I have built an akka graph that defines a flow. My objective is to reformat my future response and save it to a file. The flow can be outlined bellow:

val g = RunnableGraph.fromGraph(GraphDSL.create() { implicit builder: GraphDSL.Builder[NotUsed] =>
      import GraphDSL.Implicits._
      val balancer = builder.add(Balance[(HttpRequest, String)](6, waitForAllDownstreams = false))
      val merger = builder.add(Merge[Future[Map[String, String]]](6))
      val fileSink = FileIO.toPath(outputPath, options)
      val ignoreSink = Sink.ignore
      val in = Source(seeds)
      in ~> balancer.in
      for (i <- Range(0,6)) {
        balancer.out(i) ~>
          wikiFlow.async ~>
          // This maps to a Future[Map[String, String]]
          Flow[(Try[HttpResponse], String)].map(parseHtml) ~>

      merger.out ~>
      // When we merge we need to map our Map to a file
      Flow[Future[Map[String, String]]].map((d) => {
        // What is the proper way of serializing future map
        // so I can work with it like a normal stream into fileSink?

        // I could manually do ->
        // d.foreach(someWriteToFileProcess(_))
        // with ignoreSink, but this defeats the nice
        // akka flow
      }) ~>


I can hack this workflow to write my future map to a file via foreach, but I'm afraid this could somehow lead to concurrency issues with FileIO and it just doesn't feel right. What is the proper way to handle futures with our akka flow?


1 Answer 1


The easiest way to create a Flow which involves an asynchronous computation is by using mapAsync.

So... lets say you want to create a Flow which consumes Int and produces String using an asynchronous computation mapper: Int => Future[String] with a parallelism of 5.

val mapper: Int => Future[String] = (i: Int) => Future(i.toString)

val yourFlow = Flow[Int].mapAsync[String](5)(mapper)

Now, you can use this flow in your graph however you want.

An example usage will be,

val graph = GraphDSL.create() { implicit builder =>
  import GraphDSL.Implicits._

  val intSource = Source(1 to 10)

  val printSink = Sink.foreach[String](s => println(s))

  val yourMapper: Int => Future[String] = (i: Int) => Future(i.toString)

  val yourFlow = Flow[Int].mapAsync[String](2)(yourMapper)

  intSource ~> yourFlow ~> printSink

  • I'll check this out later tonight. Didn't know about mapAsync, I didn't see it in their guide. Thanks! Feb 6, 2017 at 16:41
  • Now the question becomes what happens when that future nests other futures, how do you manage the thread context of that.
    – PlexQ
    Mar 5, 2019 at 2:41
  • @PlexQ That depends on the nature of these "nested" Futures. Since the stream progression is dependent only on the Top layer Future, you are free to deal with nested futures anyway you want. But you almost (other than for situational exceptions) never want to use the same execution context for these nested futures. Mar 5, 2019 at 5:57

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.