- Java并发教程
- 并发 - 主页
- 并发 - 概述
- 并发 - 环境设置
- 并发-主要操作
- 线程间通信
- 并发-同步
- 并发-死锁
- 实用程序类示例
- 并发-ThreadLocal
- 并发 - ThreadLocalRandom
- 锁示例
- 并发-锁
- 并发-ReadWriteLock
- 并发-条件
- 原子变量示例
- 并发-AtomicInteger
- 并发-AtomicLong
- 并发 - AtomicBoolean
- 并发 - AtomicReference
- 并发 - AtomicIntegerArray
- 并发-AtomicLongArray
- 并发 - AtomicReferenceArray
- 执行器示例
- 并发-执行器
- 并发-ExecutorService
- 预定执行服务
- 线程池示例
- 并发-newFixedThreadPool
- 并发-newCachedThreadPool
- 新的调度线程池
- 新的单线程执行器
- 并发-ThreadPoolExecutor
- 调度线程池执行器
- 高级示例
- 并发 - Futures 和 Callables
- 并发 - Fork-Join 框架
- 并发集合
- 并发-BlockingQueue
- 并发 - ConcurrentMap
- 并发导航地图
- 并发有用的资源
- 并发 - 快速指南
- 并发 - 有用的资源
- 并发 - 讨论
newCachedThreadPool方法
可以通过调用Executors类的静态newCachedThreadPool()方法来获取缓存的线程池。
句法
ExecutorService executor = Executors.newCachedThreadPool();
在哪里
newCachedThreadPool 方法创建一个具有可扩展线程池的执行器。
这样的执行器适合启动许多短期任务的应用程序。
例子
以下 TestThread 程序显示了 newCachedThreadPool 方法在基于线程的环境中的用法。
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.ThreadPoolExecutor;
import java.util.concurrent.TimeUnit;
public class TestThread {
public static void main(final String[] arguments) throws InterruptedException {
ExecutorService executor = Executors.newCachedThreadPool();
// Cast the object to its class type
ThreadPoolExecutor pool = (ThreadPoolExecutor) executor;
//Stats before tasks execution
System.out.println("Largest executions: "
+ pool.getLargestPoolSize());
System.out.println("Maximum allowed threads: "
+ pool.getMaximumPoolSize());
System.out.println("Current threads in pool: "
+ pool.getPoolSize());
System.out.println("Currently executing threads: "
+ pool.getActiveCount());
System.out.println("Total number of threads(ever scheduled): "
+ pool.getTaskCount());
executor.submit(new Task());
executor.submit(new Task());
//Stats after tasks execution
System.out.println("Core threads: " + pool.getCorePoolSize());
System.out.println("Largest executions: "
+ pool.getLargestPoolSize());
System.out.println("Maximum allowed threads: "
+ pool.getMaximumPoolSize());
System.out.println("Current threads in pool: "
+ pool.getPoolSize());
System.out.println("Currently executing threads: "
+ pool.getActiveCount());
System.out.println("Total number of threads(ever scheduled): "
+ pool.getTaskCount());
executor.shutdown();
}
static class Task implements Runnable {
public void run() {
try {
Long duration = (long) (Math.random() * 5);
System.out.println("Running Task! Thread Name: " +
Thread.currentThread().getName());
TimeUnit.SECONDS.sleep(duration);
System.out.println("Task Completed! Thread Name: " +
Thread.currentThread().getName());
} catch (InterruptedException e) {
e.printStackTrace();
}
}
}
}
这将产生以下结果。
输出
Largest executions: 0 Maximum allowed threads: 2147483647 Current threads in pool: 0 Currently executing threads: 0 Total number of threads(ever scheduled): 0 Core threads: 0 Largest executions: 2 Maximum allowed threads: 2147483647 Current threads in pool: 2 Currently executing threads: 2 Total number of threads(ever scheduled): 2 Running Task! Thread Name: pool-1-thread-1 Running Task! Thread Name: pool-1-thread-2 Task Completed! Thread Name: pool-1-thread-2 Task Completed! Thread Name: pool-1-thread-1