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I'm working on using Futures for the first time in Scala and am working through an example of using the flatMap combinator; I've been following this discussion:

Specifically, this example:

val usdQuote = future { connection.getCurrentValue(USD) }
val chfQuote = future { connection.getCurrentValue(CHF) }
val purchase = for {
    usd <- usdQuote
    chf <- chfQuote
      if isProfitable(usd, chf)
} yield, chf)

purchase onSuccess {
    case _ => println("Purchased " + amount + " CHF")

is translated to this:

val purchase = usdQuote flatMap {
    usd =>
        .withFilter(chf => isProfitable(usd, chf))
        .map(chf =>, chf))

What I'm having a bit of trouble grasping is how and when this is flatMap executed?

I understand that usdQuote and chfQuote are executed by "some thread" at "some time" and their registered callback functions called, questions are:

a) Are usdQuote and chfQuote executed concurrently? (I'm pretty sure they are).

b) How does flatMap assign the value of the Future useQuote to usd? As in, does it get called when the operation usdQuote completes?

c) What thread is executing the 'flatMap' and 'map' operation (probably more of a follow-on from the last question).


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up vote 9 down vote accepted
  • a) When you created them you've already started them executing against the implicit ExecutionContext in scope, so they're potentially running concurrently as it depends on how that is executing them.

  • b) It doesn't really assign the value as such, but the implementation uses the onComplete method to cause the function you've passed to be triggered once a result has been reached. At the current time this should link to that flatMap method I'm referring to:

  • c) Those are running via the ExecutionContext previously mentioned, consider also that if those Future instances can be running on different ExecutionContexts, so parts of the for-comprehension can be running on different thread pools.

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Generally speaking, future callbacks can and probably will be run in a thread separate from the threads that started the future and executed the future. – sourcedelica Jan 19 '13 at 22:32
Indeed, as with map/flatMap they run against the ExecutionContext, which may or may not be multiple threads. – Sean Parsons Jan 20 '13 at 17:43
the link does not exist anymore – unludo Oct 8 '14 at 14:23
@unludo That should be fixed now. – Sean Parsons Oct 8 '14 at 15:48
"Those [flatMap and map] are running via the ExecutionContext previously mentioned." I think this is true of the call to map and the call to withFilter, but isn't flatMap executed by the "main" thread, i.e. the one in which purchase is declared? – Theodore Norvell Jun 25 '15 at 18:08

I'm face the same question... And i found useful this general explanation about for-comprehesion. May be this helps:


A for-comprehension is syntactic sugar for map, flatMap and filter operations on collections.

The general form is for (s) yield e

  • s is a sequence of generators and filters
  • p <- e is a generator
  • if f is a filter
  • If there are several generators (equivalent of a nested loop), the last generator varies faster than the first
  • You can use { s } instead of ( s ) if you want to use multiple lines without requiring semicolons
  • e is an element of the resulting collection

Example 1:

  // list all combinations of numbers x and y where x is drawn from
  // 1 to M and y is drawn from 1 to N
  for (x <- 1 to M; y <- 1 to N)
    yield (x,y)

is equivalent to

(1 to M) flatMap (x => (1 to N) map (y => (x, y)))

Translation Rules

A for-expression looks like a traditional for loop but works differently internally

  • for (x <- e1) yield e2 is translated to => e2)
  • for (x <- e1 if f) yield e2 is translated to for (x <- e1.filter(x => f)) yield e2
  • for (x <- e1; y <- e2) yield e3 is translated to e1.flatMap(x => for (y <- e2) yield e3)

This means you can use a for-comprehension for your own type, as long as you define map, flatMap and filter

Example 2:

for {  
  i <- 1 until n  
  j <- 1 until i  
  if isPrime(i + j)  
} yield (i, j)

is equivalent to

for (i <- 1 until n; j <- 1 until i if isPrime(i + j))
    yield (i, j)

is equivalent to

(1 until n).flatMap(i => (1 until i).filter(j => isPrime(i + j)).map(j => (i, j)))
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