CountDownLatchjava
首先先说明CountDownLatch辅助类web
CountDownLatch,一个同步辅助类,在完成一组正在其余线程中执行的操做以前,它容许一个或多个线程一直等待。
主要方法
public CountDownLatch(int count);//构造方法参数指定了计数的次数
public void countDown();//当前线程调用此方法,则计数减一1
public void await() throws InterruptedException//调用此方法会一直阻塞当前线程,直到计时器的值为0
列子:安全
public class CountDownLatchDemo {
final static SimpleDateFormat sdf=new SimpleDateFormat("yyyy-MM-dd HH:mm:ss");
public static void main(String[] args) throws InterruptedException {
CountDownLatch latch=new CountDownLatch(2);//两个工人的协做
Worker worker1=new Worker("zhang san", 5000, latch);
Worker worker2=new Worker("li si", 8000, latch);
worker1.start();//
worker2.start();//
latch.await();//等待全部工人完成工做
System.out.println("all work done at "+sdf.format(new Date()));
}
static class Worker extends Thread{
String workerName;
int workTime;
CountDownLatch latch;
public Worker(String workerName ,int workTime ,CountDownLatch latch){
this.workerName=workerName;
this.workTime=workTime;
this.latch=latch;
}
public void run(){
System.out.println("Worker "+workerName+" do work begin at "+sdf.format(new Date()));
doWork();//工做了
System.out.println("Worker "+workerName+" do work complete at "+sdf.format(new Date()));
latch.countDown();//工人完成工做,计数器减一
}
private void doWork(){
try {
Thread.sleep(workTime);
} catch (InterruptedException e) {
e.printStackTrace();
}
}
}
}
输出:
Worker zhang san do work begin at 2011-04-14 11:05:11
Worker li si do work begin at 2011-04-14 11:05:11
Worker zhang san do work complete at 2011-04-14 11:05:16
Worker li si do work complete at 2011-04-14 11:05:19
all work done at 2011-04-14 11:05:19
并发队列ConcurrentLinkedQueue和阻塞队列LinkedBlockingQueue用法数据结构
在Java多线程应用中,队列的使用率很高,多数生产消费模型的首选数据结构就是队列(先进先出)。Java提供的线程安全的Queue能够分为阻塞队列和非阻塞队列,其中阻塞队列的典型例子是BlockingQueue,非阻塞队列的典型例子是ConcurrentLinkedQueue,在实际应用中要根据实际须要选用阻塞队列或者非阻塞队列。多线程
注:什么叫线程安全?这个首先要明确。线程安全就是说多线程访问同一代码,不会产生不肯定的结果。并发
并行和并发区别app
一、并行是指二者同时执行一件事,好比赛跑,两我的都在不停的往前跑;
二、并发是指资源有限的状况下,二者交替轮流使用资源,好比一段路(单核CPU资源)同时只能过一我的,A走一段后,让给B,B用完继续给A ,交替使用,目的是提升效率svg
LinkedBlockingQueue
因为LinkedBlockingQueue实现是线程安全的,实现了先进先出等特性,是做为生产者消费者的首选,LinkedBlockingQueue 能够指定容量,也能够不指定,不指定的话,默认最大是Integer.MAX_VALUE,其中主要用到put和take方法,put方法在队列满的时候会阻塞直到有队列成员被消费,take方法在队列空的时候会阻塞,直到有队列成员被放进来。this
package cn.thread;
import java.util.concurrent.BlockingQueue;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.LinkedBlockingQueue;
/** * 多线程模拟实现生产者/消费者模型 * * @author 林计钦 * @version 1.0 2013-7-25 下午05:23:11 */
public class BlockingQueueTest2 {
/** * * 定义装苹果的篮子 * */
public class Basket {
// 篮子,可以容纳3个苹果
BlockingQueue<String> basket = new LinkedBlockingQueue<String>(3);
// 生产苹果,放入篮子
public void produce() throws InterruptedException {
// put方法放入一个苹果,若basket满了,等到basket有位置
basket.put("An apple");
}
// 消费苹果,从篮子中取走
public String consume() throws InterruptedException {
// take方法取出一个苹果,若basket为空,等到basket有苹果为止(获取并移除此队列的头部)
return basket.take();
}
}
// 定义苹果生产者
class Producer implements Runnable {
private String instance;
private Basket basket;
public Producer(String instance, Basket basket) {
this.instance = instance;
this.basket = basket;
}
public void run() {
try {
while (true) {
// 生产苹果
System.out.println("生产者准备生产苹果:" + instance);
basket.produce();
System.out.println("!生产者生产苹果完毕:" + instance);
// 休眠300ms
Thread.sleep(300);
}
} catch (InterruptedException ex) {
System.out.println("Producer Interrupted");
}
}
}
// 定义苹果消费者
class Consumer implements Runnable {
private String instance;
private Basket basket;
public Consumer(String instance, Basket basket) {
this.instance = instance;
this.basket = basket;
}
public void run() {
try {
while (true) {
// 消费苹果
System.out.println("消费者准备消费苹果:" + instance);
System.out.println(basket.consume());
System.out.println("!消费者消费苹果完毕:" + instance);
// 休眠1000ms
Thread.sleep(1000);
}
} catch (InterruptedException ex) {
System.out.println("Consumer Interrupted");
}
}
}
public static void main(String[] args) {
BlockingQueueTest2 test = new BlockingQueueTest2();
// 创建一个装苹果的篮子
Basket basket = test.new Basket();
ExecutorService service = Executors.newCachedThreadPool();
Producer producer = test.new Producer("生产者001", basket);
Producer producer2 = test.new Producer("生产者002", basket);
Consumer consumer = test.new Consumer("消费者001", basket);
service.submit(producer);
service.submit(producer2);
service.submit(consumer);
// 程序运行5s后,全部任务中止
// try {
// Thread.sleep(1000 * 5);
// } catch (InterruptedException e) {
// e.printStackTrace();
// }
// service.shutdownNow();
}
}
ConcurrentLinkedQueue
ConcurrentLinkedQueue是Queue的一个安全实现.Queue中元素按FIFO原则进行排序.采用CAS操做,来保证元素的一致性。
LinkedBlockingQueue是一个线程安全的阻塞队列,它实现了BlockingQueue接口,BlockingQueue接口继承自java.util.Queue接口,并在这个接口的基础上增长了take和put方法,这两个方法正是队列操做的阻塞版本。spa
package cn.thread;
import java.util.concurrent.ConcurrentLinkedQueue;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
public class ConcurrentLinkedQueueTest {
private static ConcurrentLinkedQueue<Integer> queue = new ConcurrentLinkedQueue<Integer>();
private static int count = 2; // 线程个数
//CountDownLatch,一个同步辅助类,在完成一组正在其余线程中执行的操做以前,它容许一个或多个线程一直等待。
private static CountDownLatch latch = new CountDownLatch(count);
public static void main(String[] args) throws InterruptedException {
long timeStart = System.currentTimeMillis();
ExecutorService es = Executors.newFixedThreadPool(4);
ConcurrentLinkedQueueTest.offer();
for (int i = 0; i < count; i++) {
es.submit(new Poll());
}
latch.await(); //使得主线程(main)阻塞直到latch.countDown()为零才继续执行
System.out.println("cost time " + (System.currentTimeMillis() - timeStart) + "ms");
es.shutdown();
}
/** * 生产 */
public static void offer() {
for (int i = 0; i < 100000; i++) {
queue.offer(i);
}
}
/** * 消费 * * @author 林计钦 * @version 1.0 2013-7-25 下午05:32:56 */
static class Poll implements Runnable {
public void run() {
// while (queue.size()>0) {
while (!queue.isEmpty()) {
System.out.println(queue.poll());
}
latch.countDown();
}
}
}
运行结果:
costtime 2360ms
改用while (queue.size()>0)后
运行结果:
cost time 46422ms
结果竟然相差那么大,看了下ConcurrentLinkedQueue的API原来.size()是要遍历一遍集合的,难怪那么慢,因此尽可能要避免用size而改用isEmpty().