java线程 同步临界区:thinking in java4 21.3.5
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package org.rui.thread.critical; import java.util.ArrayList; import java.util.Collections; import java.util.List; import java.util.concurrent.ExecutorService; import java.util.concurrent.Executors; import java.util.concurrent.TimeUnit; import java.util.concurrent.atomic.AtomicInteger; /** * 临界区 * * * * Pair不是线程安全的,因为它的约束条件(虽然是任意的) 需要两个变量维护成相同的值。 * 此外,如本章前面所述,自增加操作不是线程安全的, * 并且因为没有任何方法被标记为synchronized,所以不能保证一个pair对象在多线程程序中不会破坏. * @author lenovo * */ //org.rui.thread.critical.CriticalSection.java class Pair { private int x,y; public Pair(int x,int y) { this.x=x; this.y=y; } public Pair(){this(0,0);} public int getX() { return x; } public int getY() { return y; } public void incrementX(){x++;} public void incrementY(){y++;} public String toString() { return "x: "+x+" , y:"+y; } /////////////////PariValuesNotEqualException public class PariValuesNotEqualException extends RuntimeException { public PariValuesNotEqualException() { super("Pair values not equal:"+Pair.this); } } //任意变,两个变量必须是平等的 //Arbitrary invariant --both variables must be equal: public void checkState() { if(x!=y) { throw new PariValuesNotEqualException(); } } }//Pair end //保护一对在一个线程安全的类 //protect a pair inside a thread -safe class: abstract class PairManager { AtomicInteger checkCounter=new AtomicInteger(0); protected Pair p=new Pair(); private List<Pair> storage=Collections.synchronizedList(new ArrayList<Pair>()); public synchronized Pair getPair() { //复制的原始安全: //Make a copy to keep the original safe: return new Pair(p.getX(),p.getY()); } //假设这是一个耗时的操作 //Assume this is a time consuming operation protected void store(Pair p) { storage.add(p); try { TimeUnit.MILLISECONDS.sleep(50); } catch (InterruptedException e) { e.printStackTrace(); } } // public abstract void increment(); } //整个同步方法 //synchronize the entire method class PairManager1 extends PairManager { @Override public synchronized void increment() { p.incrementX(); p.incrementY(); store(getPair()); } } //use a critical section: 使用临界区 class PairManager2 extends PairManager { public void increment() { Pair temp; synchronized(this) { p.incrementX(); p.incrementY(); temp=getPair(); } store(temp); } } ///操作者 class PairManipulator implements Runnable { private PairManager pm; public PairManipulator(PairManager pm) { this.pm=pm; } @Override public void run() { while(true) pm.increment(); } public String toString() { return "Pair: "+pm.getPair()+" checkCounter= "+pm.checkCounter.get(); } } ////PairChecker class PairChecker implements Runnable { private PairManager pm; public PairChecker(PairManager pm) { this.pm=pm; } @Override public void run() { while(true) { pm.checkCounter.incrementAndGet(); pm.getPair().checkState(); } } } ///////////////////////////////////////////////////////// public class CriticalSection { //测试两种不同的方法 //test the two defferent approaches static void testApproaches(PairManager pman1,PairManager pman2) { ExecutorService exec=Executors.newCachedThreadPool(); PairManipulator pm1=new PairManipulator(pman1); PairManipulator pm2=new PairManipulator(pman2); PairChecker pcheck1=new PairChecker(pman1); PairChecker pcheck2=new PairChecker(pman2); exec.execute(pm1); exec.execute(pm2); exec.execute(pcheck1); exec.execute(pcheck2); try { TimeUnit.MILLISECONDS.sleep(500); } catch (InterruptedException e) { System.out.println("InterruptedException"); } System.out.println("pm1:"+pm1+"\npm2:"+pm2); System.exit(0); } public static void main(String[] args) { PairManager pman1=new PairManager1(), pman2=new PairManager2(); testApproaches(pman1,pman2); } } /**output:(sample) pm1:Pair: x: 8 , y:8 checkCounter= 674247 pm2:Pair: x: 8 , y:8 checkCounter= 5043736 */
package org.rui.thread.critical; import java.util.concurrent.locks.Lock; import java.util.concurrent.locks.ReentrantLock; /** * 你还可以使用显示的lock对象来创建临界区 * * 这里利用了CriticalSection.java的绝大部分, * 并创建了新的使用显式的lock对象的PairManger类型。 * expliciPariManger2展示了如何使用Lock对象来创建临界区,而对store()的调用则在这个临界区的外部 * @author lenovo * */ ////////////////////////// class ExplicitPairManager1 extends PairManager { private Lock lock =new ReentrantLock(); @Override public synchronized void increment() { lock.lock(); try{ p.incrementX(); p.incrementY(); store(getPair()); }finally{ lock.unlock(); } } } //use a critical section class ExplicitPairManager2 extends PairManager { private Lock lock =new ReentrantLock(); @Override public void increment() { Pair temp=null; lock.lock(); try{ p.incrementX(); p.incrementY(); temp=getPair(); }finally{ lock.unlock(); } store(temp); } } ///////////////// public class ExplicitCriticalSection { public static void main(String[] args) { PairManager pman1=new PairManager1(), pman2=new PairManager2(); CriticalSection.testApproaches(pman1,pman2); } } /** * output: pm1:Pair: x: 10 , y:10 checkCounter= 195142 pm2:Pair: x: 11 , y:11 checkCounter= 4129459 */
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java线程 同步临界区:thinking in java4 21.3.5
原文:http://blog.csdn.net/liangrui1988/article/details/37731703