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I have a case where I want to call a method n times, where n is an Int. Is there a good way to do this in a "functional" way in Scala?

case class Event(name: String, quantity: Int, value: Option[BigDecimal])

// a list of events
val lst = List(
    Event("supply", 3, Some(new java.math.BigDecimal("39.00"))),
    Event("sale", 1, None),
    Event("supply", 1, Some(new java.math.BigDecimal("41.00")))

// a mutable queue
val queue = new scala.collection.mutable.Queue[BigDecimal] { event => match {
        case "supply" => // call queue.enqueue(event.value) event.quantity times
        case "sale" =>   // call queue.dequeue() event.quantity times

I think a closure is a good solution for this, but I can't get it working. I have also tried with a for-loop, but it's not a beautiful functional solution.

share|improve this question
Related:… –  Arjan Blokzijl Sep 23 '11 at 14:19
You're not going to get a functional solution with a mutable queue. –  Apocalisp Sep 23 '11 at 17:44
@Apocalisp: A mutable queue is not a requirement. –  Jonas Sep 26 '11 at 14:37

5 Answers 5

up vote 7 down vote accepted

A more functional solution would be to use a fold with an immutable queue and Queue's fill and drop methods:

 val queue = lst.foldLeft(Queue.empty[Option[BigDecimal]]) { (q, e) => match {
     case "supply" => q ++ Queue.fill(e.quantity)(e.value)
     case "sale"   => q.drop(e.quantity)

Or even better, capture your "supply"/"sale" distinction in subclasses of Event and avoid the awkward Option[BigDecimal] business:

sealed trait Event { def quantity: Int }
case class Supply(quantity: Int, value: BigDecimal) extends Event
case class Sale(quantity: Int) extends Event

val lst = List(
  Supply(3, BigDecimal("39.00")),
  Supply(1, BigDecimal("41.00"))

val queue = lst.foldLeft(Queue.empty[BigDecimal]) { (q, e) => e match {
  case Sale(quantity)          => q.drop(quantity)
  case Supply(quantity, value) => q ++ Queue.fill(quantity)(value)

This doesn't directly answer your question (how to call a function a specified number of times), but it's definitely more idiomatic.

share|improve this answer

The simplest solution is to use range, I think:

(1 to n) foreach (x => /* do something */)

But you can also create this small helper function:

implicit def intTimes(i: Int) = new {
    def times(fn: => Unit) = (1 to i) foreach (x => fn)

10 times println("hello")

this code will print "hello" 10 times. Implicit conversion intTimes makes method times available on all ints. So in your case it should look like this:

event.quantity times queue.enqueue(event.value) 
event.quantity times queue.dequeue() 
share|improve this answer
Thanks, but I couldn't use the first suggestion, since my queue.dequeue() return a BigDecimal. –  Jonas Sep 23 '11 at 16:55
for (i <- 1 to n) {/* do something */} is slightly shorter than foreach :) –  Luigi Plinge Sep 23 '11 at 23:59
@Luigi Plinge: I don't think that 4 extra characters make much difference, but I agree, that for comprehension looks a little bit nicer :) –  tenshi Sep 24 '11 at 0:24
how could I modify times to include i as a parameter to the fn? Example: let's say I wanted to print "hello" + i where i = 1 ... 10 in your example –  Kevin Meredith Sep 28 '13 at 15:08
@Kevin You can rewrite times function like this: def times(fn: Int => Unit) = (1 to i) foreach fn. The usage will now look like this: 10 times (i => println("hello" + i)). So instead of taking by-name parameter, times now takes Int => Unit function as an argument. –  tenshi Sep 28 '13 at 15:37

Not quite an answer to your question, but if you had an endomorphism (i.e. a transformation A => A), then using scalaz you could use the natural monoid for Endo[A]

N times func apply target

So that:

scala> import scalaz._; import Scalaz._
import scalaz._
import Scalaz._

scala> Endo((_:Int) * 2).multiply(5)
res3: scalaz.Endo[Int] = Endo(<function1>)

scala> res1(3)
res4: Int = 96
share|improve this answer
Just what I was looking for, thanks! –  knub Feb 21 '13 at 17:21

With recursion:

def repeat(n: Int)(f: => Unit) { 
  if (n > 0) {

repeat(event.quantity) { queue.enqueue(event.value) }
share|improve this answer
import List._

fill(10) { println("hello") }

Simple, built-in, and you get a List of Units as a souvenier!

But you'll never need to call a function multiple times if you're programming functionally.

share|improve this answer
"But you'll never need to call a function multiple times if you're programming functionally." << Huh? –  missingfaktor Sep 24 '11 at 9:42
How would I add four numbers to a List without calling the "add"-function four times? –  Jonas Sep 24 '11 at 11:08
@Jonas Apocalisp is right in his comment that if you're looking for functional code, you shouldn't use mutable data structures, which by their nature require imperative manipulation. (That's not to say that mutable isn't the best solution - sometimes it will be. But it's not functional style.) With immutable structures the answer is basically a) recursion, b) use flatMap in conjuntion with List.fill or (1 to n).map..., or c) use a for-expression to do this more legibly. @missingfaktor I mean within a given scope using the same arguments, it makes no sense –  Luigi Plinge Sep 25 '11 at 23:00
@Luigi: It does make sense, since it's the only way to add multiple items to a queue, as in this case. –  Jonas Sep 25 '11 at 23:28
@Jonas A method that has side-effects like mutating a queue isn't a function - it's an imperative procedure. You're asking how to do something imperative - adding items to a mutable queue - using functions. Since functions by definition always return the same thing for given arguments, and don't have side-effects, this is not possible. Using an immutable queue will help you appreciate this. –  Luigi Plinge Sep 26 '11 at 12:59

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