I want to get only the capital letters from a string, and had the idea to see if each letter in the string is contained in a list of all capital letters:

capsOnly = [ x| x<- string, (x elem ['A'..'Z'])]

the problem is that apparently Haskell does not recognize that the part behind the comma is supposed to be a condition for x, and gives me this:

* Couldn't match expected type `(a0 -> t0 a0 -> Bool)
                                -> [Char] -> Bool'
              with actual type `Char'
* The function `x' is applied to two arguments,
  but its type `Char' has none
  In the expression: (x elem ['A' .. 'Z'])
  In a stmt of a list comprehension: (x elem ['A' .. 'Z'])

So how do I define what is the Argument and what is the List where x comes from? Or is that not possible?

I know that you can also do it like:

onlyCaps = [ x| x<- string, x < 'a']

but I really want to know if my first approach is possible, and how to write it if it is


The problem is not with the list comprehension itself. The problem is that x elem ['A'..'Z'] does not make much sense.

elem :: Eq a => a -> [a] -> Bool is a function that takes as input an element and a list and checks if the element belongs to the list.

So you should write it like:

capsOnly = [ x | x <- string, elem x ['A'..'Z']]

Or alternatively use backtics (to use infix notation):

capsOnly = [ x | x <- string, x `elem` ['A'..'Z']]

This however is not very efficient: it requires O(n) to check membership. Since we check a range, it is more efficient to do bound checks, like:

capsOnly = [ x | x <- string, x >= 'A', x <= 'Z']

This requires two comparisons that run in O(1) making it faster.

What we do here is filtering. Usually it is better (more descriptive and declarative) to use filter :: (a -> Bool) -> [a] -> [a] for this with isAsciiUpper :: Char -> Bool as predicate:

import Data.Char(isAsciiUpper)

capsOnly = filter isAsciiUpper string
  • Or [ x | x <- string, x `elem` ['A'..'Z']] (probably what the OP was trying to write in the first place) – jwodder Jul 18 '17 at 21:37
  • @jwodder: I was thinking exactly the same :) – Willem Van Onsem Jul 18 '17 at 21:38
  • Are we sure that GHC wouldn't optimize elem x ['A'..'Z'] to x >= 'A', x <= 'Z'..? – Redu Jul 18 '17 at 22:13
  • 1
    Well for floating points that law does not hold. For instance elem 0.5 [0..9] is False whereas 0.5 >= 0 && 0.5 <= 9 holds. Furthermore some benchmarks suggest it does not. – Willem Van Onsem Jul 18 '17 at 22:20
  • @Redu you can check by ddump-simpl both versions and comparing them – epsilonhalbe Jul 18 '17 at 22:21

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