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I'm a beginner(ish) in Haskell and I find error message really hard to understand (I guess it comes with time). Anyway, to help me understanding my mistakes, I tried to add intermediate variable with type annotation in a let binding and found that it generate even more errors, even though my type are (I think) correct.


f :: a -> a
f x = 
    let x' = x :: a
    in x'

Generate the following error

Couldn't match expected type `a2' with actual type `a'
  `a2' is a rigid type variable bound by
       an expression type signature: a2 at test.hs:3:12
  `a' is a rigid type variable bound by
      the type signature for f :: a -> a at test.hs:1:6
In the expression: x :: a
In an equation for x': x' = x :: a
In the expression: let x' = x :: a in x

Am I doing something wrong or is it not possible to do so ?

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I'm assuming you correctly wrote f x = ... rather than let f x = ... –  kosmikus Mar 16 '14 at 12:08

2 Answers 2

up vote 10 down vote accepted


You need the ScopedTypeVariables extension for this to work, like this:

{-# LANGUAGE ScopedTypeVariables #-}

f :: forall a. a -> a
f x = 
    let x' = x :: a
    in x'


If you have a type signature like this

f :: a -> a

then it indicates that f is polymorphic and works for any choice of a. So f could be used at type Int -> Int, or at type Bool -> Bool, or at type [Int -> Bool] -> [Int -> Bool] – whatever you like.

If you have a type annotation like this

x :: a

it means a similar thing, namely that x should be usable at any type of your choice. But that's not true in your case. The outer function f is polymorphic, but within the function, x has to be of the same type a that the user has chosen for the outer x. By default, Haskell makes no connection between type variables occurring in different type signatures and annotations. However, you can tell it to do so by enabling the ScopedTypeVariables extension. Now, by prefixing a -> a with forall a., you can explicitly instruct Haskell to make a visible as a specific type variable within the definition of f. If you then annotate x :: a, it refers to the outer a rather than a new polymorphic a.

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This should work:

f :: s -> s
f x =
   let y = undefined :: s
   in  y

Just use the normal :: operator as shown in the above example for type annotation.


It doesn't seem to work with polymorphic types. But it works with an concrete type.

The following typechecks:

f :: Int -> Int
f x = let m = x :: Int
      in m

This produces error:

f1 :: a -> a
f1 x = let m = x :: a
       in m
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What do you mean by "you have not defined the function itself" ? the function is well defined and run if I remove the type annotation –  mb14 Mar 16 '14 at 12:01
The third example is basically my question, why doesn't it work? –  mb14 Mar 16 '14 at 12:13
Sorry, It doesn't work with polymorphic type. Use ScopedTypeVariables extensions for that as explained by komiskus. –  Sibi Mar 16 '14 at 12:16

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