方法一 通过访问共享变量的方式(注:需要处理同步问题)
方法二 通过管道流
其中方法一有两种实现方法,即
方法一a)通过内部类实现线程的共享变量
public class Innersharethread {
public static void main(String[] args) {
Mythread mythread = new Mythread();
mythread.getThread().start();
mythread.getThread().start();
mythread.getThread().start();
mythread.getThread().start();
}
}
class Mythread {
int index = 0; private class InnerThread extends Thread {
public synchronized void run() {
while (true) {
System.out.println(Thread.currentThread().getName()
+ "is running and index is " + index++);
}
}
} public Thread getThread() {
return new InnerThread();
}
} /**
* 通过内部类实现线程的共享变量
*
*/
public class Innersharethread {
public static void main(String[] args) {
Mythread mythread = new Mythread();
mythread.getThread().start();
mythread.getThread().start();
mythread.getThread().start();
mythread.getThread().start();
}
}
class Mythread {
int index = 0; private class InnerThread extends Thread {
public synchronized void run() {
while (true) {
System.out.println(Thread.currentThread().getName()
+ "is running and index is " + index++);
}
}
} public Thread getThread() {
return new InnerThread();
}
}
b)通过实现Runnable接口实现线程的共享变量
public class Interfacaesharethread {
public static void main(String[] args) {
Mythread mythread = new Mythread();
new Thread(mythread).start();
new Thread(mythread).start();
new Thread(mythread).start();
new Thread(mythread).start();
}
} /* 实现Runnable接口 */
class Mythread implements Runnable {
int index = 0; public synchronized void run() {
while (true)
System.out.println(Thread.currentThread().getName() + "is running and
the index is " + index++);
}
} /**
* 通过实现Runnable接口实现线程的共享变量 */
public class Interfacaesharethread {
public static void main(String[] args) {
Mythread mythread = new Mythread();
new Thread(mythread).start();
new Thread(mythread).start();
new Thread(mythread).start();
new Thread(mythread).start();
}
} /* 实现Runnable接口 */
class Mythread implements Runnable {
int index = 0; public synchronized void run() {
while (true)
System.out.println(Thread.currentThread().getName() + "is running and
the index is " + index++);
}
}
方法二(通过管道流):
public class CommunicateWhitPiping {
public static void main(String[] args) {
/**
* 创建管道输出流
*/
PipedOutputStream pos = new PipedOutputStream();
/**
* 创建管道输入流
*/
PipedInputStream pis = new PipedInputStream();
try {
/**
* 将管道输入流与输出流连接 此过程也可通过重载的构造函数来实现
*/
pos.connect(pis);
} catch (IOException e) {
e.printStackTrace();
}
/**
* 创建生产者线程
*/
Producer p = new Producer(pos);
/**
* 创建消费者线程
*/
Consumer c = new Consumer(pis);
/**
* 启动线程
*/
p.start();
c.start();
}
} /**
* 生产者线程(与一个管道输入流相关联)
*
*/
class Producer extends Thread {
private PipedOutputStream pos; public Producer(PipedOutputStream pos) {
this.pos = pos;
} public void run() {
int i = 8;
try {
pos.write(i);
} catch (IOException e) {
e.printStackTrace();
}
}
} /**
* 消费者线程(与一个管道输入流相关联)
*
*/
class Consumer extends Thread {
private PipedInputStream pis; public Consumer(PipedInputStream pis) {
this.pis = pis;
} public void run() {
try {
System.out.println(pis.read());
} catch (IOException e) {
e.printStackTrace();
}
}
}