I am trying to understand Monads in Haskell and during my countless experiments with code I have encountered this thing:

f2 = do   
  return "da"

and the fact that it doesnt want to compile with huge error regarding type. I think the only important part is this:

 No instance for (Monad m0) arising from a use of return'
The type variable `m0' is ambiguous  

So then I have changed my code to:

 f2 = do   
 return "da"  :: IO [Char]  

And it worked perfectly well. But when I have tried to mess up a bit and change the type to IO Int it was an error once again. So why the type is "ambiguous" when it actually isnt? Also when I will add something before return like:

f2 = do   
  putStrLn "das"  
  return 2

Then I dont have to specify the type of return. So can someone explain me what is going on really? Also why is return outputting "da" in the first case? Not da without ""?

  • Thanks for editing my stuff jozefg I was struggling to do it myslef! – user3002996 Dec 19 '13 at 19:48
  • No problem, welcome to stackoverflow and Haskell :) – jozefg Dec 20 '13 at 3:23
  • That is close to the smallest possible type error message, plus some extra advice provided by the friendly compiler. Type errors can get much much larger! – misterbee Dec 28 '13 at 22:54
up vote 8 down vote accepted

First let's just point out that

  return a

Is exactly the same as

return a

Now, the problem is that return has the type

return :: Monad m => a -> m a

And when you have a declaration like

foo = bar

where foo has no arguments haskell makes it "monomorphic". The result of this is that Haskell can't guess what m is and won't generalize it so you need an explicit type signature. The most general one is

f2 :: Monad m => m String
f2 = return "das"

But you could also use IO or any other monad

f2 :: IO String

Finally, in your last example, since you're returning 2, you'd have to give a type signature that indicates you're returning some sort of number, like

 f2 :: IO Integer
  • This leaves out why you don't need a type signature for f2, even though it's also monomorphic. The answer is that putStrLn constrains the monad to be IO, so the most general type would be f2 :: Num n => IO n. This isn't monomorphic either, but Haskell has defaulting rules for the numeric types, and these will fix n to be Integer if you don't specify a type signature. – Antal Spector-Zabusky Dec 21 '13 at 3:30

This is known Monomorphism_restriction

Use signatures

f2 :: Monad m => m String
f2 = do   
  return "da"

or use language extension:

{-# LANGUAGE NoMonomorphismRestriction #-}
f2 = do   
  return "da"

to get valid code

When learning about monads it's helpful to expand them out manually yourself, for instance the simple example:

test0 :: IO String
test0 = do
  a <- getLine
  putStrLn a
  return a

If we enable the language extension {-# LANGUAGE ScopedTypeVariables #-} then we can annotate each of the lines in the monad with it's explicit type which will show the type of the return block.

{-# LANGUAGE ScopedTypeVariables #-}

test1 :: IO String
test1 = do
  a <- getLine             :: IO String
  putStrLn a               :: IO ()
  return a                 :: IO String

We can also annotate the explicit type of the left hand side pattern matching which "extracts" from the monad context on the right hand side.

test2 :: IO String
test2 = do
  (a :: String) <- getLine  :: IO String
  (() :: ()) <- putStrLn a  :: IO ()
  return a                  :: IO String

We can even expand out the do-notation into its constituting parts:

test3 :: IO String
test3 = getLine >>=
        (\a -> putStrLn a >>=
        \() -> return a)

Hope that helps build your monad intuition.

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