#if __GLASGOW_HASKELL__ >= 706
#endif
#define NEEDS_INCOHERENT
#include "overlapping-compat.h"
module Data.Aeson.Types.Instances
(
FromJSON(..)
, ToJSON(..)
, KeyValue(..)
, GFromJSON(..)
, GToJSON(..)
, GToEncoding(..)
, genericToJSON
, genericToEncoding
, genericParseJSON
, DotNetTime(..)
, withObject
, withText
, withArray
, withNumber
, withScientific
, withBool
, fromJSON
, ifromJSON
, (.:)
, (.:?)
, (.:!)
, (.!=)
, tuple
, (>*<)
, typeMismatch
) where
import Control.Applicative (Const(..))
import Data.Aeson.Encode.Functions (brackets, builder, encode, foldable, list)
import Data.Aeson.Functions (hashMapKey, mapHashKeyVal, mapKey, mapKeyVal)
import Data.Aeson.Types.Class
import Data.Aeson.Types.Internal
import Data.Attoparsec.Number (Number(..))
import Data.Fixed (Fixed, HasResolution)
import Data.Foldable (toList)
import Data.Functor.Identity (Identity(..))
import Data.Hashable (Hashable(..))
import Data.Int (Int8, Int16, Int32, Int64)
import Data.List.NonEmpty (NonEmpty(..))
import Data.Maybe (fromMaybe)
import Data.Monoid ((<>))
import Data.Monoid (Dual(..), First(..), Last(..))
import Data.Proxy (Proxy(..))
import Data.Ratio (Ratio, (%), numerator, denominator)
import Data.Scientific (Scientific)
import Data.Tagged (Tagged(..))
import Data.Text (Text, pack, unpack)
import Data.Time (Day, LocalTime, NominalDiffTime, TimeOfDay, UTCTime,
ZonedTime)
import Data.Time.Format (FormatTime, formatTime, parseTime)
import Data.Traversable as Tr (sequence)
import Data.Vector (Vector)
import Data.Word (Word8, Word16, Word32, Word64)
import Data.Version (Version, showVersion, parseVersion)
import Text.ParserCombinators.ReadP (readP_to_S)
import Foreign.Storable (Storable)
import Numeric.Natural (Natural)
import Prelude hiding (foldr)
import qualified Data.Aeson.Encode.Builder as E
import qualified Data.Aeson.Parser.Time as Time
import qualified Data.ByteString.Builder as B
import qualified Data.ByteString.Lazy as L
import qualified Data.HashMap.Strict as H
import qualified Data.HashSet as HashSet
import qualified Data.IntMap as IntMap
import qualified Data.IntSet as IntSet
import qualified Data.Map as M
import qualified Data.Scientific as Scientific
import qualified Data.Sequence as Seq
import qualified Data.Set as Set
import qualified Data.Text as T
import qualified Data.Text.Encoding as T
import qualified Data.Text.Lazy as LT
import qualified Data.Tree as Tree
import qualified Data.Vector as V
import qualified Data.Vector.Generic as VG
import qualified Data.Vector.Mutable as VM (unsafeNew, unsafeWrite)
import qualified Data.Vector.Primitive as VP
import qualified Data.Vector.Storable as VS
import qualified Data.Vector.Unboxed as VU
#if MIN_VERSION_base(4,8,0)
#else
import Control.Applicative ((<$>), (<*>), pure)
import Data.Monoid (mempty)
import Data.Word (Word)
#endif
#if MIN_VERSION_time(1,5,0)
import Data.Time.Format (defaultTimeLocale)
#else
import System.Locale (defaultTimeLocale)
#endif
parseIndexedJSON :: FromJSON a => Int -> Value -> Parser a
parseIndexedJSON idx value = parseJSON value <?> Index idx
instance (ToJSON a) => ToJSON (Identity a) where
toJSON (Identity a) = toJSON a
toEncoding (Identity a) = toEncoding a
instance (FromJSON a) => FromJSON (Identity a) where
parseJSON a = Identity <$> parseJSON a
instance (ToJSON a) => ToJSON (Maybe a) where
toJSON (Just a) = toJSON a
toJSON Nothing = Null
toEncoding (Just a) = toEncoding a
toEncoding Nothing = Encoding E.null_
instance (FromJSON a) => FromJSON (Maybe a) where
parseJSON Null = pure Nothing
parseJSON a = Just <$> parseJSON a
instance (ToJSON a, ToJSON b) => ToJSON (Either a b) where
toJSON (Left a) = object [left .= a]
toJSON (Right b) = object [right .= b]
toEncoding (Left a) = Encoding $
B.shortByteString "{\"Left\":" <> builder a <> B.char7 '}'
toEncoding (Right a) = Encoding $
B.shortByteString "{\"Right\":" <> builder a <> B.char7 '}'
instance (FromJSON a, FromJSON b) => FromJSON (Either a b) where
parseJSON (Object (H.toList -> [(key, value)]))
| key == left = Left <$> parseJSON value <?> Key left
| key == right = Right <$> parseJSON value <?> Key right
parseJSON _ = fail $
"expected an object with a single property " ++
"where the property key should be either " ++
"\"Left\" or \"Right\""
left, right :: Text
left = "Left"
right = "Right"
instance ToJSON Bool where
toJSON = Bool
toEncoding = Encoding . E.bool
instance FromJSON Bool where
parseJSON = withBool "Bool" pure
instance ToJSON Ordering where
toJSON = toJSON . orderingToText
toEncoding = toEncoding . orderingToText
orderingToText :: Ordering -> T.Text
orderingToText o = case o of
LT -> "LT"
EQ -> "EQ"
GT -> "GT"
instance FromJSON Ordering where
parseJSON = withText "Ordering" $ \s ->
case s of
"LT" -> return LT
"EQ" -> return EQ
"GT" -> return GT
_ -> fail "Parsing Ordering value failed: expected \"LT\", \"EQ\", or \"GT\""
instance ToJSON () where
toJSON _ = emptyArray
toEncoding _ = E.emptyArray_
instance FromJSON () where
parseJSON = withArray "()" $ \v ->
if V.null v
then pure ()
else fail "Expected an empty array"
instance INCOHERENT_ ToJSON [Char] where
toJSON = String . T.pack
toEncoding = Encoding . E.string
instance INCOHERENT_ FromJSON [Char] where
parseJSON = withText "String" $ pure . T.unpack
instance ToJSON Char where
toJSON = String . T.singleton
toEncoding = Encoding . E.string . (:[])
instance FromJSON Char where
parseJSON = withText "Char" $ \t ->
if T.compareLength t 1 == EQ
then pure $ T.head t
else fail "Expected a string of length 1"
instance ToJSON Scientific where
toJSON = Number
toEncoding = Encoding . E.number
instance FromJSON Scientific where
parseJSON = withScientific "Scientific" pure
instance ToJSON Double where
toJSON = realFloatToJSON
toEncoding = realFloatToEncoding
instance FromJSON Double where
parseJSON = parseRealFloat "Double"
instance ToJSON Number where
toJSON (D d) = toJSON d
toJSON (I i) = toJSON i
toEncoding (D d) = toEncoding d
toEncoding (I i) = toEncoding i
instance FromJSON Number where
parseJSON (Number s) = pure $ scientificToNumber s
parseJSON Null = pure (D (0/0))
parseJSON v = typeMismatch "Number" v
instance ToJSON Float where
toJSON = realFloatToJSON
toEncoding = realFloatToEncoding
instance FromJSON Float where
parseJSON = parseRealFloat "Float"
instance ToJSON (Ratio Integer) where
toJSON r = object [ "numerator" .= numerator r
, "denominator" .= denominator r
]
toEncoding r = Encoding $
B.shortByteString "{\"numerator\":" <> builder (numerator r) <>
B.shortByteString ",\"denominator\":" <> builder (denominator r) <>
B.char7 '}'
instance FromJSON (Ratio Integer) where
parseJSON = withObject "Rational" $ \obj ->
(%) <$> obj .: "numerator"
<*> obj .: "denominator"
instance HasResolution a => ToJSON (Fixed a) where
toJSON = Number . realToFrac
toEncoding = Encoding . E.number . realToFrac
instance HasResolution a => FromJSON (Fixed a) where
parseJSON = withScientific "Fixed" $ pure . realToFrac
instance ToJSON Int where
toJSON = Number . fromIntegral
toEncoding = Encoding . B.intDec
instance FromJSON Int where
parseJSON = parseIntegral "Int"
instance ToJSON Integer where
toJSON = Number . fromInteger
toEncoding = Encoding . B.integerDec
instance FromJSON Integer where
parseJSON = withScientific "Integral" $ pure . truncate
instance ToJSON Natural where
toJSON = toJSON . toInteger
toEncoding = toEncoding . toInteger
instance FromJSON Natural where
parseJSON = withScientific "Natural" $ \s ->
if Scientific.coefficient s < 0
then fail $ "Expected a Natural number but got the negative number: " <> show s
else pure $ truncate s
instance ToJSON Int8 where
toJSON = Number . fromIntegral
toEncoding = Encoding . B.int8Dec
instance FromJSON Int8 where
parseJSON = parseIntegral "Int8"
instance ToJSON Int16 where
toJSON = Number . fromIntegral
toEncoding = Encoding . B.int16Dec
instance FromJSON Int16 where
parseJSON = parseIntegral "Int16"
instance ToJSON Int32 where
toJSON = Number . fromIntegral
toEncoding = Encoding . B.int32Dec
instance FromJSON Int32 where
parseJSON = parseIntegral "Int32"
instance ToJSON Int64 where
toJSON = Number . fromIntegral
toEncoding = Encoding . B.int64Dec
instance FromJSON Int64 where
parseJSON = parseIntegral "Int64"
instance ToJSON Word where
toJSON = Number . fromIntegral
toEncoding = Encoding . B.wordDec
instance FromJSON Word where
parseJSON = parseIntegral "Word"
instance ToJSON Word8 where
toJSON = Number . fromIntegral
toEncoding = Encoding . B.word8Dec
instance FromJSON Word8 where
parseJSON = parseIntegral "Word8"
instance ToJSON Word16 where
toJSON = Number . fromIntegral
toEncoding = Encoding . B.word16Dec
instance FromJSON Word16 where
parseJSON = parseIntegral "Word16"
instance ToJSON Word32 where
toJSON = Number . fromIntegral
toEncoding = Encoding . B.word32Dec
instance FromJSON Word32 where
parseJSON = parseIntegral "Word32"
instance ToJSON Word64 where
toJSON = Number . fromIntegral
toEncoding = Encoding . B.word64Dec
instance FromJSON Word64 where
parseJSON = parseIntegral "Word64"
instance ToJSON Text where
toJSON = String
toEncoding = Encoding . E.text
instance FromJSON Text where
parseJSON = withText "Text" pure
instance ToJSON LT.Text where
toJSON = String . LT.toStrict
toEncoding t = Encoding $
B.char7 '"' <>
LT.foldrChunks (\x xs -> E.unquoted x <> xs) (B.char7 '"') t
instance FromJSON LT.Text where
parseJSON = withText "Lazy Text" $ pure . LT.fromStrict
instance (ToJSON a) => ToJSON (NonEmpty a) where
toJSON = toJSON . toList
toEncoding = toEncoding . toList
instance (FromJSON a) => FromJSON (NonEmpty a) where
parseJSON = withArray "NonEmpty a" $
(>>= ne) . Tr.sequence . zipWith parseIndexedJSON [0..] . V.toList
where
ne [] = fail "Expected a NonEmpty but got an empty list"
ne (x:xs) = pure (x :| xs)
instance OVERLAPPABLE_ (ToJSON a) => ToJSON [a] where
toJSON = Array . V.fromList . map toJSON
toEncoding xs = list xs
instance OVERLAPPABLE_ (FromJSON a) => FromJSON [a] where
parseJSON = withArray "[a]" $ Tr.sequence .
zipWith parseIndexedJSON [0..] . V.toList
instance (ToJSON a) => ToJSON (Seq.Seq a) where
toJSON = toJSON . toList
toEncoding = foldable
instance (FromJSON a) => FromJSON (Seq.Seq a) where
parseJSON = withArray "Seq a" $
fmap Seq.fromList .
Tr.sequence . zipWith parseIndexedJSON [0..] . V.toList
instance (ToJSON a) => ToJSON (Vector a) where
toJSON = Array . V.map toJSON
toEncoding = encodeVector
encodeVector :: (ToJSON a, VG.Vector v a) => v a -> Encoding
encodeVector xs
| VG.null xs = E.emptyArray_
| otherwise = Encoding $
B.char7 '[' <> builder (VG.unsafeHead xs) <>
VG.foldr go (B.char7 ']') (VG.unsafeTail xs)
where go v b = B.char7 ',' <> builder v <> b
instance (FromJSON a) => FromJSON (Vector a) where
parseJSON = withArray "Vector a" $ V.mapM (uncurry parseIndexedJSON) .
V.indexed
vectorToJSON :: (VG.Vector v a, ToJSON a) => v a -> Value
vectorToJSON = Array . V.map toJSON . V.convert
vectorParseJSON :: (FromJSON a, VG.Vector w a) => String -> Value -> Parser (w a)
vectorParseJSON s = withArray s $ fmap V.convert . V.mapM (uncurry parseIndexedJSON) . V.indexed
instance (Storable a, ToJSON a) => ToJSON (VS.Vector a) where
toJSON = vectorToJSON
toEncoding = encodeVector
instance (Storable a, FromJSON a) => FromJSON (VS.Vector a) where
parseJSON = vectorParseJSON "Data.Vector.Storable.Vector a"
instance (VP.Prim a, ToJSON a) => ToJSON (VP.Vector a) where
toJSON = vectorToJSON
toEncoding = encodeVector
instance (VP.Prim a, FromJSON a) => FromJSON (VP.Vector a) where
parseJSON = vectorParseJSON "Data.Vector.Primitive.Vector a"
instance (VG.Vector VU.Vector a, ToJSON a) => ToJSON (VU.Vector a) where
toJSON = vectorToJSON
toEncoding = encodeVector
instance (VG.Vector VU.Vector a, FromJSON a) => FromJSON (VU.Vector a) where
parseJSON = vectorParseJSON "Data.Vector.Unboxed.Vector a"
instance (ToJSON a) => ToJSON (Set.Set a) where
toJSON = toJSON . Set.toList
toEncoding = encodeSet Set.minView Set.foldr
instance (Ord a, FromJSON a) => FromJSON (Set.Set a) where
parseJSON = fmap Set.fromList . parseJSON
instance (ToJSON a) => ToJSON (HashSet.HashSet a) where
toJSON = toJSON . HashSet.toList
toEncoding = foldable
instance (Eq a, Hashable a, FromJSON a) => FromJSON (HashSet.HashSet a) where
parseJSON = fmap HashSet.fromList . parseJSON
instance ToJSON IntSet.IntSet where
toJSON = toJSON . IntSet.toList
toEncoding = encodeSet IntSet.minView IntSet.foldr
encodeSet :: (ToJSON a) =>
(s -> Maybe (a, s))
-> ((a -> B.Builder -> B.Builder) -> B.Builder -> s -> B.Builder)
-> s -> Encoding
encodeSet minView foldr xs =
case minView xs of
Nothing -> E.emptyArray_
Just (m,ys) -> Encoding $
B.char7 '[' <> builder m <> foldr go (B.char7 ']') ys
where go v b = B.char7 ',' <> builder v <> b
instance FromJSON IntSet.IntSet where
parseJSON = fmap IntSet.fromList . parseJSON
instance ToJSON a => ToJSON (IntMap.IntMap a) where
toJSON = toJSON . IntMap.toList
toEncoding = toEncoding . IntMap.toList
instance FromJSON a => FromJSON (IntMap.IntMap a) where
parseJSON = fmap IntMap.fromList . parseJSON
instance (ToJSON v) => ToJSON (M.Map Text v) where
toJSON = Object . M.foldrWithKey (\k -> H.insert k . toJSON) H.empty
toEncoding = encodeMap M.minViewWithKey M.foldrWithKey
encodeMap :: (ToJSON k, ToJSON v) =>
(m -> Maybe ((k,v), m))
-> ((k -> v -> B.Builder -> B.Builder) -> B.Builder -> m -> B.Builder)
-> m -> Encoding
encodeMap minViewWithKey foldrWithKey xs =
case minViewWithKey xs of
Nothing -> E.emptyObject_
Just ((k,v),ys) -> Encoding $
B.char7 '{' <> encodeKV k v <>
foldrWithKey go (B.char7 '}') ys
where go k v b = B.char7 ',' <> encodeKV k v <> b
encodeWithKey :: (ToJSON k, ToJSON v) =>
((k -> v -> Series -> Series) -> Series -> m -> Series)
-> m -> Encoding
encodeWithKey foldrWithKey = brackets '{' '}' . foldrWithKey go mempty
where go k v c = Value (Encoding $ encodeKV k v) <> c
encodeKV :: (ToJSON k, ToJSON v) => k -> v -> B.Builder
encodeKV k v = builder k <> B.char7 ':' <> builder v
instance (FromJSON v) => FromJSON (M.Map Text v) where
parseJSON = withObject "Map Text a" $
fmap (H.foldrWithKey M.insert M.empty) . H.traverseWithKey (\k v -> parseJSON v <?> Key k)
instance (ToJSON v) => ToJSON (M.Map LT.Text v) where
toJSON = Object . mapHashKeyVal LT.toStrict toJSON
toEncoding = encodeMap M.minViewWithKey M.foldrWithKey
instance (FromJSON v) => FromJSON (M.Map LT.Text v) where
parseJSON = fmap (hashMapKey LT.fromStrict) . parseJSON
instance (ToJSON v) => ToJSON (M.Map String v) where
toJSON = Object . mapHashKeyVal pack toJSON
toEncoding = encodeMap M.minViewWithKey M.foldrWithKey
instance (FromJSON v) => FromJSON (M.Map String v) where
parseJSON = fmap (hashMapKey unpack) . parseJSON
instance (ToJSON v) => ToJSON (H.HashMap Text v) where
toJSON = Object . H.map toJSON
toEncoding = encodeWithKey H.foldrWithKey
instance (FromJSON v) => FromJSON (H.HashMap Text v) where
parseJSON = withObject "HashMap Text a" $ H.traverseWithKey (\k v -> parseJSON v <?> Key k)
instance (ToJSON v) => ToJSON (H.HashMap LT.Text v) where
toJSON = Object . mapKeyVal LT.toStrict toJSON
toEncoding = encodeWithKey H.foldrWithKey
instance (FromJSON v) => FromJSON (H.HashMap LT.Text v) where
parseJSON = fmap (mapKey LT.fromStrict) . parseJSON
instance (ToJSON v) => ToJSON (H.HashMap String v) where
toJSON = Object . mapKeyVal pack toJSON
toEncoding = encodeWithKey H.foldrWithKey
instance (FromJSON v) => FromJSON (H.HashMap String v) where
parseJSON = fmap (mapKey unpack) . parseJSON
instance (ToJSON v) => ToJSON (Tree.Tree v) where
toJSON (Tree.Node root branches) = toJSON (root,branches)
toEncoding (Tree.Node root branches) = toEncoding (root,branches)
instance (FromJSON v) => FromJSON (Tree.Tree v) where
parseJSON j = uncurry Tree.Node <$> parseJSON j
instance ToJSON Value where
toJSON a = a
toEncoding = Encoding . E.encodeToBuilder
instance FromJSON Value where
parseJSON a = pure a
instance ToJSON DotNetTime where
toJSON = toJSON . dotNetTime
toEncoding = toEncoding . dotNetTime
dotNetTime :: DotNetTime -> String
dotNetTime (DotNetTime t) = secs ++ formatMillis t ++ ")/"
where secs = formatTime defaultTimeLocale "/Date(%s" t
instance FromJSON DotNetTime where
parseJSON = withText "DotNetTime" $ \t ->
let (s,m) = T.splitAt (T.length t 5) t
t' = T.concat [s,".",m]
in case parseTime defaultTimeLocale "/Date(%s%Q)/" (unpack t') of
Just d -> pure (DotNetTime d)
_ -> fail "could not parse .NET time"
instance ToJSON Day where
toJSON = stringEncoding
toEncoding z = Encoding (E.quote $ E.day z)
instance FromJSON Day where
parseJSON = withText "Day" (Time.run Time.day)
instance ToJSON TimeOfDay where
toJSON = stringEncoding
toEncoding z = Encoding (E.quote $ E.timeOfDay z)
instance FromJSON TimeOfDay where
parseJSON = withText "TimeOfDay" (Time.run Time.timeOfDay)
instance ToJSON LocalTime where
toJSON = stringEncoding
toEncoding z = Encoding (E.quote $ E.localTime z)
instance FromJSON LocalTime where
parseJSON = withText "LocalTime" (Time.run Time.localTime)
instance ToJSON ZonedTime where
toJSON = stringEncoding
toEncoding z = Encoding (E.quote $ E.zonedTime z)
formatMillis :: (FormatTime t) => t -> String
formatMillis = take 3 . formatTime defaultTimeLocale "%q"
instance FromJSON ZonedTime where
parseJSON = withText "ZonedTime" (Time.run Time.zonedTime)
instance ToJSON UTCTime where
toJSON = stringEncoding
toEncoding t = Encoding (E.quote $ E.utcTime t)
stringEncoding :: (ToJSON a) => a -> Value
stringEncoding = String . T.dropAround (== '"') . T.decodeLatin1 . L.toStrict . encode
instance FromJSON UTCTime where
parseJSON = withText "UTCTime" (Time.run Time.utcTime)
instance ToJSON NominalDiffTime where
toJSON = Number . realToFrac
toEncoding = Encoding . E.number . realToFrac
instance FromJSON NominalDiffTime where
parseJSON = withScientific "NominalDiffTime" $ pure . realToFrac
parseJSONElemAtIndex :: FromJSON a => Int -> Vector Value -> Parser a
parseJSONElemAtIndex idx ary = parseJSON (V.unsafeIndex ary idx) <?> Index idx
tuple :: B.Builder -> Encoding
tuple b = Encoding (B.char7 '[' <> b <> B.char7 ']')
(>*<) :: B.Builder -> B.Builder -> B.Builder
a >*< b = a <> B.char7 ',' <> b
infixr 6 >*<
instance (ToJSON a, ToJSON b) => ToJSON (a,b) where
toJSON (a,b) = Array $ V.create $ do
mv <- VM.unsafeNew 2
VM.unsafeWrite mv 0 (toJSON a)
VM.unsafeWrite mv 1 (toJSON b)
return mv
toEncoding (a,b) = tuple $
builder a >*< builder b
instance (FromJSON a, FromJSON b) => FromJSON (a,b) where
parseJSON = withArray "(a,b)" $ \ab ->
let n = V.length ab
in if n == 2
then (,) <$> parseJSONElemAtIndex 0 ab
<*> parseJSONElemAtIndex 1 ab
else fail $ "cannot unpack array of length " ++
show n ++ " into a pair"
instance (ToJSON a, ToJSON b, ToJSON c) => ToJSON (a,b,c) where
toJSON (a,b,c) = Array $ V.create $ do
mv <- VM.unsafeNew 3
VM.unsafeWrite mv 0 (toJSON a)
VM.unsafeWrite mv 1 (toJSON b)
VM.unsafeWrite mv 2 (toJSON c)
return mv
toEncoding (a,b,c) = tuple $
builder a >*<
builder b >*<
builder c
instance (FromJSON a, FromJSON b, FromJSON c) => FromJSON (a,b,c) where
parseJSON = withArray "(a,b,c)" $ \abc ->
let n = V.length abc
in if n == 3
then (,,) <$> parseJSONElemAtIndex 0 abc
<*> parseJSONElemAtIndex 1 abc
<*> parseJSONElemAtIndex 2 abc
else fail $ "cannot unpack array of length " ++
show n ++ " into a 3-tuple"
instance (ToJSON a, ToJSON b, ToJSON c, ToJSON d) => ToJSON (a,b,c,d) where
toJSON (a,b,c,d) = Array $ V.create $ do
mv <- VM.unsafeNew 4
VM.unsafeWrite mv 0 (toJSON a)
VM.unsafeWrite mv 1 (toJSON b)
VM.unsafeWrite mv 2 (toJSON c)
VM.unsafeWrite mv 3 (toJSON d)
return mv
toEncoding (a,b,c,d) = tuple $
builder a >*<
builder b >*<
builder c >*<
builder d
instance (FromJSON a, FromJSON b, FromJSON c, FromJSON d) =>
FromJSON (a,b,c,d) where
parseJSON = withArray "(a,b,c,d)" $ \abcd ->
let n = V.length abcd
in if n == 4
then (,,,) <$> parseJSONElemAtIndex 0 abcd
<*> parseJSONElemAtIndex 1 abcd
<*> parseJSONElemAtIndex 2 abcd
<*> parseJSONElemAtIndex 3 abcd
else fail $ "cannot unpack array of length " ++
show n ++ " into a 4-tuple"
instance (ToJSON a, ToJSON b, ToJSON c, ToJSON d, ToJSON e) =>
ToJSON (a,b,c,d,e) where
toJSON (a,b,c,d,e) = Array $ V.create $ do
mv <- VM.unsafeNew 5
VM.unsafeWrite mv 0 (toJSON a)
VM.unsafeWrite mv 1 (toJSON b)
VM.unsafeWrite mv 2 (toJSON c)
VM.unsafeWrite mv 3 (toJSON d)
VM.unsafeWrite mv 4 (toJSON e)
return mv
toEncoding (a,b,c,d,e) = tuple $
builder a >*<
builder b >*<
builder c >*<
builder d >*<
builder e
instance (FromJSON a, FromJSON b, FromJSON c, FromJSON d, FromJSON e) =>
FromJSON (a,b,c,d,e) where
parseJSON = withArray "(a,b,c,d,e)" $ \abcde ->
let n = V.length abcde
in if n == 5
then (,,,,) <$> parseJSONElemAtIndex 0 abcde
<*> parseJSONElemAtIndex 1 abcde
<*> parseJSONElemAtIndex 2 abcde
<*> parseJSONElemAtIndex 3 abcde
<*> parseJSONElemAtIndex 4 abcde
else fail $ "cannot unpack array of length " ++
show n ++ " into a 5-tuple"
instance (ToJSON a, ToJSON b, ToJSON c, ToJSON d, ToJSON e, ToJSON f) =>
ToJSON (a,b,c,d,e,f) where
toJSON (a,b,c,d,e,f) = Array $ V.create $ do
mv <- VM.unsafeNew 6
VM.unsafeWrite mv 0 (toJSON a)
VM.unsafeWrite mv 1 (toJSON b)
VM.unsafeWrite mv 2 (toJSON c)
VM.unsafeWrite mv 3 (toJSON d)
VM.unsafeWrite mv 4 (toJSON e)
VM.unsafeWrite mv 5 (toJSON f)
return mv
toEncoding (a,b,c,d,e,f) = tuple $
builder a >*<
builder b >*<
builder c >*<
builder d >*<
builder e >*<
builder f
instance (FromJSON a, FromJSON b, FromJSON c, FromJSON d, FromJSON e,
FromJSON f) => FromJSON (a,b,c,d,e,f) where
parseJSON = withArray "(a,b,c,d,e,f)" $ \abcdef ->
let n = V.length abcdef
in if n == 6
then (,,,,,) <$> parseJSONElemAtIndex 0 abcdef
<*> parseJSONElemAtIndex 1 abcdef
<*> parseJSONElemAtIndex 2 abcdef
<*> parseJSONElemAtIndex 3 abcdef
<*> parseJSONElemAtIndex 4 abcdef
<*> parseJSONElemAtIndex 5 abcdef
else fail $ "cannot unpack array of length " ++
show n ++ " into a 6-tuple"
instance (ToJSON a, ToJSON b, ToJSON c, ToJSON d, ToJSON e, ToJSON f,
ToJSON g) => ToJSON (a,b,c,d,e,f,g) where
toJSON (a,b,c,d,e,f,g) = Array $ V.create $ do
mv <- VM.unsafeNew 7
VM.unsafeWrite mv 0 (toJSON a)
VM.unsafeWrite mv 1 (toJSON b)
VM.unsafeWrite mv 2 (toJSON c)
VM.unsafeWrite mv 3 (toJSON d)
VM.unsafeWrite mv 4 (toJSON e)
VM.unsafeWrite mv 5 (toJSON f)
VM.unsafeWrite mv 6 (toJSON g)
return mv
toEncoding (a,b,c,d,e,f,g) = tuple $
builder a >*<
builder b >*<
builder c >*<
builder d >*<
builder e >*<
builder f >*<
builder g
instance (FromJSON a, FromJSON b, FromJSON c, FromJSON d, FromJSON e,
FromJSON f, FromJSON g) => FromJSON (a,b,c,d,e,f,g) where
parseJSON = withArray "(a,b,c,d,e,f,g)" $ \abcdefg ->
let n = V.length abcdefg
in if n == 7
then (,,,,,,) <$> parseJSONElemAtIndex 0 abcdefg
<*> parseJSONElemAtIndex 1 abcdefg
<*> parseJSONElemAtIndex 2 abcdefg
<*> parseJSONElemAtIndex 3 abcdefg
<*> parseJSONElemAtIndex 4 abcdefg
<*> parseJSONElemAtIndex 5 abcdefg
<*> parseJSONElemAtIndex 6 abcdefg
else fail $ "cannot unpack array of length " ++
show n ++ " into a 7-tuple"
instance (ToJSON a, ToJSON b, ToJSON c, ToJSON d, ToJSON e, ToJSON f,
ToJSON g, ToJSON h) => ToJSON (a,b,c,d,e,f,g,h) where
toJSON (a,b,c,d,e,f,g,h) = Array $ V.create $ do
mv <- VM.unsafeNew 8
VM.unsafeWrite mv 0 (toJSON a)
VM.unsafeWrite mv 1 (toJSON b)
VM.unsafeWrite mv 2 (toJSON c)
VM.unsafeWrite mv 3 (toJSON d)
VM.unsafeWrite mv 4 (toJSON e)
VM.unsafeWrite mv 5 (toJSON f)
VM.unsafeWrite mv 6 (toJSON g)
VM.unsafeWrite mv 7 (toJSON h)
return mv
toEncoding (a,b,c,d,e,f,g,h) = tuple $
builder a >*<
builder b >*<
builder c >*<
builder d >*<
builder e >*<
builder f >*<
builder g >*<
builder h
instance (FromJSON a, FromJSON b, FromJSON c, FromJSON d, FromJSON e,
FromJSON f, FromJSON g, FromJSON h) =>
FromJSON (a,b,c,d,e,f,g,h) where
parseJSON = withArray "(a,b,c,d,e,f,g,h)" $ \ary ->
let n = V.length ary
in if n /= 8
then fail $ "cannot unpack array of length " ++
show n ++ " into an 8-tuple"
else (,,,,,,,)
<$> parseJSONElemAtIndex 0 ary
<*> parseJSONElemAtIndex 1 ary
<*> parseJSONElemAtIndex 2 ary
<*> parseJSONElemAtIndex 3 ary
<*> parseJSONElemAtIndex 4 ary
<*> parseJSONElemAtIndex 5 ary
<*> parseJSONElemAtIndex 6 ary
<*> parseJSONElemAtIndex 7 ary
instance (ToJSON a, ToJSON b, ToJSON c, ToJSON d, ToJSON e, ToJSON f,
ToJSON g, ToJSON h, ToJSON i) => ToJSON (a,b,c,d,e,f,g,h,i) where
toJSON (a,b,c,d,e,f,g,h,i) = Array $ V.create $ do
mv <- VM.unsafeNew 9
VM.unsafeWrite mv 0 (toJSON a)
VM.unsafeWrite mv 1 (toJSON b)
VM.unsafeWrite mv 2 (toJSON c)
VM.unsafeWrite mv 3 (toJSON d)
VM.unsafeWrite mv 4 (toJSON e)
VM.unsafeWrite mv 5 (toJSON f)
VM.unsafeWrite mv 6 (toJSON g)
VM.unsafeWrite mv 7 (toJSON h)
VM.unsafeWrite mv 8 (toJSON i)
return mv
toEncoding (a,b,c,d,e,f,g,h,i) = tuple $
builder a >*<
builder b >*<
builder c >*<
builder d >*<
builder e >*<
builder f >*<
builder g >*<
builder h >*<
builder i
instance (FromJSON a, FromJSON b, FromJSON c, FromJSON d, FromJSON e,
FromJSON f, FromJSON g, FromJSON h, FromJSON i) =>
FromJSON (a,b,c,d,e,f,g,h,i) where
parseJSON = withArray "(a,b,c,d,e,f,g,h,i)" $ \ary ->
let n = V.length ary
in if n /= 9
then fail $ "cannot unpack array of length " ++
show n ++ " into a 9-tuple"
else (,,,,,,,,)
<$> parseJSONElemAtIndex 0 ary
<*> parseJSONElemAtIndex 1 ary
<*> parseJSONElemAtIndex 2 ary
<*> parseJSONElemAtIndex 3 ary
<*> parseJSONElemAtIndex 4 ary
<*> parseJSONElemAtIndex 5 ary
<*> parseJSONElemAtIndex 6 ary
<*> parseJSONElemAtIndex 7 ary
<*> parseJSONElemAtIndex 8 ary
instance (ToJSON a, ToJSON b, ToJSON c, ToJSON d, ToJSON e, ToJSON f,
ToJSON g, ToJSON h, ToJSON i, ToJSON j) =>
ToJSON (a,b,c,d,e,f,g,h,i,j) where
toJSON (a,b,c,d,e,f,g,h,i,j) = Array $ V.create $ do
mv <- VM.unsafeNew 10
VM.unsafeWrite mv 0 (toJSON a)
VM.unsafeWrite mv 1 (toJSON b)
VM.unsafeWrite mv 2 (toJSON c)
VM.unsafeWrite mv 3 (toJSON d)
VM.unsafeWrite mv 4 (toJSON e)
VM.unsafeWrite mv 5 (toJSON f)
VM.unsafeWrite mv 6 (toJSON g)
VM.unsafeWrite mv 7 (toJSON h)
VM.unsafeWrite mv 8 (toJSON i)
VM.unsafeWrite mv 9 (toJSON j)
return mv
toEncoding (a,b,c,d,e,f,g,h,i,j) = tuple $
builder a >*<
builder b >*<
builder c >*<
builder d >*<
builder e >*<
builder f >*<
builder g >*<
builder h >*<
builder i >*<
builder j
instance (FromJSON a, FromJSON b, FromJSON c, FromJSON d, FromJSON e,
FromJSON f, FromJSON g, FromJSON h, FromJSON i, FromJSON j) =>
FromJSON (a,b,c,d,e,f,g,h,i,j) where
parseJSON = withArray "(a,b,c,d,e,f,g,h,i,j)" $ \ary ->
let n = V.length ary
in if n /= 10
then fail $ "cannot unpack array of length " ++
show n ++ " into a 10-tuple"
else (,,,,,,,,,)
<$> parseJSONElemAtIndex 0 ary
<*> parseJSONElemAtIndex 1 ary
<*> parseJSONElemAtIndex 2 ary
<*> parseJSONElemAtIndex 3 ary
<*> parseJSONElemAtIndex 4 ary
<*> parseJSONElemAtIndex 5 ary
<*> parseJSONElemAtIndex 6 ary
<*> parseJSONElemAtIndex 7 ary
<*> parseJSONElemAtIndex 8 ary
<*> parseJSONElemAtIndex 9 ary
instance (ToJSON a, ToJSON b, ToJSON c, ToJSON d, ToJSON e, ToJSON f,
ToJSON g, ToJSON h, ToJSON i, ToJSON j, ToJSON k) =>
ToJSON (a,b,c,d,e,f,g,h,i,j,k) where
toJSON (a,b,c,d,e,f,g,h,i,j,k) = Array $ V.create $ do
mv <- VM.unsafeNew 11
VM.unsafeWrite mv 0 (toJSON a)
VM.unsafeWrite mv 1 (toJSON b)
VM.unsafeWrite mv 2 (toJSON c)
VM.unsafeWrite mv 3 (toJSON d)
VM.unsafeWrite mv 4 (toJSON e)
VM.unsafeWrite mv 5 (toJSON f)
VM.unsafeWrite mv 6 (toJSON g)
VM.unsafeWrite mv 7 (toJSON h)
VM.unsafeWrite mv 8 (toJSON i)
VM.unsafeWrite mv 9 (toJSON j)
VM.unsafeWrite mv 10 (toJSON k)
return mv
toEncoding (a,b,c,d,e,f,g,h,i,j,k) = tuple $
builder a >*<
builder b >*<
builder c >*<
builder d >*<
builder e >*<
builder f >*<
builder g >*<
builder h >*<
builder i >*<
builder j >*<
builder k
instance (FromJSON a, FromJSON b, FromJSON c, FromJSON d, FromJSON e,
FromJSON f, FromJSON g, FromJSON h, FromJSON i, FromJSON j,
FromJSON k) =>
FromJSON (a,b,c,d,e,f,g,h,i,j,k) where
parseJSON = withArray "(a,b,c,d,e,f,g,h,i,j,k)" $ \ary ->
let n = V.length ary
in if n /= 11
then fail $ "cannot unpack array of length " ++
show n ++ " into an 11-tuple"
else (,,,,,,,,,,)
<$> parseJSONElemAtIndex 0 ary
<*> parseJSONElemAtIndex 1 ary
<*> parseJSONElemAtIndex 2 ary
<*> parseJSONElemAtIndex 3 ary
<*> parseJSONElemAtIndex 4 ary
<*> parseJSONElemAtIndex 5 ary
<*> parseJSONElemAtIndex 6 ary
<*> parseJSONElemAtIndex 7 ary
<*> parseJSONElemAtIndex 8 ary
<*> parseJSONElemAtIndex 9 ary
<*> parseJSONElemAtIndex 10 ary
instance (ToJSON a, ToJSON b, ToJSON c, ToJSON d, ToJSON e, ToJSON f,
ToJSON g, ToJSON h, ToJSON i, ToJSON j, ToJSON k, ToJSON l) =>
ToJSON (a,b,c,d,e,f,g,h,i,j,k,l) where
toJSON (a,b,c,d,e,f,g,h,i,j,k,l) = Array $ V.create $ do
mv <- VM.unsafeNew 12
VM.unsafeWrite mv 0 (toJSON a)
VM.unsafeWrite mv 1 (toJSON b)
VM.unsafeWrite mv 2 (toJSON c)
VM.unsafeWrite mv 3 (toJSON d)
VM.unsafeWrite mv 4 (toJSON e)
VM.unsafeWrite mv 5 (toJSON f)
VM.unsafeWrite mv 6 (toJSON g)
VM.unsafeWrite mv 7 (toJSON h)
VM.unsafeWrite mv 8 (toJSON i)
VM.unsafeWrite mv 9 (toJSON j)
VM.unsafeWrite mv 10 (toJSON k)
VM.unsafeWrite mv 11 (toJSON l)
return mv
toEncoding (a,b,c,d,e,f,g,h,i,j,k,l) = tuple $
builder a >*<
builder b >*<
builder c >*<
builder d >*<
builder e >*<
builder f >*<
builder g >*<
builder h >*<
builder i >*<
builder j >*<
builder k >*<
builder l
instance (FromJSON a, FromJSON b, FromJSON c, FromJSON d, FromJSON e,
FromJSON f, FromJSON g, FromJSON h, FromJSON i, FromJSON j,
FromJSON k, FromJSON l) =>
FromJSON (a,b,c,d,e,f,g,h,i,j,k,l) where
parseJSON = withArray "(a,b,c,d,e,f,g,h,i,j,k,l)" $ \ary ->
let n = V.length ary
in if n /= 12
then fail $ "cannot unpack array of length " ++
show n ++ " into a 12-tuple"
else (,,,,,,,,,,,)
<$> parseJSONElemAtIndex 0 ary
<*> parseJSONElemAtIndex 1 ary
<*> parseJSONElemAtIndex 2 ary
<*> parseJSONElemAtIndex 3 ary
<*> parseJSONElemAtIndex 4 ary
<*> parseJSONElemAtIndex 5 ary
<*> parseJSONElemAtIndex 6 ary
<*> parseJSONElemAtIndex 7 ary
<*> parseJSONElemAtIndex 8 ary
<*> parseJSONElemAtIndex 9 ary
<*> parseJSONElemAtIndex 10 ary
<*> parseJSONElemAtIndex 11 ary
instance (ToJSON a, ToJSON b, ToJSON c, ToJSON d, ToJSON e, ToJSON f,
ToJSON g, ToJSON h, ToJSON i, ToJSON j, ToJSON k, ToJSON l,
ToJSON m) =>
ToJSON (a,b,c,d,e,f,g,h,i,j,k,l,m) where
toJSON (a,b,c,d,e,f,g,h,i,j,k,l,m) = Array $ V.create $ do
mv <- VM.unsafeNew 13
VM.unsafeWrite mv 0 (toJSON a)
VM.unsafeWrite mv 1 (toJSON b)
VM.unsafeWrite mv 2 (toJSON c)
VM.unsafeWrite mv 3 (toJSON d)
VM.unsafeWrite mv 4 (toJSON e)
VM.unsafeWrite mv 5 (toJSON f)
VM.unsafeWrite mv 6 (toJSON g)
VM.unsafeWrite mv 7 (toJSON h)
VM.unsafeWrite mv 8 (toJSON i)
VM.unsafeWrite mv 9 (toJSON j)
VM.unsafeWrite mv 10 (toJSON k)
VM.unsafeWrite mv 11 (toJSON l)
VM.unsafeWrite mv 12 (toJSON m)
return mv
toEncoding (a,b,c,d,e,f,g,h,i,j,k,l,m) = tuple $
builder a >*<
builder b >*<
builder c >*<
builder d >*<
builder e >*<
builder f >*<
builder g >*<
builder h >*<
builder i >*<
builder j >*<
builder k >*<
builder l >*<
builder m
instance (FromJSON a, FromJSON b, FromJSON c, FromJSON d, FromJSON e,
FromJSON f, FromJSON g, FromJSON h, FromJSON i, FromJSON j,
FromJSON k, FromJSON l, FromJSON m) =>
FromJSON (a,b,c,d,e,f,g,h,i,j,k,l,m) where
parseJSON = withArray "(a,b,c,d,e,f,g,h,i,j,k,l,m)" $ \ary ->
let n = V.length ary
in if n /= 13
then fail $ "cannot unpack array of length " ++
show n ++ " into a 13-tuple"
else (,,,,,,,,,,,,)
<$> parseJSONElemAtIndex 0 ary
<*> parseJSONElemAtIndex 1 ary
<*> parseJSONElemAtIndex 2 ary
<*> parseJSONElemAtIndex 3 ary
<*> parseJSONElemAtIndex 4 ary
<*> parseJSONElemAtIndex 5 ary
<*> parseJSONElemAtIndex 6 ary
<*> parseJSONElemAtIndex 7 ary
<*> parseJSONElemAtIndex 8 ary
<*> parseJSONElemAtIndex 9 ary
<*> parseJSONElemAtIndex 10 ary
<*> parseJSONElemAtIndex 11 ary
<*> parseJSONElemAtIndex 12 ary
instance (ToJSON a, ToJSON b, ToJSON c, ToJSON d, ToJSON e, ToJSON f,
ToJSON g, ToJSON h, ToJSON i, ToJSON j, ToJSON k, ToJSON l,
ToJSON m, ToJSON n) =>
ToJSON (a,b,c,d,e,f,g,h,i,j,k,l,m,n) where
toJSON (a,b,c,d,e,f,g,h,i,j,k,l,m,n) = Array $ V.create $ do
mv <- VM.unsafeNew 14
VM.unsafeWrite mv 0 (toJSON a)
VM.unsafeWrite mv 1 (toJSON b)
VM.unsafeWrite mv 2 (toJSON c)
VM.unsafeWrite mv 3 (toJSON d)
VM.unsafeWrite mv 4 (toJSON e)
VM.unsafeWrite mv 5 (toJSON f)
VM.unsafeWrite mv 6 (toJSON g)
VM.unsafeWrite mv 7 (toJSON h)
VM.unsafeWrite mv 8 (toJSON i)
VM.unsafeWrite mv 9 (toJSON j)
VM.unsafeWrite mv 10 (toJSON k)
VM.unsafeWrite mv 11 (toJSON l)
VM.unsafeWrite mv 12 (toJSON m)
VM.unsafeWrite mv 13 (toJSON n)
return mv
toEncoding (a,b,c,d,e,f,g,h,i,j,k,l,m,n) = tuple $
builder a >*<
builder b >*<
builder c >*<
builder d >*<
builder e >*<
builder f >*<
builder g >*<
builder h >*<
builder i >*<
builder j >*<
builder k >*<
builder l >*<
builder m >*<
builder n
instance (FromJSON a, FromJSON b, FromJSON c, FromJSON d, FromJSON e,
FromJSON f, FromJSON g, FromJSON h, FromJSON i, FromJSON j,
FromJSON k, FromJSON l, FromJSON m, FromJSON n) =>
FromJSON (a,b,c,d,e,f,g,h,i,j,k,l,m,n) where
parseJSON = withArray "(a,b,c,d,e,f,g,h,i,j,k,l,m,n)" $ \ary ->
let n = V.length ary
in if n /= 14
then fail $ "cannot unpack array of length " ++
show n ++ " into a 14-tuple"
else (,,,,,,,,,,,,,)
<$> parseJSONElemAtIndex 0 ary
<*> parseJSONElemAtIndex 1 ary
<*> parseJSONElemAtIndex 2 ary
<*> parseJSONElemAtIndex 3 ary
<*> parseJSONElemAtIndex 4 ary
<*> parseJSONElemAtIndex 5 ary
<*> parseJSONElemAtIndex 6 ary
<*> parseJSONElemAtIndex 7 ary
<*> parseJSONElemAtIndex 8 ary
<*> parseJSONElemAtIndex 9 ary
<*> parseJSONElemAtIndex 10 ary
<*> parseJSONElemAtIndex 11 ary
<*> parseJSONElemAtIndex 12 ary
<*> parseJSONElemAtIndex 13 ary
instance (ToJSON a, ToJSON b, ToJSON c, ToJSON d, ToJSON e, ToJSON f,
ToJSON g, ToJSON h, ToJSON i, ToJSON j, ToJSON k, ToJSON l,
ToJSON m, ToJSON n, ToJSON o) =>
ToJSON (a,b,c,d,e,f,g,h,i,j,k,l,m,n,o) where
toJSON (a,b,c,d,e,f,g,h,i,j,k,l,m,n,o) = Array $ V.create $ do
mv <- VM.unsafeNew 15
VM.unsafeWrite mv 0 (toJSON a)
VM.unsafeWrite mv 1 (toJSON b)
VM.unsafeWrite mv 2 (toJSON c)
VM.unsafeWrite mv 3 (toJSON d)
VM.unsafeWrite mv 4 (toJSON e)
VM.unsafeWrite mv 5 (toJSON f)
VM.unsafeWrite mv 6 (toJSON g)
VM.unsafeWrite mv 7 (toJSON h)
VM.unsafeWrite mv 8 (toJSON i)
VM.unsafeWrite mv 9 (toJSON j)
VM.unsafeWrite mv 10 (toJSON k)
VM.unsafeWrite mv 11 (toJSON l)
VM.unsafeWrite mv 12 (toJSON m)
VM.unsafeWrite mv 13 (toJSON n)
VM.unsafeWrite mv 14 (toJSON o)
return mv
toEncoding (a,b,c,d,e,f,g,h,i,j,k,l,m,n,o) = tuple $
builder a >*<
builder b >*<
builder c >*<
builder d >*<
builder e >*<
builder f >*<
builder g >*<
builder h >*<
builder i >*<
builder j >*<
builder k >*<
builder l >*<
builder m >*<
builder n >*<
builder o
instance (FromJSON a, FromJSON b, FromJSON c, FromJSON d, FromJSON e,
FromJSON f, FromJSON g, FromJSON h, FromJSON i, FromJSON j,
FromJSON k, FromJSON l, FromJSON m, FromJSON n, FromJSON o) =>
FromJSON (a,b,c,d,e,f,g,h,i,j,k,l,m,n,o) where
parseJSON = withArray "(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o)" $ \ary ->
let n = V.length ary
in if n /= 15
then fail $ "cannot unpack array of length " ++
show n ++ " into a 15-tuple"
else (,,,,,,,,,,,,,,)
<$> parseJSONElemAtIndex 0 ary
<*> parseJSONElemAtIndex 1 ary
<*> parseJSONElemAtIndex 2 ary
<*> parseJSONElemAtIndex 3 ary
<*> parseJSONElemAtIndex 4 ary
<*> parseJSONElemAtIndex 5 ary
<*> parseJSONElemAtIndex 6 ary
<*> parseJSONElemAtIndex 7 ary
<*> parseJSONElemAtIndex 8 ary
<*> parseJSONElemAtIndex 9 ary
<*> parseJSONElemAtIndex 10 ary
<*> parseJSONElemAtIndex 11 ary
<*> parseJSONElemAtIndex 12 ary
<*> parseJSONElemAtIndex 13 ary
<*> parseJSONElemAtIndex 14 ary
instance ToJSON a => ToJSON (Dual a) where
toJSON = toJSON . getDual
toEncoding = toEncoding . getDual
instance FromJSON a => FromJSON (Dual a) where
parseJSON = fmap Dual . parseJSON
instance ToJSON a => ToJSON (First a) where
toJSON = toJSON . getFirst
toEncoding = toEncoding . getFirst
instance FromJSON a => FromJSON (First a) where
parseJSON = fmap First . parseJSON
instance ToJSON a => ToJSON (Last a) where
toJSON = toJSON . getLast
toEncoding = toEncoding . getLast
instance FromJSON a => FromJSON (Last a) where
parseJSON = fmap Last . parseJSON
instance ToJSON Version where
toJSON = toJSON . showVersion
toEncoding = toEncoding . showVersion
instance FromJSON Version where
parseJSON = withText "Version" $ go . readP_to_S parseVersion . unpack
where
go [(v,[])] = return v
go (_ : xs) = go xs
go _ = fail $ "could not parse Version"
instance ToJSON (Proxy a) where
toJSON _ = Null
toEncoding _ = Encoding E.null_
instance FromJSON (Proxy a) where
parseJSON Null = pure Proxy
parseJSON v = typeMismatch "Proxy" v
instance ToJSON b => ToJSON (Tagged a b) where
toJSON (Tagged x) = toJSON x
toEncoding (Tagged x) = toEncoding x
instance FromJSON b => FromJSON (Tagged a b) where
parseJSON = fmap Tagged . parseJSON
instance ToJSON a => ToJSON (Const a b) where
toJSON (Const x) = toJSON x
toEncoding (Const x) = toEncoding x
instance FromJSON a => FromJSON (Const a b) where
parseJSON = fmap Const . parseJSON
withObject :: String -> (Object -> Parser a) -> Value -> Parser a
withObject _ f (Object obj) = f obj
withObject expected _ v = typeMismatch expected v
withText :: String -> (Text -> Parser a) -> Value -> Parser a
withText _ f (String txt) = f txt
withText expected _ v = typeMismatch expected v
withArray :: String -> (Array -> Parser a) -> Value -> Parser a
withArray _ f (Array arr) = f arr
withArray expected _ v = typeMismatch expected v
withNumber :: String -> (Number -> Parser a) -> Value -> Parser a
withNumber expected f = withScientific expected (f . scientificToNumber)
withScientific :: String -> (Scientific -> Parser a) -> Value -> Parser a
withScientific _ f (Number scientific) = f scientific
withScientific expected _ v = typeMismatch expected v
withBool :: String -> (Bool -> Parser a) -> Value -> Parser a
withBool _ f (Bool arr) = f arr
withBool expected _ v = typeMismatch expected v
instance KeyValue Pair where
name .= value = (name, toJSON value)
instance KeyValue Series where
name .= value = Value . Encoding $
E.text name <> B.char7 ':' <> builder value
fromJSON :: (FromJSON a) => Value -> Result a
fromJSON = parse parseJSON
ifromJSON :: (FromJSON a) => Value -> IResult a
ifromJSON = iparse parseJSON
(.:) :: (FromJSON a) => Object -> Text -> Parser a
obj .: key = case H.lookup key obj of
Nothing -> fail $ "key " ++ show key ++ " not present"
Just v -> modifyFailure addKeyName
$ parseJSON v <?> Key key
where
addKeyName = (("failed to parse field " <> unpack key <> ": ") <>)
(.:?) :: (FromJSON a) => Object -> Text -> Parser (Maybe a)
obj .:? key = case H.lookup key obj of
Nothing -> pure Nothing
Just v -> modifyFailure addKeyName
$ parseJSON v <?> Key key
where
addKeyName = (("failed to parse field " <> unpack key <> ": ") <>)
(.:!) :: (FromJSON a) => Object -> Text -> Parser (Maybe a)
obj .:! key = case H.lookup key obj of
Nothing -> pure Nothing
Just v -> modifyFailure addKeyName
$ Just <$> parseJSON v <?> Key key
where
addKeyName = (("failed to parse field " <> unpack key <> ": ") <>)
(.!=) :: Parser (Maybe a) -> a -> Parser a
pmval .!= val = fromMaybe val <$> pmval
realFloatToJSON :: RealFloat a => a -> Value
realFloatToJSON d
| isNaN d || isInfinite d = Null
| otherwise = Number $ Scientific.fromFloatDigits d
realFloatToEncoding :: RealFloat a => a -> Encoding
realFloatToEncoding d
| isNaN d || isInfinite d = Encoding E.null_
| otherwise = toEncoding (Scientific.fromFloatDigits d)
scientificToNumber :: Scientific -> Number
scientificToNumber s
| e < 0 = D $ Scientific.toRealFloat s
| otherwise = I $ c * 10 ^ e
where
e = Scientific.base10Exponent s
c = Scientific.coefficient s
parseRealFloat :: RealFloat a => String -> Value -> Parser a
parseRealFloat _ (Number s) = pure $ Scientific.toRealFloat s
parseRealFloat _ Null = pure (0/0)
parseRealFloat expected v = typeMismatch expected v
parseIntegral :: Integral a => String -> Value -> Parser a
parseIntegral expected = withScientific expected $ pure . truncate