package com.demo.lock.writer.to.read; import java.util.HashMap; import java.util.Map; import java.util.concurrent.locks.Lock; import java.util.concurrent.locks.ReadWriteLock; import java.util.concurrent.locks.ReentrantReadWriteLock; /** * * 锁降级:是将写锁降级为读锁 * 即为:在获取到写锁后,接着又获取到读锁后,此时再释放写锁 * * @author Administrator * */ public class WriteToReadLockDemo { private volatile boolean isUpdate; private ReadWriteLock rwLock = new ReentrantReadWriteLock(); private Map<String, Object> map = new HashMap<String, Object>(); private Lock rLock = rwLock.readLock(); private Lock wLock = rwLock.writeLock(); public void method() { /* * 不同线程之间,读写锁是互斥的,同一个线程锁是可重入的 * 为了当有线程获取了写锁时,其它线程想获取读锁,也会等待写锁释放时,才可以进行 * 其实质就是为了当有线程在修改isUpdate值时,此时不能去读取isUpdate值 */ rLock.lock(); if (isUpdate) {//添加volatile:为了保证当前线程修改了 isUpdate值对其它线程是可见的, rLock.unlock();//释放读锁 /* * 步骤 1 2 3 即为锁降级 */ wLock.lock();//获取写锁 1 map.put("xxx", "xxxx"); rLock.lock();//获取读锁(防止还没有将map设置的值取出--步骤4,又有其它线程获取到写锁,对map进行重新赋值) 2 wLock.unlock();//释放写锁 3 } Object object = map.get("xxx");//4 System.out.println(object); rLock.unlock(); } }