- 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
Java并发-主要操作
Core Java 提供了对多线程程序的完全控制。您可以开发一个多线程程序,该程序可以根据您的要求暂停、恢复或完全停止。您可以在线程对象上使用各种静态方法来控制它们的Behave。下表列出了这些方法 -
| 先生。 | 方法及说明 |
|---|---|
| 1 | 公共无效暂停() 此方法将线程置于挂起状态,并且可以使用resume() 方法恢复。 |
| 2 | 公共无效停止() 此方法完全停止线程。 |
| 3 | 公共无效简历() 此方法恢复使用 suspend() 方法挂起的线程。 |
| 4 | 公共无效等待() 导致当前线程等待,直到另一个线程调用notify()。 |
| 5 | 公共无效通知() 唤醒正在该对象的监视器上等待的单个线程。 |
请注意,最新版本的 Java 已弃用 suspend( )、resume( ) 和 stop( ) 方法,因此您需要使用可用的替代方法。
例子
class RunnableDemo implements Runnable {
public Thread t;
private String threadName;
boolean suspended = false;
RunnableDemo(String name) {
threadName = name;
System.out.println("Creating " + threadName );
}
public void run() {
System.out.println("Running " + threadName );
try {
for(int i = 10; i > 0; i--) {
System.out.println("Thread: " + threadName + ", " + i);
// Let the thread sleep for a while.
Thread.sleep(300);
synchronized(this) {
while(suspended) {
wait();
}
}
}
} catch (InterruptedException e) {
System.out.println("Thread " + threadName + " interrupted.");
}
System.out.println("Thread " + threadName + " exiting.");
}
public void start () {
System.out.println("Starting " + threadName );
if (t == null) {
t = new Thread (this, threadName);
t.start ();
}
}
void suspend() {
suspended = true;
}
synchronized void resume() {
suspended = false;
notify();
}
}
public class TestThread {
public static void main(String args[]) {
RunnableDemo R1 = new RunnableDemo("Thread-1");
R1.start();
RunnableDemo R2 = new RunnableDemo("Thread-2");
R2.start();
try {
Thread.sleep(1000);
R1.suspend();
System.out.println("Suspending First Thread");
Thread.sleep(1000);
R1.resume();
System.out.println("Resuming First Thread");
R2.suspend();
System.out.println("Suspending thread Two");
Thread.sleep(1000);
R2.resume();
System.out.println("Resuming thread Two");
} catch (InterruptedException e) {
System.out.println("Main thread Interrupted");
} try {
System.out.println("Waiting for threads to finish.");
R1.t.join();
R2.t.join();
} catch (InterruptedException e) {
System.out.println("Main thread Interrupted");
}
System.out.println("Main thread exiting.");
}
}
上面的程序产生以下输出 -
输出
Creating Thread-1 Starting Thread-1 Creating Thread-2 Starting Thread-2 Running Thread-1 Thread: Thread-1, 10 Running Thread-2 Thread: Thread-2, 10 Thread: Thread-1, 9 Thread: Thread-2, 9 Thread: Thread-1, 8 Thread: Thread-2, 8 Thread: Thread-1, 7 Thread: Thread-2, 7 Suspending First Thread Thread: Thread-2, 6 Thread: Thread-2, 5 Thread: Thread-2, 4 Resuming First Thread Suspending thread Two Thread: Thread-1, 6 Thread: Thread-1, 5 Thread: Thread-1, 4 Thread: Thread-1, 3 Resuming thread Two Thread: Thread-2, 3 Waiting for threads to finish. Thread: Thread-1, 2 Thread: Thread-2, 2 Thread: Thread-1, 1 Thread: Thread-2, 1 Thread Thread-1 exiting. Thread Thread-2 exiting. Main thread exiting.