base-4.4.0.0: Basic libraries

Portabilitynon-portable
Stabilityinternal
Maintainerlibraries@haskell.org

GHC.IO.Encoding.Types

Description

Types for text encoding/decoding

Synopsis

Documentation

data BufferCodec from to state Source

Constructors

BufferCodec 

Fields

encode :: Buffer from -> Buffer to -> IO (CodingProgress, Buffer from, Buffer to)

The encode function translates elements of the buffer from to the buffer to. It should translate as many elements as possible given the sizes of the buffers, including translating zero elements if there is either not enough room in to, or from does not contain a complete multibyte sequence.

The fact that as many elements as possible are translated is used by the IO library in order to report translation errors at the point they actually occur, rather than when the buffer is translated.

To allow us to use iconv as a BufferCode efficiently, character buffers are defined to contain lone surrogates instead of those private use characters that are used for roundtripping. Thus, Chars poked and peeked from a character buffer must undergo surrogatifyRoundtripCharacter and desurrogatifyRoundtripCharacter respectively.

For more information on this, see Note [Roundtripping] in GHC.IO.Encoding.Failure.

recover :: Buffer from -> Buffer to -> IO (Buffer from, Buffer to)

The recover function is used to continue decoding in the presence of invalid or unrepresentable sequences. This includes both those detected by encode returning InvalidSequence and those that occur because the input byte sequence appears to be truncated.

Progress will usually be made by skipping the first element of the from buffer. This function should only be called if you are certain that you wish to do this skipping, and if the to buffer has at least one element of free space.

recover may raise an exception rather than skipping anything.

Currently, some implementations of recover may mutate the input buffer. In particular, this feature is used to implement transliteration.

close :: IO ()

Resources associated with the encoding may now be released. The encode function may not be called again after calling close.

getState :: IO state

Return the current state of the codec.

Many codecs are not stateful, and in these case the state can be represented as '()'. Other codecs maintain a state. For example, UTF-16 recognises a BOM (byte-order-mark) character at the beginning of the input, and remembers thereafter whether to use big-endian or little-endian mode. In this case, the state of the codec would include two pieces of information: whether we are at the beginning of the stream (the BOM only occurs at the beginning), and if not, whether to use the big or little-endian encoding.

setState :: state -> IO ()
 

data TextEncoding Source

A TextEncoding is a specification of a conversion scheme between sequences of bytes and sequences of Unicode characters.

For example, UTF-8 is an encoding of Unicode characters into a sequence of bytes. The TextEncoding for UTF-8 is utf8.

Constructors

forall dstate estate . TextEncoding 

Fields

textEncodingName :: String

a string that can be passed to mkTextEncoding to create an equivalent TextEncoding.

mkTextDecoder :: IO (TextDecoder dstate)

Creates a means of decoding bytes into characters: the result must not be shared between several byte sequences or simultaneously across threads

mkTextEncoder :: IO (TextEncoder estate)

Creates a means of encode characters into bytes: the result must not be shared between several character sequences or simultaneously across threads

Instances

data CodingProgress Source

Constructors

InputUnderflow

Stopped because the input contains insufficient available elements, or all of the input sequence has been sucessfully translated.

OutputUnderflow

Stopped because the output contains insufficient free elements

InvalidSequence

Stopped because there are sufficient free elements in the output to output at least one encoded ASCII character, but the input contains an invalid or unrepresentable sequence