{-| Large Library of conversion between various types and Nouns. -} module Urbit.Noun.Conversions ( Nullable(..), Jammed(..), AtomCell(..) , Word128, Word256, Word512 , Bytes(..), Octs(..), File(..) , Cord(..), Knot(..), Term(..), Tape(..), Tour(..) , BigTape(..), BigCord(..) , Wain(..), Wall, Each(..) , UD(..), UV(..), UW(..), cordToUW , Mug(..), Path(..), EvilPath(..), Ship(..) , Lenient(..), pathToFilePath, filePathToPath , showUD, tshowUD , textAsTa ) where import ClassyPrelude hiding (hash) import Control.Lens hiding (Each, Index, (<.>)) import Data.Void import Data.Word import Text.Regex.TDFA import Text.Regex.TDFA.Text () import Urbit.Atom import Urbit.Noun.Convert import Urbit.Noun.Core import Urbit.Noun.TH import Data.LargeWord (LargeKey, Word128, Word256) import GHC.Exts (chr#, isTrue#, leWord#, word2Int#) import GHC.Natural (Natural) import GHC.Types (Char(C#)) import GHC.Word (Word32(W32#)) import Prelude ((!!)) import RIO.FilePath (joinPath, splitDirectories, takeBaseName, takeDirectory, takeExtension, (<.>)) import Urbit.Noun.Cue (cue) import Urbit.Noun.Jam (jam) import Urbit.Ob (patp) import qualified Data.Char as C import qualified Data.Text as T import qualified Data.Text.Encoding as T import qualified Numeric as N -- Noun ------------------------------------------------------------------------ instance ToNoun Noun where toNoun = id instance FromNoun Noun where parseNoun = pure --- Atom ----------------------------------------------------------------------- instance ToNoun Atom where toNoun = Atom instance FromNoun Atom where parseNoun = named "Atom" . \case Atom a -> pure a Cell _ _ -> fail "Expecting an atom, but got a cell" -- Void ------------------------------------------------------------------------ instance ToNoun Void where toNoun = absurd instance FromNoun Void where parseNoun _ = named "Void" $ fail "Can't produce void" -- Cord ------------------------------------------------------------------------ newtype Cord = Cord { unCord :: Text } deriving newtype (Eq, Ord, Show, IsString, NFData) instance ToNoun Cord where toNoun = textToUtf8Atom . unCord instance FromNoun Cord where parseNoun = named "Cord" . fmap Cord . parseNounUtf8Atom -- Decimal Cords --------------------------------------------------------------- newtype UD = UD { unUD :: Word } deriving newtype (Eq, Ord, Show, Enum, Real, Integral, Num) instance ToNoun UD where toNoun = toNoun . Cord . tshow . unUD instance FromNoun UD where parseNoun n = named "UD" do Cord t <- parseNoun n readMay t & \case Nothing -> fail ("invalid decimal atom: " <> unpack (filter (/= '.') t)) Just vl -> pure (UD vl) showUD :: (Show i, Integral i) => i -> String showUD = uTypeAddDots 3 . show tshowUD :: (Show i, Integral i) => i -> Text tshowUD = pack . uTypeAddDots 3 . show -------------------------------------------------------------------------------- uTypeAddDots :: Int -> String -> String uTypeAddDots n = reverse . go . reverse where go s = if null tel then hed else hed <> "." <> go tel where hed = take n s tel = drop n s convertToU :: [Char] -> [Char] -> Atom -> String convertToU baseMap prefix = go [] where go acc 0 = "0" <> prefix <> uTypeAddDots 5 acc go acc n = go (char n : acc) (n `div` len) char n = baseMap !! (fromIntegral (n `mod` len)) len = fromIntegral (length baseMap) convertFromU :: (Char -> Maybe Atom) -> Char -> Atom -> String -> Maybe Atom convertFromU fetch prefix length = \case ('0':prefix:cs) -> go (0, 0) (reverse cs) _ -> Nothing where go (i, acc) [] = pure acc go (i, acc) ('.' : cs) = go (i, acc) cs go (i, acc) (c : cs) = do n <- fetch c go (i+1, acc+(length^i)*n) cs -- @uv newtype UV = UV { unUV :: Atom } deriving newtype (Eq, Ord, Show, Num, Enum, Real, Integral) instance ToNoun UV where toNoun = toNoun . Cord . pack . toUV . fromIntegral . unUV instance FromNoun UV where parseNoun n = do Cord c <- parseNoun n case fromUV $ unpack c of Nothing -> fail ("Invalid @uv: " <> unpack c) Just uv -> pure (UV uv) fromUV :: String -> Maybe Atom fromUV = convertFromU uvCharNum 'v' (fromIntegral $ length base32Chars) toUV :: Atom -> String toUV = convertToU base32Chars "v" base32Chars :: [Char] base32Chars = (['0'..'9'] <> ['a'..'v']) uvCharNum :: Char -> Maybe Atom uvCharNum = \case '0' -> pure 0 '1' -> pure 1 '2' -> pure 2 '3' -> pure 3 '4' -> pure 4 '5' -> pure 5 '6' -> pure 6 '7' -> pure 7 '8' -> pure 8 '9' -> pure 9 'a' -> pure 10 'b' -> pure 11 'c' -> pure 12 'd' -> pure 13 'e' -> pure 14 'f' -> pure 15 'g' -> pure 16 'h' -> pure 17 'i' -> pure 18 'j' -> pure 19 'k' -> pure 20 'l' -> pure 21 'm' -> pure 22 'n' -> pure 23 'o' -> pure 24 'p' -> pure 25 'q' -> pure 26 'r' -> pure 27 's' -> pure 28 't' -> pure 29 'u' -> pure 30 'v' -> pure 31 _ -> Nothing -------------------------------------------------------------------------------- -- @uw newtype UW = UW { unUW :: Atom } deriving newtype (Eq, Ord, Show, Num, Enum, Real, Integral) instance ToNoun UW where toNoun = toNoun . Cord . pack . toUW . fromIntegral . unUW instance FromNoun UW where parseNoun n = do Cord c <- parseNoun n case fromUW $ unpack c of Nothing -> fail ("Invalid @uw: " <> unpack c) Just uw -> pure (UW uw) fromUW :: String -> Maybe Atom fromUW = convertFromU uwCharNum 'w' (fromIntegral $ length base64Chars) toUW :: Atom -> String toUW = convertToU base64Chars "w" base64Chars :: [Char] base64Chars = (['0'..'9'] <> ['a'..'z'] <> ['A'..'Z'] <> ['-', '~']) uwCharNum :: Char -> Maybe Atom uwCharNum = \case '0' -> pure 0 '1' -> pure 1 '2' -> pure 2 '3' -> pure 3 '4' -> pure 4 '5' -> pure 5 '6' -> pure 6 '7' -> pure 7 '8' -> pure 8 '9' -> pure 9 'a' -> pure 10 'b' -> pure 11 'c' -> pure 12 'd' -> pure 13 'e' -> pure 14 'f' -> pure 15 'g' -> pure 16 'h' -> pure 17 'i' -> pure 18 'j' -> pure 19 'k' -> pure 20 'l' -> pure 21 'm' -> pure 22 'n' -> pure 23 'o' -> pure 24 'p' -> pure 25 'q' -> pure 26 'r' -> pure 27 's' -> pure 28 't' -> pure 29 'u' -> pure 30 'v' -> pure 31 'w' -> pure 32 'x' -> pure 33 'y' -> pure 34 'z' -> pure 35 'A' -> pure 36 'B' -> pure 37 'C' -> pure 38 'D' -> pure 39 'E' -> pure 40 'F' -> pure 41 'G' -> pure 42 'H' -> pure 43 'I' -> pure 44 'J' -> pure 45 'K' -> pure 46 'L' -> pure 47 'M' -> pure 48 'N' -> pure 49 'O' -> pure 50 'P' -> pure 51 'Q' -> pure 52 'R' -> pure 53 'S' -> pure 54 'T' -> pure 55 'U' -> pure 56 'V' -> pure 57 'W' -> pure 58 'X' -> pure 59 'Y' -> pure 60 'Z' -> pure 61 '-' -> pure 62 '~' -> pure 63 _ -> Nothing -- Maybe parses the underlying atom value from a text printed in UW format. cordToUW :: Cord -> Maybe UW cordToUW = fromNoun . toNoun -- Char ------------------------------------------------------------------------ instance ToNoun Char where toNoun = Atom . fromIntegral . C.ord {- Hack: pulled this logic from Data.Char impl. -} instance FromNoun Char where parseNoun n = named "Char" $ do W32# w :: Word32 <- parseNoun n if isTrue# (w `leWord#` 0x10FFFF##) then pure (C# (chr# (word2Int# w))) else fail "Word is not a valid character." -- Tour ------------------------------------------------------------------------ newtype Tour = Tour [Char] deriving newtype (Eq, Ord, Show, ToNoun, FromNoun) -- Double Jammed --------------------------------------------------------------- newtype Jammed a = Jammed a deriving (Eq, Ord, Show) instance ToNoun a => ToNoun (Jammed a) where toNoun (Jammed a) = Atom $ jam $ toNoun a instance FromNoun a => FromNoun (Jammed a) where parseNoun n = named "Jammed" $ do a <- parseNoun n cue a & \case Left err -> fail (show err) Right res -> do Jammed <$> parseNoun res -- Atom or Cell ---------------------------------------------------------------- type Word512 = LargeKey Word256 Word256 data AtomCell a c = ACAtom a | ACCell c deriving (Eq, Ord, Show) instance (ToNoun a, ToNoun c) => ToNoun (AtomCell a c) where toNoun (ACAtom a) = toNoun a toNoun (ACCell c) = toNoun c instance (FromNoun a, FromNoun c) => FromNoun (AtomCell a c) where parseNoun n = named "(,)" $ case n of Atom _ -> ACAtom <$> parseNoun n Cell _ _ -> ACCell <$> parseNoun n -- Lenient --------------------------------------------------------------------- data Lenient a = FailParse Noun | GoodParse a deriving (Eq, Ord, Show) instance FromNoun a => FromNoun (Lenient a) where parseNoun n = (GoodParse <$> parseNoun n) <|> fallback where fallback = fromNounErr n & \case Right x -> pure (GoodParse x) Left err -> do -- traceM ("LENIENT.FromNoun: " <> show err) -- traceM (ppShow n) pure (FailParse n) instance ToNoun a => ToNoun (Lenient a) where toNoun (FailParse n) = n -- trace ("LENIENT.ToNoun: " <> show n) toNoun (GoodParse x) = toNoun x -- Todo -- Debugging Hack ------------------------------------------------------ newtype Todo a = Todo a deriving newtype (Eq, Ord, ToNoun) instance Show (Todo a) where show (Todo _) = "TODO" instance FromNoun a => FromNoun (Todo a) where parseNoun n = do fromNounErr n & \case Right x -> pure (Todo x) Left er -> fail (show er) -- traceM ("[TODO]: " <> show er <> "\n" <> ppShow n <> "\n") -- Nullable -------------------------------------------------------------------- {-| `Nullable a <-> ?@(~ a)` This is distinct from `unit`, since there is no tag on the non-atom case, therefore `a` must always be cell type. -} data Nullable a = None | Some a deriving (Eq, Ord, Show) instance ToNoun a => ToNoun (Nullable a) where toNoun = toNoun . \case None -> ACAtom () Some x -> ACCell x instance FromNoun a => FromNoun (Nullable a) where parseNoun n = named "Nullable" $ do parseNoun n >>= \case (ACAtom ()) -> pure None (ACCell x) -> pure (Some x) -- List ------------------------------------------------------------------------ instance ToNoun a => ToNoun [a] where toNoun xs = nounFromList (toNoun <$> xs) where nounFromList :: [Noun] -> Noun nounFromList [] = Atom 0 nounFromList (x:xs) = Cell x (nounFromList xs) instance FromNoun a => FromNoun [a] where parseNoun = named "[]" . \case Atom 0 -> pure [] Atom _ -> fail "list terminated with non-null atom" Cell l r -> (:) <$> parseNoun l <*> parseNoun r -- Tape ------------------------------------------------------------------------ {- A `tape` is a list of utf8 bytes. -} newtype Tape = Tape { unTape :: Text } deriving newtype (Eq, Ord, Show, Semigroup, Monoid, IsString) instance ToNoun Tape where toNoun = toNoun . (unpack :: ByteString -> [Word8]) . encodeUtf8 . unTape instance FromNoun Tape where parseNoun n = named "Tape" $ do as :: [Word8] <- parseNoun n T.decodeUtf8' (pack as) & \case Left err -> fail (show err) Right tx -> pure (Tape tx) -- Wain -- List of Lines ------------------------------------------------------- newtype Wain = Wain { unWain :: Text } deriving newtype (Eq, Ord, Show, IsString, NFData) instance ToNoun Wain where toNoun (Wain t) = toNoun (Cord <$> lines t) instance FromNoun Wain where parseNoun n = named "Wain" $ do tx :: [Cord] <- parseNoun n pure $ Wain $ unlines (unCord <$> tx) -- Wall -- Text Lines ---------------------------------------------------------- type Wall = [Tape] -- Big Cord -- Don't Print ----------------------------------------------------- newtype BigCord = BigCord Cord deriving newtype (Eq, Ord, ToNoun, FromNoun, IsString) instance Show BigCord where show (BigCord (Cord t)) = show (take 32 t <> "...") -- Big Tape -- Don't Print ----------------------------------------------------- newtype BigTape = BigTape Tape deriving newtype (Eq, Ord, ToNoun, FromNoun, IsString) instance Show BigTape where show (BigTape (Tape t)) = show (take 32 t <> "...") -- Bytes ----------------------------------------------------------------------- newtype Bytes = MkBytes { unBytes :: ByteString } deriving newtype (Eq, Ord, Show) instance ToNoun Bytes where toNoun = Atom . bytesAtom . unBytes instance FromNoun Bytes where parseNoun = named "Bytes" . fmap (MkBytes . atomBytes) . parseNoun -- Octs ------------------------------------------------------------------------ newtype Octs = Octs { unOcts :: ByteString } deriving newtype (Eq, Ord, Show, IsString) instance ToNoun Octs where toNoun (Octs bs) = toNoun (int2Word (length bs), bytesAtom bs) where int2Word :: Int -> Word int2Word = fromIntegral instance FromNoun Octs where parseNoun x = named "Octs" $ do (word2Int -> len, atom) <- parseNoun x let bs = atomBytes atom pure $ Octs $ case compare (length bs) len of EQ -> bs LT -> bs <> replicate (len - length bs) 0 GT -> take len bs where word2Int :: Word -> Int word2Int = fromIntegral -- File Contents -- Don't Print ------------------------------------------------ newtype File = File { unFile :: Octs } deriving newtype (Eq, Ord, IsString, ToNoun, FromNoun) instance Show File where show (File (Octs bs)) = show (take 32 bs <> "...") -- Knot ------------------------------------------------------------------------ {- Knot (@ta) is an array of Word8 encoding an ASCII string. -} newtype Knot = MkKnot { unKnot :: Text } deriving newtype (Eq, Ord, Show, Semigroup, Monoid, IsString) instance ToNoun Knot where toNoun = textToUtf8Atom . unKnot instance FromNoun Knot where parseNoun n = named "Knot" $ do txt <- parseNounUtf8Atom n if all C.isAscii txt then pure (MkKnot txt) else fail ("Non-ASCII chars in knot: " <> unpack txt) -- equivalent of (cury scot %t) textAsTa :: Text -> Text textAsTa = ("~~" <>) . concatMap \case ' ' -> "." '.' -> "~." '~' -> "~~" c -> if C.isAlphaNum c || (c == '-') then T.singleton c else if C.ord c < 0x10 then "~0" else "~" <> (pack $ N.showHex (C.ord c) ".") -- Term ------------------------------------------------------------------------ {- A Term (@tas) is a Knot satisfying the regular expression: ([a-z][a-z0-9]*(-[a-z0-9]+)*)? -} newtype Term = MkTerm { unTerm :: Text } deriving newtype (Eq, Ord, Show, Semigroup, Monoid, IsString) instance ToNoun Term where -- XX TODO toNoun = textToUtf8Atom . unTerm knotRegex :: Text knotRegex = "([a-z][a-z0-9]*(-[a-z0-9]+)*)?" instance FromNoun Term where -- XX TODO parseNoun n = named "Term" $ do MkKnot t <- parseNoun n if t =~ knotRegex then pure (MkTerm t) else fail ("Term not valid symbol: " <> unpack t) -- Ship ------------------------------------------------------------------------ newtype Ship = Ship Word128 -- @p deriving newtype (Eq, Ord, Enum, Real, Integral, Num, ToNoun, FromNoun) instance Show Ship where show = show . patp . fromIntegral -- Path ------------------------------------------------------------------------ newtype Path = Path { unPath :: [Knot] } deriving newtype (Eq, Ord, Semigroup, Monoid) instance Show Path where show = show . intercalate "/" . ("":) . unPath newtype EvilPath = EvilPath { unEvilPath :: [Atom] } deriving newtype (Eq, Ord, Semigroup, Monoid) instance Show EvilPath where show = show . unEvilPath pathToFilePath :: Path -> FilePath pathToFilePath p = joinPath components where elements :: [String] = map (unpack . unKnot) (unPath p) components = case reverse elements of [] -> [] [p] -> [p] (ext : fname : dirs) -> (reverse dirs) <> [(fname <.> ext)] -- Takes a filepath and converts it to a clay path, changing the '.' to a '/' -- and removing any prefixed '/'. filePathToPath :: FilePath -> Path filePathToPath fp = Path path where path = map (MkKnot . pack) (dir ++ file) dir = case (splitDirectories $ (takeDirectory fp)) of ["."] -> [] ("/":xs) -> xs x -> x file = if ext /= "" then [takeBaseName fp, ext] else [takeBaseName fp] ext = case takeExtension fp of ('.':xs) -> xs x -> x -- Mug ------------------------------------------------------------------------- newtype Mug = Mug Word32 deriving newtype (Eq, Ord, Show, Num, ToNoun, FromNoun) -- Bool ------------------------------------------------------------------------ instance ToNoun Bool where toNoun True = Atom 0 toNoun False = Atom 1 instance FromNoun Bool where parseNoun = named "Bool" . parse where parse n = parseNoun n >>= \case (0::Atom) -> pure True 1 -> pure False _ -> fail "Atom is not a valid loobean" -- Integer --------------------------------------------------------------------- instance ToNoun Integer where toNoun = toNoun . (fromIntegral :: Integer -> Natural) instance FromNoun Integer where parseNoun = named "Integer" . fmap natInt . parseNoun where natInt :: Natural -> Integer natInt = fromIntegral -- Words ----------------------------------------------------------------------- atomToWord :: forall a. (Bounded a, Integral a) => Atom -> Parser a atomToWord atom = do if atom > fromIntegral (maxBound :: a) then fail "Atom doesn't fit in fixed-size word" else pure (fromIntegral atom) wordToNoun :: Integral a => a -> Noun wordToNoun = Atom . fromIntegral nounToWord :: forall a. (Bounded a, Integral a) => Noun -> Parser a nounToWord = parseNoun >=> atomToWord instance ToNoun Word where toNoun = wordToNoun instance ToNoun Word8 where toNoun = wordToNoun instance ToNoun Word16 where toNoun = wordToNoun instance ToNoun Word32 where toNoun = wordToNoun instance ToNoun Word64 where toNoun = wordToNoun instance ToNoun Word128 where toNoun = wordToNoun instance ToNoun Word256 where toNoun = wordToNoun instance ToNoun Word512 where toNoun = wordToNoun instance FromNoun Word where parseNoun = named "Word" . nounToWord instance FromNoun Word8 where parseNoun = named "Word8" . nounToWord instance FromNoun Word16 where parseNoun = named "Word16" . nounToWord instance FromNoun Word32 where parseNoun = named "Word32" . nounToWord instance FromNoun Word64 where parseNoun = named "Word64" . nounToWord instance FromNoun Word128 where parseNoun = named "Word128" . nounToWord instance FromNoun Word256 where parseNoun = named "Word256" . nounToWord instance FromNoun Word512 where parseNoun = named "Word512" . nounToWord -- Maybe is `unit` ------------------------------------------------------------- -- TODO Consider enforcing that `a` must be a cell. instance ToNoun a => ToNoun (Maybe a) where toNoun Nothing = Atom 0 toNoun (Just x) = Cell (Atom 0) (toNoun x) instance FromNoun a => FromNoun (Maybe a) where parseNoun = named "Maybe" . \case Atom 0 -> pure Nothing Atom n -> unexpected ("atom " <> show n) Cell (Atom 0) t -> Just <$> parseNoun t Cell n _ -> unexpected ("cell with head-atom " <> show n) where unexpected s = fail ("Expected unit value, but got " <> s) -- Each is a direct translation of Hoon +each, preserving order data Each a b = EachYes a | EachNo b deriving (Eq, Ord, Show) instance (ToNoun a, ToNoun b) => ToNoun (Each a b) where toNoun (EachYes x) = C (A 0) (toNoun x) toNoun (EachNo x) = C (A 1) (toNoun x) instance (FromNoun a, FromNoun b) => FromNoun (Each a b) where parseNoun n = named "Each" $ do (Atom tag, v) <- parseNoun n case tag of 0 -> named "&" (EachYes <$> parseNoun v) 1 -> named "|" (EachNo <$> parseNoun v) n -> fail ("Each has invalid head-atom: " <> show n) -- Tuple Conversions ----------------------------------------------------------- instance ToNoun () where toNoun () = Atom 0 instance FromNoun () where parseNoun = named "()" . \case Atom 0 -> pure () x -> fail ("expecting `~`, but got " <> show x) instance (ToNoun a, ToNoun b) => ToNoun (a, b) where toNoun (x, y) = Cell (toNoun x) (toNoun y) shortRec :: Word -> Parser a shortRec 0 = fail "expected a record, but got an atom" shortRec 1 = fail ("record too short, only one cell") shortRec n = fail ("record too short, only " <> show n <> " cells") instance (FromNoun a, FromNoun b) => FromNoun (a, b) where parseNoun n = named ("(,)") $ do case n of A _ -> shortRec 0 C x y -> do (,) <$> named "1" (parseNoun x) <*> named "2" (parseNoun y) instance (ToNoun a, ToNoun b, ToNoun c) => ToNoun (a, b, c) where toNoun (x, y, z) = toNoun (x, (y, z)) instance (FromNoun a, FromNoun b, FromNoun c) => FromNoun (a, b, c) where parseNoun n = named "(,,)" $ do case n of A _ -> shortRec 0 C x (A _) -> shortRec 1 C x (C y z) -> (,,) <$> named "1" (parseNoun x) <*> named "2" (parseNoun y) <*> named "3" (parseNoun z) instance (ToNoun a, ToNoun b, ToNoun c, ToNoun d) => ToNoun (a, b, c, d) where toNoun (p, q, r, s) = toNoun (p, (q, r, s)) instance (FromNoun a, FromNoun b, FromNoun c, FromNoun d) => FromNoun (a, b, c, d) where parseNoun n = named "(,,,)" $ do case n of A _ -> shortRec 0 C _ (A _) -> shortRec 1 C _ (C _ (A _)) -> shortRec 2 C p (C q (C r s)) -> (,,,) <$> named "1" (parseNoun p) <*> named "2" (parseNoun q) <*> named "3" (parseNoun r) <*> named "4" (parseNoun s) instance (ToNoun a, ToNoun b, ToNoun c, ToNoun d, ToNoun e) => ToNoun (a, b, c, d, e) where toNoun (p, q, r, s, t) = toNoun (p, (q, r, s, t)) instance (FromNoun a, FromNoun b, FromNoun c, FromNoun d, FromNoun e) => FromNoun (a, b, c, d, e) where parseNoun n = named "(,,,,)" $ do case n of A _ -> shortRec 0 C _ (A _) -> shortRec 1 C _ (C _ (A _)) -> shortRec 2 C _ (C _ (C _ (A _))) -> shortRec 3 C p (C q (C r (C s t))) -> (,,,,) <$> named "1" (parseNoun p) <*> named "2" (parseNoun q) <*> named "3" (parseNoun r) <*> named "4" (parseNoun s) <*> named "5" (parseNoun t) instance (ToNoun a, ToNoun b, ToNoun c, ToNoun d, ToNoun e, ToNoun f) => ToNoun (a, b, c, d, e, f) where toNoun (p, q, r, s, t, u) = toNoun (p, (q, r, s, t, u)) instance ( FromNoun a, FromNoun b, FromNoun c, FromNoun d, FromNoun e , FromNoun f ) => FromNoun (a, b, c, d, e, f) where parseNoun n = named "(,,,,,)" $ do (p, tail) <- parseNoun n (q, r, s, t, u) <- parseNoun tail pure (p, q, r, s, t, u) instance (ToNoun a, ToNoun b, ToNoun c, ToNoun d, ToNoun e, ToNoun f, ToNoun g) => ToNoun (a, b, c, d, e, f, g) where toNoun (p, q, r, s, t, u, v) = toNoun (p, (q, r, s, t, u, v)) instance ( FromNoun a, FromNoun b, FromNoun c, FromNoun d, FromNoun e , FromNoun f, FromNoun g ) => FromNoun (a, b, c, d, e, f, g) where parseNoun n = named "(,,,,,,)" $ do (p, tail) <- parseNoun n (q, r, s, t, u, v) <- parseNoun tail pure (p, q, r, s, t, u, v) instance ( ToNoun a, ToNoun b, ToNoun c, ToNoun d, ToNoun e, ToNoun f, ToNoun g , ToNoun h ) => ToNoun (a, b, c, d, e, f, g, h) where toNoun (p, q, r, s, t, u, v, w) = toNoun (p, (q, r, s, t, u, v, w)) instance ( FromNoun a, FromNoun b, FromNoun c, FromNoun d, FromNoun e , FromNoun f, FromNoun g, FromNoun h ) => FromNoun (a, b, c, d, e, f, g, h) where parseNoun n = named "(,,,,,,,)" $ do (p, tail) <- parseNoun n (q, r, s, t, u, v, w) <- parseNoun tail pure (p, q, r, s, t, u, v, w) instance ( ToNoun a, ToNoun b, ToNoun c, ToNoun d, ToNoun e, ToNoun f, ToNoun g , ToNoun h, ToNoun i ) => ToNoun (a, b, c, d, e, f, g, h, i) where toNoun (p, q, r, s, t, u, v, w, x) = toNoun (p, (q, r, s, t, u, v, w, x)) instance ( FromNoun a, FromNoun b, FromNoun c, FromNoun d, FromNoun e , FromNoun f, FromNoun g, FromNoun h, FromNoun i ) => FromNoun (a, b, c, d, e, f, g, h, i) where parseNoun n = named "(,,,,,,,,)" $ do (p, tail) <- parseNoun n (q, r, s, t, u, v, w, x) <- parseNoun tail pure (p, q, r, s, t, u, v, w, x) instance ( ToNoun a, ToNoun b, ToNoun c, ToNoun d, ToNoun e, ToNoun f, ToNoun g , ToNoun h, ToNoun i, ToNoun j ) => ToNoun (a, b, c, d, e, f, g, h, i, j) where toNoun (p, q, r, s, t, u, v, w, x, y) = toNoun (p, (q, r, s, t, u, v, w, x, y)) instance ( FromNoun a, FromNoun b, FromNoun c, FromNoun d, FromNoun e , FromNoun f, FromNoun g, FromNoun h, FromNoun i, FromNoun j ) => FromNoun (a, b, c, d, e, f, g, h, i, j) where parseNoun n = named "(,,,,,,,,,)" $ do (p, tail) <- parseNoun n (q, r, s, t, u, v, w, x, y) <- parseNoun tail pure (p, q, r, s, t, u, v, w, x, y) -- Ugg ------------------------------------------------------------------------- deriveNoun ''Path deriveNoun ''EvilPath