My current application is based on akka 1.1. It has multiple ProjectAnalysisActors
each responsible for handling analysis tasks for a specific project. The analysis is started when such an actor receives a generic start message. After finishing one step it sends itself a message with the next step as long one is defined. The executing code basically looks as follows
sealed trait AnalysisEvent {
def run(project: Project): Future[Any]
def nextStep: AnalysisEvent = null
}
case class StartAnalysis() extends AnalysisEvent {
override def run ...
override def nextStep: AnalysisEvent = new FirstStep
}
case class FirstStep() extends AnalysisEvent {
override def run ...
override def nextStep: AnalysisEvent = new SecondStep
}
case class SecondStep() extends AnalysisEvent {
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}
class ProjectAnalysisActor(project: Project) extends Actor {
def receive = {
case event: AnalysisEvent =>
val future = event.run(project)
future.onComplete { f =>
self ! event.nextStep
}
}
}
I have some difficulties how to implement my code for the run-methods for each analysis step. At the moment I create a new future within each run-method. Inside this future I send all follow-up messages into the different subsystems. Some of them are non-blocking fire-and-forget messages, but some of them return a result which should be stored before the next analysis step is started.
At the moment a typical run-method looks as follows
def run(project: Project): Future[Any] = {
Future {
progressActor ! typicalFireAndForget(project.name)
val calcResult = (calcActor1 !! doCalcMessage(project)).getOrElse(...)
val p: Project = ... // created updated project using calcResult
val result = (storage !! updateProjectInformation(p)).getOrElse(...)
result
}
}
Since those blocking messages should be avoided, I'm wondering if this is the right way. Does it make sense to use them in this use case or should I still avoid it? If so, what would be a proper solution?
Apparently the only purpose of the ProjectAnalysisActor
is to chain future calls. Second, the runs methods seems also to wait on results to continue computations.
So I think you can try refactoring your code to use Future Composition, as explained here: http://akka.io/docs/akka/1.1/scala/futures.html
def run(project: Project): Future[Any] = {
progressActor ! typicalFireAndForget(project.name)
for(
calcResult <- calcActor1 !!! doCalcMessage(project);
p = ... // created updated project using calcResult
result <- storage !!! updateProjectInformation(p)
) yield (
result
)
}
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