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Listening to the Collections lecture from Functional Programming Principles in Scala, I saw this example:

scala> val s = "Hello World"

scala> s.flatMap(c => ("." + c)) // prepend each element with a period
res5: String = .H.e.l.l.o. .W.o.r.l.d

Then, I was curious why Mr. Odersky didn't use a map here. But, when I tried map, I got a different result than I expected.

scala> s.map(c => ("." + c))
res8: scala.collection.immutable.IndexedSeq[String] = Vector(.H, .e, .l, .l, .o, 
                                                          ". ", .W, .o, .r, .l, 

I expected that above call to return a String, since I'm map-ing, i.e. applying a function to each item in the "sequence," and then returning a new "sequence."

However, I could perform a map rather than flatmap for a List[String]:

scala> val sList = s.toList
sList: List[Char] = List(H, e, l, l, o,  , W, o, r, l, d)

scala> sList.map(c => "." + c)
res9: List[String] = List(.H, .e, .l, .l, .o, ". ", .W, .o, .r, .l, .d)

Why was a IndexedSeq[String] the return type of calling map on the String?

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2  
Because you can't put two characters in single Char type? And character + character is two characters that produce String type. –  om-nom-nom Oct 6 '13 at 13:47

3 Answers 3

up vote 10 down vote accepted

The reason for this behavior is that, in order to apply "map" to a String, Scala treats the string as a sequence of chars (IndexedSeq[String]). This is what you get as a result of the map invocation, where for each element of said sequence, the operation is applied. Since Scala treated the string as a sequence to apply map, that is what mapreturns.

flatMap then simply invokes flatten on that sequence afterwards, which then "converts" it back to a String

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Your map function c => ("." + c) takes a char and returns a String. It's like taking a List and returning a List of Lists. flatMap flattens that back.

If you would return a char instead of a String you wouldn't need the result flattened, e.g. "abc".map(c => (c + 1).toChar) returns "bcd".

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With map you are taking a list of characters and turning it into a list of strings. That's the result you see. A map never changes the length of a list – the list of strings has as many elements as the original string has characters.

With flatMap you are taking a list of characters and turning it into a list of strings and then you mush those strings together into a single string again. flatMap is useful when you want to turn one element in a list into multiple elements, without creating a list of lists. (This of course also means that the resulting list can have any length, including 0 – this is not possible with map unless you start out with the empty list.)

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