java 实现自定义线程池
定义线程池接口
public interface ThreadPool<Job extends Runnable> {
// 执行一个Job
void execute(Job job);
// 关闭线程池
void shutdown();
// 添加工作者线程
void addWorkers(int num);
// 减少工作者线程
void removeWorker(int num);
// 得到正在等待执行的任务数量
int getJobSize();
}
线程池接口的默认实现
public class DefaultThreadPool<Job extends Runnable> implements ThreadPool<Job> {
// 线程最大限制
private static int MAX_WORKER_NUMBERS = 10;
//线程默认数量
private static int DEFAULT_WORKER_NUMBERS = 5;
// 线程最小数量
private static int MIN_WORKER_NUMBERS = 1;
// 工作列表
private final LinkedList<Job> jobs = new LinkedList<>();
// 工作者列表
private final List<Worker> workers = Collections.synchronizedList(new ArrayList<>());
// 当前工作者的线程数量
private int workerNum = DEFAULT_WORKER_NUMBERS;
private AtomicLong threadNum = new AtomicLong();
public DefaultThreadPool() {
initializeWorkers(DEFAULT_WORKER_NUMBERS);
}
public DefaultThreadPool(int num) {
workerNum = num > MAX_WORKER_NUMBERS ? MAX_WORKER_NUMBERS : num < MIN_WORKER_NUMBERS ? MIN_WORKER_NUMBERS : num;
initializeWorkers(workerNum);
}
// 初始化线程工作者
private void initializeWorkers(int num) {
for (int i = 0; i < num; i++) {
Worker worker = new Worker();
workers.add(worker);
Thread thread = new Thread(worker, "ThreadPool-Worker-" + threadNum.incrementAndGet());
thread.start();
}
}
@Override
public void execute(Job job) {
if (job != null) {
synchronized (jobs) {
//添加一个工作 然后通知
jobs.addLast(job);
jobs.notify();
}
}
}
@Override
public void shutdown() {
workers.forEach(Worker::shutdown);
}
@Override
public void addWorkers(int num) {
synchronized (jobs) {
// 限制新增的worker数量不能超过最大值
if (num + this.workerNum > MAX_WORKER_NUMBERS) {
num = MAX_WORKER_NUMBERS - this.workerNum;
}
initializeWorkers(num);
this.workerNum += num;
}
}
@Override
public void removeWorker(int num) {
synchronized (jobs) {
if (num >= this.workerNum) {
throw new IllegalArgumentException("beyond workNum");
}
//按照给定的数量停止worker
int count = 0;
while (count < num) {
Worker worker = workers.get(count);
if (workers.remove(worker)) {
worker.shutdown();
count++;
}
}
this.workerNum -= count;
}
}
@Override
public int getJobSize() {
return jobs.size();
}
// 工作者 负责消费任务
class Worker implements Runnable {
// 是否工作
private volatile boolean running = true;
@Override
public void run() {
while (running) {
Job job;
synchronized (jobs) {
while (jobs.isEmpty()) {
try {
jobs.wait();
} catch (InterruptedException e) {
// 感知到外部对WorkerThread的中斷操作,返回
Thread.currentThread().interrupt();
return;
}
}
job = jobs.removeFirst();
}
if (job != null) {
try {
job.run();
} catch (Exception ex) {
//忽略job执行中的异常
}
}
}
}
public void shutdown() {
running = false;
}
}
}示例摘抄于《Java并发变成的艺术》4.4.3线程池技术及其示例