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flattern :: [(Char, Int)] -> String
flattern [] = ""
flattern ((w,l):xs) = show l ++ w : flattern xs

What would be the inverse function of this? Is there any way of be able to work this out?

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Not knowing Haskell really, I don't think there is a inverse function for this (in the strict sense of inverse). – Paŭlo Ebermann Mar 6 '11 at 20:10
Why is this tagged with "work"? What work application could there possibly be to this cryptic and horribly titled question? – Dan Burton Mar 6 '11 at 20:51

It's not invertible:

  1. There are strings that cannot be reproduced by this function (any string not starting with a digit).

  2. It's not even partially invertible. There are also strings that correspond to multiple inputs: "1111" can be produced by either [('1',1),('1',1)] or [('1',111)].

Are you sure that this was the function to invert, and not something like flattern ((w,l):xs) = replicate l w ++ flattern xs?

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If you really want, you could parse the output of the function to try and reconstruct what the arguments must have been.

import Text.ParserCombinators.Parsec

unflat1 :: Parser (Char, Int)
unflat1 = do
           c <- anyChar
           n <- many1 digit
           return (c, read n) 

readExpr :: String -> Either String [(Char, Int)]
readExpr input = case parse (many unflat1) "unflat" input of
    Left err -> Left ("No match: " ++ show err)
    Right val -> Right val

This sorta works, as long as flattern does not have numbers as the first input. Something like flattern [('a',1), ('2',3)] will be parsed as [(a, 123)].

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