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|
{-# LANGUAGE Trustworthy #-}
{-# LANGUAGE CPP
, NoImplicitPrelude
, BangPatterns
, NondecreasingIndentation
, MagicHash
#-}
{-# OPTIONS_GHC -funbox-strict-fields #-}
-----------------------------------------------------------------------------
-- |
-- Module : GHC.IO.Encoding.UTF16
-- Copyright : (c) The University of Glasgow, 2009
-- License : see libraries/base/LICENSE
--
-- Maintainer : libraries@haskell.org
-- Stability : internal
-- Portability : non-portable
--
-- UTF-16 Codecs for the IO library
--
-- Portions Copyright : (c) Tom Harper 2008-2009,
-- (c) Bryan O'Sullivan 2009,
-- (c) Duncan Coutts 2009
--
-----------------------------------------------------------------------------
module GHC.IO.Encoding.UTF16 (
utf16, mkUTF16,
utf16_decode,
utf16_encode,
utf16be, mkUTF16be,
utf16be_decode,
utf16be_encode,
utf16le, mkUTF16le,
utf16le_decode,
utf16le_encode,
) where
import GHC.Base
import GHC.Real
import GHC.Num
-- import GHC.IO
import GHC.IO.Buffer
import GHC.IO.Encoding.Failure
import GHC.IO.Encoding.Types
import GHC.Word
import Data.Bits
import Data.Maybe
import GHC.IORef
-- -----------------------------------------------------------------------------
-- The UTF-16 codec: either UTF16BE or UTF16LE with a BOM
utf16 :: TextEncoding
utf16 = mkUTF16 ErrorOnCodingFailure
mkUTF16 :: CodingFailureMode -> TextEncoding
mkUTF16 cfm = TextEncoding { textEncodingName = "UTF-16",
mkTextDecoder = utf16_DF cfm,
mkTextEncoder = utf16_EF cfm }
utf16_DF :: CodingFailureMode -> IO (TextDecoder (Maybe DecodeBuffer))
utf16_DF cfm = do
seen_bom <- newIORef Nothing
return (BufferCodec {
encode = utf16_decode seen_bom,
recover = recoverDecode cfm,
close = return (),
getState = readIORef seen_bom,
setState = writeIORef seen_bom
})
utf16_EF :: CodingFailureMode -> IO (TextEncoder Bool)
utf16_EF cfm = do
done_bom <- newIORef False
return (BufferCodec {
encode = utf16_encode done_bom,
recover = recoverEncode cfm,
close = return (),
getState = readIORef done_bom,
setState = writeIORef done_bom
})
utf16_encode :: IORef Bool -> EncodeBuffer
utf16_encode done_bom input
output@Buffer{ bufRaw=oraw, bufL=_, bufR=ow, bufSize=os }
= do
b <- readIORef done_bom
if b then utf16_native_encode input output
else if os - ow < 2
then return (OutputUnderflow,input,output)
else do
writeIORef done_bom True
writeWord8Buf oraw ow bom1
writeWord8Buf oraw (ow+1) bom2
utf16_native_encode input output{ bufR = ow+2 }
utf16_decode :: IORef (Maybe DecodeBuffer) -> DecodeBuffer
utf16_decode seen_bom
input@Buffer{ bufRaw=iraw, bufL=ir, bufR=iw, bufSize=_ }
output
= do
mb <- readIORef seen_bom
case mb of
Just decode -> decode input output
Nothing ->
if iw - ir < 2 then return (InputUnderflow,input,output) else do
c0 <- readWord8Buf iraw ir
c1 <- readWord8Buf iraw (ir+1)
case () of
_ | c0 == bomB && c1 == bomL -> do
writeIORef seen_bom (Just utf16be_decode)
utf16be_decode input{ bufL= ir+2 } output
| c0 == bomL && c1 == bomB -> do
writeIORef seen_bom (Just utf16le_decode)
utf16le_decode input{ bufL= ir+2 } output
| otherwise -> do
writeIORef seen_bom (Just utf16_native_decode)
utf16_native_decode input output
bomB, bomL, bom1, bom2 :: Word8
bomB = 0xfe
bomL = 0xff
-- choose UTF-16BE by default for UTF-16 output
utf16_native_decode :: DecodeBuffer
utf16_native_decode = utf16be_decode
utf16_native_encode :: EncodeBuffer
utf16_native_encode = utf16be_encode
bom1 = bomB
bom2 = bomL
-- -----------------------------------------------------------------------------
-- UTF16LE and UTF16BE
utf16be :: TextEncoding
utf16be = mkUTF16be ErrorOnCodingFailure
mkUTF16be :: CodingFailureMode -> TextEncoding
mkUTF16be cfm = TextEncoding { textEncodingName = "UTF-16BE",
mkTextDecoder = utf16be_DF cfm,
mkTextEncoder = utf16be_EF cfm }
utf16be_DF :: CodingFailureMode -> IO (TextDecoder ())
utf16be_DF cfm =
return (BufferCodec {
encode = utf16be_decode,
recover = recoverDecode cfm,
close = return (),
getState = return (),
setState = const $ return ()
})
utf16be_EF :: CodingFailureMode -> IO (TextEncoder ())
utf16be_EF cfm =
return (BufferCodec {
encode = utf16be_encode,
recover = recoverEncode cfm,
close = return (),
getState = return (),
setState = const $ return ()
})
utf16le :: TextEncoding
utf16le = mkUTF16le ErrorOnCodingFailure
mkUTF16le :: CodingFailureMode -> TextEncoding
mkUTF16le cfm = TextEncoding { textEncodingName = "UTF16-LE",
mkTextDecoder = utf16le_DF cfm,
mkTextEncoder = utf16le_EF cfm }
utf16le_DF :: CodingFailureMode -> IO (TextDecoder ())
utf16le_DF cfm =
return (BufferCodec {
encode = utf16le_decode,
recover = recoverDecode cfm,
close = return (),
getState = return (),
setState = const $ return ()
})
utf16le_EF :: CodingFailureMode -> IO (TextEncoder ())
utf16le_EF cfm =
return (BufferCodec {
encode = utf16le_encode,
recover = recoverEncode cfm,
close = return (),
getState = return (),
setState = const $ return ()
})
utf16be_decode :: DecodeBuffer
utf16be_decode
input@Buffer{ bufRaw=iraw, bufL=ir0, bufR=iw, bufSize=_ }
output@Buffer{ bufRaw=oraw, bufL=_, bufR=ow0, bufSize=os }
= let
loop !ir !ow
| ow >= os = done OutputUnderflow ir ow
| ir >= iw = done InputUnderflow ir ow
| ir + 1 == iw = done InputUnderflow ir ow
| otherwise = do
c0 <- readWord8Buf iraw ir
c1 <- readWord8Buf iraw (ir+1)
let x1 = fromIntegral c0 `shiftL` 8 + fromIntegral c1
if validate1 x1
then do ow' <- writeCharBuf oraw ow (unsafeChr (fromIntegral x1))
loop (ir+2) ow'
else if iw - ir < 4 then done InputUnderflow ir ow else do
c2 <- readWord8Buf iraw (ir+2)
c3 <- readWord8Buf iraw (ir+3)
let x2 = fromIntegral c2 `shiftL` 8 + fromIntegral c3
if not (validate2 x1 x2) then invalid else do
ow' <- writeCharBuf oraw ow (chr2 x1 x2)
loop (ir+4) ow'
where
invalid = done InvalidSequence ir ow
-- lambda-lifted, to avoid thunks being built in the inner-loop:
done why !ir !ow = return (why,
if ir == iw then input{ bufL=0, bufR=0 }
else input{ bufL=ir },
output{ bufR=ow })
in
loop ir0 ow0
utf16le_decode :: DecodeBuffer
utf16le_decode
input@Buffer{ bufRaw=iraw, bufL=ir0, bufR=iw, bufSize=_ }
output@Buffer{ bufRaw=oraw, bufL=_, bufR=ow0, bufSize=os }
= let
loop !ir !ow
| ow >= os = done OutputUnderflow ir ow
| ir >= iw = done InputUnderflow ir ow
| ir + 1 == iw = done InputUnderflow ir ow
| otherwise = do
c0 <- readWord8Buf iraw ir
c1 <- readWord8Buf iraw (ir+1)
let x1 = fromIntegral c1 `shiftL` 8 + fromIntegral c0
if validate1 x1
then do ow' <- writeCharBuf oraw ow (unsafeChr (fromIntegral x1))
loop (ir+2) ow'
else if iw - ir < 4 then done InputUnderflow ir ow else do
c2 <- readWord8Buf iraw (ir+2)
c3 <- readWord8Buf iraw (ir+3)
let x2 = fromIntegral c3 `shiftL` 8 + fromIntegral c2
if not (validate2 x1 x2) then invalid else do
ow' <- writeCharBuf oraw ow (chr2 x1 x2)
loop (ir+4) ow'
where
invalid = done InvalidSequence ir ow
-- lambda-lifted, to avoid thunks being built in the inner-loop:
done why !ir !ow = return (why,
if ir == iw then input{ bufL=0, bufR=0 }
else input{ bufL=ir },
output{ bufR=ow })
in
loop ir0 ow0
utf16be_encode :: EncodeBuffer
utf16be_encode
input@Buffer{ bufRaw=iraw, bufL=ir0, bufR=iw, bufSize=_ }
output@Buffer{ bufRaw=oraw, bufL=_, bufR=ow0, bufSize=os }
= let
done why !ir !ow = return (why,
if ir == iw then input{ bufL=0, bufR=0 }
else input{ bufL=ir },
output{ bufR=ow })
loop !ir !ow
| ir >= iw = done InputUnderflow ir ow
| os - ow < 2 = done OutputUnderflow ir ow
| otherwise = do
(c,ir') <- readCharBuf iraw ir
case ord c of
x | x < 0x10000 -> if isSurrogate c then done InvalidSequence ir ow else do
writeWord8Buf oraw ow (fromIntegral (x `shiftR` 8))
writeWord8Buf oraw (ow+1) (fromIntegral x)
loop ir' (ow+2)
| otherwise -> do
if os - ow < 4 then done OutputUnderflow ir ow else do
let
n1 = x - 0x10000
c1 = fromIntegral (n1 `shiftR` 18 + 0xD8)
c2 = fromIntegral (n1 `shiftR` 10)
n2 = n1 .&. 0x3FF
c3 = fromIntegral (n2 `shiftR` 8 + 0xDC)
c4 = fromIntegral n2
--
writeWord8Buf oraw ow c1
writeWord8Buf oraw (ow+1) c2
writeWord8Buf oraw (ow+2) c3
writeWord8Buf oraw (ow+3) c4
loop ir' (ow+4)
in
loop ir0 ow0
utf16le_encode :: EncodeBuffer
utf16le_encode
input@Buffer{ bufRaw=iraw, bufL=ir0, bufR=iw, bufSize=_ }
output@Buffer{ bufRaw=oraw, bufL=_, bufR=ow0, bufSize=os }
= let
done why !ir !ow = return (why,
if ir == iw then input{ bufL=0, bufR=0 }
else input{ bufL=ir },
output{ bufR=ow })
loop !ir !ow
| ir >= iw = done InputUnderflow ir ow
| os - ow < 2 = done OutputUnderflow ir ow
| otherwise = do
(c,ir') <- readCharBuf iraw ir
case ord c of
x | x < 0x10000 -> if isSurrogate c then done InvalidSequence ir ow else do
writeWord8Buf oraw ow (fromIntegral x)
writeWord8Buf oraw (ow+1) (fromIntegral (x `shiftR` 8))
loop ir' (ow+2)
| otherwise ->
if os - ow < 4 then done OutputUnderflow ir ow else do
let
n1 = x - 0x10000
c1 = fromIntegral (n1 `shiftR` 18 + 0xD8)
c2 = fromIntegral (n1 `shiftR` 10)
n2 = n1 .&. 0x3FF
c3 = fromIntegral (n2 `shiftR` 8 + 0xDC)
c4 = fromIntegral n2
--
writeWord8Buf oraw ow c2
writeWord8Buf oraw (ow+1) c1
writeWord8Buf oraw (ow+2) c4
writeWord8Buf oraw (ow+3) c3
loop ir' (ow+4)
in
loop ir0 ow0
chr2 :: Word16 -> Word16 -> Char
chr2 (W16# a#) (W16# b#) = C# (chr# (upper# +# lower# +# 0x10000#))
where
!x# = word2Int# a#
!y# = word2Int# b#
!upper# = uncheckedIShiftL# (x# -# 0xD800#) 10#
!lower# = y# -# 0xDC00#
{-# INLINE chr2 #-}
validate1 :: Word16 -> Bool
validate1 x1 = (x1 >= 0 && x1 < 0xD800) || x1 > 0xDFFF
{-# INLINE validate1 #-}
validate2 :: Word16 -> Word16 -> Bool
validate2 x1 x2 = x1 >= 0xD800 && x1 <= 0xDBFF &&
x2 >= 0xDC00 && x2 <= 0xDFFF
{-# INLINE validate2 #-}
|