Java ThreadGroup 类

说明

Java ThreadGroup isDaemon() 方法测试此线程组是否为守护线程组。当守护进程线程组的最后一个线程停止或者最后一个线程组被销毁时,它会自动销毁。

声明

以下是java.lang.ThreadGroup isDaemon() 方法的声明。 

public final boolean isDaemon() 

参数

返回值

如果该线程组为守护线程组,否则为 false。

异常

示例 1

以下示例显示 ThreadGroup isDaemon( ) 方法(如果是单个 ThreadGroup 对象)。我们创建了一个 ThreadGroup 对象并为其分配了一个名称。然后我们使用之前创建的线程组对象创建了两个线程。使用 isDaemon() 方法,我们获取该线程组对象的父级的状态,默认情况下为 false。

package com.yxjc123;

public class ThreadGroupDemo implements Runnable {
   public static void main(String[] args) {
      ThreadGroupDemo tg = new ThreadGroupDemo();
      tg.start();
   }

   public void start() {
      try {     
         //创建一个ThreadGroup
         ThreadGroup threadGroup = new ThreadGroup("ThreadGroup");

         //创建一个线程
         Thread t1 = new Thread(threadGroup, this);
         System.out.println("Starting " + t1.getName() + "...");
         t1.start();
            
         //创建另一个线程
         Thread t2 = new Thread(threadGroup, this);
         System.out.println("Starting " + t2.getName() + "...");
         t2.start();

         //返回线程组的状态
         boolean isDaemon = threadGroup.isDaemon();
         System.out.println("Status of the threadGroup = " + isDaemon);

         // 阻塞直到其他线程完成
         t1.join();
         t2.join();        


      } catch (InterruptedException ex) {
         System.out.println(ex.toString());
      }
   }

   // 实现 run()
   public void run() {

      for(int i = 0; i < 4;i++) {
         i++;
         try {
			Thread.sleep(50);
		} catch (InterruptedException e) {
			// TODO 自动生成的 catch 块
			e.printStackTrace();
		}
      }
      System.out.println(Thread.currentThread().getName() + " finished executing.");
   }
} 

输出

让我们编译并运行上面的代码程序,这将产生以下结果 -

Starting Thread-0...
Starting Thread-1...
Status of the threadGroup = false
Thread-1 finished executing.
Thread-0 finished executing. 

示例 2

以下示例显示了在多个 ThreadGroup 对象的情况下 ThreadGroup isDaemon() 方法的用法。我们创建了一个 ThreadGroup 对象并为其分配了一个名称。接下来,我们创建了一个子 ThreadGroup 对象。然后我们使用之前创建的线程组对象创建了两个线程。使用 isDaemon() 方法,我们打印每个线程组对象的状态。

package com.yxjc123;

public class ThreadGroupDemo implements Runnable {
   public static void main(String[] args) {
      ThreadGroupDemo tg = new ThreadGroupDemo();
      tg.start();
   }

   public void start() {
      try {     
         //创建父ThreadGroup
         ThreadGroup pThreadGroup = new ThreadGroup("parent ThreadGroup");
		 
         //为父ThreadGroup创建子ThreadGroup
         ThreadGroup cThreadGroup = new ThreadGroup(pThreadGroup, "child ThreadGroup");

         //创建一个线程
         Thread t1 = new Thread(pThreadGroup, this);
         System.out.println("Starting " + t1.getName() + "...");
         t1.start();
            
         //创建另一个线程
         Thread t2 = new Thread(cThreadGroup, this);
         System.out.println("Starting " + t2.getName() + "...");
         t2.start();

         //返回线程组的状态
         System.out.println("Status of pThreadGroup = " + pThreadGroup.isDaemon());
         System.out.println("Status of cThreadGroup = " + cThreadGroup.isDaemon());
         
         // 阻塞直到其他线程完成
         t1.join();
         t2.join();

      } catch (InterruptedException ex) {
         System.out.println(ex.toString());
      }
   }

   // 实现 run()
   public void run() {

      for(int i = 0; i < 4;i++) {
         i++;
         try {
			Thread.sleep(50);
		} catch (InterruptedException e) {
			// TODO 自动生成的 catch 块
			e.printStackTrace();
		}
      }
      System.out.println(Thread.currentThread().getName() + " finished executing.");
   }
} 

输出

让我们编译并运行上面的程序,这将产生以下结果 -

Starting Thread-0...
Starting Thread-1...
Status of pThreadGroup = false
Status of cThreadGroup = false
Thread-1 finished executing.
Thread-0 finished executing. 

示例 3

以下示例显示了 ThreadGroup isDaemon() 方法在子 ThreadGroup 和孙 ThreadGroup 对象的情况下的用法。我们创建了一个 ThreadGroup 对象并为其分配了一个名称。接下来,我们创建了一个子 ThreadGroup 对象。然后,我们使用之前创建的子线程组对象和孙线程组对象创建了两个线程。使用 isDaemon() 方法,我们打印每个线程组对象的状态。

package com.yxjc123;

public class ThreadGroupDemo implements Runnable {
   public static void main(String[] args) {
      ThreadGroupDemo tg = new ThreadGroupDemo();
      tg.start();
   }

   public void start() {
      try {     
         //创建父ThreadGroup
         ThreadGroup pThreadGroup = new ThreadGroup("Parent ThreadGroup");
		 
         //为父ThreadGroup创建子ThreadGroup
         ThreadGroup cThreadGroup = new ThreadGroup(pThreadGroup, "Child ThreadGroup");
		 
         //为父ThreadGroup创建孙ThreadGroup
         ThreadGroup gThreadGroup = new ThreadGroup(cThreadGroup, "GrandChild ThreadGroup");

         //创建一个线程
         Thread t1 = new Thread(cThreadGroup, this);
         System.out.println("Starting " + t1.getName() + "...");
         t1.start();
            
         //创建另一个线程
         Thread t2 = new Thread(gThreadGroup, this);
         System.out.println("Starting " + t2.getName() + "...");
         t2.start();
            
         //返回线程组的状态
         System.out.println("Status of pThreadGroup = " + pThreadGroup.isDaemon());
         System.out.println("Status of cThreadGroup = " + cThreadGroup.isDaemon());
         System.out.println("Status of gThreadGroup = " + gThreadGroup.isDaemon());
		 
         // 阻塞直到其他线程完成
         t1.join();
         t2.join();
      } catch (InterruptedException ex) {
         System.out.println(ex.toString());
      }
   }

   // 实现 run()
   public void run() {

      for(int i = 0; i < 4;i++) {
         i++;
         try {
			Thread.sleep(50);
		} catch (InterruptedException e) {
			// TODO 自动生成的 catch 块
			e.printStackTrace();
		}
      }
      System.out.println(Thread.currentThread().getName() + " finished executing.");
   }
} 

输出

让我们编译并运行上面的程序,这将产生以下结果 -

Starting Thread-0...
Starting Thread-1...
Status of pThreadGroup = false
Status of cThreadGroup = false
Status of gThreadGroup = false
Thread-0 finished executing.
Thread-1 finished executing.