{-# LANGUAGE ExplicitForAll #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RankNTypes #-}
-- | Minimal JSON / RFC 7159 support
--
-- The API is heavily inspired by @aeson@'s API but puts emphasis on
-- simplicity rather than performance. The 'ToJSON' instances are
-- intended to have an encoding compatible with @aeson@'s encoding.
--
module Haddock.Utils.Json
( Value(..)
, Object, object, Pair, (.=)
, encodeToString
, encodeToBuilder
, ToJSON(toJSON)
, Parser(..)
, Result(..)
, FromJSON(parseJSON)
, withObject
, withArray
, withString
, withDouble
, withBool
, fromJSON
, parse
, parseEither
, (.:)
, (.:?)
, decode
, decodeWith
, eitherDecode
, eitherDecodeWith
, decodeFile
, eitherDecodeFile
)
where
import Control.Applicative (Alternative (..))
import Control.Monad (MonadPlus (..), zipWithM, (>=>))
import qualified Control.Monad as Monad
import qualified Control.Monad.Fail as Fail
import qualified Data.ByteString.Lazy as BSL
import Data.ByteString.Builder (Builder)
import qualified Data.ByteString.Builder as BB
import Data.Char
import Data.Int
import Data.Word
import Data.List (intersperse)
import Data.Monoid
import GHC.Natural
-- TODO: We may want to replace 'String' with 'Text' or 'ByteString'
import qualified Text.Parsec.ByteString.Lazy as Parsec.Lazy
import qualified Text.ParserCombinators.Parsec as Parsec
import Haddock.Utils.Json.Types
import Haddock.Utils.Json.Parser
infixr 8 .=
-- | A key-value pair for encoding a JSON object.
(.=) :: ToJSON v => String -> v -> Pair
k .= v = (k, toJSON v)
-- | A type that can be converted to JSON.
class ToJSON a where
-- | Convert a Haskell value to a JSON-friendly intermediate type.
toJSON :: a -> Value
instance ToJSON () where
toJSON () = Array []
instance ToJSON Value where
toJSON = id
instance ToJSON Bool where
toJSON = Bool
instance ToJSON a => ToJSON [a] where
toJSON = Array . map toJSON
instance ToJSON a => ToJSON (Maybe a) where
toJSON Nothing = Null
toJSON (Just a) = toJSON a
instance (ToJSON a,ToJSON b) => ToJSON (a,b) where
toJSON (a,b) = Array [toJSON a, toJSON b]
instance (ToJSON a,ToJSON b,ToJSON c) => ToJSON (a,b,c) where
toJSON (a,b,c) = Array [toJSON a, toJSON b, toJSON c]
instance (ToJSON a,ToJSON b,ToJSON c, ToJSON d) => ToJSON (a,b,c,d) where
toJSON (a,b,c,d) = Array [toJSON a, toJSON b, toJSON c, toJSON d]
instance ToJSON Float where
toJSON = Number . realToFrac
instance ToJSON Double where
toJSON = Number
instance ToJSON Int where toJSON = Number . realToFrac
instance ToJSON Int8 where toJSON = Number . realToFrac
instance ToJSON Int16 where toJSON = Number . realToFrac
instance ToJSON Int32 where toJSON = Number . realToFrac
instance ToJSON Word where toJSON = Number . realToFrac
instance ToJSON Word8 where toJSON = Number . realToFrac
instance ToJSON Word16 where toJSON = Number . realToFrac
instance ToJSON Word32 where toJSON = Number . realToFrac
-- | Possibly lossy due to conversion to 'Double'
instance ToJSON Int64 where toJSON = Number . realToFrac
-- | Possibly lossy due to conversion to 'Double'
instance ToJSON Word64 where toJSON = Number . realToFrac
-- | Possibly lossy due to conversion to 'Double'
instance ToJSON Integer where toJSON = Number . fromInteger
------------------------------------------------------------------------------
-- 'BB.Builder'-based encoding
-- | Serialise value as JSON/UTF8-encoded 'Builder'
encodeToBuilder :: ToJSON a => a -> Builder
encodeToBuilder = encodeValueBB . toJSON
encodeValueBB :: Value -> Builder
encodeValueBB jv = case jv of
Bool True -> "true"
Bool False -> "false"
Null -> "null"
Number n
| isNaN n || isInfinite n -> encodeValueBB Null
| Just i <- doubleToInt64 n -> BB.int64Dec i
| otherwise -> BB.doubleDec n
Array a -> encodeArrayBB a
String s -> encodeStringBB s
Object o -> encodeObjectBB o
encodeArrayBB :: [Value] -> Builder
encodeArrayBB [] = "[]"
encodeArrayBB jvs = BB.char8 '[' <> go jvs <> BB.char8 ']'
where
go = Data.Monoid.mconcat . intersperse (BB.char8 ',') . map encodeValueBB
encodeObjectBB :: Object -> Builder
encodeObjectBB [] = "{}"
encodeObjectBB jvs = BB.char8 '{' <> go jvs <> BB.char8 '}'
where
go = Data.Monoid.mconcat . intersperse (BB.char8 ',') . map encPair
encPair (l,x) = encodeStringBB l <> BB.char8 ':' <> encodeValueBB x
encodeStringBB :: String -> Builder
encodeStringBB str = BB.char8 '"' <> go str <> BB.char8 '"'
where
go = BB.stringUtf8 . escapeString
------------------------------------------------------------------------------
-- 'String'-based encoding
-- | Serialise value as JSON-encoded Unicode 'String'
encodeToString :: ToJSON a => a -> String
encodeToString jv = encodeValue (toJSON jv) []
encodeValue :: Value -> ShowS
encodeValue jv = case jv of
Bool b -> showString (if b then "true" else "false")
Null -> showString "null"
Number n
| isNaN n || isInfinite n -> encodeValue Null
| Just i <- doubleToInt64 n -> shows i
| otherwise -> shows n
Array a -> encodeArray a
String s -> encodeString s
Object o -> encodeObject o
encodeArray :: [Value] -> ShowS
encodeArray [] = showString "[]"
encodeArray jvs = ('[':) . go jvs . (']':)
where
go [] = id
go [x] = encodeValue x
go (x:xs) = encodeValue x . (',':) . go xs
encodeObject :: Object -> ShowS
encodeObject [] = showString "{}"
encodeObject jvs = ('{':) . go jvs . ('}':)
where
go [] = id
go [(l,x)] = encodeString l . (':':) . encodeValue x
go ((l,x):lxs) = encodeString l . (':':) . encodeValue x . (',':) . go lxs
encodeString :: String -> ShowS
encodeString str = ('"':) . showString (escapeString str) . ('"':)
------------------------------------------------------------------------------
-- helpers
-- | Try to convert 'Double' into 'Int64', return 'Nothing' if not
-- representable loss-free as integral 'Int64' value.
doubleToInt64 :: Double -> Maybe Int64
doubleToInt64 x
| fromInteger x' == x
, x' <= toInteger (maxBound :: Int64)
, x' >= toInteger (minBound :: Int64)
= Just (fromIntegral x')
| otherwise = Nothing
where
x' = round x
-- | Minimally escape a 'String' in accordance with RFC 7159, "7. Strings"
escapeString :: String -> String
escapeString s
| not (any needsEscape s) = s
| otherwise = escape s
where
escape [] = []
escape (x:xs) = case x of
'\\' -> '\\':'\\':escape xs
'"' -> '\\':'"':escape xs
'\b' -> '\\':'b':escape xs
'\f' -> '\\':'f':escape xs
'\n' -> '\\':'n':escape xs
'\r' -> '\\':'r':escape xs
'\t' -> '\\':'t':escape xs
c | ord c < 0x10 -> '\\':'u':'0':'0':'0':intToDigit (ord c):escape xs
| ord c < 0x20 -> '\\':'u':'0':'0':'1':intToDigit (ord c - 0x10):escape xs
| otherwise -> c : escape xs
-- unescaped = %x20-21 / %x23-5B / %x5D-10FFFF
needsEscape c = ord c < 0x20 || c `elem` ['\\','"']
------------------------------------------------------------------------------
-- FromJSON
-- | Elements of a JSON path used to describe the location of an
-- error.
data JSONPathElement
= Key String
-- ^ JSON path element of a key into an object,
-- \"object.key\".
| Index !Int
-- ^ JSON path element of an index into an
-- array, \"array[index]\".
deriving (Eq, Show, Ord)
type JSONPath = [JSONPathElement]
-- | Failure continuation.
type Failure f r = JSONPath -> String -> f r
-- | Success continuation.
type Success a f r = a -> f r
newtype Parser a = Parser {
runParser :: forall f r.
JSONPath
-> Failure f r
-> Success a f r
-> f r
}
modifyFailure :: (String -> String) -> Parser a -> Parser a
modifyFailure f (Parser p) = Parser $ \path kf ks ->
p path (\p' m -> kf p' (f m)) ks
prependFailure :: String -> Parser a -> Parser a
prependFailure = modifyFailure . (++)
prependContext :: String -> Parser a -> Parser a
prependContext name = prependFailure ("parsing " ++ name ++ " failed, ")
typeMismatch :: String -> Value -> Parser a
typeMismatch expected actual =
fail $ "expected " ++ expected ++ ", but encountered " ++ typeOf actual
instance Monad.Monad Parser where
m >>= g = Parser $ \path kf ks ->
runParser m path kf
(\a -> runParser (g a) path kf ks)
return = pure
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'
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 ->
runParser a path (\_ _ -> runParser b path kf ks) ks
instance Semigroup (Parser a) where
(<>) = mplus
instance Monoid (Parser a) where
mempty = fail "mempty"
mappend = (<>)
apP :: Parser (a -> b) -> Parser a -> Parser b
apP d e = do
b <- d
b <$> e
() :: Parser a -> JSONPathElement -> Parser a
p pathElem = Parser $ \path kf ks -> runParser p (pathElem:path) kf ks
parseIndexedJSON :: (Value -> Parser a) -> Int -> Value -> Parser a
parseIndexedJSON p idx value = p value Index idx
unexpected :: Value -> Parser a
unexpected actual = fail $ "unexpected " ++ typeOf actual
withObject :: String -> (Object -> Parser a) -> Value -> Parser a
withObject _ f (Object obj) = f obj
withObject name _ v = prependContext name (typeMismatch "Object" v)
withArray :: String -> ([Value] -> Parser a) -> Value -> Parser a
withArray _ f (Array arr) = f arr
withArray name _ v = prependContext name (typeMismatch "Array" v)
withString :: String -> (String -> Parser a) -> Value -> Parser a
withString _ f (String txt) = f txt
withString name _ v = prependContext name (typeMismatch "String" v)
withDouble :: String -> (Double -> Parser a) -> Value -> Parser a
withDouble _ f (Number duble) = f duble
withDouble name _ v = prependContext name (typeMismatch "Number" v)
withBool :: String -> (Bool -> Parser a) -> Value -> Parser a
withBool _ f (Bool arr) = f arr
withBool name _ v = prependContext name (typeMismatch "Boolean" v)
class FromJSON a where
parseJSON :: Value -> Parser a
parseJSONList :: Value -> Parser [a]
parseJSONList = withArray "[]" (zipWithM (parseIndexedJSON parseJSON) [0..])
instance FromJSON Bool where
parseJSON (Bool b) = pure b
parseJSON v = typeMismatch "Bool" v
instance FromJSON () where
parseJSON =
withArray "()" $ \v ->
if null v
then pure ()
else prependContext "()" $ fail "expected an empty array"
instance FromJSON Char where
parseJSON = withString "Char" parseChar
parseJSONList (String s) = pure s
parseJSONList v = typeMismatch "String" v
parseChar :: String -> Parser Char
parseChar t =
if length t == 1
then pure $ head t
else prependContext "Char" $ fail "expected a string of length 1"
parseRealFloat :: RealFloat a => String -> Value -> Parser a
parseRealFloat _ (Number s) = pure $ realToFrac s
parseRealFloat _ Null = pure (0/0)
parseRealFloat name v = prependContext name (unexpected v)
instance FromJSON Double where
parseJSON = parseRealFloat "Double"
instance FromJSON Float where
parseJSON = parseRealFloat "Float"
parseNatural :: Integer -> Parser Natural
parseNatural integer =
if integer < 0 then
fail $ "parsing Natural failed, unexpected negative number " <> show integer
else
pure $ fromIntegral integer
parseIntegralFromDouble :: Integral a => Double -> Parser a
parseIntegralFromDouble d =
let r = toRational d
x = truncate r
in if toRational x == r
then pure $ x
else fail $ "unexpected floating number " <> show d
parseIntegral :: Integral a => String -> Value -> Parser a
parseIntegral name = withDouble name parseIntegralFromDouble
instance FromJSON Integer where
parseJSON = parseIntegral "Integer"
instance FromJSON Natural where
parseJSON = withDouble "Natural"
(parseIntegralFromDouble >=> parseNatural)
instance FromJSON Int where
parseJSON = parseIntegral "Int"
instance FromJSON Int8 where
parseJSON = parseIntegral "Int8"
instance FromJSON Int16 where
parseJSON = parseIntegral "Int16"
instance FromJSON Int32 where
parseJSON = parseIntegral "Int32"
instance FromJSON Int64 where
parseJSON = parseIntegral "Int64"
instance FromJSON Word where
parseJSON = parseIntegral "Word"
instance FromJSON Word8 where
parseJSON = parseIntegral "Word8"
instance FromJSON Word16 where
parseJSON = parseIntegral "Word16"
instance FromJSON Word32 where
parseJSON = parseIntegral "Word32"
instance FromJSON Word64 where
parseJSON = parseIntegral "Word64"
instance FromJSON a => FromJSON [a] where
parseJSON = parseJSONList
data Result a = Error String
| Success a
deriving (Eq, Show)
fromJSON :: FromJSON a => Value -> Result a
fromJSON = parse parseJSON
parse :: (a -> Parser b) -> a -> Result b
parse m v = runParser (m v) [] (const Error) Success
parseEither :: (a -> Parser b) -> a -> Either String b
parseEither m v = runParser (m v) [] onError Right
where onError path msg = Left (formatError path msg)
formatError :: JSONPath -> String -> String
formatError path msg = "Error in " ++ formatPath path ++ ": " ++ msg
formatPath :: JSONPath -> String
formatPath path = "$" ++ formatRelativePath path
formatRelativePath :: JSONPath -> String
formatRelativePath path = format "" path
where
format :: String -> JSONPath -> String
format pfx [] = pfx
format pfx (Index idx:parts) = format (pfx ++ "[" ++ show idx ++ "]") parts
format pfx (Key key:parts) = format (pfx ++ formatKey key) parts
formatKey :: String -> String
formatKey key
| isIdentifierKey key = "." ++ key
| otherwise = "['" ++ escapeKey key ++ "']"
isIdentifierKey :: String -> Bool
isIdentifierKey [] = False
isIdentifierKey (x:xs) = isAlpha x && all isAlphaNum xs
escapeKey :: String -> String
escapeKey = concatMap escapeChar
escapeChar :: Char -> String
escapeChar '\'' = "\\'"
escapeChar '\\' = "\\\\"
escapeChar c = [c]
explicitParseField :: (Value -> Parser a) -> Object -> String -> Parser a
explicitParseField p obj key =
case key `lookup` obj of
Nothing -> fail $ "key " ++ key ++ " not found"
Just v -> p v Key key
(.:) :: FromJSON a => Object -> String -> Parser a
(.:) = explicitParseField parseJSON
explicitParseFieldMaybe :: (Value -> Parser a) -> Object -> String -> Parser (Maybe a)
explicitParseFieldMaybe p obj key =
case key `lookup` obj of
Nothing -> pure Nothing
Just v -> Just <$> p v Key key
(.:?) :: FromJSON a => Object -> String -> Parser (Maybe a)
(.:?) = explicitParseFieldMaybe parseJSON
decodeWith :: (Value -> Result a) -> BSL.ByteString -> Maybe a
decodeWith decoder bsl =
case Parsec.parse parseJSONValue "" bsl of
Left _ -> Nothing
Right json ->
case decoder json of
Success a -> Just a
Error _ -> Nothing
decode :: FromJSON a => BSL.ByteString -> Maybe a
decode = decodeWith fromJSON
eitherDecodeWith :: (Value -> Result a) -> BSL.ByteString -> Either String a
eitherDecodeWith decoder bsl =
case Parsec.parse parseJSONValue "" bsl of
Left parsecError -> Left (show parsecError)
Right json ->
case decoder json of
Success a -> Right a
Error err -> Left err
eitherDecode :: FromJSON a => BSL.ByteString -> Either String a
eitherDecode = eitherDecodeWith fromJSON
decodeFile :: FromJSON a => FilePath -> IO (Maybe a)
decodeFile filePath = do
parsecResult <- Parsec.Lazy.parseFromFile parseJSONValue filePath
case parsecResult of
Right r ->
case fromJSON r of
Success a -> return (Just a)
Error _ -> return Nothing
Left _ -> return Nothing
eitherDecodeFile :: FromJSON a => FilePath -> IO (Either String a)
eitherDecodeFile filePath = do
parsecResult <- Parsec.Lazy.parseFromFile parseJSONValue filePath
case parsecResult of
Right r ->
case fromJSON r of
Success a -> return (Right a)
Error err -> return (Left err)
Left err -> return $ Left (show err)