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I have this snippet of a function:

mapM (\x -> do t' <- t; return $ strSwop "if0" ("if" ++ show x) t') [0..(n-1)]


strSwop :: String -> String -> String -> String
t :: IO String

It works as expected but I don't like the IO construct withing the lambda. How can it be written differently? I come out of the monad just to be wrapped again next line. Feels ugly.

If I do it this way:

mapM (\x -> t >>= strSwop "if0" ("if" ++ show x) t) [0..(n-1)]

It complains (obviously) about the return signature of strSwop :( strSwop is just a string replacement function. Is there a way to correctly write this? Thanks.

-- EDIT --

Just figured it out ...

Works out:

mapM (\x -> liftM (strSwop "if0" ("if" ++ show x)) t) [0..(n-1)]
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what "IO construct"? –  newacct Feb 24 '12 at 4:53
Off-topic: On stackoverflow, it is generally considered polite to accept the answer (click on the tick below the answer's score), which helped you solve the problem. It helps not only the user who answered it, but it also helps you, because it provides other users with an incentive to answer your questions. –  Vitus Feb 24 '12 at 13:17
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2 Answers 2

up vote 3 down vote accepted

I would suggest liftM or <$>

import Control.Applicative
mapM (\x -> strSwop "if0" ("if" ++ show x) <$> t) [0..(n-1)]
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Thank you very much. I just actually figured this out seconds ago. I did it with liftM exactly as you suggested. It worked out: mapM (\x -> liftM (strSwop "if0" ("if" ++ show x)) t) [0..(n-1)] –  r.sendecky Feb 24 '12 at 3:12
@r.sendecky: If an answer helped you, you should click the check mark underneath it to accept it :) –  ehird Feb 24 '12 at 7:26
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Let's simplify your code step by step.

mapM (\x -> do t' <- t; return $ strSwop "if0" ("if" ++ show x) t') [0..(n-1)]

Start by breaking off the pure code - let's convert [0..(n-1)] into a list of [String -> String] using currying:

mapM (\f -> do t' <- t ; return (f t)) $ map (\x -> strSwop "if0" ("if" ++ show x)) [0..(n-1)]

Now do t' <- t ; return (f t) is pretty common - that's just fmap f t'

mapM (\f -> fmap f t') $ map (\x -> strSwop "if0" ("if" ++ show x)) [0..(n-1)]

And \f -> fmap f t' is just \f -> flip fmap t' f or flip fmap t'

mapM (flip fmap t') $ map (\x -> strSwop "if0" ("if" ++ show x)) [0..(n-1)]

Cleaning up the pure half: \x -> strSwop "if0" ("if" ++ show x) is the same as \x -> strSwop "if0" $ ("if" ++) (show x) which is the same as \x -> strSwop "if0" . ("if"++) $ show x which is the same as strSwop "if0" . ("if"++) . show

mapM (flip fmap t') $ map (strSwop "if0" . ("if"++ ) . show) [0..(n-1)]

Now let's fuse the two parts back together. mapM f . map g = sequence . map f . map g = sequence . map (f . g) = mapM (f . g):

mapM (flip fmap t' . strSwop "if0" . ("if"++) . show) [0..(n-1)]
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Great!!! :) Thank you very much. –  r.sendecky Feb 24 '12 at 3:50
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