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Proxy from Data.Proxy seems to be nothing more than a mere

data Proxy s

When do I need such an uninhabited type or rather, what does it enable I couldn't do otherwise, when does it simplify things compared to other approaches, and how is it used in practice?

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Proxy s is not an uninhabited type, it has a single constructor Proxy. – Cactus Mar 1 '14 at 15:58
In particular, Proxy seems to actually be defined as data Proxy s = Proxy rather than data Proxy s as written in the question. – Tikhon Jelvis Mar 1 '14 at 22:31
up vote 18 down vote accepted

I frequently use Proxy with its partner in crime Data.Tagged, as the documentation indicates, to avoid unsafely passing dummy arguments.

For example,

data Q

class Modulus a where
  value :: Tagged a Int

instance Modulus Q where
  value = Tagged 5

f x y = (x+y) `mod` (proxy value (Proxy::Proxy Q))

An alternative way to write that without Tagged is

data Q

class Modulus a where
  value :: Proxy a -> Int

instance Modulus Q where
  value _ = 5

f x y = (x+y) `mod` (value (Proxy::Proxy Q))

In both examples, we could also remove the Proxy type and just use an undefined :: Q to pass in the phantom type. However, using undefined is generally frowned upon because of the problems that can ensue if that value is ever evaluated. Consider the following:

data P = Three
       | Default

instance Modulus P where
  value Three = 3
  value _ = 5

f x y = (x+y) `mod` (value (undefined :: P))

which is a valid way to write the instance if I use the Default constructor, the program would crash since I'm trying to evaluate undefined. Thus the Proxy type gives type safety for phantom types.


As Carl pointed out, another benefit of Proxy is the ability to have a phantom type of kind other than *. For example, I'm messing around with type lists:

{-# LANGUAGE KindSignatures, DataKinds, TypeOperators, 
    MultiParamTypeClasses, PolyKinds, FlexibleContexts, 
    ScopedTypeVariables #-}

import Data.Tagged
import Data.Proxy

class Foo (a::[*]) b where
  foo:: Tagged a [b]

instance Foo '[] Int where
  foo = Tagged []

instance (Foo xs Int) => Foo (x ': xs) Int where
  foo = Tagged $ 1 : (proxy foo (Proxy :: Proxy xs)) -- xs has kind [*]

toUnary :: [Int]
toUnary = proxy foo (Proxy :: Proxy '[Int, Bool, String, Double, Float])

However, since undefined is a value, its type must have kind * or #. If I tried to use undefined in my example, I'd need something like undefined :: '[Int, Bool, String, Double, Float], which results in the compile error:

Kind mis-match
    Expected kind `OpenKind',
    but '[Int, Bool, String, Double, Float] has kind `[*]'

For more on kinds, check this out. Given the error message, I expected to be able to write undefined :: Int#, but I still got the error Couldn't match kind # against *, so apparently this is a case of a poor GHC error message, or a simple mistake on my part.

share|improve this answer
As of recent versions of GHC, Proxy is also polykinded. You can say Proxy :: Proxy Maybe. Good luck saying undefined :: Maybe. – Carl Mar 1 '14 at 16:08
I don't think I'd consider a post on Robert Harper's blog as evidence of the Haskell community's standpoint on anything. In particular, I doubt he'd consider using Proxy over undefined makes a significant difference in the safety of Haskell. Not that it takes anything away from this answer, of course. – John L Mar 1 '14 at 22:34
Why use proxy and not unTagged? – coppro Apr 26 at 13:38
@coppro Usually you have to explicitly indicate the type of the tag. In rare cases this is not necessary, so you can get away with unTagged. – Eric Apr 26 at 14:08

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