本文详细解析了Java中的ThreadPoolExecutor线程池的工作原理,包括核心线程数、最大线程数、工作队列、线程工厂、拒绝策略等关键参数的作用及交互过程。通过具体代码示例,演示了线程池在不同条件下的行为变化。
package com.self;
import java.util.concurrent.*;
public class ThreadPoolExecutorDemo {
private LinkedBlockingQueue<Runnable> queue = new LinkedBlockingQueue<>(10);
/**
* 1. 当线程池小于corePoolSize时,新提交任务将创建一个新线程执行任务,即使此时线程池中存在空闲线程
* 2. 当线程池达到corePoolSize时,新提交任务将被放入workQueue中,等待线程池中任务调度执行
* 3. 当workQueue已满,且maximumPoolSize > corePoolSize时,新提交任务会创建新线程执行任务
* 4. 当提交任务数超过maximumPoolSize时,新提交任务由RejectedExecutionHandler处理
* 5. 当线程池中超过corePoolSize线程,空闲时间达到keepAliveTime时,关闭空闲线程
* 6. 当设置allowCoreThreadTimeOut(true)时,线程池中corePoolSize线程空闲时间达到keepAliveTime也将关闭
*/
private ThreadPoolExecutor executor =
new ThreadPoolExecutor(20, 100, 60, TimeUnit.SECONDS, queue,
Executors.defaultThreadFactory(), (r, executor) -> {
System.out.println(" sss " + executor.getActiveCount());
});
public static void main(String[] args) {
new ThreadPoolExecutorDemo().testThreadPoolExecutor();
}
void testThreadPoolExecutor() {
for (int i = 1; i <= 115; i++) { // 15 20 30 100 110 115
executor.submit(new MyRunner(i));
}
executor.shutdown();
}
class MyRunner implements Runnable {
private int num = -1;
public MyRunner(int num) {
this.num = num;
}
@Override
public void run() {
System.out.println("MyRunner num = " + num + " start queue.size=" + queue.size());
try {
TimeUnit.SECONDS.sleep(5L);
} catch (InterruptedException e) {
e.printStackTrace();
}
System.out.println("MyRunner num = " + num + " end queue.size=" + queue.size());
}
}
}
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