Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a little issue related to placeholder syntax in Scala. So I have a simple List of numbers :

myList = List(13, 24, 10, 35)

first, I tried to filter this list like this

myList.filter(_ => (_ % 5) == 0)

and the compiler complains since it can not infer the parameter type :

error: missing parameter type for expanded function ((x$2) => x$2.$percent(5))

okay, no problem : I added a type for the parameter

myList.filter(_:Int => _ % 5 == 0)

now the compiler gives me this :

identifier expected but integer literal found.
       someNumbers.filter(_:Int => _ % 5 == 0)

do you guys know why I have this weird error ? I really don't get it ...

thanks in advance,

share|improve this question
possible duplicate of Underscore in List.filter –  Tomasz Nurkiewicz May 17 '12 at 18:20

3 Answers 3

up vote 15 down vote accepted

You have no idea, but this:

identifier expected but integer literal found.
       someNumbers.filter(_:Int => _ % 5 == 0)

is an awesome error! Well, not in the sense people would like it, but you managed to almost write something syntactically correct and utterly different from what you intended. First, let's look at rewriting that is valid code:

someNumbers.map(_: Int => _ <:< Any)

Now, you see that there are only two differences from it to what you wrote (up to the error position): % replaced with <:, and 5 replaced with Any (as the compiler wanted -- an identifier instead of a number).

You can compile and run the code above, and it will return something, so let's try to break it down. First, consider the two statements below:

someNumbers.map(_ + 1)
someNumber.map(_) // does not compile

They each mean something slightly different, and can be rewritten like this:

someNumbers.map(x => x + 1)
x => someNumbers.map(x)

The first one compiles because, at the time the x parameter is declared, the compiler knows what type is expected. The second one does not compile because, at the time the compiler sees x, it has no idea how it is going to be used. Granted that's only because the compiler has rewritten the code, but that's how it goes.

The important thing here is that, when you added : Int, the compiler started trying to compile what you wrote the second way.

The thing you intended to write is not valid code. For example:

someNumbers.map(x => x + 1) // valid code
someNumbers.map((x: Int) => x + 1) // valid code
someNumbers.map(x : Int => x + 1) // "invalid" code

To be more precise, the third example is "invalid" because the compiler doesn't know where the type ends! To understand why, look at this statement:

val f: Int => Int = x => x

Here we have => appearing twice, but each time with a different meaning! The first case, Int => Int, is syntactic sugar for Function1[Int, Int]. In other words, => in Int => Int is part of the type.

In the second case, x => x (roughly) stands for new Function1[Int,Int] { def apply(x: Int) = x }. The => in this code indicates the presence of an anonymous function, and separates its parameter from its body.

Now we can understand how the compiler interpreted someNumbers.filter(_: Int => _ % 5 == 0). Like this:

someNumbers.filter(_: Int => _ % 5 == 0) // gets rewritten as
(x: Int => _ % 5 == 0) => someNumbers.filter(x)

Meaning that Int => _ % 5 == 0 was assumed to be the type. We already saw why => doesn't stop it, but the error only happened on 5! What's going on between here and there?

First, I'll get back to my compilable example. It makes use of a Scala construct that isn't very well understood, and not often seen either: the infix type notation. That example can be rewritten like below:

someNumbers.map(_: Int => _ <:< Any)
someNumbers.map(_: Int => <:<[_, Any])

In other words, just like 2 * 2 stands for 2.*(2), Int Map String stands for Map[Int, String]. So that explains why the compiler did not stop at % -- it thought it stood for a type -- but it still leaves us with _.

At this point, however, the meaning of _, particularly in the rewritten form, shouldn't look mysterious: it is an existential type! More specifically, it is the wildcard existential type. The whole thing can be rewritten like this:

(x: Function1[Int,<:<[t, Any] forSome { type t }]) => someNumbers.map(x)

Or, without any syntactic sugar (but being slightly different in implementation*):

new Function1[Function1[Int, <:<[t, Any] forSome { type t }], List[<:<[q, Any] forSome { type q }]] { 
  def apply(x) = someNumbers.map(x) 

Now, don't you agree this could hardly be farther from what you wanted to write? :-)

(*) Actually, I think t and q are the same in the original, but I haven't figured any way to write it out without syntactic sugar.

share|improve this answer
@Daniel-C-Sobral That was an amazing explanation :-) ... I must admit I was far from being able to explain it that way. Anyway thanks a lot, I think it helped a lot of people have a better understanding of this issue. –  kaffein May 18 '12 at 8:30
Yeah, he kinda takes after Oleg –  Gene T May 19 '12 at 14:44
Who ever said Scala was complex?? Maybe things will improve with SIP-18, where existential types and higher kinds are unavailable by default. –  Luigi Plinge May 20 '12 at 23:34

You meant this:

val myList = List(13, 24, 10, 35)
myList.filter(x => (x % 5) == 0)

The placeholder _ in something like myList.map(_ + 5) is shorthand for making a function, in this case myList.map(x => x + 5). So myList.map(_ => _ + 5) because it's sort of saying "map each item in myList to the sum of a function x => x and 5".

The other use of placeholders in something like this is to ignore the parameter. So myList.map(_ => 1) means "ignore the item and just map everything to 5". In your case, you need the item to decide whether to filter it, so having _ => doesn't make sense.

The expression myList.filter(x => (x % 5) == 0) means "for each x in myList, keep it if (x % 5) == 0".

share|improve this answer
thanks a lot for your response. Actually, this solves my problem but I want to understand why the placeholder does not work in this case. Can you please provide me with some explanation ? thanks –  kaffein May 17 '12 at 18:17
Btw, I will accept your answer in 10 minutes (stackoverflow rules). It's actually the fastest anwser I've ever had on stack so thanks –  kaffein May 17 '12 at 18:19
@kaffein, I added some explanation. Does that clear things up? –  dhg May 17 '12 at 18:21
thanks a lot for this clear explanation. And following it I did this : myList.filter(_ % 5 == 0) and it rocks :) ... thanks –  kaffein May 17 '12 at 18:32
Wow, didn't even realize that _ was an acceptable function parameter. What, does that make 18 different uses for it in the language or 19? –  Dave Griffith May 18 '12 at 0:20

What about:

myList.filter(_ % 5 == 0)
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.