因此不可以多次调用。

线程池到底是如何复用的

经过多次的反复调试,原理其实很简单,比如以下代码:

public void testThreadPool() {

    ThreadPoolExecutor threadPoolExecutor = new ThreadPoolExecutor(1, 3, 10L, TimeUnit.SECONDS, new ArrayBlockingQueue(3));
    threadPoolExecutor.setRejectedExecutionHandler(new ThreadPoolExecutor.CallerRunsPolicy());
    for (int i=0; i<5; i++) {

        threadPoolExecutor.submit(new Runnable() {
            @Override
            public void run() {
                ThreadUtils.doSleep(10000L);
                System.out.println(Thread.currentThread().getName() + "--运行");
            }
        });
    }

    threadPoolExecutor.shutdown();
}

其中循环往threadPoolExecutor中添加的是自定义的业务任务。而真正去运行任务的是线程池中新建的一个线程。因此这里的复用指的是线程池创建出来得这个线程,这个线程并不会销毁,而是循环去队列中获取任务。千万不可理解为线程池复用的线程是使用者自定义的那个业务任务。具体的复用最核心的代码就是下面这段:

while (task != null || (task = getTask()) != null) {
    w.lock();
    // If pool is stopping, ensure thread is interrupted;
    // if not, ensure thread is not interrupted.  This
    // requires a recheck in second case to deal with
    // shutdownNow race while clearing interrupt
    if ((runStateAtLeast(ctl.get(), STOP) ||
         (Thread.interrupted() &&
          runStateAtLeast(ctl.get(), STOP))) &&
        !wt.isInterrupted())
        wt.interrupt();
    try {
        beforeExecute(wt, task);
        Throwable thrown = null;
        try {
            task.run();
        } catch (RuntimeException x) {
            thrown = x; throw x;
        } catch (Error x) {
            thrown = x; throw x;
        } catch (Throwable x) {
            thrown = x; throw new Error(x);
        } finally {
            afterExecute(task, thrown);
        }
    } finally {
        task = null;
        w.completedTasks++;
        w.unlock();
    }
}

这段代码是runworker中的一段代码,线程就是通过循环去获取队列中的任务来达到线程复用的,前台创建多个runable对象,将任务放到runable中,然后将runable放到队列中,线程池创建线程,线程持续循环获取队列中的任务。这就是线程池的实现逻辑。

下面尝试自己去实现一个线程池:该线程只是为了模拟线程池的运行,并未做线程安全的考虑,也未做非核心线程超时回收等功能。

package com.cz.lock.distributed.impl.redis;

import java.util.List;
import java.util.concurrent.*;

/**
 * @program: Reids
 * @description: 自定义线程池
 * @author: Cheng Zhi
 * @create: 2023-02-28 09:28
 **/
public class JefThreadPoolExecutor extends AbstractExecutorService {

    /**
     * 使用队列来保存现有的worker
     */
    private final BlockingQueue<Worker> workers = new LinkedBlockingQueue<Worker>();

    private static int coreThreadCount = 5;
    private static int maxThreadCount = 10;
    private static int defaultQueueSize = maxThreadCount * 5;
    private static BlockingQueue<Runnable> blockingQueue = new ArrayBlockingQueue<Runnable>(defaultQueueSize);
    /**
     * 默认线程池
     */
    JefThreadPoolExecutor() {
        this(coreThreadCount, maxThreadCount, blockingQueue);
    }
    /**
     * 可以自定义的线程池
     * @param coreThreadCount
     * @param maxThreadCount
     * @param blockingQueue
     */
    JefThreadPoolExecutor(int coreThreadCount, int maxThreadCount, BlockingQueue blockingQueue) {
        this.blockingQueue = blockingQueue;
        this.coreThreadCount = coreThreadCount;
        this.maxThreadCount = maxThreadCount;
    }

    @Override
    public void shutdown() {

    }

    @Override
    public List<Runnable> shutdownNow() {
        return null;
    }

    @Override
    public boolean isShutdown() {
        return false;
    }

    @Override
    public boolean isTerminated() {
        return false;
    }

    @Override
    public boolean awaitTermination(long timeout, TimeUnit unit) throws InterruptedException {
        return false;
    }

    @Override
    public void execute(Runnable command) {

        int currentWorkCount = workers.size(); // 当前创建的线程总数
        if (currentWorkCount < coreThreadCount) { // 如果当前线程总数小于核心线程数,则新建线程
            Worker worker = new Worker(command);
            final Thread thread = worker.thread;
            thread.start();
            addWorker(worker);
            return;
        }
        if (!blockingQueue.offer(command) && currentWorkCount <= maxThreadCount) { // 队列可以正常放入则返回true,如果满了返回false
            // 队列如果满了,需要创建新的线程
            Worker worker = new Worker(command);
            final Thread thread = worker.thread;
            thread.start();
            addWorker(worker);
            return;
        } else if (currentWorkCount > maxThreadCount){
            System.out.println("线程池满了....没有多余的线程了");
        }


    }

    public void addWorker(Worker worker) {
        workers.add(worker);
    }

    public Runnable getTask() {
        Runnable poll = blockingQueue.poll();
        return poll;
    }

    public void runWorker(Worker worker) {

        Runnable task = worker.firstTask; // 获取到new Worker时传入的那个任务,并在下面运行
        if (task != null) {
            task.run();
        }
        worker.firstTask = null;
        // 循环从队列中获取任务处理
        while((task = getTask()) != null) {
            task.run();
        }
    }

    /**
     * 匿名内部类
     */
    private class Worker implements Runnable{

        volatile int state = 0;
        public Runnable firstTask;
        final Thread thread;
        public Worker(Runnable firstTask) {
            this.firstTask = firstTask;
            thread = new Thread(this);
        }

        @Override
        public void run() {
            runWorker(this);
        }
    }
}

使用方式:

/**
 * 使用默认配置
 */
public static void singleThreadPoolExecutor() {
    JefThreadPoolExecutor jefThreadPoolExecutor = new JefThreadPoolExecutor();
    for (int i=0; i<10; i++) {
        jefThreadPoolExecutor.execute(new Runnable() {
            @Override
            public void run() {
                System.out.println(Thread.currentThread().getName() + "--运行");
            }
        });
    }
}

/**
 * 自定义配置
 */
public static void diyThreadPoolExecutor() {
    JefThreadPoolExecutor jefThreadPoolExecutor = new JefThreadPoolExecutor(2, 10, new ArrayBlockingQueue(50));

    for (int i=0; i<500; i++) {
        jefThreadPoolExecutor.execute(new Runnable() {
            @Override
            public void run() {
                System.out.println(Thread.currentThread().getName() + "--运行");
            }
        });
    }
}

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