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object Test1 {
    def main(args: Array[String]) {
        val list = List("a", "b")
        list map { x ⇒ println(x) }
        list map { case x ⇒ println(x) }

        val list2 = List(("aa", "11"))
        list2 map {
            case (key, value) ⇒ println("key: "+key+", value: "+value)
        }
    }

}

Please note the last line, why the keyword case must be used, but the list map { x ⇒ println(x) } can remove it?

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I removed my misleading answer as it didn't compile as you noted, sorry about that, I had no compiler handy :( –  Pere Villega Feb 24 '11 at 14:23
1  
The case looks like boilerplate, sure. The real question here is: why does the compiler not try what happens with a case if it finds something weird instead of a parameter identifier? Maybe because you can do only so much implicitly without confusing everybody. –  Raphael Feb 24 '11 at 17:35

5 Answers 5

up vote 9 down vote accepted
{ case (key, value) => f }

is not the same thing as

{ (key, value) => f }

The first is a pattern match that breaks a Tuple2 into its components, assigning their values to key and value. In this case, only one parameter is being passed (the tuple). { x => println(x) } works because x is assigned the tuple, and println prints it.

The second is a function which takes two parameters, and makes no pattern matching. Since map requires a function which takes a single parameter, the second case is incompatible with map.

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For those wanting chapter and verse, see section 8.5, "Pattern Matching Anonymous Functions", in the Book of Martin. –  Ed Staub Nov 21 '13 at 18:32

You can't break open the tuple in function literal. That's why you'll have to use case to match them instead. Another way is using tupled to make your function with two arguments fit:

import Function.tupled 
list2 map tupled {
  (key, value) => println("key: "+key+", value: "+value)
}
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list2 has elements of type Tuple2[Int, Int], so the signature of the function you have to pass map (in this case ... foreach is a more natural choice when you don't return something) is Tuple2[Int, Int] => Unit. Which is to say, it takes a single argument of type Tuple2[Int, Int].

Since Tuple2 supports unapply, you can use pattern matching to break apart that tuple within your function, as you did:

{
  case (key, value) ⇒ println("key: "+key+", value: "+value)
}

The signature of this function is still Tuple2[Int, Int] => Unit

It is identical to, and probably compiles to the same bytecodes, as:

{
  x: Tuple2[Int, Int] => println("key: "+x._1+", value: "+x._2)
}

This is one of so many examples where Scala combines orthogonal concepts in a very pleasing way.

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list2 map { x => println(x) } works without problems for me. If you want to have pattern matching (splitting your argument in its parts according to its structure) you need always case. Alternatively you can write:

list2 map { x => println("key: "+x._1+", value: "+x._2) }

BTW, map should be used to transform a list in another one. If you just want to go through all elements of a list, use foreach or for comprehension.

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I am still learning Scala, but I believe what's happening is that you've defined a partial function taking one argument. When invoking methods such as List.map or List.foreach that only require one argument you can omit the underscore or named val.

Example ommitting val name in closure:

val v = List("HEY!", "BYE!")
v.foreach { Console.println } // Pass partial function, automatically

This is the same as:

val v = List("HEY!", "BYE!")
v.foreach { Console.println _ } // Pass partial function, explicitly

Using the anonymous val:

val v = List("HEY!", "BYE!")
v.foreach { Console.println(_) } // Refer to anonymous param, explicitly

Or using a named val:

val v = List("HEY!", "BYE!")
v.foreach { x => Console.println(x) } // Refer to val, explicitly

In your closure you use a partial function (the case statement) that takes an anonymous variable and immediately turns it into a tuple bound to two separate variables.

I imagine I goofed up on one of the snippets above. When I get to my work computer I will verify in the REPL.

Also, take a look at Function Currying in Scala for some more info.

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What makes them partial functions? –  Eric Bowman - abstracto - Feb 24 '11 at 15:41
    
@Eric With case, you're doing pattern matching, which might not match. –  Jim Balter Feb 25 '11 at 10:03
    
If I define: val f: (Int, Int) => Unit = { case (x: Int, y: Int) => println(x) }, then ask, f.isInstanceOf[PartialFunction[(Int, Int),Unit]], the answer is false. I don't believe it is a partial function, it's pattern matching inside a normal function. –  Eric Bowman - abstracto - Feb 25 '11 at 11:39
    
Ok, I see, it is a partial function, but not a PartialFunction. –  Eric Bowman - abstracto - Feb 25 '11 at 15:20

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