module Text.JSON (
JSValue(..)
, JSON(..)
, Result(..)
, encode
, decode
, encodeStrict
, decodeStrict
, JSString
, toJSString
, fromJSString
, JSObject
, toJSObject
, fromJSObject
, resultToEither
, readJSNull, readJSBool, readJSString, readJSRational
, readJSArray, readJSObject, readJSValue
, showJSNull, showJSBool, showJSArray
, showJSRational, showJSRational'
, showJSObject, showJSValue
, makeObj, valFromObj
, JSKey(..), encJSDict, decJSDict
) where
import Text.JSON.Types
import Text.JSON.String
import Data.Int
import Data.Word
import Control.Monad(liftM,ap,MonadPlus(..))
import Control.Applicative
import qualified Data.ByteString.Char8 as S
import qualified Data.ByteString.Lazy.Char8 as L
import qualified Data.IntSet as I
import qualified Data.Set as Set
import qualified Data.Map as M
import qualified Data.IntMap as IntMap
import qualified Data.Array as Array
import qualified Data.Text as T
decode :: (JSON a) => String -> Result a
decode s = case runGetJSON readJSValue s of
Right a -> readJSON a
Left err -> Error err
encode :: (JSON a) => a -> String
encode = (flip showJSValue [] . showJSON)
decodeStrict :: (JSON a) => String -> Result a
decodeStrict s = case runGetJSON readJSTopType s of
Right a -> readJSON a
Left err -> Error err
encodeStrict :: (JSON a) => a -> String
encodeStrict = (flip showJSTopType [] . showJSON)
class JSON a where
readJSON :: JSValue -> Result a
showJSON :: a -> JSValue
readJSONs :: JSValue -> Result [a]
readJSONs (JSArray as) = mapM readJSON as
readJSONs _ = mkError "Unable to read list"
showJSONs :: [a] -> JSValue
showJSONs = JSArray . map showJSON
data Result a = Ok a | Error String
deriving (Eq,Show)
resultToEither :: Result a -> Either String a
resultToEither (Ok a) = Right a
resultToEither (Error s) = Left s
instance Functor Result where fmap = liftM
instance Applicative Result where
(<*>) = ap
pure = return
instance Alternative Result where
Ok a <|> _ = Ok a
Error _ <|> b = b
empty = Error "empty"
instance MonadPlus Result where
Ok a `mplus` _ = Ok a
_ `mplus` x = x
mzero = Error "Result: MonadPlus.empty"
instance Monad Result where
return x = Ok x
fail x = Error x
Ok a >>= f = f a
Error x >>= _ = Error x
mkError :: String -> Result a
mkError s = Error s
instance JSON JSValue where
showJSON = id
readJSON = return
second :: (a -> b) -> (x,a) -> (x,b)
second f (a,b) = (a, f b)
instance JSON JSString where
readJSON (JSString s) = return s
readJSON _ = mkError "Unable to read JSString"
showJSON = JSString
instance (JSON a) => JSON (JSObject a) where
readJSON (JSObject o) =
let f (x,y) = do y' <- readJSON y; return (x,y')
in toJSObject `fmap` mapM f (fromJSObject o)
readJSON _ = mkError "Unable to read JSObject"
showJSON = JSObject . toJSObject . map (second showJSON) . fromJSObject
instance JSON Bool where
showJSON = JSBool
readJSON (JSBool b) = return b
readJSON _ = mkError "Unable to read Bool"
instance JSON Char where
showJSON = JSString . toJSString . (:[])
showJSONs = JSString . toJSString
readJSON (JSString s) = case fromJSString s of
[c] -> return c
_ -> mkError "Unable to read Char"
readJSON _ = mkError "Unable to read Char"
readJSONs (JSString s) = return (fromJSString s)
readJSONs (JSArray a) = mapM readJSON a
readJSONs _ = mkError "Unable to read String"
instance JSON Ordering where
showJSON = encJSString show
readJSON = decJSString "Ordering" readOrd
where
readOrd x =
case x of
"LT" -> return Prelude.LT
"EQ" -> return Prelude.EQ
"GT" -> return Prelude.GT
_ -> mkError ("Unable to read Ordering")
instance JSON Integer where
showJSON = JSRational False . fromIntegral
readJSON (JSRational _ i) = return $ round i
readJSON _ = mkError "Unable to read Integer"
instance JSON Int where
showJSON = JSRational False . fromIntegral
readJSON (JSRational _ i) = return $ round i
readJSON _ = mkError "Unable to read Int"
instance JSON Word where
showJSON = JSRational False . toRational
readJSON (JSRational _ i) = return $ truncate i
readJSON _ = mkError "Unable to read Word"
instance JSON Word8 where
showJSON = JSRational False . fromIntegral
readJSON (JSRational _ i) = return $ truncate i
readJSON _ = mkError "Unable to read Word8"
instance JSON Word16 where
showJSON = JSRational False . fromIntegral
readJSON (JSRational _ i) = return $ truncate i
readJSON _ = mkError "Unable to read Word16"
instance JSON Word32 where
showJSON = JSRational False . fromIntegral
readJSON (JSRational _ i) = return $ truncate i
readJSON _ = mkError "Unable to read Word32"
instance JSON Word64 where
showJSON = JSRational False . fromIntegral
readJSON (JSRational _ i) = return $ truncate i
readJSON _ = mkError "Unable to read Word64"
instance JSON Int8 where
showJSON = JSRational False . fromIntegral
readJSON (JSRational _ i) = return $ truncate i
readJSON _ = mkError "Unable to read Int8"
instance JSON Int16 where
showJSON = JSRational False . fromIntegral
readJSON (JSRational _ i) = return $ truncate i
readJSON _ = mkError "Unable to read Int16"
instance JSON Int32 where
showJSON = JSRational False . fromIntegral
readJSON (JSRational _ i) = return $ truncate i
readJSON _ = mkError "Unable to read Int32"
instance JSON Int64 where
showJSON = JSRational False . fromIntegral
readJSON (JSRational _ i) = return $ truncate i
readJSON _ = mkError "Unable to read Int64"
instance JSON Double where
showJSON = JSRational False . toRational
readJSON (JSRational _ r) = return $ fromRational r
readJSON _ = mkError "Unable to read Double"
instance JSON Float where
showJSON = JSRational True . toRational
readJSON (JSRational _ r) = return $ fromRational r
readJSON _ = mkError "Unable to read Float"
instance (JSON a) => JSON (Maybe a) where
readJSON (JSObject o) = case "Just" `lookup` as of
Just x -> Just <$> readJSON x
_ -> case ("Nothing" `lookup` as) of
Just JSNull -> return Nothing
_ -> mkError "Unable to read Maybe"
where as = fromJSObject o
readJSON _ = mkError "Unable to read Maybe"
showJSON (Just x) = JSObject $ toJSObject [("Just", showJSON x)]
showJSON Nothing = JSObject $ toJSObject [("Nothing", JSNull)]
instance (JSON a, JSON b) => JSON (Either a b) where
readJSON (JSObject o) = case "Left" `lookup` as of
Just a -> Left <$> readJSON a
Nothing -> case "Right" `lookup` as of
Just b -> Right <$> readJSON b
Nothing -> mkError "Unable to read Either"
where as = fromJSObject o
readJSON _ = mkError "Unable to read Either"
showJSON (Left a) = JSObject $ toJSObject [("Left", showJSON a)]
showJSON (Right b) = JSObject $ toJSObject [("Right", showJSON b)]
instance JSON () where
showJSON _ = JSArray []
readJSON (JSArray []) = return ()
readJSON _ = mkError "Unable to read ()"
instance (JSON a, JSON b) => JSON (a,b) where
showJSON (a,b) = JSArray [ showJSON a, showJSON b ]
readJSON (JSArray [a,b]) = (,) `fmap` readJSON a `ap` readJSON b
readJSON _ = mkError "Unable to read Pair"
instance (JSON a, JSON b, JSON c) => JSON (a,b,c) where
showJSON (a,b,c) = JSArray [ showJSON a, showJSON b, showJSON c ]
readJSON (JSArray [a,b,c]) = (,,) `fmap`
readJSON a `ap`
readJSON b `ap`
readJSON c
readJSON _ = mkError "Unable to read Triple"
instance (JSON a, JSON b, JSON c, JSON d) => JSON (a,b,c,d) where
showJSON (a,b,c,d) = JSArray [showJSON a, showJSON b, showJSON c, showJSON d]
readJSON (JSArray [a,b,c,d]) = (,,,) `fmap`
readJSON a `ap`
readJSON b `ap`
readJSON c `ap`
readJSON d
readJSON _ = mkError "Unable to read 4 tuple"
instance JSON a => JSON [a] where
showJSON = showJSONs
readJSON = readJSONs
#if !defined(MAP_AS_DICT)
instance (Ord a, JSON a, JSON b) => JSON (M.Map a b) where
showJSON = encJSArray M.toList
readJSON = decJSArray "Map" M.fromList
instance (JSON a) => JSON (IntMap.IntMap a) where
showJSON = encJSArray IntMap.toList
readJSON = decJSArray "IntMap" IntMap.fromList
#else
instance (Ord a, JSKey a, JSON b) => JSON (M.Map a b) where
showJSON = encJSDict . M.toList
readJSON o = M.fromList <$> decJSDict "Map" o
instance (JSON a) => JSON (IntMap.IntMap a) where
showJSON = encJSDict . IntMap.toList
readJSON o = IntMap.fromList <$> decJSDict "IntMap" o
#endif
instance (Ord a, JSON a) => JSON (Set.Set a) where
showJSON = encJSArray Set.toList
readJSON = decJSArray "Set" Set.fromList
instance (Array.Ix i, JSON i, JSON e) => JSON (Array.Array i e) where
showJSON = encJSArray Array.assocs
readJSON = decJSArray "Array" arrayFromList
instance JSON I.IntSet where
showJSON = encJSArray I.toList
readJSON = decJSArray "IntSet" I.fromList
arrayFromList :: (Array.Ix i) => [(i,e)] -> Array.Array i e
arrayFromList [] = Array.array undefined []
arrayFromList ls@((i,_):xs) = Array.array bnds ls
where
bnds =
foldr (\ (ix,_) (mi,ma) ->
let
mi1 = min ix mi
ma1 = max ix ma
in
mi1 `seq` ma1 `seq` (mi1,ma1))
(i,i)
xs
instance JSON S.ByteString where
showJSON = encJSString S.unpack
readJSON = decJSString "ByteString" (return . S.pack)
instance JSON L.ByteString where
showJSON = encJSString L.unpack
readJSON = decJSString "Lazy.ByteString" (return . L.pack)
instance JSON T.Text where
readJSON (JSString s) = return (T.pack . fromJSString $ s)
readJSON _ = mkError "Unable to read JSString"
showJSON = JSString . toJSString . T.unpack
makeObj :: [(String, JSValue)] -> JSValue
makeObj = JSObject . toJSObject
valFromObj :: JSON a => String -> JSObject JSValue -> Result a
valFromObj k o = maybe (Error $ "valFromObj: Could not find key: " ++ show k)
readJSON
(lookup k (fromJSObject o))
encJSString :: (a -> String) -> a -> JSValue
encJSString f v = JSString (toJSString (f v))
decJSString :: String -> (String -> Result a) -> JSValue -> Result a
decJSString _ f (JSString s) = f (fromJSString s)
decJSString l _ _ = mkError ("readJSON{"++l++"}: unable to parse string value")
encJSArray :: (JSON a) => (b-> [a]) -> b -> JSValue
encJSArray f v = showJSON (f v)
decJSArray :: (JSON a) => String -> ([a] -> b) -> JSValue -> Result b
decJSArray _ f a@JSArray{} = f <$> readJSON a
decJSArray l _ _ = mkError ("readJSON{"++l++"}: unable to parse array value")
class JSKey a where
toJSKey :: a -> String
fromJSKey :: String -> Maybe a
instance JSKey JSString where
toJSKey x = fromJSString x
fromJSKey x = Just (toJSString x)
instance JSKey Int where
toJSKey = show
fromJSKey key = case reads key of
[(a,"")] -> Just a
_ -> Nothing
instance JSKey String where
toJSKey = id
fromJSKey = Just
encJSDict :: (JSKey a, JSON b) => [(a,b)] -> JSValue
encJSDict v = makeObj [ (toJSKey x, showJSON y) | (x,y) <- v ]
decJSDict :: (JSKey a, JSON b)
=> String
-> JSValue
-> Result [(a,b)]
decJSDict l (JSObject o) = mapM rd (fromJSObject o)
where rd (a,b) = case fromJSKey a of
Just pa -> readJSON b >>= \pb -> return (pa,pb)
Nothing -> mkError ("readJSON{" ++ l ++ "}:" ++
"unable to read dict; invalid object key")
decJSDict l _ = mkError ("readJSON{"++l ++ "}: unable to read dict; expected JSON object")