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For example, i've got following function:

foo :: t -> f
foo var = foo' b var
        b = bar 0.5 vect

and I need to specify literals' 0.5 type — 't'

If i write smth. like (0.5::t), GHC creates new type variable 't0', which is not corresponding to original 't'.

I've wrote a small function

ct :: v -> v -> v
ct _ u = u

and use it like this:

b = bar (ct var 0.5) d

Is there any better solution?

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There's a compiler option that will let you say (0.5::t) and it will match the t to the surrounding scope's t, but I forget what it is. –  Kevin Ballard Feb 19 '12 at 21:41
you wrote very little information - for example what is bar respectively bar's type signature and foo' as well. as i understand it lowercase letters are placeholders for ghc to be inferred. known types start with an uppercase letter like Float or Int so you pass almost no type information to the compiler which is asking for more information. –  epsilonhalbe Feb 19 '12 at 21:48
if you try to load the file with ghci the interpreter does it still fail - as i remember it is less strictly. in addition you can find out about a function's type by :t foo –  epsilonhalbe Feb 19 '12 at 21:52

2 Answers 2

up vote 7 down vote accepted

You can use ScopedTypeVariables to bring the type variables from the top-level signature into scope,

{-# LANGUAGE ScopedTypeVariables #-}

foo :: forall t. Fractional t => t -> f
foo var = foo' b var
    b = bar (0.5 :: t) vect

Your helper function ct is - with flipped arguments - already in the Prelude,

ct = flip asTypeOf


    b = bar (0.5 `asTypeOf` var) vect

would work too.

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Thank you, exactly what I needed! –  Paul Hooks Feb 20 '12 at 9:36

Without ScopedTypeVariables, the usual solution is to re-write b into a function such that it takes in type t and returns something containing type t. That way, its t is generic and independent of the outer t and can be inferred based on where it is used.

However, without knowing the types of your foo' and bar, etc., I cannot tell you what exactly it will look like

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