• ArrayBlockingQueue 源码解析


    BlockingQueue也是JUC的重要知识,而且包含的BlockingQueue的种类还比较多,本篇先分析ArrayBlockingQueue ,主要分为三部分

    1 创建

    2 放数据

    3 取数据

    一 创建

    public ArrayBlockingQueue(int capacity) {
            this(capacity, false);
        }

      

    public ArrayBlockingQueue(int capacity, boolean fair) {
            if (capacity <= 0)
                throw new IllegalArgumentException();
            this.items = new Object[capacity];
            lock = new ReentrantLock(fair);
            notEmpty = lock.newCondition();
            notFull =  lock.newCondition();
        }

      BlockingQueue和HashMap可不一样啊,必须指定好初始值的大小,且可不能扩容

      可以看内部,其实就是通过重入锁和Condition实现的

      看看还有哪些重要的属性,这样的数据结构不难理解,底层存储是一个数组,要从数据取值就要有下标。而BlockingQueue是支持并发的,所以必须得有重入锁进行同步

    /** The queued items */
        final Object[] items;
    
        /** items index for next take, poll, peek or remove */
        int takeIndex;
    
        /** items index for next put, offer, or add */
        int putIndex;
    
        /** Number of elements in the queue */
        int count;
    
        /*
         * Concurrency control uses the classic two-condition algorithm
         * found in any textbook.
         */
    
        /** Main lock guarding all access */
        final ReentrantLock lock;
    
        /** Condition for waiting takes */
        private final Condition notEmpty;
    
        /** Condition for waiting puts */
        private final Condition notFull;
    
        /**
         * Shared state for currently active iterators, or null if there
         * are known not to be any.  Allows queue operations to update
         * iterator state.
         */
        transient Itrs itrs = null;

    二 放数据

      

    操作抛出异常特殊值阻塞超时
    插入 add(e) offer(e) put(e) offer(e, time, unit)
    移除 remove() poll() take() poll(time, unit)
    检查 element() peek() - -

      offer的特殊值表示操作成功返回true,失败了返回false

      poll也是的

      我们首先分析三个放数据的方法,按照offer put add的顺序,因为add就我看源码的经验看用的真心不多

      1 offer

    public boolean offer(E e) {
            checkNotNull(e);
            final ReentrantLock lock = this.lock;
            lock.lock();
            try {
                if (count == items.length)
                    return false;
                else {
                    enqueue(e);
                    return true;
                }
            } finally {
                lock.unlock();
            }
        }
    private void enqueue(E x) {
            // assert lock.getHoldCount() == 1;
            // assert items[putIndex] == null;
            final Object[] items = this.items;
            items[putIndex] = x;
            if (++putIndex == items.length)
                putIndex = 0;//到头了就返回为0
            count++;
            notEmpty.signal();
        }

      2 put

    public void put(E e) throws InterruptedException {//具有抛中断异常的能力
            checkNotNull(e);
            final ReentrantLock lock = this.lock;
            lock.lockInterruptibly();
            try {
                while (count == items.length)
                    notFull.await();//用condition的await方法阻塞线程
                enqueue(e);
            } finally {
                lock.unlock();
            }
        }

      3 add

      add方法定义在 AbstracQueue里面

    public boolean add(E e) {
            if (offer(e))
                return true;
            else
                throw new IllegalStateException("Queue full");//抛异常的逻辑
        }

    三 取数据

      其实取数据的逻辑相比放数据要复杂好多,还是按照 poll take remove的方式分析

      1 poll

    public E poll() {
            final ReentrantLock lock = this.lock;
            lock.lock();
            try {
                return (count == 0) ? null : dequeue();
            } finally {
                lock.unlock();
            }
        }
    private E dequeue() {
            // assert lock.getHoldCount() == 1;
            // assert items[takeIndex] != null;
            final Object[] items = this.items;
            @SuppressWarnings("unchecked")
            E x = (E) items[takeIndex];//纯数组操作
            items[takeIndex] = null;//原位置放null
            if (++takeIndex == items.length)//到头了就返回0
                takeIndex = 0;
            count--;//数量减一
            if (itrs != null)
                itrs.elementDequeued();
            notFull.signal();//唤醒Condition中的等待线程
            return x;
        }

      2 take() 

    public E take() throws InterruptedException {
            final ReentrantLock lock = this.lock;
            lock.lockInterruptibly();
            try {
                while (count == 0)
                    notEmpty.await();//靠的就是这个阻塞当前线程
                return dequeue();
            } finally {
                lock.unlock();
            }
        }

      3 remove

      定义在 AbstracQueue里面,里面调用poll,如果返回值是null,直接抛异常

     public E remove() {
            E x = poll();
            if (x != null)
                return x;
            else
                throw new NoSuchElementException();
        }

    四 查看数据

      查看数据有两个方法 element和peek,先看peek

      1 peek

    public E peek() {
            final ReentrantLock lock = this.lock;
            lock.lock();
            try {
                return itemAt(takeIndex); // null when queue is empty,就是从数组拿值
            } finally {
                lock.unlock();
            }
        }

      2 element

      element定义在AbstracQueue

    public E element() {
            E x = peek();
            if (x != null)
                return x;
            else
                throw new NoSuchElementException();
        }

    五 总结

      从上面的源码看,凡是定义在AbstractQueue里的都抛异常

      阻塞都是通过conditioin的await方法  

      

      

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  • 原文地址:https://www.cnblogs.com/juniorMa/p/14060991.html
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