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I have a [Char]:

*Main> let message = "something"

and I have shuffled string (full code you can find here):

*Main> let key = shuffle message

*Main> message

*Main> :t message
message :: [Char]

*Main> key 

*Main> :t key
key :: IO [Char]

Now I need to create Data.Map from this two strings. Something like:

Map.fromList(zip message key)

But I cannot even zip [Char] and IO [Char]:

*Main> zip message key
    Couldn't match expected type `[b0]' with actual type `IO [Char]'
    In the second argument of `zip', namely `key'
    In the expression: zip message key
    In an equation for `it': it = zip message key

I understand that shuffle function doesn't return the same result for the same input. So it has to return IO [Char].

I understand that I cannot get Map.Map and I agree to get IO Map.Map. But I need to work with IO [Char] the same way as ordinary string. How can I get it ?



Thanks all of you for your explanation. Some additional question:


I understood 'do'- notation, but I need a little time to get liftM :) But there is one additional question right now:

*Main> let s = "abcdef"
*Main> let d = shuffle s
*Main> s
*Main> d
*Main> buildIOMap s d
fromList [('a','e'),('b','a'),('c','c'),('d','f'),('e','d'),('f','b')]
*Main> buildIOMap2 s d
fromList [('a','c'),('b','b'),('c','f'),('d','a'),('e','e'),('f','d')]
*Main> Map.fromList (zip "abcdef" "fedcba")
fromList [('a','f'),('b','e'),('c','d'),('d','c'),('e','b'),('f','a')]

'buildIOMap' is a do-notation; 'buildIOMap2' - is a liftM - realization.

Why I get different result in three cases ?

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You could use the do notation and extract the key inside... Or just liftM the result of zip... –  KennyTM Oct 30 '12 at 5:55
Sorry, I ma newbie in Haskell. Can you give me example, please. –  demas Oct 30 '12 at 6:07

3 Answers 3

up vote 2 down vote accepted

We could make an IO function for this. We use the do notation here as it is more friendly for beginners with background of imperative languages, but it is not the most compact way.

buildIOMap message key = do
    rawKey <- key                   -- unwrap an object inside the 'do' with '<-'
    let zipped = zip message rawKey -- Then 'zip' & 'Map.fromList' can be used 
    let map = Map.fromList zipped   --   normally.
    return map                      -- Finally we re-wrap the result into IO.

We could also solve this in a more functional way, which is to transform the function itself. Notice that expression Map.fromList (zip message key) fails only because key is an IO [Char] instead of a [Char].

If we could transform the function Map.fromList (zip message __) from accepting a [Char] to an IO [Char] then it would also work. Such transformation is called lifting, when in Haskell the Control.Monad.liftM function will do this:

liftM :: Monad m => (a -> r) -> (m a -> m r)

This will take a function with 1 pure argument and return 1 pure argument, and give out a function with 1 monadic argument and return 1 monadic argument.

Here our pure function is:

\x -> Map.fromList (zip message x)

So we can also write:

buildIOMap message = liftM (\x -> Map.fromList (zip message x))

(Note: An even more compact way representing the above is buildIOMap message = liftM $ Map.fromList . zip message)

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Thanks for your answers. I have updated my question - can you please explain some moments ? –  demas Oct 30 '12 at 7:02
@demas: @hammar has already answered you. –  KennyTM Oct 30 '12 at 7:41
Thank you one more time - you really help me :) –  demas Oct 30 '12 at 8:49

From the GHCi prompt, you just have to do

> key <- shuffle message

This runs the IO action on the right hand side and stores the result in key, which is now just a plain string.

> :t key
key :: [Char]

On the other hand, when you wrote

> let key = shuffle message

what you did was just naming the action, so you could for example run it multiple times and get different results:

> :t key
key :: IO [Char]
> key
> key

The difference between evaluating a value and running an action is somewhat blurred in GHCi, since it lets you do both from the same prompt. However, you'll get a type error if you try to mix them the wrong way like with your zip example.

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The expression key is not a [Char] - it is a IO [Char] - i.e. an IO computation which will return a [Char]. Here's an example of how to use your shuffle function:

main = do let message = "something"
          key <- shuffle message
          -- now key is a [Char]
          let m = Data.Map.fromList (zip message key)
          print m -- ... or whatever

In a sense, the <- unwraps the IO from the IO [Char] and places the returned value into the variable to left of the <-.

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