Runnable,Callable,Future关系浅析

  • Runnable,Callable,Future
    • Runnable,Callable在ThreadPoolExecutor中的使用
    • Future
      • FutureTask.cancel()实现
      • FutureTask.run()实现
      • cancle()总结
      • FutureTask.get()实现

Runnable,Callable在ThreadPoolExecutor中的使用

在使用ExecutorService的使用一般会使用submit()方法提交runnable或者callable

看一下AbstractExecutorService中的实现

//java.util.concurrent.AbstractExecutorService
public Future submit(Runnable task) {
    if (task == null) throw new NullPointerException();
    RunnableFuture ftask = newTaskFor(task, null);
    execute(ftask);
    return ftask;
}

public  Future submit(Callable task) {
    if (task == null) throw new NullPointerException();
    RunnableFuture ftask = newTaskFor(task);
    execute(ftask);
    return ftask;
}
复制代码

可以看到都通过newTaskFor()方法生成一个RunnableFuture对象

protected  RunnableFuture newTaskFor(Runnable runnable, T value) {
 	return new FutureTask(runnable, value);
}

    
protected  RunnableFuture newTaskFor(Callable callable) {
	return new FutureTask(callable);
}
复制代码

看一下RunnableFuture的构造

//java.util.concurrent.FutureTask
public FutureTask(Callable callable) {
     if (callable == null)
     throw new NullPointerException();
     this.callable = callable;
     this.state = NEW;       // ensure visibility of callable
}

public FutureTask(Runnable runnable, V result) {
  	//包装runnable->callable
    this.callable = Executors.callable(runnable, result);
    this.state = NEW;       // ensure visibility of callable
}

//java.util.concurrent.Executors
public static  Callable callable(Runnable task, T result) {
    if (task == null)
    throw new NullPointerException();
    return new RunnableAdapter(task, result);
}

//java.util.concurrent.Executors.RunnableAdapter
//适配器模式 runnable->callable
static final class RunnableAdapter<T> implements Callable<T> {
    final Runnable task;
    final T result;
    RunnableAdapter(Runnable task, T result) {
      this.task = task;
      this.result = result;
    }
    public T call() {
      task.run();
      return result;
    }
}

复制代码

从上面代码可以看submit(Runnable)和submit(Callable)方法的实现步骤

  1. 判空
  2. 生成RunnableFuture对象
  3. 调用execute()方法
 //java.util.concurrent.ThreadPoolExecutor
 
 //任务队列
 private final BlockingQueue workQueue;
 
 public void execute(Runnable command) {
       ...
       workQueue.offer(command)
       ...
 }
复制代码

从execute(Runnable)方法签名可以得出: RunnableFuture是个Runnable实现类

FutureTask是RunnableFuture的实现类

看一下FutureTask的继承关系

RunnableFuture是一个适配器模式的实现 将Future适配为Runable

看一下FutureTask是如何实现Runnable接口的

 public void run() {
 		...
        try {
            Callable c = callable;
            if (c != null && state == NEW) {
                V result;
                boolean ran;
                try {
                    //执行callable.call()方法
                    result = c.call();
                    ran = true;
                } catch (Throwable ex) {
                    result = null;
                    ran = false;
                    setException(ex);
                }
                if (ran)//保存结果
                    set(result);
            }
        } finally {
            // runner must be non-null until state is settled to
            // prevent concurrent calls to run()
            runner = null;
            // state must be re-read after nulling runner to prevent
            // leaked interrupts
            int s = state;
            if (s >= INTERRUPTING)
                handlePossibleCancellationInterrupt(s);
        }
    }
复制代码

总结:

  1. ThreadPoolExecutor中的任务队列存放的Runnable对象
  2. 通过execute方法提交的Runable对象会被直接塞到任务队列中
  3. 通过submit(Callable)方法提交的Callable对象会被包装FutureTask对象,再塞到任务队列中
  4. 通过submit(Runnable)方法提交的Runnable会被包装成RunnableAdapter对象(Callable实现),再包成FutureTask对象,再塞到任务队列中

Future

Future:一个异步计算的占位对象,用于获取一个将被计算的结果

Future特性:

  1. 通过get()获取一个将被计算的结果
  2. 通过cancel()方法取消对结果的计算

FutureTask.cancel()实现

FutureTask的几种状态

    private static final int NEW          = 0;
    private static final int COMPLETING   = 1;
    private static final int NORMAL       = 2;
    private static final int EXCEPTIONAL  = 3;
    private static final int CANCELLED    = 4;
    private static final int INTERRUPTING = 5;
    private static final int INTERRUPTED  = 6;
    
   	//可能出现的状态变化过程
     * NEW -> COMPLETING -> NORMAL
     * NEW -> COMPLETING -> EXCEPTIONAL
     * NEW -> CANCELLED
     * NEW -> INTERRUPTING -> INTERRUPTED
复制代码

cancel实现过程

public boolean cancel(boolean mayInterruptIfRunning) {
  		// 1.状态判断 
  		// 只有state==New且通过cas修改state值成功 才往下执行 否则return false
        if (!(state == NEW &&
              //状态变化
              // mayInterruptIfRunning? NEW->INTERRUPTING:NEW->CANCELLED
              UNSAFE.compareAndSwapInt(this, stateOffset, NEW,
                  mayInterruptIfRunning ? INTERRUPTING : CANCELLED)))
            return false;
        try {    // in case call to interrupt throws exception
            if (mayInterruptIfRunning) {//2.打断运行
                try {
                    Thread t = runner;
                    if (t != null)
                        t.interrupt();
                } finally { // INTERRUPTING->INTERRUPTED
                    UNSAFE.putOrderedInt(this, stateOffset, INTERRUPTED);
                }
            }
        } finally {
          	//3.结束
            finishCompletion();
        }
        return true;
    }
复制代码

过程分析:

  1. 状态判断

    if表达式可以拆分成 state == NEW 和 UNSAFE.compareAndSwapInt(this, stateOffset, NEW,mayInterruptIfRunning ? INTERRUPTING : CANCELLED)

    1. state == NEW 判断当前状态是否为NEW

    2. UNSAFE.compareAndSwapInt(this, stateOffset, NEW,mayInterruptIfRunning ? INTERRUPTING : CANCELLED)

      这是一个cas的修改方式 相当于state=mayInterruptIfRunning ? INTERRUPTING : CANCELLED

      cas的方式主要出于原子性的考虑

      unsafe的用法请自行查阅资料

    总结:如果状态为NEW 且 获取到锁 方可执行真正的cancle操作

  2. 打断运行

    mayInterruptIfRunning?thread.interrupt() : 无操作 ;

  3. 结束

    finishCompletion();

    总结:

    1. 只有state==NEW时才可以进行cancel
    2. 通过unsafe的cas操作修改state
    3. 状态变化两条线
      1. NEW->CANCLE
      2. NEW->INTERRUPTING->INTERRUPTED

FutureTask.run()实现

public void run() {
  	// 1.状态判断 
  	// 只有state==New且通过cas设置runner值成功 才往下执行 否则return false
    if (state != NEW ||
        !UNSAFE.compareAndSwapObject(this, runnerOffset,
                                     null, Thread.currentThread()))
        return;
    try {
        Callable c = callable;
        if (c != null && state == NEW) {
            V result;
            boolean ran;
            try {
              	//执行callable.call()
                result = c.call();
                ran = true;
            } catch (Throwable ex) {
                result = null;
                ran = false;
              	//NEW->COMPLETING->EXCEPTIONAL
                setException(ex);
            }
            if (ran)//NEW->COMPLETING->NORMAL
                set(result);
        }
    } finally {
        // runner must be non-null until state is settled to
        // prevent concurrent calls to run()
        runner = null;
        // state must be re-read after nulling runner to prevent
        // leaked interrupts
        int s = state;
        if (s >= INTERRUPTING)
            handlePossibleCancellationInterrupt(s);
    }
}
 protected void setException(Throwable t) {
   	// 防止cancle()方法修改state
    if (UNSAFE.compareAndSwapInt(this, stateOffset, NEW, COMPLETING)) {
        outcome = t;
        UNSAFE.putOrderedInt(this, stateOffset, EXCEPTIONAL); // final state
        finishCompletion();
    }
}
 protected void set(V v) {
   	// 防止cancle()方法修改state
    if (UNSAFE.compareAndSwapInt(this, stateOffset, NEW, COMPLETING)) {
        outcome = v;
        UNSAFE.putOrderedInt(this, stateOffset, NORMAL); // final state
        finishCompletion();
    }
}
复制代码

总结:

  1. 只有state==NEW时方法执行run()过程
  2. 通过unsafe的cas设置runner(当前线程)
  3. 状态变化 两条线:
    1. NEW->COMPLETING->EXCEPTIONAL
    2. NEW->COMPLETING->NORMAL

cancle()总结

  1. 如果run()尚未被执行 则将callable置空且修改状态为非NEW(这样run()方法就不会执行)
  2. 如果run()正在执行且callable.call()尚未执行完成 则调用thread.interrpt()通知线程停止(只是通知 无法保证打断线程 具体原因自行查阅interrpt()资料) 由于cancle修改了state状态 所以setException()和set()无法保存结果
  3. 如果run()执行完毕 或者 callable.call()执行完成 由于 state!=NEW 所以cancle()不继续执行 返回失败

FutureTask.get()实现

public V get() throws InterruptedException, ExecutionException {
    int s = state;
    if (s <= COMPLETING)//阻塞等待
        s = awaitDone(false, 0L);
    return report(s);
}
private int awaitDone(boolean timed, long nanos)
        throws InterruptedException {
    final long deadline = timed ? System.nanoTime() + nanos : 0L;
    WaitNode q = null;
    boolean queued = false;
    for (;;) {
      	//cancle()过程中调用thread.interrupt()则退出循环 并抛异常
        if (Thread.interrupted()) {
            removeWaiter(q);
            throw new InterruptedException();
        }

        int s = state;
        if (s > COMPLETING) {//执行完成(包括执行异常) 或被取消 返回当前status
            if (q != null)
                q.thread = null;
            return s;
        }
        else if (s == COMPLETING) //执行完成但尚未修改状态 则Thread.yield()让出cpu资源
            Thread.yield();
        else if (q == null)//尚未执行完成 则加入生成等待节点
            q = new WaitNode();
        else if (!queued)//当前等待节点尚未加入等待队列 则cas方式加入等待队列
            queued = UNSAFE.compareAndSwapObject(this, waitersOffset,
                                                 q.next = waiters, q);
        else if (timed) {//已经加入等待队列 则阻塞等待
            nanos = deadline - System.nanoTime();
            if (nanos <= 0L) {
                removeWaiter(q);
                return state;
            }
            LockSupport.parkNanos(this, nanos);
        }
        else//同上
            LockSupport.park(this);
    }
}
//根据state 返回不同结果
private V report(int s) throws ExecutionException {
    Object x = outcome;
    if (s == NORMAL)
        return (V)x;
    if (s >= CANCELLED)
        throw new CancellationException();
    throw new ExecutionException((Throwable)x);
}

//run()和cancle()最终都会调用finishCompletion() 分析是如何唤醒等待队列中的节点的
private void finishCompletion() {
    // assert state > COMPLETING;
    for (WaitNode q; (q = waiters) != null;) {
        // cas方式修改将等待队列置空
        if (UNSAFE.compareAndSwapObject(this, waitersOffset, q, null)) {
            for (;;) {
                Thread t = q.thread;
                if (t != null) {
                    q.thread = null;
                    LockSupport.unpark(t);//唤醒等待节点
                }
                WaitNode next = q.next;//指针指向下个等待节点
                if (next == null)
                    break;
                q.next = null; // unlink to help gc
                q = next;
            }
            break;
        }
    }

    done();

    callable = null;        // callable置空
}
复制代码

get()总结:

  1. 生成等待节点并加入等待队列中
  2. 通过LockSupport.park() 进行自旋 等待被唤醒
  3. 根据state包装任务执行结果

你可能感兴趣的:(Runnable,Callable,Future关系浅析)