# extracting a string into a two-dimensional array?

Consider a string of `a2b4g9`.

How would I be able to transform it into a two-dimensional array of types [(char,int)] like

``````(a,2)
(b, 4)
(g, 9)
``````

Would I use `concat` or something else?

How can this be done?

-
Can you please try to work a bit more on your questions? You've asked the same question over and over again; all your questions are basically just to solve parts of the other question. – FUZxxl Mar 6 '11 at 20:29
And BTW, `[(Char,Int)]` isn't a two-dimensional array. It's more a list of tuples. – FUZxxl Mar 6 '11 at 20:47
I highly recommend you read Learn You a Haskell. It provides great general insight on how to do things in Haskell. – Dan Burton Mar 6 '11 at 20:53

Try this one:

``````f :: String -> [(Char,Int)]
f [] = []
f (x:y:zs) = (x,read [y]) : f zs
``````

Or this one:

``````import Data.List
import Data.Maybe
f :: String -> [(Char,Int)]
f = catMaybes . snd . mapAccumL a Nothing where
a acc x = maybe (Just x,Nothing) (\acc' -> (Nothing,Just (acc',read [x]))) acc
``````
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read y doesn't work because read takes a string, not a Char. you need read [y]... see my answer below, which I posted independently (I didn't see FUZxxl's almost identical code) – chrisdb Mar 6 '11 at 20:33
Should be `read [y]`, also might want to add an explicit type signature of `f :: String -> [(Char, Int)]` – Tom Crockett Mar 6 '11 at 20:36
@pelotom: My second function is what you suggested in the last sentence. It seems to be far more complicated. (Basically, I'm using a `Maybe` to get two consecutive elements here.) – FUZxxl Mar 6 '11 at 20:46
your type signatures still aren't quite right... – Tom Crockett Mar 6 '11 at 21:04

I'd suggest that the easiest way is just to write a recursive function to do it. Something like this should work as long as your numbers never go higher than 9:

``````toTuple :: String -> [(Char,Int)]

toTuple [] = []
toTuple (letter:reps:rem) = (letter,read [reps]) : toTuple rem
``````

If your numbers do go higher than 9 then it gets a bit more complicated, because the number of repetitions is variable length.

(EDIT: FUZxxl and I posted almost identical solutions around the same time, but that's because it's the obvious answer. I didn't see his post before posting myself)

Another solution is to write a function to take every 2nd element of a list, and then combine the resulting letters and repetitions lists using the zip function.

Or you could go a bit over the top and user a parser combinator like parsec:

``````import Text.Parsec

parseFunc :: String -> String -> Either ParseError [(Char,Int)]

parseFunc = parse (many letterPair)
where
letterPair = do
l <- letter
d <- many digit
return (l, read d)
``````
-
Why not applicative style? `parseFunc = parse (many \$ (,) <\$> letter <*> (read <\$> many digit))` ;) – FUZxxl Mar 6 '11 at 20:56
I just thought that do notation would be easier to read for someone new to Haskell. Your example is definitely concise, but it's not that easy to read for someone new to the language. Originally I used liftM2, but I got rid of that too to make it easier to understand. – chrisdb Mar 6 '11 at 21:00
Hm... I think you're right. – FUZxxl Mar 6 '11 at 21:06