线程池通俗的描述就是预先创建若干空闲线程 等到需要用多线程去处理事务的时候去唤醒某些空闲线程执行处理任务 这样就省去了频繁创建线程的时间 因为频 繁创建线程是要耗费大量的CPU资源的 如果一个应用程序需要频繁地处理大量并发事务 不断的创建销毁线程往往会大大地降低系统的效率 这时候线程池就派 上用场了
10余年的北塔网站建设经验,针对设计、前端、开发、售后、文案、推广等六对一服务,响应快,48小时及时工作处理。全网营销推广的优势是能够根据用户设备显示端的尺寸不同,自动调整北塔建站的显示方式,使网站能够适用不同显示终端,在浏览器中调整网站的宽度,无论在任何一种浏览器上浏览网站,都能展现优雅布局与设计,从而大程度地提升浏览体验。创新互联从事“北塔网站设计”,“北塔网站推广”以来,每个客户项目都认真落实执行。
本文旨在使用Java语言编写一个通用的线程池 当需要使用线程池处理事务时 只需按照指定规范封装好事务处理对象 然后用已有的线程池对象去自动选择空 闲线程自动调用事务处理对象即可 并实现线程池的动态修改(修改当前线程数 最大线程数等) 下面是实现代码
//ThreadTask java
package polarman threadpool;
/** *//**
*线程任务
* @author ryang
*
*/
public interface ThreadTask {
public void run();
}
//PooledThread java
package polarman threadpool;
import java util Collection; import java util Vector;
/** *//**
*接受线程池管理的线程
* @author ryang
*
*/
public class PooledThread extends Thread {
protected Vector tasks = new Vector();
protected boolean running = false;
protected boolean stopped = false;
protected boolean paused = false;
protected boolean killed = false;
private ThreadPool pool;
public PooledThread(ThreadPool pool) { this pool = pool;
}
public void putTask(ThreadTask task) { tasks add(task);
}
public void putTasks(ThreadTask[] tasks) { for(int i= ; itasks length; i++) this tasks add(tasks[i]);
}
public void putTasks(Collection tasks) { this tasks addAll(tasks);
}
protected ThreadTask popTask() { if(tasks size() ) return (ThreadTask)tasks remove( );
else
return null;
}
public boolean isRunning() {
return running;
}
public void stopTasks() {
stopped = true;
}
public void stopTasksSync() {
stopTasks();
while(isRunning()) { try {
sleep( );
} catch (InterruptedException e) {
}
}
}
public void pauseTasks() {
paused = true;
}
public void pauseTasksSync() {
pauseTasks();
while(isRunning()) { try {
sleep( );
} catch (InterruptedException e) {
}
}
}
public void kill() { if(!running)
interrupt();
else
killed = true;
}
public void killSync() {
kill();
while(isAlive()) { try {
sleep( );
} catch (InterruptedException e) {
}
}
}
public synchronized void startTasks() {
running = true;
this notify();
}
public synchronized void run() { try { while(true) { if(!running || tasks size() == ) { pool notifyForIdleThread(); //System out println(Thread currentThread() getId() + : 空闲 ); this wait(); }else {
ThreadTask task;
while((task = popTask()) != null) { task run(); if(stopped) {
stopped = false;
if(tasks size() ) { tasks clear(); System out println(Thread currentThread() getId() + : Tasks are stopped );
break;
}
}
if(paused) {
paused = false;
if(tasks size() ) { System out println(Thread currentThread() getId() + : Tasks are paused );
break;
}
}
}
running = false;
}
if(killed) {
killed = false;
break;
}
}
}catch(InterruptedException e) {
return;
}
//System out println(Thread currentThread() getId() + : Killed );
}
}
//ThreadPool java
package polarman threadpool;
import java util Collection; import java util Iterator; import java util Vector;
/** *//**
*线程池
* @author ryang
*
*/
public class ThreadPool {
protected int maxPoolSize;
protected int initPoolSize;
protected Vector threads = new Vector();
protected boolean initialized = false;
protected boolean hasIdleThread = false;
public ThreadPool(int maxPoolSize int initPoolSize) { this maxPoolSize = maxPoolSize; this initPoolSize = initPoolSize;
}
public void init() {
initialized = true;
for(int i= ; iinitPoolSize; i++) {
PooledThread thread = new PooledThread(this);
thread start(); threads add(thread);
}
//System out println( 线程池初始化结束 线程数= + threads size() + 最大线程数= + maxPoolSize);
}
public void setMaxPoolSize(int maxPoolSize) { //System out println( 重设最大线程数 最大线程数= + maxPoolSize); this maxPoolSize = maxPoolSize;
if(maxPoolSize getPoolSize())
setPoolSize(maxPoolSize);
}
/** *//**
*重设当前线程数
* 若需杀掉某线程 线程不会立刻杀掉 而会等到线程中的事务处理完成* 但此方法会立刻从线程池中移除该线程 不会等待事务处理结束
* @param size
*/
public void setPoolSize(int size) { if(!initialized) {
initPoolSize = size;
return;
}else if(size getPoolSize()) { for(int i=getPoolSize(); isize imaxPoolSize; i++) {
PooledThread thread = new PooledThread(this);
thread start(); threads add(thread);
}
}else if(size getPoolSize()) { while(getPoolSize() size) { PooledThread th = (PooledThread)threads remove( ); th kill();
}
}
//System out println( 重设线程数 线程数= + threads size());
}
public int getPoolSize() { return threads size();
}
protected void notifyForIdleThread() {
hasIdleThread = true;
}
protected boolean waitForIdleThread() {
hasIdleThread = false;
while(!hasIdleThread getPoolSize() = maxPoolSize) { try { Thread sleep( ); } catch (InterruptedException e) {
return false;
}
}
return true;
}
public synchronized PooledThread getIdleThread() { while(true) { for(Iterator itr=erator(); itr hasNext();) { PooledThread th = (PooledThread)itr next(); if(!th isRunning())
return th;
}
if(getPoolSize() maxPoolSize) {
PooledThread thread = new PooledThread(this);
thread start(); threads add(thread);
return thread;
}
//System out println( 线程池已满 等待 );
if(waitForIdleThread() == false)
return null;
}
}
public void processTask(ThreadTask task) {
PooledThread th = getIdleThread();
if(th != null) { th putTask(task); th startTasks();
}
}
public void processTasksInSingleThread(ThreadTask[] tasks) {
PooledThread th = getIdleThread();
if(th != null) { th putTasks(tasks); th startTasks();
}
}
public void processTasksInSingleThread(Collection tasks) {
PooledThread th = getIdleThread();
if(th != null) { th putTasks(tasks); th startTasks();
}
}
}
下面是线程池的测试程序
//ThreadPoolTest java
import java io BufferedReader; import java io IOException; import java io InputStreamReader;
import polarman threadpool ThreadPool; import polarman threadpool ThreadTask;
public class ThreadPoolTest {
public static void main(String[] args) { System out println( quit 退出 ); System out println( task A 启动任务A 时长为 秒 ); System out println( size 设置当前线程池大小为 ); System out println( max 设置线程池最大线程数为 ); System out println();
final ThreadPool pool = new ThreadPool( ); pool init();
Thread cmdThread = new Thread() { public void run() {
BufferedReader reader = new BufferedReader(new InputStreamReader(System in));
while(true) { try { String line = reader readLine(); String words[] = line split( ); if(words[ ] equalsIgnoreCase( quit )) { System exit( ); }else if(words[ ] equalsIgnoreCase( size ) words length = ) { try { int size = Integer parseInt(words[ ]); pool setPoolSize(size); }catch(Exception e) {
}
}else if(words[ ] equalsIgnoreCase( max ) words length = ) { try { int max = Integer parseInt(words[ ]); pool setMaxPoolSize(max); }catch(Exception e) {
}
}else if(words[ ] equalsIgnoreCase( task ) words length = ) { try { int timelen = Integer parseInt(words[ ]); SimpleTask task = new SimpleTask(words[ ] timelen * ); pool processTask(task); }catch(Exception e) {
}
}
} catch (IOException e) { e printStackTrace();
}
}
}
};
cmdThread start();
/**//*
for(int i= ; i ; i++){
SimpleTask task = new SimpleTask( Task + i (i+ )* ); pool processTask(task);
}*/
}
}
class SimpleTask implements ThreadTask {
private String taskName;
private int timeLen;
public SimpleTask(String taskName int timeLen) { this taskName = taskName; this timeLen = timeLen;
}
public void run() { System out println(Thread currentThread() getId() +
: START TASK + taskName + );
try { Thread sleep(timeLen); } catch (InterruptedException e) {
}
System out println(Thread currentThread() getId() +
: END TASK + taskName + );
}
}
使用此线程池相当简单 下面两行代码初始化线程池
ThreadPool pool = new ThreadPool( ); pool init();
要处理的任务实现ThreadTask 接口即可(如测试代码里的SimpleTask) 这个接口只有一个方法run()
两行代码即可调用
lishixinzhi/Article/program/Java/hx/201311/27203
接口 java.util.concurrent.ExecutorService 表述了异步执行的机制,并且可以让任务在后台执行。一个 ExecutorService 实例因此特别像一个线程池。事实上,在 java.util.concurrent 包中的 ExecutorService 的实现就是一个线程池的实现。
这里有一个简单的使用Java 实现的 ExectorService 样例:
使用 newFixedThreadPool() 工厂方法创建一个 ExecutorService ,上述代码创建了一个可以容纳10个线程任务的线程池。其次,向 execute() 方法中传递一个异步的 Runnable 接口的实现,这样做会让 ExecutorService 中的某个线程执行这个 Runnable 线程。
package threadgroup;
class ThreadDemo3 extends Thread {
private String name;
private int delay;
public ThreadDemo3(String sname, int i_delay) {
name = sname;
delay = i_delay;
}
public void run() {
try {
sleep(delay);
} catch (InterruptedException e) {
}
System.out.println("多线程测试!\n" + name + "\n" + delay);
}
}
public class testMyThread {
public static void main(String[] args) {
ThreadDemo3 th1,th2,th3;
th1 = new ThreadDemo3("线程1", (int) (Math.random() * 900));
th2 = new ThreadDemo3("线程2", (int) (Math.random() * 900));
th3 = new ThreadDemo3("线程3", (int) (Math.random() * 900));
th1.start();
th2.start();
th3.start();
}
}
package threadgroup;
public class threadDemo {
public static void main(String[] args) {
Thread t = Thread.currentThread();
t.setName("你好吗?");
System.out.println("正在进行的Thread是:" + t);
try {
for (int i = 0; i 5; i++) {
System.out.println("我不叫穆继超" + i);
Thread.sleep(3000);
}
} catch (Exception e) {
// TODO: handle exception
System.out.println("Thread has wrong" + e.getMessage());
}
}
}
package threadgroup;
public class threadDemo2 implements Runnable {
public threadDemo2() {
Thread t1 = Thread.currentThread();
t1.setName("第一个主进程");
System.out.println("正在运行" + t1);
Thread t2 = new Thread(this, "");
System.out.println("在创建一个进程");
t2.start();
try {
System.out.println("使他进入第一个睡眠状态");
Thread.sleep(2000);
} catch (InterruptedException e) {
System.out.println("Thread has wrong" + e.getMessage());
}
System.out.println("退出第一个进程");
}
public void run() {
try {
for (int i = 0; i 5; i++) {
System.out.println("进程" + i);
Thread.sleep(3000);
}
} catch (InterruptedException e) {
// TODO: handle exception
System.out.println("Thread has wrong" + e.getMessage());
}
System.out.println("退出第二个进程");
}
public static void main(String[] args) {
new threadDemo2();
}
}
( )根据xml文件来管理线程池的最大最小线程数( )对线程池通过Timer定期扫描以防止线程未激活 ( )通过某一个变量(本程序中是freeThreadCount)来得到空闲线程的数目 一 配置xml(listen xml)是 ?xml version= encoding= UTF ?configConsumeThreadPoolminPools /minPools ! 线程池最小线程 maxPools /maxPools! 线程池最大线程 checkThreadPeriod /checkThreadPeriod ! 检查线程池中线程的周期 分钟 /ConsumeThreadPool/config 二 对于ConsumeThreadPoolPara的javabean: import java io *;public class ConsumeThreadPoolPara implements Serializable{private int minPools;private int maxPools;private int checkThreadPeriod;public int getMinPools(){return minPools;}public int getMaxPools(){return maxPools;}public int getCheckThreadPeriod(){return checkThreadPeriod;}public void setMinPools(int minPools){this minPools = minPools;}public void setMaxPools(int maxPools){this maxPools = maxPools;}public void setCheckThreadPeriod(int checkThreadPeriod){this checkThreadPeriod = checkThreadPeriod;}public String toString(){return minPools+ + maxPools+ +checkThreadPeriod;}public ConsumeThreadPoolPara() {}public static void main(String[] args) {ConsumeThreadPoolPara consumeThreadPool = new ConsumeThreadPoolPara();}} 三 解析xml程序代码(生成ConsumeThreadPoolPara) 使用jdom解析 import jdom *;import jdom input SAXBuilder;import java io *;import java util *;public class ParseConfig {static Hashtable Listens = null;static ConnPara connpara = null;static ConsumeThreadPoolPara consumeThreadPoolPara = null;private static String configxml = listen xml ;static{getConsumeThreadPoolPara(); //得到消费的线程池的参数}/*** 装载文档* @return 返回根结点* @throws JDOMException*/public static Element loadDocument() throws JDOMException{SAXBuilder parser = new SAXBuilder(); // 新建立构造器try {Document document = parser build(configxml);Element root = document getRootElement();return root;}catch(JDOMException e){logger error( listen xml文件格式非法! );throw new JDOMException();}}public static ConsumeThreadPoolPara getConsumeThreadPoolPara(){if(consumeThreadPoolPara ==null){try {Element root = loadDocument();Element consumeThreadPool = root getChild( ConsumeThreadPool );if (consumeThreadPool != null) { //代表有数据库配置consumeThreadPoolPara = new ConsumeThreadPoolPara();Element minPools = consumeThreadPool getChild( minPools );consumeThreadPoolPara setMinPools(Integer parseInt(minPools getTextTrim()));Element maxPools = consumeThreadPool getChild( maxPools );consumeThreadPoolPara setMaxPools(Integer parseInt(maxPools getTextTrim()));Element checkThreadPeriod = consumeThreadPool getChild( checkThreadPeriod );consumeThreadPoolPara setCheckThreadPeriod(Integer parseInt(checkThreadPeriod getTextTrim()));}}catch (JDOMException e) {}}return consumeThreadPoolPara;}} 四 线程池源代码 import java util *;/*** pTitle: 线程池/p* pDescription: 采集消费模块/p* pCopyright: Copyright (c) /p* pCompany: /p* @author 张荣斌* @version */public class ThreadPool {private static int minPools = ; //最小连接池数目private static int maxPools = ; //最大连接池数目private static int checkThreadPeriod = ; //检查连接池的周期ArrayList m_ThreadList; //工作线程列表LinkedList m_RunList = null; //工作任务列表int totalThread = ; //总线程数static int freeThreadCount = ; //未被使用的线程数目private java util Timer timer = null; //定时器static Object o = new Object();static{ //先初始化线程池的参数ConsumeThreadPoolPara consumeThreadPoolPara = ParseConfig getConsumeThreadPoolPara();if(consumeThreadPoolPara!=null){minPools = consumeThreadPoolPara getMinPools();maxPools = consumeThreadPoolPara getMaxPools();checkThreadPeriod = consumeThreadPoolPara getCheckThreadPeriod()* * ;}}public void setMinPools(int minPools){this minPools = minPools;}public void setMaxPools(int maxPools){this maxPools = maxPools;}public void setCheckThreadPeriod(int checkThreadPeriod){this checkThreadPeriod = checkThreadPeriod;}public ThreadPool() {m_ThreadList=new ArrayList();m_RunList=new LinkedList();for(int i= ;iminPools;i++){WorkerThread temp=new WorkerThread();totalThread = totalThread + ;m_ThreadList add(temp);temp start();try{Thread sleep( );}catch(Exception e){}}timer = new Timer(true); //启动定时器timer schedule(new CheckThreadTask(this) checkThreadPeriod);}/*** 当有一个工作来的时候启动线程池的线程* 当空闲线程数为 的时候 看总线程是否小于最大线程池的数目 就new一个新的线程 否则sleep 直到有空闲线程为止;* 当空闲线程不为 则将任务丢给空闲线程去完成* @param work*/public synchronized void run(String work){if (freeThreadCount == ) {if(totalThreadmaxPools){WorkerThread temp = new WorkerThread();totalThread = totalThread + ;m_ThreadList add(temp);temp start();synchronized(m_RunList){m_RunList add(work);m_RunList notify();}}else{while (freeThreadCount == ) {try {Thread sleep( );}catch (InterruptedException e) {}}synchronized(m_RunList){m_RunList add(work);m_RunList notify();}}} else {synchronized(m_RunList){m_RunList add(work);m_RunList notify();}}}/*** 检查所有的线程的有效性*/public synchronized void checkAllThreads() {Iterator lThreadIterator = erator();while (lThreadIterator hasNext()) { //逐个遍厉WorkerThread lTestThread = (WorkerThread) lThreadIterator next();if (! (lTestThread isAlive())) { //如果处在非活动状态时lTestThread = new WorkerThread(); //重新生成个线程lTestThread start(); //启动}}}/*** 打印调试信息*/public void printDebugInfo(){System out println( totalThread= +totalThread);System out println( m_ThreadList size()= +m_ThreadList size());}/**** pTitle: 工作线程类/p* @author 张荣斌* @version */class WorkerThread extends Thread{boolean running = true;String work;public void run(){while(running){synchronized(o){freeThreadCount++;}synchronized(m_RunList){while(m_RunList size() == ){try{m_RunList wait();if(!running) return;}catch(InterruptedException e){} lishixinzhi/Article/program/Java/gj/201311/27379
