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How can I avoid a map(identity) in Scala for-comprehensions?

For example, consider:

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

object Test extends App {
  implicit val executorContext = ExecutionContext.global
  val future = Future.successful { 1 }
  val result = for (
    value <- future;
    b <- Future { value * 2 }
  ) yield b
  println(Await.result(result, 60 seconds))
}

IIUC, the for-comprehension translates to something like

future.flatMap(value => Future { value * 2 }).map(identity)

Can I avoid the trailing map(identity) in some way? Or does/can/could Scala optimise it away? (I suppose it cannot as it is not clear whether map has any side effects, right?)

P.S. I know that in this particular example, things can be improved. I am wondering about the general case, where for instance Future { value * 2} is a call f(value) to a function f returning a future.

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3  
It is quite bold assumption that there will be .map(identity) after for-comprehension translation –  om-nom-nom Jan 25 '13 at 14:51
    
For comprehensions doesn't calls a .map(identity). just run a scalac -Xprint:typer to see for yourself. –  pedrofurla Jan 25 '13 at 15:23
1  
Is it me or this is an "abuse" of syntactic sugar when you can write something like val result = future.map( _ * 2) ? –  BGR Jan 25 '13 at 15:32
1  
after scalac -Xprint:parser, you get: (...) val result = future.flatMap(((value) => Future(value.$times(2)).map(((b) => b)))); (...) @pedrofurla, what version of scala are you using ? –  huitseeker Jan 25 '13 at 15:38
1  
@BGR: For single applications of any of the monadic HOFs, I agree. But for all but the simplest such expressions, the for sugar is a wonderful thing. –  Randall Schulz Jan 25 '13 at 18:35

1 Answer 1

It's an anti-pattern to create your own Future just to operate applicatively inside one. You can instead:

  • future.map() and finally get your result with onSuccess (this is the simplest model)
  • if you are dead set on comprehensions, yield Future { value * 2 } and then get your result ... (though this doesn't solve the spurious Future creation problem)
  • transform your Future and then get your result ...
  • collect on your future and then map(f) on results

Depending on your context and computation model, one or another of these solutions might more appropriate : you seem to be presenting a specific case of a general situation, but it's unclear if the general situation should involve iterating over Futures, chaining transformations in one Future, or something else entirely.

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Thanks, @huitseeker, for your comments on this particular use case involving futures, very useful. However, as you say, I was trying to present an example for a general observation: namely that such monadic expressions are compiled by Scala to function calls, where the last one is map(identify). I am wondering whether this could be optimised away? For, in some monads, the latter call might be expensive. –  Hbf Feb 20 '13 at 1:06

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