1

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

6

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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