注:我们现在学的Scala Actor是scala 2.10.x版本及以前版本的Actor。
Scala在2.11.x版本中将Akka加入其中,作为其默认的Actor,老版本的Actor已经废弃
一、什么是 Actor
1. 概念
Scala中的Actor能够实现并行编程的强大功能,它是基于事件模型的并发机制,Scala是运用消息(message)的发送、接收来实现多线程的。
2. actor 方法执行顺序
- 首先调用start()方法启动Actor
- 调用start()方法后其act()方法会被执行
- 向Actor发送消息
3. 发送消息的方式
| 方法 | 作用 |
|---|---|
| ! | 发送异步消息,没有返回值。 |
| !? | 发送同步消息,等待返回值。 |
| !! | 发送异步消息,返回值是 Future[Any]。 |
二、 实战
1. 不断的接收消息
package cn.itcast.actor
import scala.actors.Actor
/**
* Created by ZX on 2016/4/4.
*/
class MyActor extends Actor {
override def act(): Unit = {
while (true) {
receive {
case "start" => {
println("starting ...")
Thread.sleep(5000)
println("started")
}
case "stop" => {
println("stopping ...")
Thread.sleep(5000)
println("stopped ...")
}
}
}
}
}
object MyActor {
def main(args: Array[String]) {
val actor = new MyActor
actor.start()
actor ! "start"
actor ! "stop"
println("消息发送完成!")
}
}
说明:在act()方法中加入了while (true) 循环,就可以不停的接收消息
注意:发送start消息和stop的消息是异步的,但是Actor接收到消息执行的过程是同步的按顺序执行
2. react方式会复用线程,比receive更高效
package cn.itcast.actor
import scala.actors.Actor
/**
* Created by ZX on 2016/4/4.
*/
class YourActor extends Actor {
override def act(): Unit = {
loop {
react {
case "start" => {
println("starting ...")
Thread.sleep(5000)
println("started")
}
case "stop" => {
println("stopping ...")
Thread.sleep(8000)
println("stopped ...")
}
}
}
}
}
object YourActor {
def main(args: Array[String]) {
val actor = new YourActor
actor.start()
actor ! "start"
actor ! "stop"
println("消息发送完成!")
}
}
说明: react 如果要反复执行消息处理,react外层要用loop,不能用while
3. 结合case class发送消息
package cn.itcast.actor
import scala.actors.Actor
class AppleActor extends Actor {
def act(): Unit = {
while (true) {
receive {
case "start" => println("starting ...")
case SyncMsg(id, msg) => {
println(id + ",sync " + msg)
Thread.sleep(5000)
sender ! ReplyMsg(3,"finished")
}
case AsyncMsg(id, msg) => {
println(id + ",async " + msg)
Thread.sleep(5000)
}
}
}
}
}
object AppleActor {
def main(args: Array[String]) {
val a = new AppleActor
a.start()
//异步消息
a ! AsyncMsg(1, "hello actor")
println("异步消息发送完成")
//同步消息
//val content = a.!?(1000, SyncMsg(2, "hello actor"))
//println(content)
val reply = a !! SyncMsg(2, "hello actor")
println(reply.isSet)
//println("123")
val c = reply.apply()
println(reply.isSet)
println(c)
}
}
case class SyncMsg(id : Int, msg: String)
case class AsyncMsg(id : Int, msg: String)
case class ReplyMsg(id : Int, msg: String)
三、综合案例,Actor 实现 WordCount
package cn.itcast.scala.cn.itcast.scala.actor
import scala.actors.{Actor, Future}
import scala.collection.mutable.{HashSet, ListBuffer}
import scala.io.Source
object ActorWordCount {
def main(args: Array[String]): Unit = {
val replySet = new HashSet[Future[Any]]
val resultSet = new ListBuffer[ResultTask]
val taskList = new ListBuffer[WordCountTask]
val files = List("F:/words1.txt","F:/words2.txt")
for (f <- files) {
val task = new WordCountTask
val future = task.start() !! SubmitTask(f)
replySet += future
taskList += task
}
while (replySet.size > 0) {
val toComplete = replySet.filter(_.isSet)
for (f <- toComplete) {
val result = f().asInstanceOf[ResultTask]
resultSet += result
replySet -= f
}
}
val count = resultSet.flatMap(_.result).groupBy(_._1).mapValues(_.foldLeft(0)(_ + _._2))
println(count)
taskList.foreach(_ ! Stop)
}
}
class WordCountTask extends Actor {
override def act(): Unit = {
loop {
react {
case SubmitTask(path) =>
val result: Map[String, Int] = Source.fromFile(path).getLines().flatMap(_.split(" ")).map((_, 1)).toList.groupBy(_._1).mapValues(_.size)
sender ! ResultTask(result)
case Stop => exit()
}
}
}
}
case class SubmitTask(path: String)
case class ResultTask(result: Map[String, Int])
case object Stop
