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i have written a simple script for transforming the c-style identifier names (for example, invoice_number) to java-style ones (like, invoiceNumber).

val files = Vector("file1", "file2")
for (file <- files) {
  val in = io.Source.fromFile(file).mkString
  var out = ""
  var i = 0
  while (i < in.length) {
    val c = in(i)
    if (c == '_') {
      out += in(i + 1).toUpper
      i += 2
    } else {
      out += c
      i += 1
  val writer = new PrintWriter(file + "1")

i would like to know how i can make this code functional. i can't think of any higher order function to replace the "increment i by 2 if <some-condition> else increment by 1" logic. thanks.

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6 Answers 6

Ok, here is my way to do it.

val in = "identifier" :: "invoice_number" :: "some_other_stuff" :: Nil
val out = in map(identifier => {
  val words = identifier.split("_")
  val tail = words.tail.map(_.capitalize)
  (words.head /: tail)(_ + _)


Think it's in reasonable functional style. Interesting how scala gurus will solve this problem :)

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+1 Looks pretty reasonable to me, though I'd words.head + words.tail.map(_.capitalize).mkString instead of the last two lines. –  Rex Kerr Aug 17 '11 at 16:03

I apologize for not using Scala, but the basic idea should translate, so here's how I'd write the essential logic in Haskell:

capitalize :: Char -> String -> String
capitalize '_' (x:xs) = toUpper x:xs
capitalize x xs = x:xs

convertName :: String -> String
convertName = foldr capitalize ""

We have two pieces: A function that uppercases the first character of a string when given an underscore, or if given anything else prepends it to the string. Then we just use this in a right fold over the sequence of input characters, with the empty string as the base case.

Note that default strings in Haskell are lazy sequences of characters, which may not be the case in Scala, but I would expect something similar to be possible, since the functional side of Scala comes from the same general ML-inspired tradition that Haskell does.

EDIT: Incidentally, notice that contrary to what many functional programmers might expect, my implementation is not tail recursive, and this is both intentional and correct. Instead it does the recursive call in the tail of the list, and since data constructors in Haskell let things be lazy, each output character is generated on demand with the rest of the fold lazily deferred, and the whole thing runs in constant stack space. The end result is essentially an iterative loop consuming elements from an input stream, but written to look like a simple recursive function.

Even though you wouldn't do things this way in the general case except in Haskell, lazy lists/generators/etc. are common in many languages these days, and the idiom of "consume a finite amount, process it, produce output" for transforming such streams is language-agnostic.

Also, my appreciation to Antoras and Luigi Plinge for writing Scala implementations with similar algorithms--helps me get a better feel for Scala, which I'm only passingly familiar with currently.

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My tail recursive stab:

def camel(s: String) = {
  def rec(s: Seq[Char], res: Seq[Char]): String = s match {
    case Nil           => res.reverse.mkString
    case '_' :: x :: t => rec(t, x.toUpper +: res)
    case x :: t        => rec(t, x +: res)
  rec(s.toList, "")

println(camel("hay_guise k_thx_bai")) // hayGuise kThxBai

For some reason "string".toSeq doesn't match, but .toList does; maybe someone can explain why.

Edit: or this works too:

def camel(s:String) = {
  val it = s.iterator
  it.map {
    case '_' => if(it.hasNext) it.next.toUpper else ""
    case x => x
share|improve this answer
This is an interesting contrast with mine--the logic is essentially the same, but where you've used direct tail recursion, I used a right fold, which is not tail-recursive, but laziness in Haskell means that it still runs in constant stack space. –  C. A. McCann Aug 17 '11 at 17:34
@C. Scala has lazy lists called Streams too, but I'm not sure how to use them here. However we can just use an Iterator to create a new sequence as in my edit above, which simplifies things a lot. –  Luigi Plinge Aug 17 '11 at 19:56

I translated the Haskell code of C. A. McCann to Scala:

def capitalize: (Char, Seq[Char]) => Seq[Char] = {
  case ('_', Seq(x, xs @ _*)) => x.toUpper +: xs
  case (c, xs) => c +: xs

def convertNumber: String => String =
  _.foldRight(Seq.empty[Char]) { capitalize } mkString

Seq("invoice_number", "ident", "some_other_stuff") map convertNumber foreach println

Because String is a IndexedSeq in Scala, appending to it takes effectively constant time. The code of Luigi can be updated to something like that:

def capitalize(xs: Seq[Char], ys: Seq[Char]): Seq[Char] = xs match {
  case Seq('_', x, xs @ _*) => capitalize(xs, ys :+ x.toUpper)
  case Seq(x, xs @ _*) => capitalize(xs, ys :+ x)
  case _ => ys

def convertNumber(s: String): String =
  capitalize(s, Seq.empty).mkString
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Thanks for doing the translation! :] I personally think separating out the simple, single-step function and passing that to a fold is nicer functional style than direct recursion, but that's a matter of taste and mine could easily be done either way in Haskell (ah, and I see you edited your translation to use a fold while I was writing the comment). The contrast in string types is interesting, too. –  C. A. McCann Aug 17 '11 at 17:25
Helpful - the variable binding (@) in the pattern match for Seq was one thing I couldn't get right; doing it this way I wouldn't have to turn the sequence into a list to get the pattern match to work. On the downside, it makes the code look like Perl! –  Luigi Plinge Aug 17 '11 at 20:04
One mistake here: String is not an IndexedSeq in Scala, and, in fact, appending to it is linear over the size of the string. –  Daniel C. Sobral Aug 17 '11 at 23:18
A String is implicitly converted to a IndexedSeq when there are used higher order methods. It is not really a IndexedSeq, that is true. In the method capitalize I use only methods of Seq and not of String, therefore appending needs constant time. Appending to a JVM String needs linear time, do you mean this? –  sschaef Aug 18 '11 at 21:03

Of course, you could just use regex:

import util.matching.Regex.Match

def camel(s: String) = "_(.)".r.replaceAllIn(s, (m: Match) => m.group(1).toUpperCase)

edit: or if you use an anonymous function it's a bit shorter and you don't need the import (point-free for kicks):

def camel(s: String) = "_(.)".r replaceAllIn (s, _ group 1 toUpperCase)
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Another solution; using sliding iterator window:

    (" ".iterator ++ io.Source.fromFile(file)).sliding(2).map {
      s => if (s(0) == '_') s(1).toUpper else s(1)
    }.filter(_ != '_').mkString)
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