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I have a function which provides a Context:

def buildContext(s:String)(request:RequestHeader):Future[Granite.Context] = {
    .... // returns a Future[Granite.Context]
}

I then have another function which uses a Context to return an Option[Library.Document]:

def getDocument(tag: String):Option[Library.Document] = {
   val fakeRequest = play.api.test.FakeRequest().withHeaders(CONTENT_TYPE -> "application/json")

   val context = buildContext(tag)(fakeRequest)

   val maybeDoc = context.getDocument //getDocument is defined on Granite.Context to return an Option[Library.Document]

}

How would this code take into account if the Future has returned or not? I have seen for/yield used to wait for the return but I always assumed that a for/yield just flatmaps things together and has nothing really to do with waiting for Futures to return. I'm kinda stuck here and don't really no the correct question to ask!

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up vote 7 down vote accepted

The other two answers are misleading. A for yield in Scala is a compiler primitive that gets transformed into map or flatMap chains. Do not use Await if you can avoid it, it's not a simple issue.

You are introducing blocking behaviour and you have yet to realise the systemic damage you are doing when blocking.

When it comes to Future, map and flatMap do different things:

map is executed when the future completes. It's an asynchronous way to do a type safe mapping.

val f: Future[A] = someFutureProducer
def convertAToB(a: A): B = {..}
f map { a => convertAToB(a) } 

flatMap

is what you use to chain things:

someFuture flatMap {
  _ => {
    someOtherFuture
  }
}

The equivalent of the above is:

for {
  result1 <- someFuture
  result2 <- someOtherFuture
} yield result2

In Play you would use Async to handle the above:

Async {
    someFuture.map(i => Ok("Got result: " + i))
}

Update

I misunderstood your usage of Play. Still, it doesn't change anything. You can still make your logic asynchronous.

someFuture onComplete {
  case Success(result) => // doSomething
  case Failure(err) => // log the error etc
}

The main difference when thinking asynchronously is that you always have to map and flatMap and do everything else inside Futures to get things done. The performance gain is massive.

The bigger your app, the bigger the gain.

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Correct me if I'm wrong but since he's not using Play, the Await is unavoidable. In Play, the Async I believe is just freeing the app to process other requests until everything works out for the current one, however, the client would be still Awaiting his response. – Peter Mar 14 '14 at 15:51
    
@Peter Not necessarily. To understand the difference between an Async await and a blocking await, read stackoverflow.com/questions/21558858/… – flavian Mar 14 '14 at 16:07
    
I'm confused, so he should never Await to get the wanted result? how would he proceed? And I'm only talking about Scala, no Play involved. – Peter Mar 14 '14 at 16:10
    
@Peter Basically, all your logic becomes async chains. It's the same thing really, if you know about daemon threads and app lifecycles. A web server has nothing to do with it. – flavian Mar 14 '14 at 16:11
    
Yes that I understood, but here is what bothers me, imagine that we have a simple program, that would call a method that returns a Future of string, this method, does a lot of things, so the String is not instantly available when the method is called, and imagine that our program has to only print that String, if this program doesn't await for the result of that Future, how is it going to print that String? I'm really confused now BTW. :) – Peter Mar 14 '14 at 16:18

You can use scala.concurrent.Await for that:

import scala.concurrent.duration._
import scala.concurrent.Await

def getDocument(tag: String):Option[Library.Document] = {
   val fakeRequest = play.api.test.FakeRequest().withHeaders(CONTENT_TYPE -> "application/json")
   val context = Await.result(buildContext(tag)(fakeRequest), 42.seconds)
   val maybeDoc = context.getDocument

}

But Await will block thread while future is not completed, so would be better either make buildContext a synchronous operation returning Granite.Context, or make getDocument async too, returning Future[Option[Library.Document]].

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When using a for-comprehension on a Future, you're not waiting for it to finish, you're just saying: when it is finished, use it like this, and For-comprehension returns another Future in this case.

If you want to wait for a future to finish, you should use the Await as follows:

val resultContext = Await.result(context , timeout.duration)

Then run the getDocument method on it as such:

val maybeDoc = resultContext.getDocument

EDIT

The usual way to work with Futures however is to wait until the last moment before you Await. As pointed out by another answer here, Play Framework does the same thing by allowing you to return Future[Result]. So, a good way to do things would be to only use for-comprehensions and make your methods return Futures, etc, until the last moment when you want to finally return your result.

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Why are you casting? Await is typed. – Rex Kerr Mar 14 '14 at 15:57
    
Edited. Thanks. – Peter Mar 14 '14 at 16:04

Once you are in a future you must stay in the future or you must wait until the future arrives.

Waiting is usually a bad idea because it blocks your execution, so you should work in the future.

Basically you should change your getDocument method to return a Future to something like getDocument(tag: String):Future[Option[Library.Document]]

Then using map ro flatMap, you chain your future calls:

return buildContext(tag)(fakeRequest).map(_.getDocument)

If buildContext fails, map will wrap the Failure

Then call

getDocument("blah").onComplete {
    case Success(optionalDoc) => ...
    case Failure(e) =>...
}
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