标签:runner 10个 打印 进程 rgs span 其他 runnable boolean
线程:一个程序里边不同的执行路径
例子程序:这个例子程序是一条执行路径。这个程序只有一个分支,就是main方法,叫主线程
public static void main(String[] args) { m1(); } public static void m1(){ m2(); m3(); } public static void m2(){} public static void m3(){}
程序执行示意图:
进程:进程是一个静态的概念,机器上的一个class文件,一个exe文件。
程序的执行过程,要把程序的代码放到内存里,放到代码区里,一个进程准备开始,进程已经产生了,但还没有开始执行,这叫进程。是一个静态的概念。平时说的进程的执行说的是进程里面主线程开始执行了。在机器里面运行的实际上都是线程。
我们的windows同时运行着好多个线程,所以说机器是支持多线程的。当然也支持多进程。windows、linux、unix都是多进程、多线程的,dos是只支持单进程的,同一个时间点只能执行一个进程执行。
CPU计算速度快,把自己的时间分成一个个时间片,这个时间片执行你一会,下一个时间片执行它一会,轮着来。虽然有几十个线程,轮着执行由于速度很快,在我们看来就像是多个线程同时执行的。但实际上,一个时间点上,CUP只有一个线程在运行。(如果机器是多核,有多个CPU,才是真正意义上的多线程)
package thread; public class TestThread01 { public static void main(String[] args) { Runner1 r = new Runner1(); Thread t = new Thread(r); t.start();//启动线程,通知CPU线程已经准备好了,有空了来执行我一会 for (int i = 0; i < 100; i++) { System.out.println("------Main Thread: "+i); } } } class Runner1 implements Runnable{ @Override public void run() { for (int i = 0; i < 100; i++) { System.out.println("Runner1 : "+i); } } }
执行结果:轮着执行
package thread; public class TestThread01 { public static void main(String[] args) { Runner1 r = new Runner1(); r.start();//本身就是Thread,直接调用start // Thread t = new Thread(r); // t.start();//启动线程,通知CPU线程已经准备好了,有空了来执行我一会 for (int i = 0; i < 100; i++) { System.out.println("------Main Thread: "+i); } } } //class Runner1 implements Runnable{ class Runner1 extends Thread{ @Override public void run() { for (int i = 0; i < 100; i++) { System.out.println("Runner1 : "+i); } } }
能实现接口就不继承Thread类。
一个线程类,new出来只是内存里的一个对象。调用start方法,不是立即执行,而是就绪状态,排队等候,因为CPU可能正在执行其他的线程。CPU高兴了,把对象调到CPU里才得以执行。执行的过程中,可能你的时间片到头了,还回到就绪状态去排队去,等候下次轮到你,一直到执行完了,就终止了。
运行过程中,可能有情况发生了,你必须要等到情况解决了才能继续运行,这叫阻塞状态。
优先级越高的线程,获得的CPU执行的时间越多。
package thread; import java.util.*; public class TestInterrupt { public static void main(String[] args) { MyThread thread = new MyThread(); thread.start();//啟動線程 try { //主線程睡10秒,執行MyThread,打印10個時間 Thread.sleep(10000); } catch (InterruptedException e) { } //打印10个时间后执行到此,调用interrupt方法中断线程。 thread.interrupt(); } } class MyThread extends Thread { boolean flag = true; public void run() { while (flag) { System.out.println("===" + new Date() + "==="); try { sleep(1000); } catch (InterruptedException e) { return; } } } }
结果:打印10个时间后,线程结束 。 Run方法一结束,线程就结束了
===Mon Jun 26 22:19:40 CST 2017===
===Mon Jun 26 22:19:41 CST 2017===
===Mon Jun 26 22:19:42 CST 2017===
===Mon Jun 26 22:19:43 CST 2017===
===Mon Jun 26 22:19:44 CST 2017===
===Mon Jun 26 22:19:45 CST 2017===
===Mon Jun 26 22:19:46 CST 2017===
===Mon Jun 26 22:19:47 CST 2017===
===Mon Jun 26 22:19:48 CST 2017===
===Mon Jun 26 22:19:49 CST 2017===
代码:
package thread; public class TestJoin { public static void main(String[] args) { MyThread2 t1 = new MyThread2("abcde"); t1.start(); try { /** * 把t1线程合并到主线程,即等待t1线程执行完,再执行主线程 * 相当于方法调用 */ t1.join(); } catch (InterruptedException e) {} //等t1执行完了,才有机会执行这 for(int i=1;i<=10;i++){ System.out.println("i am main thread"); } } } class MyThread2 extends Thread { MyThread2(String s){//给线程起名字 super(s); } public void run(){ for(int i =1;i<=10;i++){ System.out.println("i am "+getName()); try { sleep(1000); } catch (InterruptedException e) { return; } } } }
join把t1合并到主线程,main会等待着t1执行完,再执行自己。
结果:
i am abcde
i am abcde
i am abcde
i am abcde
i am abcde
i am abcde
i am abcde
i am abcde
i am abcde
i am abcde
i am main thread
i am main thread
i am main thread
i am main thread
i am main thread
i am main thread
i am main thread
i am main thread
i am main thread
i am main thread
package thread; public class TestYield { public static void main(String[] args) { MyThread3 t1 = new MyThread3("------t1"); MyThread3 t2 = new MyThread3("t2"); t1.start(); t2.start(); } } class MyThread3 extends Thread { MyThread3(String s){super(s);} public void run(){ for(int i =1;i<=100;i++){ System.out.println(getName()+": "+i); if(i%10==0){//能被10整除,让出时间片,不明显 yield(); } } } }
结果:应该每到整除10,就让给其他线程,但是不明显。
------t1: 1
------t1: 2
------t1: 3
------t1: 4
------t1: 5
------t1: 6
------t1: 7
------t1: 8
------t1: 9
------t1: 10
t2: 1
t2: 2
t2: 3
t2: 4
t2: 5
t2: 6
------t1: 11
。。。。。
package thread; public class TestPriority { public static void main(String[] args) { Thread t1 = new Thread(new T1()); Thread t2 = new Thread(new T2()); t1.setPriority(Thread.NORM_PRIORITY + 3); t1.start(); t2.start(); } } class T1 implements Runnable { public void run() { for(int i=0; i<1000; i++) { System.out.println("T1: " + i); } } } class T2 implements Runnable { public void run() { for(int i=0; i<1000; i++) { System.out.println("------T2: " + i); } } }
结果:不明显
T1: 0
T1: 1
T1: 2
T1: 3
T1: 4
T1: 5
T1: 6
T1: 7
T1: 8
T1: 9
T1: 10
T1: 11
T1: 12
T1: 13
T1: 14
T1: 15
T1: 16
T1: 17
T1: 18
T1: 19
T1: 20
T1: 21
T1: 22
T1: 23
T1: 24
T1: 25
T1: 26
T1: 27
T1: 28
T1: 29
T1: 30
T1: 31
T1: 32
T1: 33
T1: 34
T1: 35
T1: 36
T1: 37
T1: 38
T1: 39
T1: 40
T1: 41
T1: 42
T1: 43
T1: 44
T1: 45
T1: 46
T1: 47
T1: 48
T1: 49
T1: 50
T1: 51
T1: 52
T1: 53
T1: 54
T1: 55
T1: 56
T1: 57
T1: 58
T1: 59
T1: 60
T1: 61
T1: 62
T1: 63
T1: 64
T1: 65
T1: 66
T1: 67
T1: 68
T1: 69
T1: 70
T1: 71
T1: 72
T1: 73
T1: 74
T1: 75
T1: 76
T1: 77
T1: 78
T1: 79
T1: 80
T1: 81
T1: 82
T1: 83
T1: 84
T1: 85
T1: 86
T1: 87
T1: 88
T1: 89
T1: 90
T1: 91
T1: 92
T1: 93
T1: 94
T1: 95
T1: 96
T1: 97
T1: 98
T1: 99
T1: 100
T1: 101
T1: 102
T1: 103
T1: 104
T1: 105
T1: 106
T1: 107
T1: 108
T1: 109
T1: 110
------T2: 0
T1: 111
------T2: 1
T1: 112
------T2: 2
T1: 113
------T2: 3
T1: 114
标签:runner 10个 打印 进程 rgs span 其他 runnable boolean
原文地址:http://www.cnblogs.com/lihaoyang/p/7082439.html
