#if MIN_VERSION_ghc_prim(0,3,1)
#endif
module Data.Aeson.Parser.Internal
(
json, jsonEOF
, value
, jstring
, json', jsonEOF'
, value'
, decodeWith
, decodeStrictWith
, eitherDecodeWith
, eitherDecodeStrictWith
) where
import Prelude ()
import Prelude.Compat
import Control.Applicative ((<|>))
import Control.Monad (void, when)
import Data.Aeson.Types.Internal (IResult(..), JSONPath, Result(..), Value(..))
import Data.Attoparsec.ByteString.Char8 (Parser, char, decimal, endOfInput, isDigit_w8, signed, string)
import Data.Scientific (Scientific)
import Data.Text (Text)
import Data.Vector as Vector (Vector, empty, fromListN, reverse)
import qualified Data.Attoparsec.ByteString as A
import qualified Data.Attoparsec.Lazy as L
import qualified Data.ByteString as B
import qualified Data.ByteString.Unsafe as B
import qualified Data.ByteString.Lazy as L
import qualified Data.HashMap.Strict as H
import qualified Data.Scientific as Sci
import Data.Aeson.Parser.Unescape
#if MIN_VERSION_ghc_prim(0,3,1)
import GHC.Base (Int#, (==#), isTrue#, word2Int#)
import GHC.Word (Word8(W8#))
#endif
#define BACKSLASH 92
#define CLOSE_CURLY 125
#define CLOSE_SQUARE 93
#define COMMA 44
#define DOUBLE_QUOTE 34
#define OPEN_CURLY 123
#define OPEN_SQUARE 91
#define C_0 48
#define C_9 57
#define C_A 65
#define C_F 70
#define C_a 97
#define C_f 102
#define C_n 110
#define C_t 116
json :: Parser Value
json = value
json' :: Parser Value
json' = value'
object_ :: Parser Value
object_ = Object <$> objectValues jstring value
object_' :: Parser Value
object_' = do
!vals <- objectValues jstring' value'
return (Object vals)
where
jstring' = do
!s <- jstring
return s
objectValues :: Parser Text -> Parser Value -> Parser (H.HashMap Text Value)
objectValues str val = do
skipSpace
w <- A.peekWord8'
if w == CLOSE_CURLY
then A.anyWord8 >> return H.empty
else loop []
where
loop acc = do
k <- str <* skipSpace <* char ':'
v <- val <* skipSpace
ch <- A.satisfy $ \w -> w == COMMA || w == CLOSE_CURLY
let acc' = (k, v) : acc
if ch == COMMA
then skipSpace >> loop acc'
else return (H.fromList acc')
array_ :: Parser Value
array_ = Array <$> arrayValues value
array_' :: Parser Value
array_' = do
!vals <- arrayValues value'
return (Array vals)
arrayValues :: Parser Value -> Parser (Vector Value)
arrayValues val = do
skipSpace
w <- A.peekWord8'
if w == CLOSE_SQUARE
then A.anyWord8 >> return Vector.empty
else loop [] 1
where
loop acc !len = do
v <- val <* skipSpace
ch <- A.satisfy $ \w -> w == COMMA || w == CLOSE_SQUARE
if ch == COMMA
then skipSpace >> loop (v:acc) (len+1)
else return (Vector.reverse (Vector.fromListN len (v:acc)))
value :: Parser Value
value = do
skipSpace
w <- A.peekWord8'
case w of
DOUBLE_QUOTE -> A.anyWord8 *> (String <$> jstring_)
OPEN_CURLY -> A.anyWord8 *> object_
OPEN_SQUARE -> A.anyWord8 *> array_
C_f -> string "false" *> pure (Bool False)
C_t -> string "true" *> pure (Bool True)
C_n -> string "null" *> pure Null
_ | w >= 48 && w <= 57 || w == 45
-> Number <$> scientific
| otherwise -> fail "not a valid json value"
value' :: Parser Value
value' = do
skipSpace
w <- A.peekWord8'
case w of
DOUBLE_QUOTE -> do
!s <- A.anyWord8 *> jstring_
return (String s)
OPEN_CURLY -> A.anyWord8 *> object_'
OPEN_SQUARE -> A.anyWord8 *> array_'
C_f -> string "false" *> pure (Bool False)
C_t -> string "true" *> pure (Bool True)
C_n -> string "null" *> pure Null
_ | w >= 48 && w <= 57 || w == 45
-> do
!n <- scientific
return (Number n)
| otherwise -> fail "not a valid json value"
jstring :: Parser Text
jstring = A.word8 DOUBLE_QUOTE *> jstring_
jstring_ :: Parser Text
jstring_ = do
s <- A.scan startState go <* A.anyWord8
case unescapeText s of
Right r -> return r
Left err -> fail $ show err
where
#if MIN_VERSION_ghc_prim(0,3,1)
startState = S 0#
go (S a) (W8# c)
| isTrue# a = Just (S 0#)
| isTrue# (word2Int# c ==# 34#) = Nothing
| otherwise = let a' = word2Int# c ==# 92#
in Just (S a')
data S = S Int#
#else
startState = False
go a c
| a = Just False
| c == DOUBLE_QUOTE = Nothing
| otherwise = let a' = c == backslash
in Just a'
where backslash = BACKSLASH
#endif
decodeWith :: Parser Value -> (Value -> Result a) -> L.ByteString -> Maybe a
decodeWith p to s =
case L.parse p s of
L.Done _ v -> case to v of
Success a -> Just a
_ -> Nothing
_ -> Nothing
decodeStrictWith :: Parser Value -> (Value -> Result a) -> B.ByteString
-> Maybe a
decodeStrictWith p to s =
case either Error to (A.parseOnly p s) of
Success a -> Just a
_ -> Nothing
eitherDecodeWith :: Parser Value -> (Value -> IResult a) -> L.ByteString
-> Either (JSONPath, String) a
eitherDecodeWith p to s =
case L.parse p s of
L.Done _ v -> case to v of
ISuccess a -> Right a
IError path msg -> Left (path, msg)
L.Fail _ _ msg -> Left ([], msg)
eitherDecodeStrictWith :: Parser Value -> (Value -> IResult a) -> B.ByteString
-> Either (JSONPath, String) a
eitherDecodeStrictWith p to s =
case either (IError []) to (A.parseOnly p s) of
ISuccess a -> Right a
IError path msg -> Left (path, msg)
jsonEOF :: Parser Value
jsonEOF = json <* skipSpace <* endOfInput
jsonEOF' :: Parser Value
jsonEOF' = json' <* skipSpace <* endOfInput
skipSpace :: Parser ()
skipSpace = A.skipWhile $ \w -> w == 0x20 || w == 0x0a || w == 0x0d || w == 0x09
data SP = SP !Integer !Int
decimal0 :: Parser Integer
decimal0 = do
let step a w = a * 10 + fromIntegral (w zero)
zero = 48
digits <- A.takeWhile1 isDigit_w8
if B.length digits > 1 && B.unsafeHead digits == zero
then fail "leading zero"
else return (B.foldl' step 0 digits)
scientific :: Parser Scientific
scientific = do
let minus = 45
plus = 43
sign <- A.peekWord8'
let !positive = sign == plus || sign /= minus
when (sign == plus || sign == minus) $
void A.anyWord8
n <- decimal0
let f fracDigits = SP (B.foldl' step n fracDigits)
(negate $ B.length fracDigits)
step a w = a * 10 + fromIntegral (w 48)
dotty <- A.peekWord8
SP c e <- case dotty of
Just 46 -> A.anyWord8 *> (f <$> A.takeWhile1 isDigit_w8)
_ -> pure (SP n 0)
let !signedCoeff | positive = c
| otherwise = c
let littleE = 101
bigE = 69
(A.satisfy (\ex -> ex == littleE || ex == bigE) *>
fmap (Sci.scientific signedCoeff . (e +)) (signed decimal)) <|>
return (Sci.scientific signedCoeff e)