This is a follow-up question to this question about parsing JSON within a monadic context.

Consider a simple record type and its Data.Aeson.FromJSON instance. For the (Int, Int) field, I’m reading one value from the JSON and setting the other to 20.

import Data.Aeson

data DataPoint = DataPoint { placeName :: String
                           , readings :: (Int, Int)
                           } deriving (Show)

instance FromJSON DataPoint where
    parseJSON = withObject "DataPoint" $ \o -> DataPoint
        <$> o .: "name"
        <*> fmap (\v -> (v, 20)) (o .: "reading")

This works fine:

> (decodeThrow "{\"name\": \"Greenland\", \"reading\": 54}") :: Maybe DataPoint
Just (DataPoint {placeName = "Greenland", readings = (54,20)})

I'd like to replace that dummy 20 with a value that's provided separately. Following Daniel Wagner’s answer, I can lift this into the reader monad/environment functor (->) Int like

import Control.Applicative (liftA2)

instance FromJSON (Int -> DataPoint) where
    parseJSON = withObject "DataPoint" $ \o -> liftA2 DataPoint
        <$> fmap pure             (o .: "name")
        <*> fmap (\v c -> (v, c)) (o .: "reading")

In GHCi,

> let f = (decodeThrow "{\"name\": \"Greenland\", \"reading\": 54}") :: Maybe (Int -> DataPoint)
> f <*> Just 7
Just (DataPoint {placeName = "Greenland", readings = (54,7)})

In this case, liftA2, which has type

liftA2 :: Functor f => (a -> b -> c) -> f a -> f b -> f c

is specialized to

liftA2 :: (Parser String -> Parser (Int, Int) -> Parser DataPoint)
    -> (Int -> Parser String)
    -> (Int -> Parser (Int, Int))
    -> (Int -> Parser DataPoint)

Here’s my problem. My real record has something like seven fields, so I would have to write a function like liftA7 to be able to use this same approach with my real data. This is easy enough, but the fact that the standard library only provides liftA, liftA2, and liftA3 makes me think that I should be using a different approach to lift my parser into the (->) Int functor. Is there a better approach? Or do I need to just write out liftA7 and use that?

  • 1
    Looks like maybe you need Data.Functor.Compose, so you can use normal applicative syntax with a 2-layered functor. – luqui Mar 1 at 18:21

No need to lift through nested contexts here. The type parseJSON :: Parser (Int -> DataPoint) is simply asking you to write a Parser which returns a function.

Looking at your original code,

parseJSON = withObject "DataPoint" $ \o -> DataPoint
    <$> o .: "name"
    <*> fmap (\v -> (v, 20)) (o .: "reading")

I notice first of all that you're using a nested fmap underneath a <*> call. I'm going to reassociate this (the legality of this is a consequence of the applicative laws) to simplify your code:

parseJSON = withObject "DataPoint" $ \o ->
    (\name reading -> DataPoint name (reading, 20))
    <$> o .: "name"
    <*> o .: "reading"

This is easier to read overall, in my opinion. I'm just applying a two-argument function to two arguments in a context.

Now hopefully you can see how to make this parser return an Int -> DataPoint - just change the return type of the function you're mapping over the arguments.

parseJSON = withObject "DataPoint" $ \o ->
    (\name reading -> \x -> DataPoint name (reading, x))
    <$> o .: "name"
    <*> o .: "reading"

As a syntactic nicety, Haskell allows you to flatten nested lambdas.

parseJSON = withObject "DataPoint" $ \o ->
    (\name reading x -> DataPoint name (reading, x))
    <$> o .: "name"
    <*> o .: "reading"

And by the way, this is all equivalent to the noisier-but-perhaps-more-legible do-notation:

parseJSON = withObject "DataPoint" $ \o -> do
    name <- o .: "name"
    reading <- o .: "reading
    return $ \x -> DataPoint name (reading, x)

A quick test:

main = 
    let input = "{\"name\": \"Greenland\", \"reading\": 54}"
        f = decode input :: Maybe (Int -> DataPoint)
    in print $ fmap ($ 7) f
-- Just (DataPoint {placeName = "Greenland", readings = (7,54)})

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