module Data.Conduit.Text
(
Codec
, encode
, decode
, utf8
, utf16_le
, utf16_be
, utf32_le
, utf32_be
, ascii
, iso8859_1
, lines
) where
import qualified Prelude
import Prelude hiding (head, drop, takeWhile, lines, zip, zip3, zipWith, zipWith3)
import Control.Arrow (first)
import qualified Control.Exception as Exc
import Data.Bits ((.&.), (.|.), shiftL)
import qualified Data.ByteString as B
import qualified Data.ByteString.Char8 as B8
import Data.Char (ord)
import Data.Maybe (catMaybes)
import qualified Data.Text as T
import qualified Data.Text.Encoding as TE
import Data.Word (Word8, Word16)
import System.IO.Unsafe (unsafePerformIO)
import Data.Typeable (Typeable)
import qualified Data.Conduit as C
import qualified Data.Conduit.List as CL
import Control.Monad.Trans.Resource (MonadThrow (..))
import Control.Monad.Trans.Class (lift)
data Codec = Codec
{ codecName :: T.Text
, codecEncode
:: T.Text
-> (B.ByteString, Maybe (TextException, T.Text))
, codecDecode
:: B.ByteString
-> (T.Text, Either
(TextException, B.ByteString)
B.ByteString)
}
instance Show Codec where
showsPrec d c = showParen (d > 10) $
showString "Codec " . shows (codecName c)
lines :: Monad m => C.Conduit T.Text m T.Text
lines =
C.conduitState id push close
where
push front bs' = return $ C.StateProducing leftover ls
where
bs = front bs'
(leftover, ls) = getLines id bs
getLines front bs
| T.null bs = (id, front [])
| T.null y = (T.append x, front [])
| otherwise = getLines (front . (x:)) (T.drop 1 y)
where
(x, y) = T.break (== '\n') bs
close front
| T.null bs = return []
| otherwise = return [bs]
where
bs = front T.empty
encode :: MonadThrow m => Codec -> C.Conduit T.Text m B.ByteString
encode codec = CL.mapM $ \t -> do
let (bs, mexc) = codecEncode codec t
maybe (return bs) (monadThrow . fst) mexc
decode :: MonadThrow m => Codec -> C.Conduit B.ByteString m T.Text
decode codec =
C.NeedInput push (close B.empty)
where
push bs =
case extra of
Left (exc, _) -> C.PipeM (monadThrow exc) (monadThrow exc)
Right bs' ->
let push' = if B.null bs' then push else push . B.append bs'
close' = close bs'
in C.HaveOutput (C.NeedInput push' close') (close2 bs') text
where
(text, extra) = codecDecode codec bs
close bs =
case B.uncons bs of
Nothing -> C.Done Nothing ()
Just (w, _) ->
let exc = monadThrow $ DecodeException codec w
in C.PipeM exc (lift exc)
close2 bs =
case B.uncons bs of
Nothing -> return ()
Just (w, _) -> monadThrow $ DecodeException codec w
data TextException = DecodeException Codec Word8
| EncodeException Codec Char
deriving (Show, Typeable)
instance Exc.Exception TextException
byteSplits :: B.ByteString
-> [(B.ByteString, B.ByteString)]
byteSplits bytes = loop (B.length bytes) where
loop 0 = [(B.empty, bytes)]
loop n = B.splitAt n bytes : loop (n 1)
splitSlowly :: (B.ByteString -> T.Text)
-> B.ByteString
-> (T.Text, Either
(TextException, B.ByteString)
B.ByteString)
splitSlowly dec bytes = valid where
valid = firstValid (Prelude.map decFirst splits)
splits = byteSplits bytes
firstValid = Prelude.head . catMaybes
tryDec = tryEvaluate . dec
decFirst (a, b) = case tryDec a of
Left _ -> Nothing
Right text -> Just (text, case tryDec b of
Left exc -> Left (exc, b)
Right _ -> Right B.empty)
utf8 :: Codec
utf8 = Codec name enc dec where
name = T.pack "UTF-8"
enc text = (TE.encodeUtf8 text, Nothing)
dec bytes = case splitQuickly bytes of
Just (text, extra) -> (text, Right extra)
Nothing -> splitSlowly TE.decodeUtf8 bytes
splitQuickly bytes = loop 0 >>= maybeDecode where
required x0
| x0 .&. 0x80 == 0x00 = 1
| x0 .&. 0xE0 == 0xC0 = 2
| x0 .&. 0xF0 == 0xE0 = 3
| x0 .&. 0xF8 == 0xF0 = 4
| otherwise = 0
maxN = B.length bytes
loop n | n == maxN = Just (TE.decodeUtf8 bytes, B.empty)
loop n = let
req = required (B.index bytes n)
tooLong = first TE.decodeUtf8 (B.splitAt n bytes)
decodeMore = loop $! n + req
in if req == 0
then Nothing
else if n + req > maxN
then Just tooLong
else decodeMore
utf16_le :: Codec
utf16_le = Codec name enc dec where
name = T.pack "UTF-16-LE"
enc text = (TE.encodeUtf16LE text, Nothing)
dec bytes = case splitQuickly bytes of
Just (text, extra) -> (text, Right extra)
Nothing -> splitSlowly TE.decodeUtf16LE bytes
splitQuickly bytes = maybeDecode (loop 0) where
maxN = B.length bytes
loop n | n == maxN = decodeAll
| (n + 1) == maxN = decodeTo n
loop n = let
req = utf16Required
(B.index bytes n)
(B.index bytes (n + 1))
decodeMore = loop $! n + req
in if n + req > maxN
then decodeTo n
else decodeMore
decodeTo n = first TE.decodeUtf16LE (B.splitAt n bytes)
decodeAll = (TE.decodeUtf16LE bytes, B.empty)
utf16_be :: Codec
utf16_be = Codec name enc dec where
name = T.pack "UTF-16-BE"
enc text = (TE.encodeUtf16BE text, Nothing)
dec bytes = case splitQuickly bytes of
Just (text, extra) -> (text, Right extra)
Nothing -> splitSlowly TE.decodeUtf16BE bytes
splitQuickly bytes = maybeDecode (loop 0) where
maxN = B.length bytes
loop n | n == maxN = decodeAll
| (n + 1) == maxN = decodeTo n
loop n = let
req = utf16Required
(B.index bytes (n + 1))
(B.index bytes n)
decodeMore = loop $! n + req
in if n + req > maxN
then decodeTo n
else decodeMore
decodeTo n = first TE.decodeUtf16BE (B.splitAt n bytes)
decodeAll = (TE.decodeUtf16BE bytes, B.empty)
utf16Required :: Word8 -> Word8 -> Int
utf16Required x0 x1 = required where
required = if x >= 0xD800 && x <= 0xDBFF
then 4
else 2
x :: Word16
x = (fromIntegral x1 `shiftL` 8) .|. fromIntegral x0
utf32_le :: Codec
utf32_le = Codec name enc dec where
name = T.pack "UTF-32-LE"
enc text = (TE.encodeUtf32LE text, Nothing)
dec bs = case utf32SplitBytes TE.decodeUtf32LE bs of
Just (text, extra) -> (text, Right extra)
Nothing -> splitSlowly TE.decodeUtf32LE bs
utf32_be :: Codec
utf32_be = Codec name enc dec where
name = T.pack "UTF-32-BE"
enc text = (TE.encodeUtf32BE text, Nothing)
dec bs = case utf32SplitBytes TE.decodeUtf32BE bs of
Just (text, extra) -> (text, Right extra)
Nothing -> splitSlowly TE.decodeUtf32BE bs
utf32SplitBytes :: (B.ByteString -> T.Text)
-> B.ByteString
-> Maybe (T.Text, B.ByteString)
utf32SplitBytes dec bytes = split where
split = maybeDecode (dec toDecode, extra)
len = B.length bytes
lenExtra = mod len 4
lenToDecode = len lenExtra
(toDecode, extra) = if lenExtra == 0
then (bytes, B.empty)
else B.splitAt lenToDecode bytes
ascii :: Codec
ascii = Codec name enc dec where
name = T.pack "ASCII"
enc text = (bytes, extra) where
(safe, unsafe) = T.span (\c -> ord c <= 0x7F) text
bytes = B8.pack (T.unpack safe)
extra = if T.null unsafe
then Nothing
else Just (EncodeException ascii (T.head unsafe), unsafe)
dec bytes = (text, extra) where
(safe, unsafe) = B.span (<= 0x7F) bytes
text = T.pack (B8.unpack safe)
extra = if B.null unsafe
then Right B.empty
else Left (DecodeException ascii (B.head unsafe), unsafe)
iso8859_1 :: Codec
iso8859_1 = Codec name enc dec where
name = T.pack "ISO-8859-1"
enc text = (bytes, extra) where
(safe, unsafe) = T.span (\c -> ord c <= 0xFF) text
bytes = B8.pack (T.unpack safe)
extra = if T.null unsafe
then Nothing
else Just (EncodeException iso8859_1 (T.head unsafe), unsafe)
dec bytes = (T.pack (B8.unpack bytes), Right B.empty)
tryEvaluate :: a -> Either TextException a
tryEvaluate = unsafePerformIO . Exc.try . Exc.evaluate
maybeDecode:: (a, b) -> Maybe (a, b)
maybeDecode (a, b) = case tryEvaluate a of
Left _ -> Nothing
Right _ -> Just (a, b)