3

The benefit of this could be to store certain metadata about the type in a canonical location. Sometimes, it isn't convenient to have a value of the type before using some instance methods on it; For instance if I have:

class Foo a where
  foo :: String
  foo = "Foo"

This is not actually valid Haskell. Instead it seems I have to have something like:

class Foo a where
  foo :: a -> String
  foo = const "Foo"

and now foo will actually have type Foo a => a -> String, but I would actually like to be able to do something like having a foo with type Instance Foo -> String. For this to be useful in some contexts, it might be also necessary to iterate over all (in-scope?) instances, or in other contexts, to be able to specifically materialize an instance for a given type.

I guess the issue is that instances and typeclasses are not first-class entities in Haskell?

  • Maybe, but it looks like this foo would still require a value of type a, no? – bbarker Feb 28 at 21:58
  • 2
    Your foo above does not have type Foo a => a -> [Char] as you claim, it will have type Foo a => [Char] which is ambiguous. If you allow ambiguous types, you will be able to use foo through type applications. – chi Feb 28 at 22:05
  • 2
    Ryan Scott wrote a pretty nifty summary of the approaches you can take for solving this problem: ryanglscott.github.io/2019/02/06/…. Not only does it cover the existing answers, but it also talks about some of the tradeoffs. – Alec Feb 28 at 23:07
8

The "old school" way of doing it is providing a "dummy" parameter whose purpose is nothing but helping the compiler find the appropriate instance. In this world, your class would look something like:

data Dummy a = Dummy

class Foo a where
    foo :: Dummy a -> String

-- usage:
boolFoo = foo (Dummy :: Dummy Bool)

In fact, this trick was so ubiquitous that the Dummy type was semi-standardized as Data.Proxy.


But in modern GHC there is a better way: TypeApplications.

With this extension enabled, you can just straight up specify the type when calling the class method:

class Foo a where
    foo :: String

boolFoo = foo @Bool

(this doesn't only work for class methods; it will work with any generic function, but be careful with the order of type parameters!)

You may also need to enable AllowAmbiguousTypes in order to declare such class. Though I'm not sure I remember this correctly, and I don't have a computer handy to check.

  • 1
    Or, you could have class Foo a where { foo :: dummy a -> String }. Then people can use foo (Dummy :: Dummy Bool) as well as foo (Proxy :: Proxy Bool). – Alec Feb 28 at 23:08
  • as it happens I'm using DerivingVia in my real case already, so it is looking like TypeApplications will win out - will test soon, thanks! – bbarker Mar 1 at 0:54
5

The old way (which I still prefer) is to use a proxy.

import Data.Proxy

class Foo a where
    foo :: Proxy a -> String

instance Foo FancyPants where
    foo _ = "a fancypants instance"

fooString :: String
fooString = foo (Proxy :: Proxy FancyPants)

So we didn't actually need a value of type FancyPants to use foo, all we needed is a value of Proxy FancyPants -- but you can create proxies of any type you want. This can be done in a polymorphic context too; usually it requires the use of the ScopedTypeVariables extension.

The new way is to use the TypeApplications and AllowAmbiguousTypes extension:

{-# LANGUAGE TypeApplications, AllowAmbiguousTypes #-}

class Foo a where
    foo :: String

instance Foo FancyPants where
    foo = "a fancypants instance"

fooString :: String
fooString = foo @FancyPants

Which looks nicer, but working with it in practice tends to be more irritating for a reason I can't quite put my finger on.

Did that answer the question?

  • 1
    There are two major irritations in practice: 1. You have to know the exact order of the (visible) kind and type arguments. 2. As far as I know, things still don't work in a higher-order context. You can write foo :: (forall a. C a => proxy a -> A) -> B or foo :: (forall a. C a => Tagged a A) -> B, but not foo :: (forall a. C a => A) -> B. So if you need to pass the method to a higher-rank HOF, you'll need some sort of adapter. – dfeuer Feb 28 at 23:42
  • Thanks, it sounds like (TypeApplications) will probably meet my needs for now, but @dfeuer is describing irritants that are worth knowing about. In that case, I could switch to one of the other options perhaps (including those mentioned in the blog post mentioned by @Alec) - will give it a try soon! #Proxy looks nice otherwise, though its interop with DerivingVia relies on an as yet unreleased GHC version (8.10.1). – bbarker Mar 1 at 1:06

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