urbit/pkg/hs-urbit/lib/Noun/Convert.hs

module Noun.Convert
  ( ToNoun(toNoun)
  , FromNoun(parseNoun), fromNoun, fromNounErr
  , Parser(..)
  , CellIdx, NounPath
  , Cord(..)
  ) where

import ClassyPrelude hiding (hash)
import Noun.Core
import Noun.Atom
import Control.Lens

import qualified Control.Monad.Fail as Fail


-- Types -----------------------------------------------------------------------

data CellIdx = L | R
  deriving (Eq, Ord, Show)

type NounPath = [CellIdx]


-- IResult ---------------------------------------------------------------------

data IResult a = IError NounPath String | ISuccess a
  deriving (Eq, Show, Typeable, Functor, Foldable, Traversable)

instance Applicative IResult where
    pure  = ISuccess
    (<*>) = ap

instance Fail.MonadFail IResult where
    fail err = IError [] err

instance Monad IResult where
    return = pure
    fail   = Fail.fail
    ISuccess a      >>= k = k a
    IError path err >>= _ = IError path err

instance MonadPlus IResult where
    mzero = fail "mzero"
    mplus a@(ISuccess _) _ = a
    mplus _ b              = b

instance Alternative IResult where
    empty = mzero
    (<|>) = mplus

instance Semigroup (IResult a) where
    (<>) = mplus

instance Monoid (IResult a) where
    mempty  = fail "mempty"
    mappend = (<>)


-- Result ----------------------------------------------------------------------

data Result a = Error String | Success a
  deriving (Eq, Show, Typeable, Functor, Foldable, Traversable)

instance Applicative Result where
    pure  = Success
    (<*>) = ap

instance Fail.MonadFail Result where
    fail err = Error err

instance Monad Result where
    return = pure
    fail   = Fail.fail

    Success a >>= k = k a
    Error err >>= _ = Error err

instance MonadPlus Result where
    mzero = fail "mzero"
    mplus a@(Success _) _ = a
    mplus _ b             = b

instance Alternative Result where
    empty = mzero
    (<|>) = mplus

instance Semigroup (Result a) where
    (<>) = mplus
    {-# INLINE (<>) #-}

instance Monoid (Result a) where
    mempty  = fail "mempty"
    mappend = (<>)


-- "Parser" --------------------------------------------------------------------

type Failure f r   = NounPath -> String -> f r
type Success a f r = a -> f r

newtype Parser a = Parser {
  runParser :: forall f r.  NounPath -> Failure f r -> Success a f r -> f r
}

instance Monad Parser where
    m >>= g = Parser $ \path kf ks -> let ks' a = runParser (g a) path kf ks
                                       in runParser m path kf ks'
    return = pure
    fail = Fail.fail

instance Fail.MonadFail Parser where
    fail msg = Parser $ \path kf _ks -> kf (reverse path) msg

instance Functor Parser where
    fmap f m = Parser $ \path kf ks -> let ks' a = ks (f a)
                                        in runParser m path kf ks'

apP :: Parser (a -> b) -> Parser a -> Parser b
apP d e = do
  b <- d
  b <$> e

instance Applicative Parser where
    pure a = Parser $ \_path _kf ks -> ks a
    (<*>) = apP

instance Alternative Parser where
    empty = fail "empty"
    (<|>) = mplus

instance MonadPlus Parser where
    mzero = fail "mzero"
    mplus a b = Parser $ \path kf ks -> let kf' _ _ = runParser b path kf ks
                                         in runParser a path kf' ks

instance Semigroup (Parser a) where
    (<>) = mplus

instance Monoid (Parser a) where
    mempty  = fail "mempty"
    mappend = (<>)


-- Conversion ------------------------------------------------------------------

class FromNoun a where
  parseNoun :: Noun -> Parser a

class ToNoun a where
  toNoun :: a -> Noun

--------------------------------------------------------------------------------

fromNoun :: FromNoun a => Noun -> Maybe a
fromNoun n = runParser (parseNoun n) [] onFail onSuccess
  where
    onFail p m  = Nothing
    onSuccess x = Just x

fromNounErr :: FromNoun a => Noun -> Either Text a
fromNounErr n = runParser (parseNoun n) [] onFail onSuccess
  where
    onFail p m  = Left (pack m)
    onSuccess x = Right x


-- Cord Conversions ------------------------------------------------------------

newtype Cord = Cord { unCord :: ByteString }
  deriving newtype (Eq, Ord, Show, IsString, NFData)

instance ToNoun Cord where
  toNoun (Cord bs) = Atom (bs ^. from atomBytes)

instance FromNoun Cord where
  parseNoun n = do
    atom <- parseNoun n
    pure $ Cord (atom ^. atomBytes)

--- Atom Conversion ------------------------------------------------------------

instance ToNoun Atom where
  toNoun = Atom

instance FromNoun Atom where
  parseNoun = \case
    Atom a   -> pure a
    Cell _ _ -> fail "Expecting an atom, but got a cell"