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I have been learning some Haskell and I came up with a solution to one of my exercise which I was trying to figure out .

  • Changes a Char to another specified Char in a specified position in a String
changeStr :: Int -> Char -> String -> String
changeStr x char zs = (take (x-1) zs) ++ [(changeChar (head (take x zs)) char)] ++ (drop x zs)
  • Changes a Char to another Char
changeChar :: Char -> Char -> Char
changeChar x y = y

I just wanted to ask is there any other way in which I could do this in a more simpler way using different methods ?

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2 Answers 2

The thing that screams for generalization is changeChar. It's actually very close to a very common Haskell Prelude function called const. To get changeChar we just need to flip const.

const :: a -> b -> a
const a b = a

changeChar :: Char -> Char -> Char
changeChar     = flip const
--             = flip (\a _ -> a)
--             = \_ a -> a
--         _ a = a

Beyond that, your code is fairly reasonable, but can be cleaned up by using a function splitAt

splitAt :: Int -> [a] -> ([a], [a])
splitAt n xs           =  (take n xs, drop n xs)

changeChar x char xs = 
  let (before, _it:after) = splitAt (x - 1)
  in before ++ (char:after)

which also highlights a slight problem with this definition in that if your index is too large it will throw a pattern matching failure. We could fix that by making the function return an unmodified string if we "fall off the end"

changeChar x char xs = 
  let (before, after) = splitAt (x - 1)
  in case after of
    []       -> []
    (_:rest) -> char:rest

There's a general pattern here as well of applying a modifying function at a particular place in a list. Here's how we can extract that.

changeAt :: Int -> (a -> a) -> [a] -> [a]
changeAt n f xs = 
  let (before, after) = splitAt (n-1)
  in case after of
    []       -> []
    (x:rest) -> (f x):rest

We can use this to iterate the notion

-- | Replaces an element in a list of lists treated as a matrix.
changeMatrix :: (Int, Int) -> a -> [[a]] -> [[a]]
changeMatrix (i, j) x = changeAt i (changeAt j (const x))
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Actually, const a b = a, but it's basically the same thing. –  bheklilr Nov 12 '13 at 22:54
Yup, fixed it but also added a bit about splitAt. –  J. Abrahamson Nov 12 '13 at 22:55
Is that function totally the same as what I have done here : changeChar :: Char -> Char -> Char changeChar x y = y –  Eddy Nov 12 '13 at 22:55
flip const is, as @bheklilr pointed out. Or rather, changeChar is a specialization of flip const where a and b are Char. My original answer had a mistake which has been corrected now. –  J. Abrahamson Nov 12 '13 at 22:58
Ok thanks. But what if I had the question of : Changing a Char to another specified Char in a specified position in a [String] meaning a list of Strings ? Is it similar to the answer for changing a Char within a String ? Here is what I have done for it : -- Changes a Char to another specified Char in a specified position in a Canvas changeRaw :: Char -> Int -> Int -> Canvas -> Canvas changeRaw char x y zs = (take (y-1) zs) ++ [(changeStr x char (zs !! (y-1)))] ++ (drop y zs) Is there anyway to shorten this ? –  Eddy Nov 12 '13 at 23:02

What you have is pretty much what you need, except the function changeChar is just flip const, and you could rewrite yours as

changeStr x char zs = take (x-1) zs ++ [char] ++ drop x zs

If you wanted to be complicated, you could use splitAt from Data.List and the fact that fmap f (a, b) = (a, f b)

changeStr idx c str = uncurry (++) $ fmap ((c:) . tail) $ splitAt (idx - 1) str

And if you wanted to be really complicated, you could ask the pointfree bot how to write it without explicit function arguments

changeStr = ((uncurry (++) .) .) . flip ((.) . fmap . (. tail) . (:)) . splitAt . subtract 1
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