Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I'm trying to write a fairly polymorphic library. I've run into a situation that's easier to show than tell. It looks a bit like this:

{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE TypeFamilies #-}
import Data.Map (Map)
import qualified Data.Map as Map

class Format f where type Target f
class Format f => Formatter x f where
  target :: forall y. Formatable y => Target f -> x -> y
class Formatable y where name :: y -> String

instance Formatable Integer where name = show
instance Formatable Int where name = show

split :: forall x f. (Format f, Formatter x f) => x -> f -> String -> [Either String (Target f)]
split = undefined

display :: forall x f. (Format f, Formatter x f) => f -> String -> x -> String
display f str x = let
  chunks = split x f str
  built = foldr apply "" chunks
  apply (Left s) accum = accum ++ s
  apply (Right t) accum = accum ++ name (target t x)
  in foldr apply "" chunks

Essentially, we have polymorphic Formats, which define a number of Targets. There are also a number of Formattable objects, which know how to respond to a bunch of different format options (reduced here to simply name).

These Formattables are composed in a variety of ways, and can respond to a number of different targets. Formatters are essentially the router between Format and Formattable -- given a target (from a specific format) they respond with a suitable Formattable object.

This is all pretty abstract. Here's an example:

  • DateFormat specifies targets like Year, Month, and Day.
  • MonthType is a Formattable newtype of Int that has names such as "February"
  • There is also the simple instance Formattable Int where name = show
  • DateTime might be a type synonym for (Int, MonthType, Int).

(Obviously, I've cut out a lot of machinery here, such as piping the correct values around, but you get the idea.)

The display function is fairly simple. It takes a formatter, a string specifying the format, an object to display, and renders it all into a string.

First it breaks the string up into targets and strings. For example, a date formatter might break the string "%Y-%m-%d" into [Right Year, Left "-", Right Month, Left "-", Right Day]. The split function does that, and has been redacted here.

The display function simply tracks down the Formattables for each target and accumulates the string.

Or, at least, it`s supposed to.

But it fails typechecking with the following error:

    Could not deduce (Target f ~ Target f0)
    from the context (Format f, Formatter x f)
      bound by the type signature for
                 display :: (Format f, Formatter x f) => f -> String -> x -> String
      at Reduced.hs:(19,5)-(24,30)
    NB: `Target' is a type function, and may not be injective
    Expected type: [Either [Char] (Target f0)]
      Actual type: [Either String (Target f)]
    In the return type of a call of `split'
    In the expression: split x f str
    In an equation for `chunks': chunks = split x f str
Failed, modules loaded: none.

and I can't for the life of me figure out why. What am I doing wrong?

share|improve this question
up vote 2 down vote accepted

The problem is that Target f does not determine f, which means that the function

target :: (Formatter f x, Formatable y) => Target f -> x -> y

can never be called. No matter what type annotation you give to target, you can't nail down what f is, and so the compiler can never figure out which Formatter instance to use. I'm not 100% sure, but probably the solution is not to use multi-parameter type classes and to let one of x or f be a function of the other. Also, you should probably just delete the Format class entirely (did you know you don't need a class to use a type family?). Perhaps something like this:

class Formatter x where
    type Format x
    target :: Formatable y => Format x -> x -> y
share|improve this answer
I'm still stuck. Even if I omit the type family and the Format class entirely (and just use class Ord f => Formatter x f where target :: forall y. f -> x -> y) then it fails with the following: Reduced.hs:23:40: Ambiguous type variable y0' in the constraint: (Formatable y0) arising from a use of name' Probable fix: add a type signature that fixes these type variable(s) In the second argument of (++)', namely name (target t x)' In the expression: accum ++ name (target t x) In an equation for `apply': apply (Right t) accum = accum ++ name (target t x) – So8res Apr 8 '12 at 2:19
@So8res The error is unreadable inline, but it looks like a new error at least. Perhaps make a new question for it? – Daniel Wagner Apr 8 '12 at 2:56
Hrm. It is. My apologies. I can get around the error by creating a Box data type for all Formatables. Not the most elegant solution, but it will work for now. – So8res Apr 8 '12 at 5:47
@So8res instead of type Format x you might want to use data Target x. Data families (as opposed to type families, which you've used so far) are injective, meaning that the compiler can deduce f from Target f. – John L Apr 8 '12 at 17:39

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.