线程--Condition
传统线程间通讯是使用wait和notify,可是这种智能实现一路等待,使用condition以后能够实现多路等待
java
用condition实现缓冲区oop
class BoundedBuffer {
final Lock lock = new ReentrantLock();//实例化一个锁对象
final Condition notFull = lock.newCondition(); //实例化两个condition
final Condition notEmpty = lock.newCondition();
final Object[] items = new Object[100];//初始化一个长度为100的队列
int putptr, takeptr, count;
public void put(Object x) throws InterruptedException {
lock.lock();//获取锁
try {
while (count == items.length)
notFull.await();//当计数器count等于队列的长度时,不能在插入,所以等待
items[putptr] = x; //将对象放入putptr索引处
if (++putptr == items.length) putptr = 0;//当索引长度等于队列长度时,将putptr置为0
//缘由是,不能越界插入
++count;//没放入一个对象就将计数器加1
notEmpty.signal();//一旦插入就唤醒取数据线程
} finally {
lock.unlock();//最后释放锁
}
}
public Object take() throws InterruptedException {
lock.lock();//获取锁
try {
while (count == 0) //若是计数器等于0那么等待
notEmpty.await();
Object x = items[takeptr]; //取得takeptr索引处对象
if (++takeptr == items.length) takeptr = 0;//当takeptr达到队列长度时,从零开始取
--count;//每取一个讲计数器减1
notFull.signal();//枚取走一个就唤醒存线程
return x;
} finally {
lock.unlock();//释放锁
}
}
}
2.同时用其可使多路线程实现等待:this
import java.util.concurrent.locks.Condition;
import java.util.concurrent.locks.Lock;
import java.util.concurrent.locks.ReentrantLock;
public class ConditionCommunication {
/**
* @param args
*/
public static void main(String[] args) {
final Business business = new Business();
new Thread(new Runnable(){
public void run() {
for(int i=0; i<50; i++){
business.sub2(i);
}
}
}).start();
new Thread(new Runnable(){
public void run() {
for(int i=0; i<50; i++){
business.sub3(i);
}
}
}).start();
new Thread(new Runnable(){
public void run() {
for(int i=0; i<50; i++){
business.main(i);
}
}
}).start();
}
static class Business{
private int shouldSub = 1;
private Lock lock = new ReentrantLock();
Condition condition1 = lock.newCondition();
Condition condition2 = lock.newCondition();
Condition condition3 = lock.newCondition();
public void sub2(int i){
try{
lock.lock();
while(shouldSub != 2){
try {
// this.wait();
condition2.await();
} catch (Exception e) {
e.printStackTrace();
}
}
for(int j=1; j<=10; j++){
System.out.println("sub2 thread sequence is " + j + " loop of " + i);
}
shouldSub = 3;
// this.notify();
condition3.signal();
}finally{
lock.unlock();
}
}
public void sub3(int i){
try{
lock.lock();
while(shouldSub != 3){
try {
// this.wait();
condition3.await();
} catch (Exception e) {
e.printStackTrace();
}
}
for(int j=1; j<=20; j++){
System.out.println("sub3 thread sequence is " + j + " loop of " + i);
}
shouldSub = 1;
// this.notify();
condition1.signal();
}finally{
lock.unlock();
}
}
public void main(int i){
try{
lock.lock();
while(shouldSub != 1){
try {
// this.wait();
condition1.await();
} catch (Exception e) {
e.printStackTrace();
}
}
for(int j=1; j<=100; j++){
System.out.println("main thread sequence is " + j + " loop of " + i);
}
shouldSub = 2;
// this.notify();
condition2.signal();
}finally{
lock.unlock();
}
}
}
}
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