Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Ok, so I have figured out how to implement Reader (and ReaderT, not shown) using the operational package:

{-# LANGUAGE GADTs, ScopedTypeVariables #-}

import Control.Monad.Operational

data ReaderI r a where
    Ask :: ReaderI r r

type Reader r a = Program (ReaderI r) a

ask :: Reader r r
ask = singleton Ask

runReader :: forall r a. Reader r a -> r -> a
runReader = interpretWithMonad evalI
    where evalI :: forall b. ReaderI r b -> (r -> b)
          evalI Ask = id

But I can't figure out for my life how to do this with free monads (I'm using Edward Kmett's free package). The closest I've gotten is this, which I understand is cheating (something about how ((->) r) is already a monad):

import Control.Monad.Free

type Reader r a = Free ((->) r) a

ask :: Reader r r
ask = Free Pure

runReader :: Reader r a -> r -> a
runReader (Pure a) _ = a
runReader (Free k) r = runReader (k r) r

-- Or, more simply and tellingly:
--
-- > runReader = retract

Even if this wasn't as dumb as I suspect it is, it's not what I want because what I want, basically, is to be able to inspect a Reader as data...

share|improve this question
1  
I don't think it can be done without a function type somewhere. –  Philip JF Mar 15 '13 at 8:23

2 Answers 2

up vote 3 down vote accepted

I don't think it can be done except they way you have. But, I don't think this is unique to reader. Consider the free monad version of writer

data WriterF m a = WriterF m a deriving (Functor)

type Writer m = Free (WriterF m)

obviously, WriterF is isomorphic to writer, but this does behave the way we would expect with the simple algebra

algebraWriter :: Monoid m => WriterF m (m,a) -> (m,a)
algebraWriter (WriterF m1 (m2,a)) = (m1 <> m2,a)

thus

runWriter :: Monoid m => Writer m a -> (m,a)
runWriter (Pure a) = (mempty,a)
runWriter (Free x) = algebraWriter . fmap runWriter $ x

Similarly, I think of the Free reader as

type ReaderF r = (->) r

type Reader r = Free (ReaderF r)

I like this, because adding them gives you the state monad

type State x = Free ((ReaderF x) :+: (WriterF x))

runState :: State x a -> x -> (a,x)
runState (Pure a) x                    = (a,x)
runState (Free (Inl f)) x              = runState (f x) x
runState (Free (Inr (WriterF x f))) _  = runState f x

Note, that your operational solution could be made to work with Free by using the "free functor", as can anything that works with operational

data FreeFunctor f x = forall a. FreeFunctor (f a) (a -> x)

but, that FreeFunctor ReaderI is also isomorphic to (->).

share|improve this answer

Well, I've been looking at this for 3 hours now, and I think I found something I like better. Since the Reader applicative is the same as the Reader monad, we can try an applicative version of operational:

{-# LANGUAGE RankNTypes, GADTs, FlexibleInstances #-}

import Control.Applicative

data ProgramA instr a where
    Pure  :: a -> ProgramA r a
    Ap    :: ProgramA r (a -> b) -> ProgramA r a -> ProgramA r b
    Instr :: instr a -> ProgramA instr a

infixl `Ap`

instance Functor (ProgramA instr) where
    fmap f (Pure a) = Pure (f a)
    fmap f (ff `Ap` fa) = ((f .) <$> ff) `Ap` fa
    fmap f instr = Pure f `Ap` instr

instance Applicative (ProgramA instr) where
    pure = Pure
    (<*>) = Ap

interpretA :: Applicative f =>
              (forall a. instr a -> f a)
           -> ProgramA instr a
           -> f a
interpretA evalI (Pure a) = pure a
interpretA evalI (ff `Ap` fa) = interpretA evalI ff <*> interpretA evalI fa
interpretA evalI (Instr i) = evalI i

data ReaderI r a where
    Ask :: ReaderI r r

type Reader r a = ProgramA (ReaderI r) a

ask :: Reader r r
ask = Instr Ask

runReader :: Reader r a -> r -> a
runReader = interpretA (\Ask -> id)

instance Monad (ProgramA (ReaderI r)) where
    return = pure
    ma >>= f = runReader <$> fmap f ma <*> ask

The structure of a ProgramA (ReaderI r) a) can be inspected more straightforwardly than either Program (ReaderI r) a or Free ((->) r) a.

share|improve this answer

Your Answer

 
discard

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.