Thread实现Runnable接口并实现了大量实用的方法。
/*
* 此方法释放CPU,但并不释放已获得的锁,其它就绪的线程将可能得到执行机会,它自己也有可能再次得到执行机会
*/
public static native void yield(); /*
* 此方法释放CPU,但并不释放已获得的锁,其它就绪的线程将得到执行机会,在休眠时间结束后,当前线程继续执行
*/
public static native void sleep(long millis) throws InterruptedException; /*
* 一旦调用后宿主线程将阻塞,待当前线程结束后继续
*/
public final void join() throws InterruptedException; /*
* 一旦调用后宿主线程将阻塞,待当前线程结束后继续
*/
public final synchronized void join(long millis)throws InterruptedException; /*
* 中断线程
*/
public void interrupt(); /*
* on=true表示线程标记为守护线程(例如GC线程),若正在运行的所有线程都是守护线程,JVM将退出
*/
public final void setDaemon(boolean on);
Java代码:
import java.util.Map;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.atomic.AtomicInteger; import org.junit.Assert;
import org.junit.Test; /**
* @Description: 测试Thread的方法
*/
public class ThreadMethodsTest { static String SLEEP = "sleep";
static String YIELD = "yield";
static String JOIN = "join"; private Map<String, ThreadMethodEnum> map = new ConcurrentHashMap<>(); class ThreadSleep implements Runnable {
private int millis; public ThreadSleep(int millis) {
this.millis = millis;
} @Override
public void run() {
System.out.println("Thread sleep run()...");
long threadId = Thread.currentThread().getId(); ThreadMethodEnum sleep = ThreadMethodEnum.SLEEP;
sleep.init(threadId); try {
Thread.sleep(millis);
} catch (InterruptedException e) {
e.printStackTrace();
}
sleep.stop();
map.put(sleep.getMethod(), sleep);
}
} class ThreadYield implements Runnable {
@Override
public void run() {
long threadId = Thread.currentThread().getId();
ThreadMethodEnum yield = ThreadMethodEnum.YIELD;
yield.init(threadId);
Thread.yield();
yield.stop();
map.put(yield.getMethod(), yield);
}
} class ThreadJoin implements Runnable {
private Thread thread;
private int millis = 0; public ThreadJoin(Thread thread) {
this.thread = thread;
} public ThreadJoin(Thread thread, int millis) {
this.thread = thread;
this.millis = millis;
} @Override
public void run() {
try {
System.out.println("Thread join run()...");
long threadId = Thread.currentThread().getId();
ThreadMethodEnum join = ThreadMethodEnum.JOIN;
join.init(threadId);
if (millis > 0) {
this.thread.join(millis);
} else {
this.thread.join();
}
join.stop();
map.put(join.getMethod(), join);
} catch (InterruptedException e) {
e.printStackTrace();
}
}
} final AtomicInteger interruptCount = new AtomicInteger(0);
final int interruptIndex = 100; class ThreadInterrupt extends Thread {
@Override
public void run() {
while (!isInterrupted()) {
interruptCount.incrementAndGet();
if (interruptCount.intValue() == interruptIndex) {
interrupt();
}
}
}
} @Test
public void testSleep() throws InterruptedException {
int millis = 1000;
Thread sleep = new Thread(new ThreadSleep(millis));
sleep.start();
sleep.join();
ThreadMethodEnum tme = map.get(SLEEP);
// 预期sleep时间与millis相近
Assert.assertEquals(1, Math.round((tme.getStopTimeMillis() - tme.getStartTimeMillis()) * 1.0 / millis));
} @Test
public void testYield() throws InterruptedException {
Thread yield = new Thread(new ThreadYield());
yield.start();
yield.join();
ThreadMethodEnum tme = map.get(YIELD);
// 预期yield消耗时间几乎为0
Assert.assertEquals(1, Math.round(tme.getStartTimeMillis() * 1.0 / tme.getStopTimeMillis()));
} @Test
public void testJoin() throws InterruptedException {
System.out.println("testJoin() ---- start----");
int millis = 1000;
Thread sleep = new Thread(new ThreadSleep(millis));
sleep.setName("Sleep Thread");
sleep.start();
Thread join = new Thread(new ThreadJoin(sleep));
join.setName("Join Thread");
join.start();
join.join();
ThreadMethodEnum tme = map.get(SLEEP);
// 预期sleep时间与millis相近
Assert.assertEquals(1, Math.round((tme.getStopTimeMillis() - tme.getStartTimeMillis()) * 1.0 / millis));
tme = map.get(JOIN);
// 预期join阻塞时间与millis相近
Assert.assertEquals(1, Math.round((tme.getStopTimeMillis() - tme.getStartTimeMillis()) * 1.0 / millis));
System.out.println("testJoin() ---- end----");
} @Test
public void testJoinMillis() throws InterruptedException {
System.out.println("testJoinMillis() ---- start----");
int millis = 500;
Thread sleep = new Thread(new ThreadSleep(millis * 2));
sleep.setName("Sleep Thread");
sleep.start();
Thread join = new Thread(new ThreadJoin(sleep, millis));
join.setName("Join Thread");
join.start();
join.join(); ThreadMethodEnum tme = map.get(SLEEP);
//预期sleep 不能在join阻塞结束前设置,固为null
Assert.assertTrue(tme == null); tme = map.get(JOIN);
//预期join阻塞时间与millis相近
Assert.assertEquals(1, Math.round((tme.getStopTimeMillis() - tme.getStartTimeMillis()) / millis));
System.out.println("testJoinMillis() ---- end----");
} @Test
public void testInterrupt() throws InterruptedException {
ThreadInterrupt interrupt = new ThreadInterrupt();
interrupt.start();
interrupt.join();
Assert.assertEquals(interruptIndex, interruptCount.intValue());
} } enum ThreadMethodEnum {
SLEEP(ThreadMethodsTest.SLEEP) {
@Override
public void init(long threadId) {
super.start(threadId);
}
},
YIELD(ThreadMethodsTest.YIELD) {
@Override
public void init(long threadId) {
super.start(threadId);
}
},
JOIN(ThreadMethodsTest.JOIN) {
@Override
public void init(long threadId) {
super.start(threadId);
}
}; private String method;
private long threadId;
private long startTimeMillis;
private long stopTimeMillis = 0; private ThreadMethodEnum(String method) {
this.method = method;
} public void stop() {
this.stopTimeMillis = System.currentTimeMillis();
} public String getMethod() {
return method;
} public long getThreadId() {
return threadId;
} public long getStartTimeMillis() {
return startTimeMillis;
} public long getStopTimeMillis() {
return stopTimeMillis;
} private void start(long threadId) {
this.threadId = threadId;
this.startTimeMillis = System.currentTimeMillis();
} public abstract void init(long threadId);
}