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I am currently working with Scanners and Parsers and need a Parser that accepts characters that are ASCII letters - so I can't use char.isLetter.

I came up with two solutions myself. I don't like both of them.


def letter = elem("ascii letter", _.toString.matches("""[a-zA-Z]"""))

This seems rather "overkill" to check such a simple thing with a regex.

Range check

def letter = elem("ascii letter", c => ('A' <= c && c <= 'Z') || ('a' <= c && c <= 'z'))

In my opinion, this would be the way to go in Java. But it's not really readable.

Is there a cleaner, more Scala-like solution to this problem? I do not really worry about performance, as it doesn't matter in this case.

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I think the regular expression is fine. If worried about performance, simply create/keep the regular expression object .. otherwise, provide a performance test-case. Simple regular expressions are fast (even with the toString) to apply; they can degenerate with backtracking, which is not applicable here. –  user166390 Mar 15 '13 at 18:39
I just find that regular expression not elegant at all. When working with Scala, it feels like you can do so many things really nice. But it doesn't seem to be the case with this one. –  r0estir0bbe Mar 15 '13 at 18:55
I find the regular expression elegant because it is a domain-specific language well-suited to this particular task: describing a character-based grammar that particular string input must adhere to. There are many things regular expressions are not suited for but, barring an existing method or known performance issues, I would use a regular expression and not think twice about it. –  user166390 Mar 15 '13 at 19:00

4 Answers 4

up vote 4 down vote accepted

You say you can't use Char.isLetter because you only want ASCII letters. Why not just restrict it to the 7-bit ASCII character range?

def isAsciiLetter(c: Char) = c.isLetter && c <= 'z'
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This is really clever. Thanks for this answer. –  r0estir0bbe Mar 16 '13 at 18:29

Regardless of what you choose in the end, I suggest abstracting out the definition of "is an ASCII letter" for readability and performance. E.g.:

object Program extends App {
  implicit class CharProperties(val ch: Char) extends AnyVal {
    def isASCIILetter: Boolean =
      (ch >= 'a' && ch <= 'z') || (ch >= 'A' && ch <= 'Z')

Or if you want to describe ASCII letters as a set:

object Program extends App {
  object CharProperties {
    val ASCIILetters = ('a' to 'z').toSet ++ ('A' to 'Z').toSet
  implicit class CharProperties(val ch: Char) extends AnyVal {
    def isASCIILetter: Boolean =

Once you're using an explicit function with an understandable name, your intent should be clear either way and you can choose the implementation with the better performance (though any performance differences between the two versions above should be rather minimal).

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Thanks for this one, didn't think of the implicit conversion to 'add' my isASCIILetter method. –  r0estir0bbe Mar 16 '13 at 18:30

Second one could be written as:

def letter = elem("ascii letter", c => ('a' to 'z') ++ ('A' to 'Z') contains c)

It is more readable, but less performant.

Or, if you're terrified with ++, as barely plain english:

c => ('a' to 'z') union ('A' to 'Z') contains c
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Another - well - elegant solution could be using min/max:

c => 'A'.max(c.toUpper) == 'Z'.min(c.toUpper)


c => 'A'.max(c) == 'Z'.min(c) || 'a'.max(c) == 'z'.min(c)
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No offence, but in my opinion it hides an original intent and thus clutters the code (while this might be concise and smarty). Actually, if we would combine our solutions we might get something like 'a' to 'z' contains c.toLower which I personally like a lot more. –  om-nom-nom Mar 15 '13 at 20:58
yeah - that looks really smart - but, it's kind of inefficient, isn't it? ;) –  michael_s Mar 15 '13 at 21:21
yep, it is will be highly inefficient in tight loops –  om-nom-nom Mar 15 '13 at 21:23
OK - So you could add that to your solution as well :) - I was thinking about some subtraction, but that's getting too weird now. –  michael_s Mar 15 '13 at 21:36

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