text-2.0: src/Data/Text/Lazy/Encoding.hs
{-# LANGUAGE BangPatterns,CPP #-}
{-# LANGUAGE Trustworthy #-}
-- |
-- Module : Data.Text.Lazy.Encoding
-- Copyright : (c) 2009, 2010 Bryan O'Sullivan
--
-- License : BSD-style
-- Maintainer : bos@serpentine.com
-- Portability : portable
--
-- Functions for converting lazy 'Text' values to and from lazy
-- 'ByteString', using several standard encodings.
--
-- To gain access to a much larger family of encodings, use the
-- <http://hackage.haskell.org/package/text-icu text-icu package>.
module Data.Text.Lazy.Encoding
(
-- * Decoding ByteStrings to Text
-- $strict
decodeASCII
, decodeLatin1
, decodeUtf8
, decodeUtf16LE
, decodeUtf16BE
, decodeUtf32LE
, decodeUtf32BE
-- ** Catchable failure
, decodeUtf8'
-- ** Controllable error handling
, decodeUtf8With
, decodeUtf16LEWith
, decodeUtf16BEWith
, decodeUtf32LEWith
, decodeUtf32BEWith
-- * Encoding Text to ByteStrings
, encodeUtf8
, encodeUtf16LE
, encodeUtf16BE
, encodeUtf32LE
, encodeUtf32BE
-- * Encoding Text using ByteString Builders
, encodeUtf8Builder
, encodeUtf8BuilderEscaped
) where
import Control.Exception (evaluate, try)
import Data.Monoid (Monoid(..))
import Data.Text.Encoding.Error (OnDecodeError, UnicodeException, strictDecode)
import Data.Text.Internal.Lazy (Text(..), chunk, empty, foldrChunks)
import Data.Word (Word8)
import qualified Data.ByteString as S
import qualified Data.ByteString.Builder as B
import qualified Data.ByteString.Builder.Prim as BP
import qualified Data.ByteString.Lazy as B
import qualified Data.ByteString.Lazy.Internal as B
import qualified Data.Text as T
import qualified Data.Text.Encoding as TE
import qualified Data.Text.Internal.Lazy.Encoding.Fusion as E
import qualified Data.Text.Internal.Lazy.Fusion as F
import Data.Text.Unsafe (unsafeDupablePerformIO)
-- $strict
--
-- All of the single-parameter functions for decoding bytestrings
-- encoded in one of the Unicode Transformation Formats (UTF) operate
-- in a /strict/ mode: each will throw an exception if given invalid
-- input.
--
-- Each function has a variant, whose name is suffixed with -'With',
-- that gives greater control over the handling of decoding errors.
-- For instance, 'decodeUtf8' will throw an exception, but
-- 'decodeUtf8With' allows the programmer to determine what to do on a
-- decoding error.
-- | Decode a 'ByteString' containing 7-bit ASCII
-- encoded text.
decodeASCII :: B.ByteString -> Text
decodeASCII = foldr (chunk . TE.decodeASCII) empty . B.toChunks
-- | Decode a 'ByteString' containing Latin-1 (aka ISO-8859-1) encoded text.
decodeLatin1 :: B.ByteString -> Text
decodeLatin1 = foldr (chunk . TE.decodeLatin1) empty . B.toChunks
-- | Decode a 'ByteString' containing UTF-8 encoded text.
decodeUtf8With :: OnDecodeError -> B.ByteString -> Text
decodeUtf8With onErr (B.Chunk b0 bs0) =
case TE.streamDecodeUtf8With onErr b0 of
TE.Some t l f -> chunk t (go f l bs0)
where
go f0 _ (B.Chunk b bs) =
case f0 b of
TE.Some t l f -> chunk t (go f l bs)
go _ l _
| S.null l = empty
| otherwise =
let !t = T.pack (skipBytes l)
skipBytes = S.foldr (\x s' ->
case onErr desc (Just x) of
Just c -> c : s'
Nothing -> s') [] in
Chunk t Empty
desc = "Data.Text.Lazy.Encoding.decodeUtf8With: Invalid UTF-8 stream"
decodeUtf8With _ _ = empty
-- | Decode a 'ByteString' containing UTF-8 encoded text that is known
-- to be valid.
--
-- If the input contains any invalid UTF-8 data, an exception will be
-- thrown that cannot be caught in pure code. For more control over
-- the handling of invalid data, use 'decodeUtf8'' or
-- 'decodeUtf8With'.
decodeUtf8 :: B.ByteString -> Text
decodeUtf8 = decodeUtf8With strictDecode
{-# INLINE[0] decodeUtf8 #-}
-- | Decode a 'ByteString' containing UTF-8 encoded text..
--
-- If the input contains any invalid UTF-8 data, the relevant
-- exception will be returned, otherwise the decoded text.
--
-- /Note/: this function is /not/ lazy, as it must decode its entire
-- input before it can return a result. If you need lazy (streaming)
-- decoding, use 'decodeUtf8With' in lenient mode.
decodeUtf8' :: B.ByteString -> Either UnicodeException Text
decodeUtf8' bs = unsafeDupablePerformIO $ do
let t = decodeUtf8 bs
try (evaluate (rnf t `seq` t))
where
rnf Empty = ()
rnf (Chunk _ ts) = rnf ts
{-# INLINE decodeUtf8' #-}
-- | Encode text using UTF-8 encoding.
encodeUtf8 :: Text -> B.ByteString
encodeUtf8 = foldrChunks (B.Chunk . TE.encodeUtf8) B.Empty
-- | Encode text to a ByteString 'B.Builder' using UTF-8 encoding.
--
-- @since 1.1.0.0
encodeUtf8Builder :: Text -> B.Builder
encodeUtf8Builder =
foldrChunks (\c b -> TE.encodeUtf8Builder c `mappend` b) Data.Monoid.mempty
-- | Encode text using UTF-8 encoding and escape the ASCII characters using
-- a 'BP.BoundedPrim'.
--
-- Use this function is to implement efficient encoders for text-based formats
-- like JSON or HTML.
--
-- @since 1.1.0.0
{-# INLINE encodeUtf8BuilderEscaped #-}
encodeUtf8BuilderEscaped :: BP.BoundedPrim Word8 -> Text -> B.Builder
encodeUtf8BuilderEscaped prim =
foldrChunks (\c b -> TE.encodeUtf8BuilderEscaped prim c `mappend` b) mempty
-- | Decode text from little endian UTF-16 encoding.
decodeUtf16LEWith :: OnDecodeError -> B.ByteString -> Text
decodeUtf16LEWith onErr bs = F.unstream (E.streamUtf16LE onErr bs)
{-# INLINE decodeUtf16LEWith #-}
-- | Decode text from little endian UTF-16 encoding.
--
-- If the input contains any invalid little endian UTF-16 data, an
-- exception will be thrown. For more control over the handling of
-- invalid data, use 'decodeUtf16LEWith'.
decodeUtf16LE :: B.ByteString -> Text
decodeUtf16LE = decodeUtf16LEWith strictDecode
{-# INLINE decodeUtf16LE #-}
-- | Decode text from big endian UTF-16 encoding.
decodeUtf16BEWith :: OnDecodeError -> B.ByteString -> Text
decodeUtf16BEWith onErr bs = F.unstream (E.streamUtf16BE onErr bs)
{-# INLINE decodeUtf16BEWith #-}
-- | Decode text from big endian UTF-16 encoding.
--
-- If the input contains any invalid big endian UTF-16 data, an
-- exception will be thrown. For more control over the handling of
-- invalid data, use 'decodeUtf16BEWith'.
decodeUtf16BE :: B.ByteString -> Text
decodeUtf16BE = decodeUtf16BEWith strictDecode
{-# INLINE decodeUtf16BE #-}
-- | Encode text using little endian UTF-16 encoding.
encodeUtf16LE :: Text -> B.ByteString
encodeUtf16LE txt = B.fromChunks (foldrChunks ((:) . TE.encodeUtf16LE) [] txt)
{-# INLINE encodeUtf16LE #-}
-- | Encode text using big endian UTF-16 encoding.
encodeUtf16BE :: Text -> B.ByteString
encodeUtf16BE txt = B.fromChunks (foldrChunks ((:) . TE.encodeUtf16BE) [] txt)
{-# INLINE encodeUtf16BE #-}
-- | Decode text from little endian UTF-32 encoding.
decodeUtf32LEWith :: OnDecodeError -> B.ByteString -> Text
decodeUtf32LEWith onErr bs = F.unstream (E.streamUtf32LE onErr bs)
{-# INLINE decodeUtf32LEWith #-}
-- | Decode text from little endian UTF-32 encoding.
--
-- If the input contains any invalid little endian UTF-32 data, an
-- exception will be thrown. For more control over the handling of
-- invalid data, use 'decodeUtf32LEWith'.
decodeUtf32LE :: B.ByteString -> Text
decodeUtf32LE = decodeUtf32LEWith strictDecode
{-# INLINE decodeUtf32LE #-}
-- | Decode text from big endian UTF-32 encoding.
decodeUtf32BEWith :: OnDecodeError -> B.ByteString -> Text
decodeUtf32BEWith onErr bs = F.unstream (E.streamUtf32BE onErr bs)
{-# INLINE decodeUtf32BEWith #-}
-- | Decode text from big endian UTF-32 encoding.
--
-- If the input contains any invalid big endian UTF-32 data, an
-- exception will be thrown. For more control over the handling of
-- invalid data, use 'decodeUtf32BEWith'.
decodeUtf32BE :: B.ByteString -> Text
decodeUtf32BE = decodeUtf32BEWith strictDecode
{-# INLINE decodeUtf32BE #-}
-- | Encode text using little endian UTF-32 encoding.
encodeUtf32LE :: Text -> B.ByteString
encodeUtf32LE txt = B.fromChunks (foldrChunks ((:) . TE.encodeUtf32LE) [] txt)
{-# INLINE encodeUtf32LE #-}
-- | Encode text using big endian UTF-32 encoding.
encodeUtf32BE :: Text -> B.ByteString
encodeUtf32BE txt = B.fromChunks (foldrChunks ((:) . TE.encodeUtf32BE) [] txt)
{-# INLINE encodeUtf32BE #-}