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I am attempting to write my own function which takes an arbitrary number of tokens, and then splits an arbitrary string on any of those.

After a little bit of thinking, I believe I need to recursively iterate through a list of tokens, and then pass each split list into a map with the splitting function, followed by a flatten.

At present, my algorithm looks like so:

module MyAwesomeModule where

import qualified Data.Text as T

outputSplit :: String -> [String] -> IO ()
outputSplit s tokens = print $ splitRecursive tokens s

splitRecursive :: [String] -> String -> [String]
splitRecursive tokens s = splitOneOf tokens s

splitOneOf :: [String] -> String -> [String]
splitOneOf [] s = []
splitOneOf (t:tokens) s =  map (splitOneOf tokens)(map (T.unpack) (T.splitOn (T.pack t) (T.pack s))) ++ (splitOneOf tokens s)

Which errors out with:

Couldn't match type `[Char]' with `Char'
Expected type: String -> String
  Actual type: String -> [String]
In the return type of a call of `splitOneOf'
In the first argument of `map', namely `(splitOneOf tokens)'
In the first argument of `(++)', namely
  `map
     (splitOneOf tokens)
     (map (T.unpack) (T.splitOn (T.pack t) (T.pack s)))'

So as far as I understand, what that means is that the Strings in the initial split are being cast to [Char]

   Prelude > let a = (map (T.unpack) (T.splitOn (T.pack "a") (T.pack "abcdefabc")))
             ["","bcdef","bc"]
             :t a
             a::[String]
             let b = head a
             :t b
             b::String

Moreover, if splitOneOf is defined as:

    splitOneOf :: [String] -> String -> [String]
    splitOneOf [] s = []
    splitOneOf (t:tokens) s =  (map (T.unpack) (T.splitOn (T.pack t) (T.pack s))) ++ (splitOneOf tokens s)

then

   Prelude > let a = splitOneOf ["a", "b"] "abcdefghij"
             ["", "bcdefghij"]
             map (splitOneOf ["b"]) a
             [[""], [[""],["cdefghij"]]

What exactly is going on with the type signatures here? Is this the right way to map? What am I missing?

share|improve this question
1  
Why does map have three arguments? Did you mean to put splitOneOf tokens in parantheses? –  user3217013 Mar 26 '14 at 3:38
    
thanks for pointing that out, I've modified the question accordingly –  Abraham P Mar 26 '14 at 3:47
    
There's no need to use Data.Text. There is Data.List.Split. –  n.m. Mar 26 '14 at 3:51
    
that's kinda neat. But say I wanted to roll my own for practice purposes? How would I map a function onto itself? –  Abraham P Mar 26 '14 at 4:48
1  
You want to use concatMap and splitOn to get something of type String -> [String] -> [String] (first argument is a token). Then use a common recursion encapsulating function to repeatedlt apply this to a list if tokens. –  n.m. Mar 26 '14 at 4:52

1 Answer 1

import Control.Monad ((>=>))
import Data.List.Split (splitOn)

--|Using list monad, for repeated concatMaps
splitOnMany :: [String] -- ^ delimiters
            -> String   -- ^ input
            -> [String] -- ^ output
splitOnMany [] = return
splitOnMany (d:ds) = splitOn d >=> splitOnMany ds

This list monad is usually thought of as some sort of a poor man's non-determinism or logic monad. But, any time you need to do recursive flattening of lists, it can be used. Here, we split on the first delimiter, then split all of those on the second delimiter, etc. and then flatten everything. I'm pretty sure the explicit recursion isn't really necessary either. The following is more generic, and might even optimize better:

import Control.Monad ((>=>))
import Data.List.Split (splitOn)

splitOnMany :: Eq a => [[a]] -> [a] -> [[a]]
splitOnMany = foldr (>=>) return . map splitOn
share|improve this answer
    
I think the list monad monad only obscures the matters here, it's really just splitonMany tokens line = foldr (concatMap . splitOn) [line] tokens. –  n.m. Mar 26 '14 at 20:21
    
For yours, why not foldl'? For mine, the additional strictness doesn't help. I think mine inlines better, since it is point-free. You are right that the Kleisli fish probably isn't too clarifying; maybe I've just been thinking in monads too much lately. –  Boyd Stephen Smith Jr. Mar 27 '14 at 16:23

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