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ReentrantReadWriteLock

 
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感谢:多线程基础总结八--ReentrantReadWriteLock

 ReentReadWriteLock   // 可重入的读/写锁

   - 它和ReentrantLock都是单独的实现,不存在继承,实现的关系!

  -  它分读锁 和 写锁两部分!readLock() 和 writeLock()

  -   多个线程可以同时对一块资源进行读!但是,这是就不能进行写了!排斥写 ,因为读锁,并不涉及对资源的修改,也就不存在线程安全的问题!

  -  然而,写锁间却是互斥的!一个写锁套在某块资源上,别的线程就不能再读或写了!  读-读能共存,读-写不能共存,写-写不能共存

  -  重入方面,得到写锁后还可以再得到读锁!但是,读到读锁,你就不能再得到写锁了! 

  - 锁降级 : 获取写入锁,然后获取读取锁,最后释放写入锁。但是,从读取锁升级到写入锁是不可能的

  

import java.util.HashMap;  
import java.util.Map;  
import java.util.concurrent.locks.Lock;  
import java.util.concurrent.locks.ReentrantReadWriteLock;  
  
/** 
 * @author: yanxuxin 
 * @date: 2010-1-7 
 */  
public class ReentrantReadWriteLockSample {  
  
    public static void main(String[] args) {  
        testReadLock();  
//      testWriteLock();  
    }  
   // 多线程的答案 说不准   
    public static void testReadLock() {  
       final ReadWriteLockSampleSupport support = new ReadWriteLockSampleSupport();  
        support.initCache();  
          
        Runnable runnable = new Runnable() {  
            public void run() {  
                support.get("test");  
            }  
        };  
      // 这两个是读操作,可以同时进行,不会被阻塞    
        new Thread(runnable).start();  
        new Thread(runnable).start();  
//          这个是写操作,必须等到读锁释放才能写
        new Thread(new Runnable() {  
            public void run() {  
                support.put("test", "test");  
            }  
        }).start();  
    }  
      
    public static void testWriteLock() {  
       final ReadWriteLockSampleSupport support = new ReadWriteLockSampleSupport();  
        support.initCache();  
//  两个写操作不能同时进行   ,在写的时候不能在读
        new Thread(new Runnable() {  
            public void run() {  
                support.put("key1", "value1");  
            }  
        }).start();  
          
        new Thread(new Runnable() {  
            public void run() {  
                support.put("key2", "value2");  
            }  
        }).start();  
          
        new Thread(new Runnable() {  
            public void run() {  
                support.get("key1");  
            }  
        }).start();  
    }  
}  
  
class ReadWriteLockSampleSupport {  
    private final ReentrantReadWriteLock lock = new ReentrantReadWriteLock();  
    private final Lock readLock = lock.readLock();  
    private final Lock writeLock = lock.writeLock();  
      
    private volatile  boolean completed;  
    private Map<String,String> cache;  
      
    public void initCache() {  
        readLock.lock();  
        if(!completed) {  
            // Must release read lock before acquiring write lock  
            readLock.unlock(); // (1)  // 读写锁的重入问题
            writeLock.lock();  // (2) 
            if(!completed) {  
                cache = new HashMap<String,String>(32);  
                completed = true;  
            }  
            // Downgrade by acquiring read lock before releasing write lock  
            readLock.lock();    // (3)  
            writeLock.unlock(); // (4) Unlock write, still hold read 锁降级  
        }  
          
        System.out.println("empty? " + cache.isEmpty());  
        readLock.unlock();  
    }  
      
    public String get(String key) {  
        readLock.lock();  
        System.out.println(Thread.currentThread().getName() + " read.");  
        startTheCountdown();  
        try{  
            return cache.get(key);  
        }  
        finally{  
            readLock.unlock();  
        }  
    }  
      
    public String put(String key, String value) {  
        writeLock.lock();  
        System.out.println(Thread.currentThread().getName() + " write.");  
        startTheCountdown();  
        try{  
            return cache.put(key, value);  
        }  
        finally {  
            writeLock.unlock();  
        }  
    }  
      
    /** 
     * A simple countdown,it will stop after about 5s.  
     */  
    public void startTheCountdown() {  
        long currentTime = System.currentTimeMillis();  
        for(;;) {  
            long diff = System.currentTimeMillis() - currentTime;  
            if(diff > 5000) {  
                break;  
            }  
        }  
    }  
}  
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