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how to do sequential execution of Futures in scala

I have this scenario where I need to use an iterator, for each of the item a function f(item) is called and returns a Future[Unit].

However, I need to make it that each f(item) call is executed sequentially, they can not run in parallel.

for(item <- it)
  f(item)

won't work becuase this starts all the calls in parallel.

How do I do it so they follow in sequence?

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If you don't mind a very localised var, you can serialise the asynchronous processing (each f(item)) as follows (flatMap does the serialization):

val fSerialized = {
  var fAccum = Future{()}
  for(item <- it) {
    println(s"Processing ${item}")
    fAccum = fAccum flatMap { _ => f(item) }
  }
  fAccum
}

fSerialized.onComplete{case resTry => println("All Done.")}

In general, avoid Await operations - they block (kind of defeats the point of async, consumes resources and for sloppy designs, can deadlock)


Cool Trick 1:

You can chain together Futures via that usual suspect, flatmap - it serializes asynchronous operations. Is there anything it can't do? ;-)

def f1 = Future { // some background running logic here...}
def f2 = Future { // other background running logic here...}

val fSerialized: Future[Unit] = f1 flatMap(res1 => f2)  

fSerialized.onComplete{case resTry => println("Both Done: Success=" + resTry.isSuccess)}

None of the above blocks - the main thread runs straight through in a few dozen nanoseconds. Futures are used in all cases to execute parallel threads and keep track of asynchronous state/results and to chain logic.

fSerialized represents a composite of two different asynchronous operations chained together. As soon as the val is evaluated, it immediately starts f1 (running asynchonously). f1 runs like any Future - when it eventually finishes, it calls it's onComplete callback block. Here's the cool bit - flatMap installs it's argument as the f1 onComplete callback block - so f2 is initiated as soon as f1 completes, with no blocking, polling or wasteful resource usage. When f2 is complete, then fSerialized is complete - so it runs the fSerialized.onComplete callback block - printing "Both Done".

Not only that, but you can chain flatmaps as much as you like with neat non-spaghetti code

 f1 flatmap(res1 => f2) flatMap(res2 => f3) flatMap(res3 => f4) ...

If you were to do that via Future.onComplete, you would have to embed the successive operations as nested onComplete layers:

f1.onComplete{case res1Try => 
  f2
  f2.onComplete{case res2Try =>
    f3
    f3.onComplete{case res3Try =>
      f4
      f4.onComplete{ ...
      }
    }
  }
}

Not as nice.

Test to prove:

import scala.concurrent.Future
import scala.concurrent.ExecutionContext.Implicits.global
import scala.concurrent.blocking
import scala.concurrent.duration._

def f(item: Int): Future[Unit] = Future{
  print("Waiting " + item + " seconds ...")
  Console.flush
  blocking{Thread.sleep((item seconds).toMillis)}
  println("Done")
}

val fSerial = f(4) flatMap(res1 => f(16)) flatMap(res2 => f(2)) flatMap(res3 => f(8))

fSerial.onComplete{case resTry => println("!!!! That's a wrap !!!! Success=" + resTry.isSuccess)}

Cool Trick 2:

for-comprehensions like this:

for {a <- aExpr; b <- bExpr; c <- cExpr; d <- dExpr} yield eExpr

are nothing but syntactic-sugar for this:

aExpr.flatMap{a => bExpr.flatMap{b => cExpr.flatMap{c => dExpr.map{d => eExpr} } } }

that's a chain of flatMaps, followed by a final map.

That means that

f1 flatmap(res1 => f2) flatMap(res2 => f3) flatMap(res3 => f4) map(res4 => "Did It!")

is identical to

for {res1 <- f1; res2 <- f2; res3 <- f3; res4 <- f4} yield "Did It!"

Test to Prove (following on from previous test):

val fSerial = for {res1 <- f(4); res2 <- f(16); res3 <- f(2); res4 <- f(8)} yield "Did It!"
fSerial.onComplete{case resTry => println("!!!! That's a wrap !!!! Success=" + resTry.isSuccess)}

Not-So-Cool Trick 3:

Unfortunately you can't mix iterators & futures in the same for-comprehension. Compile error:

val fSerial = {for {nextItem <- itemIterable; nextRes <- f(nextItem)} yield "Did It"}.last

And nesting fors creates a challenge. The following doesn't serialize, but runs async blocks in parallel (nested comprehensions don't chain subsequent Futures with flatMap/Map, but instead chains as Iterable.flatMap{item => f(item)} - not the same!)

val fSerial = {for {nextItem <- itemIterable} yield
                 for {nextRes <- f(nextItem)} yield "Did It"}.last

Also using foldLeft/foldRight plus flatMap doesn't work as you'd expect - seems a bug/limitation; all async blocks are processed in parallel (so Iterator.foldLeft/Right is not sociable with Future.flatMap):

import scala.concurrent.Future
import scala.concurrent.ExecutionContext.Implicits.global
import scala.concurrent.blocking
import scala.concurrent.duration._

def f(item: Int): Future[Unit] = Future{
  print("Waiting " + item + " seconds ...")
  Console.flush
  blocking{Thread.sleep((item seconds).toMillis)}
  println("Done")
}

val itemIterable: Iterable[Int] = List[Int](4, 16, 2, 8)
val empty = Future[Unit]{()}
def serialize(f1: Future[Unit], f2: Future[Unit]) = f1 flatMap(res1 => f2)

//val fSerialized = itemIterable.iterator.foldLeft(empty){(fAccum, item) => serialize(fAccum, f(item))}
val fSerialized = itemIterable.iterator.foldRight(empty){(item, fAccum) => serialize(fAccum, f(item))}

fSerialized.onComplete{case resTry => println("!!!! That's a wrap !!!! Success=" + resTry.isSuccess)}

But this works (var involved):

import scala.concurrent.Future
import scala.concurrent.ExecutionContext.Implicits.global
import scala.concurrent.blocking
import scala.concurrent.duration._

def f(item: Int): Future[Unit] = Future{
  print("Waiting " + item + " seconds ...")
  Console.flush
  blocking{Thread.sleep((item seconds).toMillis)}
  println("Done")
}

val itemIterable: Iterable[Int] = List[Int](4, 16, 2, 8)

var fSerial = Future{()}
for {nextItem <- itemIterable} fSerial = fSerial.flatMap(accumRes => f(nextItem)) 

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