I have found that Scala always has a "natural explanation" to anything. Always something like "ohh, but that's just a function being called on this and that object with this and that parameter". In a sense, nothing is really compiler-magic as we know it from other languages.

My question is on the <- operator as used in the following code:

for(i <- 0 to 10) println(i)

In this example I can see it being rewritten to something like:


but this doesn't explain how the i got carried into the anonymous function inside the foreach function. At the point where you write i it is not an object, and not yet a declared variable. So what is it, and how is it being carried over to the inside of foreach?

My guess is that I finally discovered something which is in fact compiler magic

Thanks for your time.

To clarify, my question is: how does the <- operator work in the 1st line of code since i is not an object on which it can be called as a function.

3 Answers 3


To augment Dave's answer, here is a translation schema for 'for-comprehensions' from Scala language specification:

A comprehension for (enums) yield e evaluates expression e for each binding generated by the enumerators enums. An enumerator sequence always starts with a generator; this can be followed by further generators, value definitions, or guards.

A generator p <- e produces bindings from an expression e which is matched in some way against pattern p. A value definition val p = e binds the value name p (or several names in a pattern p) to the result of evaluating the expression e. A guard if e contains a boolean expression which restricts enumerated bindings.

The precise meaning of generators and guards is defined by translation to invocations of four methods: map, filter, flatMap, and foreach. These methods can be implemented in different ways for different carrier types.

The translation scheme is as follows. In a first step, every generator p <- e, where p is not irrefutable (§8.1) for the type of e is replaced by

 p <- e.filter { case p => true; case _ => false }

Then, the following rules are applied repeatedly until all comprehensions have been eliminated.

  • A for-comprehension for (p <- e) yield e0 is translated to e.map { case p => e0 }.

  • A for-comprehension for (p <- e) e0 is translated to e.foreach { case p => e0 }.

  • A for-comprehension for (p <- e; p0 <- e0 . . .) yield e00, where . . . is a (possibly empty) sequence of generators or guards, is translated to:
    e.flatMap { case p => for (p0 <- e0 . . .) yield e00 }.

  • A for-comprehension for (p <- e; p0 <- e0 . . .) e00 where . . . is a (possibly empty) sequence of generators or guards, is translated to:
    e.foreach { case p => for (p0 <- e0 . . .) e00 } .

  • A generator p <- e followed by a guard if g is translated to a single generator:
    p <- e.filter((x1, . . . , xn) => g )
    where x1, . . . , xn are the free variables of p.

  • A generator p <- e followed by a value definition val p0 = e0 is translated to the following generator of pairs of values, where x and x0 are fresh names:

    val (p, p0) <- 
      for(x@p <- e) yield { val x0@p0 = e0; (x, x0) }
  • 1
    Okay, I don't understand everything after first read, but it's interesting :-) Where did you get this?
    – Felix
    Sep 21, 2010 at 19:50
  • @Felix: As I said at the top of the answer, it's from the language specification (can be downloaded from www.scala-lang.org) Sep 21, 2010 at 20:21
  • Link to the language specification: scala-lang.org/files/archive/spec/2.12/… Apr 1, 2019 at 16:42

<- is a language-defined keyword symbol, as is => but in distinct contrast to -> (which is a defined symbol). Because it is part of the basic Scala grammar, it can be used to create bindings (for the i in your example) which is something that cannot be done by user-defined constructs.

  • This seems to be the answer. I would suggest you to document this if possible, it is kinda out of the blue right now.
    – Felix
    Sep 21, 2010 at 19:47
  • 4
    @Felix: It's documented in the specification. And pretty much every Scala book available in the market covers it. Sep 21, 2010 at 20:19
  • oh yeah, i didnt get a book yet. waiting for the definitive 2.8 book
    – Felix
    Sep 22, 2010 at 19:50
  • 1
    This is not at all new in 2.8. I only picked up the language in the 2.7 era, but I'm pretty sure it goes back much further, likely to the very beginning of the language. Sep 22, 2010 at 20:27
  • Yes...that still doesn't change the fact that I'm waiting for the definitive 2.8 book :-)
    – Felix
    Nov 22, 2010 at 15:48

In this case, it really is a bit of compiler magic. Translation from for-comprehension to filter/map/flatmap form is a special bit of desugaring, much like conversion of the special forms of update and apply methods.

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