Focus on technology, enjoy life!—— QQ:804212028
浏览链接:http://blog.csdn.net/y18334702058/article/details/44624305
线程与进程的关系:
线程是进程中的实体,一个进程可以拥有多个线程,一个线程必须有一个父进程。
创建线程的两种方式:
1.扩展java.lang.Thread类
扩展java.lang.Thread类,也就是把run()方法写到线程里面:
import android.app.Activity;
import android.os.Bundle;
import android.os.Handler;
import android.os.Message;
import android.util.Log;
import android.widget.TextView;
public class MainActivity extends Activity {
private TextView textView;
@Override
protected void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
setContentView(R.layout.activity_main);
textView = (TextView)findViewById(R.id.textView);
new Thread(new Runnable()
{
@Override
public void run()
{
Message message=new Message();
message.what=1;
handler.sendMessage(message);
}
}).start();
}
Handler handler = new Handler(){
public void handleMessage(Message msg){
switch(msg.what){
case 1:
textView.setText("嘟嘟");
break;
}
super.handleMessage(msg);
}
};
}
2.实现Runnable接口
让类实现Runnable接口,让run方法独立出来
import android.app.Activity;
import android.os.Bundle;
import android.os.Handler;
import android.os.Message;
import android.widget.TextView;
public class MainActivity extends Activity implements Runnable {
private TextView textView;
@Override
protected void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
setContentView(R.layout.activity_main);
textView = (TextView)findViewById(R.id.textView);
Thread thread = new Thread();
thread.start();
}
Handler mHandler = new Handler(){
public void handleMessage(Message msg){
switch(msg.what){
case 1:
textView.setText("嘟嘟");
break;
}
super.handleMessage(msg);
}
};
@Override
public void run() {
// TODO Auto-generated method stub
Message msg = new Message();
msg.what = 1;
mHandler.sendMessage(msg);
}
}
经典Thread卖票实例:(能让我们更加理解线程的使用)
多个窗口一起卖火车票问题。假设有3个窗口同时售票,共有10张火车票代售。启动三个线程卖共同的10张票。
1.我们开三个线程来卖票:
public class CommonTestActivity extends Activity{
private Button mybutton;
private TextView mytext;
protected void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
setContentView(R.layout.main);
mybutton = (Button) findViewById(R.id.button);
mytext = (TextView) findViewById(R.id.text);
mybutton.setOnClickListener(new OnClickListener() {
@Override
public void onClick(View v) {
// TODO Auto-generated method stub
MyThread myThread1 = new MyThread();
MyThread myThread2= new MyThread();
MyThread myThread3 = new MyThread();
myThread1.start();
myThread2.start();
myThread3.start();
}
});
}
class MyThread extends Thread {
private int tickets = 10;
public void run() {
for (int i = 0; i < 200; i++) {
if (tickets > 0) {
System.out.println(Thread.currentThread().getName() + "==>"
+ tickets--);
}
}
}
}
}运行结果:
11-17 22:45:01.234: I/System.out(672): Thread-10==>10
11-17 22:45:01.234: I/System.out(672): Thread-10==>9
11-17 22:45:01.234: I/System.out(672): Thread-10==>8
11-17 22:45:01.234: I/System.out(672): Thread-10==>7
11-17 22:45:01.234: I/System.out(672): Thread-10==>6
11-17 22:45:01.234: I/System.out(672): Thread-10==>5
11-17 22:45:01.234: I/System.out(672): Thread-10==>4
11-17 22:45:01.234: I/System.out(672): Thread-10==>3
11-17 22:45:01.244: I/System.out(672): Thread-10==>2
11-17 22:45:01.244: I/System.out(672): Thread-10==>1
11-17 22:45:01.244: I/System.out(672): Thread-11==>10
11-17 22:45:01.244: I/System.out(672): Thread-11==>9
11-17 22:45:01.244: I/System.out(672): Thread-11==>8
11-17 22:45:01.244: I/System.out(672): Thread-11==>7
11-17 22:45:01.244: I/System.out(672): Thread-11==>6
11-17 22:45:01.254: I/System.out(672): Thread-11==>5
11-17 22:45:01.254: I/System.out(672): Thread-11==>4
11-17 22:45:01.254: I/System.out(672): Thread-11==>3
11-17 22:45:01.254: I/System.out(672): Thread-11==>2
11-17 22:45:01.254: I/System.out(672): Thread-11==>1
11-17 22:45:01.264: I/System.out(672): Thread-12==>10
11-17 22:45:01.264: I/System.out(672): Thread-12==>9
11-17 22:45:01.264: I/System.out(672): Thread-12==>8
11-17 22:45:01.264: I/System.out(672): Thread-12==>7
11-17 22:45:01.264: I/System.out(672): Thread-12==>6
11-17 22:45:01.274: I/System.out(672): Thread-12==>5
11-17 22:45:01.274: I/System.out(672): Thread-12==>4
11-17 22:45:01.274: I/System.out(672): Thread-12==>3
11-17 22:45:01.274: I/System.out(672): Thread-12==>2
11-17 22:45:01.274: I/System.out(672): Thread-12==>1
分析:
运行结果与预期不一致,分析可以看出3个线程各种卖各自的10张票,而不是共同的10张票。
2.只修改onClick里面的代码,并分析运行结果
public void onClick(View v) {
//实例化线程对象
MyThread myThread = new MyThread();
new Thread(myThread, "窗口1").start();
new Thread(myThread, "窗口2").start();
new Thread(myThread, "窗口3").start();
}运行结果:
11-17 22:49:17.314: I/System.out(708): 窗口3==>10
11-17 22:49:17.314: I/System.out(708): 窗口3==>9
11-17 22:49:17.314: I/System.out(708): 窗口3==>8
11-17 22:49:17.314: I/System.out(708): 窗口3==>7
11-17 22:49:17.314: I/System.out(708): 窗口3==>6
11-17 22:49:17.324: I/System.out(708): 窗口3==>5
11-17 22:49:17.324: I/System.out(708): 窗口3==>4
11-17 22:49:17.324: I/System.out(708): 窗口3==>3
11-17 22:49:17.324: I/System.out(708): 窗口3==>2
11-17 22:49:17.324: I/System.out(708): 窗口3==>1
分析:
此处3个窗口本来是已经在卖共同的10张票了,只不过由于没有进行线程同步,会随机选定一个线程窗口来执行卖票直到卖完,致使其他窗口没机会卖。
3.下面继续修改代码,验证我刚得猜测。
public void onClick(View v) {
//实例化线程对象
MyThread myThread = new MyThread();
new Thread(myThread, "窗口1").start();
new Thread(myThread, "窗口2").start();
new Thread(myThread, "窗口3").start();
}
class MyThread extends Thread{
private int tickets = 10;
public void run() {
for(int i = 0; i< 200; i++){
sell();
}
}
public synchronized void sell(){
if(tickets > 0)
{
System.out.println(Thread.currentThread().getName() + "==>" + tickets--);
}
}
}运行结果:
05-11 08:53:31.986: INFO/System.out(7116): 窗口1==>10 05-11
08:53:32.006: INFO/System.out(7116): 窗口1==>9 05-11 08:53:32.016:
INFO/System.out(7116): 窗口1==>8 05-11 08:53:32.066:
INFO/System.out(7116): 窗口1==>7 05-11 08:53:32.086:
INFO/System.out(7116): 窗口1==>6 05-11 08:53:32.106:
INFO/System.out(7116): 窗口1==>5 05-11 08:53:32.106:
INFO/System.out(7116): 窗口1==>4 05-11 08:53:32.126:
INFO/System.out(7116): 窗口1==>3 05-11 08:53:32.146:
INFO/System.out(7116): 窗口1==>2 05-11 08:53:32.146:
INFO/System.out(7116): 窗口1==>1
分析:
一个对象只有一个锁。所以,如果一个线程获得该锁,就没有其他线程可以获得锁,直到第这个线程释放(或返回)锁。这也意味着任何其他线程都不能进入该对象上的synchronized方法或代码块,直到该锁被释放。
释放锁是指持锁线程退出了synchronized同步方法或代码块。
上述代码没有Thread.sleep(10),换句话说线程一一直处于运行状态,没有释放锁,没有给其他线程运行的机会。
4.根据上述分析,修改代码如下:
public void onClick(View v) {
//实例化线程对象
MyThread myThread = new MyThread();
new Thread(myThread, "窗口1").start();
new Thread(myThread, "窗口2").start();
new Thread(myThread, "窗口3").start();
}
class MyThread extends Thread{
private int tickets = 10;
public void run() {
for(int i = 0; i< 200; i++){
try{
sell();
Thread.sleep(10);
}catch (InterruptedException e) {
System.out.println("我被打断了" + Thread.currentThread().getName());
e.printStackTrace();
}
}
}
public synchronized void sell(){
if(tickets > 0)
{
System.out.println(Thread.currentThread().getName() + "==>" + tickets--);
}
}
}运行结果:
05-11 09:17:07.496: INFO/System.out(7898): 窗口1==>10
05-11 09:17:07.528: INFO/System.out(7898): 窗口1==>9
05-11 09:17:07.546: INFO/System.out(7898): 窗口1==>8
05-11 09:17:07.577: INFO/System.out(7898): 窗口1==>7
05-11 09:17:07.626: INFO/System.out(7898): 窗口3==>6
05-11 09:17:07.626: INFO/System.out(7898): 窗口2==>5
05-11 09:17:07.636: INFO/System.out(7898): 窗口1==>4
05-11 09:17:07.646: INFO/System.out(7898): 窗口2==>3
05-11 09:17:07.646: INFO/System.out(7898): 窗口1==>2
05-11 09:17:07.656: INFO/System.out(7898): 窗口3==>1
分析:
此次得出的正是我们想要的结果,现在知道火车站是怎么卖票的啦。
//有的同学可能还不太理解上面程序中synchronized的用法,那我们继续往下看
synchronized 主要用法
1.方法声明时使用,放在范围操作符(public等)之后,返回类型声明(void等)之前。即一次只能有一个线程进入该方法,其他线程要想在此时调用该方法,只能排队等候,当前线程(就是在synchronized方法内部的线程)执行完该方法后,别的线程才能进入。
例如:
public synchronized void synMethod() {
//方法体
}2.对某一代码块使用,synchronized后跟括号,括号里是变量,这样,一次只有一个线程进入该代码块。例如:
public int synMethod(int a1){
synchronized(a1) {
//一次只能有一个线程进入Focus on technology, enjoy life!—— QQ:804212028
浏览链接:http://blog.csdn.net/y18334702058/article/details/44624305
原文:http://blog.csdn.net/y18334702058/article/details/44899959