问题
I have an actor which creates a child actor to perform some lengthy computations.
The problem is that the initialization of the child actor takes a few seconds and all messages that the parent actor sends to the child between it is created and gets fully initialized are dropped.
This is the logic of the code that I am using:
class ChildActor extends Actor {
val tagger = IntializeTagger(...) // this takes a few seconds to complete
def receive = {
case Tag(text) => sender ! tagger.tag(text)
case "hello" => println("Hello")
case _ => println("Unknown message")
}
}
class ParentActor extends Actor {
val child = context.ActorOf(Props[ChildActor], name = "childactor")
// the below two messages seem to get lost
child ! "hello"
child ! Tag("This is my sample text")
def receive = {
...
}
}
How could I get around that problem? Is it possible to make the parent actor wait until the child is fully initialized? I will be using the child actor with routing and possibly on remote actor systems.
EDIT
Following drexin's advice I have change my code into:
class ChildActor extends Actor {
var tagger: Tagger = _
override def preStart() = {
tagger = IntializeTagger(...) // this takes a few seconds to complete
}
def receive = {
case Tag(text) => sender ! tagger.tag(text)
case "hello" => println("Hello")
case _ => println("Unknown message")
}
}
class ParentActor extends Actor {
var child: ActorRef = _
override def preStart() = {
child = context.ActorOf(Props[ChildActor], name = "childactor")
// When I add
// Thread.sleep(5000)
// here messages are processed without problems
// wihout hardcoding the 5 seconds waiting
// the below two messages seem to get lost
child ! "hello"
child ! Tag("This is my sample text")
}
def receive = {
...
}
}
but the problem remains. What am I missing?
回答1:
Don't initialize the tagger in the constructor, but in the preStart hook, this way the messages will be collected in the message box and delivered, when the actor is ready.
edit:
You should do the same for the actor creation in your ParentActor class, because you would have the same problem, if the ChildActor would respond, before the ParentActor is initialized.
edit2:
I created a simple example, but I was not able to reproduce your problems. Following code works perfectly fine:
import akka.actor._
case class Tag(x: String)
class ChildActor extends Actor {
type Tagger = String => String
var tagger: Tagger = _
override def preStart() = {
tagger = (x: String) => x+"@tagged" // this takes a few seconds to complete
Thread.sleep(2000) // simulate time taken to initialize Tagger
}
def receive = {
case Tag(text) => sender ! tagger(text)
case "hello" => println("Hello")
case _ => println("Unknown message")
}
}
class ParentActor extends Actor {
var child: ActorRef = _
override def preStart() = {
child = context.actorOf(Props[ChildActor], name = "childactor")
// When I add
// Thread.sleep(5000)
// here messages are processed without problems
// wihout hardcoding the 5 seconds waiting
// the below two messages seem to get lost
child ! "hello"
child ! Tag("This is my sample text")
}
def receive = {
case x => println(x)
}
}
object Main extends App {
val system = ActorSystem("MySystem")
system.actorOf(Props[ParentActor])
}
Output is:
[info] Running Main
Hello
This is my sample text@tagged
回答2:
I think what you might be looking for is the combo of Stash and become. The idea will be that the child actor will set it's initial state to uninitialized, and while in this state, it will stash all incoming messages until it is fully initialized. When it's fully initialized, you can unstash all of the messages before swapping behavior over to the initialized state. A simple example is as follows:
class ChildActor2 extends Actor with Stash{
import context._
var dep:SlowDependency = _
override def preStart = {
val me = context.self
Future{
dep = new SlowDependency
me ! "done"
}
}
def uninitialized:Receive = {
case "done" =>
unstashAll
become(initialized)
case other => stash()
}
def initialized:Receive = {
case "a" => println("received the 'a' message")
case "b" => println("received the 'b' message")
}
def receive = uninitialized
}
Notice in the preStart that I'm doing my initialization asynchronously, so as to not halt the startup of the actor. Now this is a bit ugly, with closing over the mutable dep var. You could certainly handle it by instead sending a message to another actor that handles instantiation of the slow dependency and sends it back to this actor. Upon receiving the dependency, it will then call become for the initialized state.
Now there is one caveat with Stash and I'll paste it in right from the Akka docs:
Please note that the Stash can only be used together with actors that
have a deque-based mailbox. For this, configure the mailbox-type of the
dispatcher to be a deque-based mailbox, such as
akka.dispatch.UnboundedDequeBasedMailbox (see Dispatchers (Scala)).
Now if this does not suite you, you can try a more DI type approach and let the slow dependency be injected into the child actor via it's constructor. So you would define the child actor like so:
class ChildActor(dep:SlowDependency) extends Actor{
...
}
Then when starting up this actor, you would do it as follows:
context.actorOf(new Props().withCreator(new ChildActor(slowDep)), name = "child-actor")
回答3:
I would suggest to send a "ready" message from the child actor to the parent and start sending messages to the child actor only after this message will be received. You can do it just in receive() method for simple use cases or you can use become or FSM to change parent actor behavior after the child will be initialized (for example, store the messages for the child in some intermediate storage and send them all when it will be ready).
来源:https://stackoverflow.com/questions/17061740/how-to-deal-with-long-initialization-of-an-akka-child-actor