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How can I write a function in Haskell, that takes an input string in the format a1a2a3 and expands into a1a2a2a3a3a3. For example input string "code" would be expanded into "coodddeeee"

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Please post the code you have written to solve this so far. Otherwise people may suspect this is homework. –  anon Jan 24 '10 at 11:42
I assure you, this is not homework :) I was working thru the excersises in a Haskell book and my brain just freezed up over this. All I know at this point is, that I will need to use ++ operator, some kind of array manipulation and possible use the length function –  BM. Jan 24 '10 at 12:00

5 Answers 5

up vote 9 down vote accepted

Probably very inefficient :)

f :: Int -> [Char] -> [Char]
f _ [] = []
f n (c:s) = (replicate n c) ++ (f (n+1) s)

g :: [Char] -> [Char]
g s = f 1 s


*Main> g "code"
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FYI: juxtaposition binds more tightly than anything but @, so you can remove a few overly paranoid parentheses. f n (c:s) = replicate n c ++ f (n+1) s –  Edward KMETT Jan 24 '10 at 23:45

So you want the nth character repeated n times.

f :: String -> String
f x = concatMap g  (zip x [1..])
       g (x,y) = replicate y x

I'm sure there's an easier way to do this.

Explanation: First we get the string and pair it with it's place in the list (starting at 1). This is what zip does:

Prelude> zip "code" [1..]

Now the function g (x,y) uses the replicate function which replicates whatever you want y times. So we replicate x, y times.

Prelude> g ('z',4)

If we map this function over the list produced you get the result:

Prelude> map g $ zip "code" [1..]

If you have a list of strings, you can concatenate them together using concat. concatMap applies the function g to each pair of letter and number and then concatenates the string into the final result.

Prelude> concat $ map g $ zip "code" [1..]

Basically: concat $ map g -> concatMap g

EDIT: now it works, it can also be done in one line thusly:

f x = concatMap (\(a,b)->replicate b a ) $ zip x [1..]


Prelude> f "lambda"
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Jonno... Could you explain that answer, As someone who is in the very early stages of learning haskell, the above answer just does not make sense to me. –  BM. Jan 24 '10 at 11:47
I'd replace g with uncurry . flip replicate. Does the same thing, but uses standard Haskell library functions. –  me_and Jan 24 '10 at 12:22
Short version: f = concat . zipWith replicate [1..] –  sdcvvc Jan 24 '10 at 12:44
sdcvvc should post his comment as an answer -- it is really the clearest way to me. –  MtnViewMark Jan 24 '10 at 23:55
trinithis: If you have a string of length == maxBound::Int on a 32-bit machine, the result of applying this function to that string will be 1 + 2 + 3 + ... + 2147483647 = 2305843 terabytes - assuming 1 byte per character and ignoring the list overhead. Luckily Haskell is lazy so you probably won't need to allocate it all at once, although you'll still be waiting a long time just to walk to the end :-) –  Nefrubyr Jan 25 '10 at 10:29
import Control.Monad
f = zip [1..] >=> uncurry replicate


Main> f "code"
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Nice! For those people like me, who don't know the type of the operator: "Left-to-right Kleisli composition of monads: (>=>) :: Monad m => (a -> m b) -> (b -> m c) -> (a -> m c)" –  Tom Lokhorst Jan 25 '10 at 8:26

Why do people hate list comprehensions?

Prelude> let f s = concat [ replicate x y | (x,y) <- zip [1..] s]
Prelude> f "code"

or if you want to go crazy with extensions

Prelude> :set -XParallelListComp
Prelude> let f s = concat [ replicate x y | x <- [1..] | y <- s]
Prelude> f "code"
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Prelude> let l = "code" in concat $ [take y $ repeat (last $ take y l) | y <- [1..length l]]
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