Leader/Follower模式的简单实现
Leader/Follower相比较于普通的ThreadPool的优点
1、无需context switch,减少了线程间数据copy
2、无需维护一个队列,占用而外的内存空间
lf模式理解起来稍微有些困难,所以写了一个小的事例程序帮助自己理解
public class ThreadPool {
private final static Object monitor = new Object();
private final static int THREAD_POO_SIZE = 5;
private Reactor handleSet = new Reactor();
public ThreadPool(Reactor handleSet) {
this.handleSet = handleSet;
}
public void init() {
for (int i = 0; i < THREAD_POO_SIZE; i++) {
new WorkThread(this).start();
}
this.promoteNewLeader();
}
public void join() {
for (;;) {
waitToLeader();
// select, blocking
Handle handle = handleSet.select();
// promote new leader
promoteNewLeader();
// process handl
handleSet.handle(handle);
// reenter to next loop
}
}
private void waitToLeader() {
synchronized (monitor) {
try {
monitor.wait();
} catch (InterruptedException e) {
// TODO Auto-generated catch block
e.printStackTrace();
}
}
}
public void promoteNewLeader() {
synchronized (monitor) {
monitor.notify();
}
}
class WorkThread extends Thread {
ThreadPool tp;
public WorkThread(ThreadPool tp) {
this.tp = tp;
}
@Override
public void run() {
tp.join();
}
}
}
在lf模式中,线程有3种状态
它们通过以下两个方法来实现切换:
waitToLeader
promoteNewLeader
利用了java线程间通信的特性, 实现leader/follower线程的切换
目前java实现线程间通信,有两种方法:
1、Object.wait, Object.notify
2、Condition.await, Condition.signal
另一个疑问,就是要在系统初始化好后,调用promoteNewLeader,提升一个线程作为leader thread,监听事件的到来。
lf thread pool改进点:
1、thread pool大小可调节,可以参考ThreadPoolExecutor的实现
2、更多通用化,抽取变化点
Leader/Follower 论文参考:
http://www.kircher-schwanninger.de/michael/publications/lf.pdf
http://www.cse.wustl.edu/~schmidt/PDF/reactor-siemens.pdf
http://www.cse.wustl.edu/~schmidt/PDF/proactor.pdf