I am really new to Haskell, so this might be a stupid question. I have a function

``````foo :: Int -> IO ()
``````

whose result will print some useful information. Now I want to do this:

``````do
foo 0
foo 1
foo 0
foo 2
foo 3
``````

How can I write this as a loop? My problem is to 'concatenate' the Monads, which is done automatically by the do statement...

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Did you mean the series `[0, 1, 0, 2, 0, 3]` ? –  aoeu Feb 10 '13 at 13:03
Just so you know, you are using the terminology incorrectly. `IO` is a monad, `IO ()` (and `IO Int`, `IO a`, etc.) is a type, and `foo 0` is a value of type `IO ()` (common words for something like `foo 0` are "action", "monadic action", or "monadic computation"). So you are trying to concatenate (or, more commonly "sequence") the actions, not the monads -- there's only one monad here and it is `IO`. –  luqui Feb 11 '13 at 11:52

`mapM_ foo [0,1,0,2,3]` will do the trick.

What's perhaps more important is "how does one figure that out?" Hoogle is a wonderful tool. You want to apply a function with signature `Int -> IO ()` to a bunch of `Int`s to get a new IO action. The thing you're looking for will thus have signature `(Int -> IO ()) -> [Int] -> IO ()`, so we go and ask Hoogle for functions with that signature. The second result is `mapM_`, whose signature is

``````Monad m => (a -> m b) -> [a] -> m ()
``````

Right, so `mapM_` in fact works with any monad (not just `IO`) and any type (not just `Int`). When you think about it, that's not surprising at all.

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Thank you for the Hoogle-hint! That will be very very helpful :) –  Sh4pe Feb 10 '13 at 13:19
Oops! Thanks for the edit, dave4420. –  gspr Feb 10 '13 at 15:01

You want the `mapM_` combinator, which maps a function returning a monadic value over a list, and uses the bind operator to sequence the results:

``````Prelude> let foo n = putStrLn (show n ++ "!")
Prelude> mapM_ foo [0,1,0,2,3]
0!
1!
0!
2!
3!
``````

Sometimes people like to use the flipped version

``````forM_ = flip mapM_
``````

which looks more like imperative code:

``````Prelude> forM_ [1..5] (\n -> putStrLn ("Number: " ++ show n))
Number: 1
Number: 2
Number: 3
Number: 4
Number: 5
``````
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