1

I am currently developing an akka-stream/alpakka application that has the following general logic

  1. Given a Flow, split it into a SubFlow using the splitAfter method.
  2. For each of the SubFlow's in point 1, use prefixAndTail(1) to create a key based on the first element of that Subflow
  3. Attach each Subflow to a Sink that is given that key as a parameter.

So assuming we have a function defined as following which gives us a Sink

def mySink(key: String): Sink[ByteString, Future[Done]]

Essentially what I want to do is something like this

val source = ???
val subFlows = source.splitAfter(...)
val logic = subflows.prefixAndTail(1).flatMapConcat { case (head, rest) =>
  val computedFlow: Flow[ByteString, ByteString]  = ???
  computedFlow
}
val finished = logic.prefixAndTail(1).to(
  Sink.lazySink { (head) => 
    val key = computeKey(head)
    mySink(key)
  }
)

This code evidently doesn't compile since Sink.lazySink's thunk takes 0 parameters. I tried other variations however I haven't gotten anywhere. In the documentation for Sink.lazySink it says that you can combine it with prefixAndTail(1) to get the first element out of the flow presumably so you can use the first element as an input to the final Sink which in my case is mySink(key) (like with the combination of prefixAndTail(1).flatMapConcat on a Flow). The problem is that the .to command doesn't accept parameters (only a raw Sink) so you end up with the following problem

val finished = logic.prefixAndTail(1).to(
  Sink.lazySink { () => 
    // How do I get the first element out of the sink so I can compute
    // the key?
    val key = computeKey(???)
    mySink(key)
  }
)

I tried computing the key in the logic Flow however then you have to compose Sink's of two different types (one which is the key, computed from the head of the subflow and the other which is the original Sink that accepts a ByteStream) which doesn't really work

val logic = subflows.prefixAndTail(1).flatMapConcat { case (head, rest) =>
  ...
  val computedFlow: Flow[ByteString, ByteString] = ???
  val key = computeKey(head)
  computedFlow.map(something => (something, key) )
}
val finished = logic.to(
  Sink.lazySink { () => 
    // Here I have to return a Sink[ByteString, String] but 
    // mySink only returns returns Sink[ByteString].
    // I essentially need to do something along the lines of Sink[String].flatMap(key => mySink(key))
    // but this doesn't work because Sink's don't have an output
  }
)

So hence I am kind of stuck. Since I am working with a SubFlow I have a limited set of methods and I can't seem to find a way to pass the key (which you compute with the first element from each SubFlow) to pass as a parameter to mySink(key: String)

Sink.lazyInit appears to close to what I want, I managed to get the following to compile

val logic = subflows.prefixAndTail(1).flatMapConcat { case (head, rest) =>
  ...
  val computedFlow(head, rest): Flow[ByteString, ByteString] = ???
  val key = computeKey(head)
  computedFlow.map(something => (something, key) )
}
val finished = logic.to(
  Sink.lazyInit( { case (_, key} =>
    Future.successful(
      mySink(key).contramap[(ByteString, String)] { case (content, _) => content }
    )
  ), ???)
)

Although the problem is that Sink.lazyInit is deprecated and so I would prefer to use the prefixAndTail(1).to(Sink.lazySink) combination (as stated in the depreciation message). Also I am unsure as to what the point of requiring a Future is (and whether Future.successful is appropriate or should I use standard Future.apply that requires an ExecutionContext).

1 Answer 1

0

Something like this compiles in my mind

def logic: Source[ByteString, NotUsed] = ???

val finished = logic.prefixAndTail(1).to {
  val donePromise = Promise[Done]()
  Sink.foreach {
    case (prefix, tail) =>
      prefix.headOption match {
        case None => donePromise.success(Done)
        case Some(head) =>
          donePromise.completeWith(tail.runWith(mySink(head)))
      }
  }.mapMaterializedValue(_ => donePromise.future)
}

prefixAndTail emits only one element (the tuple of prefix and tail), so we can use Sink.foreach to wait until that emission to attach mySink to tail and run it. We also effectively replace the materialized value of the Sink.foreach with the materialized value of mySink.

val finished = logic.to {
  Sink.fromMaterializer { (mat, _) =>
    // TODO: plumb stream attributes through
    val sinkPromise = Promise[Sink[ByteString, Future[Done]]]()
    Flow[ByteString].prefixAndTail(1)
      .wireTap {
        case (prefix, tail) =>
          prefix.headOption match {
            case None => sinkPromise.success(Sink.ignore) // or fail with an exception signalling nothing materialized
            case Some(head) => sinkPromise.success(mySink(head))
          }
      }
      .flatMapConcat(_._2)
      .toMat(Sink.lazyFutureSink(() => sinkPromise.future))(Keep.right)
  }
}

Sink.fromMaterializer seems the only way to setup a per-materialization channel (the promise/future combination) for getting a sink built from a stream element into lazyFutureSink.

6
  • Thanks for the suggestion however this is basically the implementation of Sink.lazyInit, i.e. github.com/akka/akka/blob/… So this isn't any better than using Sink.lazyInit
    – mdedetrich
    Aug 13, 2021 at 20:12
  • Came up with an alternative approach which is the only thing I can think of that uses prefixAndTail with lazyFutureSink... I've posted a question in the Akka Gitter channel, because it's a bit of a mystery how to do this without something crazy like this. Aug 14, 2021 at 0:59
  • The PR discussions around steering everyone to prefixAndTail with lazyFutureSync do call the technique out as being obscure. Aug 14, 2021 at 1:00
  • Thanks, can you provide the alternative solution that uses prefixAndTail + lazyFutureSync, I am also curious what it is. Definitely agree with you that the solution to this problem appears to be obscure in general.
    – mdedetrich
    Aug 14, 2021 at 9:15
  • I must have forgotten to hit save on the edit where I added it.... Aug 14, 2021 at 11:46

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