mirror of
https://github.com/ilyakooo0/urbit.git
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898 lines
25 KiB
Haskell
898 lines
25 KiB
Haskell
{-|
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Large Library of conversion between various types and Nouns.
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-}
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module Urbit.Noun.Conversions
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( Nullable(..), Jammed(..), AtomCell(..)
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, Word128, Word256, Word512
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, Bytes(..), Octs(..), File(..)
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, Cord(..), Knot(..), Term(..), Tape(..), Tour(..)
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, BigTape(..), BigCord(..)
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, Wain(..), Wall, Each(..)
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, UD(..), UV(..), UW(..), cordToUW
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, Path(..), EvilPath(..), Ship(..)
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, Lenient(..), pathToFilePath, filePathToPath
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, showUD, tshowUD
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, textAsT
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) where
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import ClassyPrelude hiding (hash)
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import Control.Lens hiding (Each, Index, (<.>))
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import Control.Monad.Fail (fail)
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import Data.Void
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import Data.Word
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import Text.Regex.TDFA
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import Text.Regex.TDFA.Text ()
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import Urbit.Atom
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import Urbit.Noun.Convert
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import Urbit.Noun.Core
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import Urbit.Noun.TH
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import Data.LargeWord (LargeKey, Word128, Word256)
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import GHC.Exts (chr#, isTrue#, leWord#, word2Int#)
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import GHC.Natural (Natural)
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import GHC.Types (Char(C#))
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import GHC.Word (Word32(W32#))
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import Prelude ((!!))
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import RIO.FilePath (joinPath, splitDirectories, takeBaseName,
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takeDirectory, takeExtension)
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import Urbit.Noun.Cue (cue)
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import Urbit.Noun.Jam (jam)
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import Urbit.Ob (patp)
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import qualified Data.Char as C
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import qualified Data.Text as T
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import qualified Data.Text.Encoding as T
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import qualified Numeric as N
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-- Noun ------------------------------------------------------------------------
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instance ToNoun Noun where
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toNoun = id
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instance FromNoun Noun where
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parseNoun = pure
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--- Atom -----------------------------------------------------------------------
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instance ToNoun Atom where
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toNoun = Atom
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instance FromNoun Atom where
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parseNoun = named "Atom" . \case
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Atom a -> pure a
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Cell _ _ -> fail "Expecting an atom, but got a cell"
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-- Void ------------------------------------------------------------------------
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instance ToNoun Void where
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toNoun = absurd
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instance FromNoun Void where
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parseNoun _ = named "Void" $ fail "Can't produce void"
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-- Cord ------------------------------------------------------------------------
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newtype Cord = Cord { unCord :: Text }
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deriving newtype (Eq, Ord, Show, IsString, NFData)
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instance ToNoun Cord where
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toNoun = textToUtf8Atom . unCord
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instance FromNoun Cord where
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parseNoun = named "Cord" . fmap Cord . parseNounUtf8Atom
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-- Decimal Cords ---------------------------------------------------------------
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newtype UD = UD { unUD :: Word }
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deriving newtype (Eq, Ord, Show, Enum, Real, Integral, Num)
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instance ToNoun UD where
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toNoun = toNoun . Cord . tshow . unUD
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instance FromNoun UD where
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parseNoun n = named "UD" do
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Cord t <- parseNoun n
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readMay t & \case
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Nothing -> fail ("invalid decimal atom: " <> unpack (filter (/= '.') t))
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Just vl -> pure (UD vl)
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showUD :: (Show i, Integral i) => i -> String
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showUD = uTypeAddDots 3 . show
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tshowUD :: (Show i, Integral i) => i -> Text
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tshowUD = pack . uTypeAddDots 3 . show
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--------------------------------------------------------------------------------
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uTypeAddDots :: Int -> String -> String
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uTypeAddDots n = reverse . go . reverse
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where
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go s = if null tel then hed
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else hed <> "." <> go tel
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where
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hed = take n s
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tel = drop n s
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convertToU :: [Char] -> [Char] -> Atom -> String
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convertToU baseMap prefix = go []
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where
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go acc 0 = "0" <> prefix <> uTypeAddDots 5 acc
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go acc n = go (char n : acc) (n `div` len)
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char n = baseMap !! (fromIntegral (n `mod` len))
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len = fromIntegral (length baseMap)
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convertFromU :: (Char -> Maybe Atom) -> Char -> Atom -> String -> Maybe Atom
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convertFromU fetch prefix length = \case
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('0':prefix:cs) -> go (0, 0) (reverse cs)
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_ -> Nothing
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where
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go (i, acc) [] = pure acc
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go (i, acc) ('.' : cs) = go (i, acc) cs
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go (i, acc) (c : cs) = do
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n <- fetch c
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go (i+1, acc+(length^i)*n) cs
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-- @uv
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newtype UV = UV { unUV :: Atom }
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deriving newtype (Eq, Ord, Show, Num, Enum, Real, Integral)
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instance ToNoun UV where
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toNoun = toNoun . Cord . pack . toUV . fromIntegral . unUV
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instance FromNoun UV where
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parseNoun n = do
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Cord c <- parseNoun n
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case fromUV $ unpack c of
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Nothing -> fail ("Invalid @uv: " <> unpack c)
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Just uv -> pure (UV uv)
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fromUV :: String -> Maybe Atom
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fromUV = convertFromU uvCharNum 'v' (fromIntegral $ length base32Chars)
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toUV :: Atom -> String
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toUV = convertToU base32Chars "v"
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base32Chars :: [Char]
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base32Chars = (['0'..'9'] <> ['a'..'v'])
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uvCharNum :: Char -> Maybe Atom
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uvCharNum = \case
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'0' -> pure 0
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'1' -> pure 1
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'2' -> pure 2
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'3' -> pure 3
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'4' -> pure 4
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'5' -> pure 5
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'6' -> pure 6
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'7' -> pure 7
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'8' -> pure 8
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'9' -> pure 9
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'a' -> pure 10
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'b' -> pure 11
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'c' -> pure 12
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'd' -> pure 13
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'e' -> pure 14
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'f' -> pure 15
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'g' -> pure 16
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'h' -> pure 17
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'i' -> pure 18
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'j' -> pure 19
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'k' -> pure 20
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'l' -> pure 21
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'm' -> pure 22
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'n' -> pure 23
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'o' -> pure 24
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'p' -> pure 25
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'q' -> pure 26
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'r' -> pure 27
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's' -> pure 28
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't' -> pure 29
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'u' -> pure 30
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'v' -> pure 31
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_ -> Nothing
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--------------------------------------------------------------------------------
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-- @uw
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newtype UW = UW { unUW :: Atom }
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deriving newtype (Eq, Ord, Show, Num, Enum, Real, Integral)
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instance ToNoun UW where
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toNoun = toNoun . Cord . pack . toUW . fromIntegral . unUW
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instance FromNoun UW where
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parseNoun n = do
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Cord c <- parseNoun n
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case fromUW $ unpack c of
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Nothing -> fail ("Invalid @uw: " <> unpack c)
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Just uw -> pure (UW uw)
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fromUW :: String -> Maybe Atom
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fromUW = convertFromU uwCharNum 'w' (fromIntegral $ length base64Chars)
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toUW :: Atom -> String
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toUW = convertToU base64Chars "w"
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base64Chars :: [Char]
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base64Chars = (['0'..'9'] <> ['a'..'z'] <> ['A'..'Z'] <> ['-', '~'])
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uwCharNum :: Char -> Maybe Atom
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uwCharNum = \case
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'0' -> pure 0
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'1' -> pure 1
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'2' -> pure 2
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'3' -> pure 3
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'4' -> pure 4
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'5' -> pure 5
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'6' -> pure 6
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'7' -> pure 7
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'8' -> pure 8
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'9' -> pure 9
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'a' -> pure 10
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'b' -> pure 11
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'c' -> pure 12
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'd' -> pure 13
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'e' -> pure 14
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'f' -> pure 15
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'g' -> pure 16
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'h' -> pure 17
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'i' -> pure 18
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'j' -> pure 19
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'k' -> pure 20
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'l' -> pure 21
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'm' -> pure 22
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'n' -> pure 23
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'o' -> pure 24
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'p' -> pure 25
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'q' -> pure 26
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'r' -> pure 27
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's' -> pure 28
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't' -> pure 29
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'u' -> pure 30
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'v' -> pure 31
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'w' -> pure 32
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'x' -> pure 33
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'y' -> pure 34
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'z' -> pure 35
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'A' -> pure 36
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'B' -> pure 37
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'C' -> pure 38
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'D' -> pure 39
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'E' -> pure 40
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'F' -> pure 41
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'G' -> pure 42
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'H' -> pure 43
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'I' -> pure 44
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'J' -> pure 45
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'K' -> pure 46
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'L' -> pure 47
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'M' -> pure 48
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'N' -> pure 49
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'O' -> pure 50
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'P' -> pure 51
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'Q' -> pure 52
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'R' -> pure 53
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'S' -> pure 54
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'T' -> pure 55
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'U' -> pure 56
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'V' -> pure 57
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'W' -> pure 58
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'X' -> pure 59
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'Y' -> pure 60
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'Z' -> pure 61
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'-' -> pure 62
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'~' -> pure 63
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_ -> Nothing
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-- Maybe parses the underlying atom value from a text printed in UW format.
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cordToUW :: Cord -> Maybe UW
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cordToUW = fromNoun . toNoun
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-- Char ------------------------------------------------------------------------
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instance ToNoun Char where
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toNoun = Atom . fromIntegral . C.ord
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{-
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Hack: pulled this logic from Data.Char impl.
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-}
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instance FromNoun Char where
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parseNoun n = named "Char" $ do
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W32# w :: Word32 <- parseNoun n
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if isTrue# (w `leWord#` 0x10FFFF##)
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then pure (C# (chr# (word2Int# w)))
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else fail "Word is not a valid character."
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-- Tour ------------------------------------------------------------------------
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newtype Tour = Tour [Char]
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deriving newtype (Eq, Ord, Show, ToNoun, FromNoun)
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-- Double Jammed ---------------------------------------------------------------
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newtype Jammed a = Jammed a
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deriving (Eq, Ord, Show)
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instance ToNoun a => ToNoun (Jammed a) where
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toNoun (Jammed a) = Atom $ jam $ toNoun a
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instance FromNoun a => FromNoun (Jammed a) where
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parseNoun n = named "Jammed" $ do
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a <- parseNoun n
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cue a & \case
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Left err -> fail (show err)
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Right res -> do
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Jammed <$> parseNoun res
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-- Atom or Cell ----------------------------------------------------------------
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type Word512 = LargeKey Word256 Word256
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data AtomCell a c
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= ACAtom a
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| ACCell c
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deriving (Eq, Ord, Show)
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instance (ToNoun a, ToNoun c) => ToNoun (AtomCell a c) where
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toNoun (ACAtom a) = toNoun a
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toNoun (ACCell c) = toNoun c
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instance (FromNoun a, FromNoun c) => FromNoun (AtomCell a c) where
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parseNoun n = named "(,)" $ case n of
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Atom _ -> ACAtom <$> parseNoun n
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Cell _ _ -> ACCell <$> parseNoun n
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-- Lenient ---------------------------------------------------------------------
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data Lenient a
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= FailParse Noun
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| GoodParse a
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deriving (Eq, Ord, Show)
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instance FromNoun a => FromNoun (Lenient a) where
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parseNoun n =
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(GoodParse <$> parseNoun n) <|> fallback
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where
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fallback =
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fromNounErr n & \case
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Right x -> pure (GoodParse x)
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Left err -> do
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-- traceM ("LENIENT.FromNoun: " <> show err)
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-- traceM (ppShow n)
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pure (FailParse n)
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instance ToNoun a => ToNoun (Lenient a) where
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toNoun (FailParse n) = n -- trace ("LENIENT.ToNoun: " <> show n)
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toNoun (GoodParse x) = toNoun x
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-- Todo -- Debugging Hack ------------------------------------------------------
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newtype Todo a = Todo a
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deriving newtype (Eq, Ord, ToNoun)
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instance Show (Todo a) where
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show (Todo _) = "TODO"
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instance FromNoun a => FromNoun (Todo a) where
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parseNoun n = do
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fromNounErr n & \case
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Right x -> pure (Todo x)
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Left er -> fail (show er)
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-- traceM ("[TODO]: " <> show er <> "\n" <> ppShow n <> "\n")
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-- Nullable --------------------------------------------------------------------
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{-|
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`Nullable a <-> ?@(~ a)`
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This is distinct from `unit`, since there is no tag on the non-atom
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case, therefore `a` must always be cell type.
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-}
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data Nullable a = None | Some a
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deriving (Eq, Ord, Show)
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instance ToNoun a => ToNoun (Nullable a) where
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toNoun = toNoun . \case None -> ACAtom ()
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Some x -> ACCell x
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instance FromNoun a => FromNoun (Nullable a) where
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parseNoun n = named "Nullable" $ do
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parseNoun n >>= \case
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(ACAtom ()) -> pure None
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(ACCell x) -> pure (Some x)
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-- List ------------------------------------------------------------------------
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instance ToNoun a => ToNoun [a] where
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toNoun xs = nounFromList (toNoun <$> xs)
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where
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nounFromList :: [Noun] -> Noun
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nounFromList [] = Atom 0
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nounFromList (x:xs) = Cell x (nounFromList xs)
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instance FromNoun a => FromNoun [a] where
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parseNoun = named "[]" . \case
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Atom 0 -> pure []
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Atom _ -> fail "list terminated with non-null atom"
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Cell l r -> (:) <$> parseNoun l <*> parseNoun r
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-- Tape ------------------------------------------------------------------------
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{-
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A `tape` is a list of utf8 bytes.
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-}
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newtype Tape = Tape { unTape :: Text }
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deriving newtype (Eq, Ord, Show, Semigroup, Monoid, IsString)
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instance ToNoun Tape where
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toNoun = toNoun . (unpack :: ByteString -> [Word8]) . encodeUtf8 . unTape
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instance FromNoun Tape where
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parseNoun n = named "Tape" $ do
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as :: [Word8] <- parseNoun n
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T.decodeUtf8' (pack as) & \case
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Left err -> fail (show err)
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Right tx -> pure (Tape tx)
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-- Wain -- List of Lines -------------------------------------------------------
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newtype Wain = Wain { unWain :: Text }
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deriving newtype (Eq, Ord, Show, IsString, NFData)
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instance ToNoun Wain where
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toNoun (Wain t) = toNoun (Cord <$> lines t)
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instance FromNoun Wain where
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parseNoun n = named "Wain" $ do
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tx :: [Cord] <- parseNoun n
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pure $ Wain $ unlines (unCord <$> tx)
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-- Wall -- Text Lines ----------------------------------------------------------
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type Wall = [Tape]
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-- Big Cord -- Don't Print -----------------------------------------------------
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newtype BigCord = BigCord Cord
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deriving newtype (Eq, Ord, ToNoun, FromNoun, IsString)
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instance Show BigCord where
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show (BigCord (Cord t)) = show (take 32 t <> "...")
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-- Big Tape -- Don't Print -----------------------------------------------------
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newtype BigTape = BigTape Tape
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deriving newtype (Eq, Ord, ToNoun, FromNoun, IsString)
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instance Show BigTape where
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show (BigTape (Tape t)) = show (take 32 t <> "...")
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-- Bytes -----------------------------------------------------------------------
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newtype Bytes = MkBytes { unBytes :: ByteString }
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deriving newtype (Eq, Ord, Show, IsString)
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instance ToNoun Bytes where
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toNoun = Atom . bytesAtom . unBytes
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instance FromNoun Bytes where
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parseNoun = named "Bytes" . fmap (MkBytes . atomBytes) . parseNoun
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-- Octs ------------------------------------------------------------------------
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newtype Octs = Octs { unOcts :: ByteString }
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deriving newtype (Eq, Ord, Show, IsString)
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instance ToNoun Octs where
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toNoun (Octs bs) =
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toNoun (int2Word (length bs), bytesAtom bs)
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where
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int2Word :: Int -> Word
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int2Word = fromIntegral
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instance FromNoun Octs where
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parseNoun x = named "Octs" $ do
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(word2Int -> len, atom) <- parseNoun x
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let bs = atomBytes atom
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pure $ Octs $ case compare (length bs) len of
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EQ -> bs
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LT -> bs <> replicate (len - length bs) 0
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GT -> take len bs
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where
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word2Int :: Word -> Int
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word2Int = fromIntegral
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-- File Contents -- Don't Print ------------------------------------------------
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newtype File = File { unFile :: Octs }
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deriving newtype (Eq, Ord, IsString, ToNoun, FromNoun)
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instance Show File where
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show (File (Octs bs)) = show (take 32 bs <> "...")
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-- Knot ------------------------------------------------------------------------
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{-
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Knot (@ta) is an array of Word8 encoding an ASCII string.
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-}
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newtype Knot = MkKnot { unKnot :: Text }
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deriving newtype (Eq, Ord, Show, Semigroup, Monoid, IsString)
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instance ToNoun Knot where
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toNoun = textToUtf8Atom . unKnot
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instance FromNoun Knot where
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parseNoun n = named "Knot" $ do
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txt <- parseNounUtf8Atom n
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if all C.isAscii txt
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|
then pure (MkKnot txt)
|
|
else fail ("Non-ASCII chars in knot: " <> unpack txt)
|
|
|
|
-- equivalent of (cury scot %t)
|
|
textAsT :: Text -> Text
|
|
textAsT = ("~~" <>) . concatMap \case
|
|
' ' -> "."
|
|
'.' -> "~."
|
|
'~' -> "~~"
|
|
c ->
|
|
if (C.isAlphaNum c && not (C.isUpper 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
|
|
|
|
|
|
-- 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
|