java非公平锁知识点实例详解_Java教程

java非公平锁知识点实例详解

2022-02-24 00:49小妮浅浅 Java教程

在本篇文章里小编给大家整理了一篇关于java非公平锁知识点实例详解，有兴趣的朋友们可以学习参考下。

1、非公平锁不能保证锁的获取是按照请求锁的顺序进行的。这可能会导致某个或某些线程永远得不到锁。

2、CPU唤醒线程的费用可以降低，整体吞吐效率会很高。但是可能会有线程长时间甚至永远得不到锁，导致饿死。

实例

				?

									/**

									    * Sync object for non-fair locks

									    */

									   static final class NonfairSync extends Sync {

									       private static final long serialVersionUID = 7316153563782823691L;

									       /**

									        * Performs lock.  Try immediate barge, backing up to normal

									        * acquire on failure.

									        */

									       final void lock() {

									           if (compareAndSetState(0, 1))

									               setExclusiveOwnerThread(Thread.currentThread());

									           else

									               acquire(1);

									       }

									       protected final boolean tryAcquire(int acquires) {

									           return nonfairTryAcquire(acquires);

									       }

									   }

									   /**

									    * Sync object for fair locks

									    */

									   static final class FairSync extends Sync {

									       private static final long serialVersionUID = -3000897897090466540L;

									       final void lock() {

									           acquire(1);

									       }

									       /**

									        * Fair version of tryAcquire.  Don't grant access unless

									        * recursive call or no waiters or is first.

									        */

									       protected final boolean tryAcquire(int acquires) {

									           final Thread current = Thread.currentThread();

									           int c = getState();

									           if (c == 0) {

									               if (!hasQueuedPredecessors() &&

									                   compareAndSetState(0, acquires)) {

									                   setExclusiveOwnerThread(current);

									                   return true;

									               }

									           }

									           else if (current == getExclusiveOwnerThread()) {

									               int nextc = c + acquires;

									               if (nextc < 0)

									                   throw new Error("Maximum lock count exceeded");

									               setState(nextc);

									               return true;

									           }

									           return false;

									       }

									   }

知识点扩展：

非公平锁，顾名思义，各个线程获取到锁的顺序，不一定和它们申请的先后顺序一致，有可能后来的线程，反而先获取到了锁。

在实现上，公平锁在进行lock时，首先会进行tryAcquire()操作。在tryAcquire中，会判断等待队列中是否已经有别的线程在等待了。如果队列中已经有别的线程了，则tryAcquire失败，则将自己加入队列。如果队列中没有别的线程，则进行获取锁的操作。

				?

									/**

									     * Fair version of tryAcquire. Don't grant access unless

									     * recursive call or no waiters or is first.

									     **/

									    protected final boolean tryAcquire(int acquires) {

									      final Thread current = Thread.currentThread();

									      int c = getState();

									      if (c == 0) {

									        if (!hasQueuedPredecessors() &&

									          compareAndSetState(0, acquires)) {

									          setExclusiveOwnerThread(current);

									          return true;

									        }

									      }

									      else if (current == getExclusiveOwnerThread()) {

									        int nextc = c + acquires;

									        if (nextc < 0)

									          throw new Error("Maximum lock count exceeded");

									        setState(nextc);

									        return true;

									      }

									      return false;

									    }