1187 lines
40 KiB
TeX
1187 lines
40 KiB
TeX
\section{\module{codecs} ---
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Codec registry and base classes}
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\declaremodule{standard}{codecs}
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\modulesynopsis{Encode and decode data and streams.}
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\moduleauthor{Marc-Andre Lemburg}{mal@lemburg.com}
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\sectionauthor{Marc-Andre Lemburg}{mal@lemburg.com}
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\sectionauthor{Martin v. L\"owis}{martin@v.loewis.de}
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\index{Unicode}
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\index{Codecs}
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\indexii{Codecs}{encode}
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\indexii{Codecs}{decode}
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\index{streams}
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\indexii{stackable}{streams}
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This module defines base classes for standard Python codecs (encoders
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and decoders) and provides access to the internal Python codec
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registry which manages the codec and error handling lookup process.
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It defines the following functions:
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\begin{funcdesc}{register}{search_function}
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Register a codec search function. Search functions are expected to
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take one argument, the encoding name in all lower case letters, and
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return a tuple of functions \code{(\var{encoder}, \var{decoder}, \var{stream_reader},
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\var{stream_writer})} taking the following arguments:
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\var{encoder} and \var{decoder}: These must be functions or methods
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which have the same interface as the
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\method{encode()}/\method{decode()} methods of Codec instances (see
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Codec Interface). The functions/methods are expected to work in a
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stateless mode.
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\var{stream_reader} and \var{stream_writer}: These have to be
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factory functions providing the following interface:
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\code{factory(\var{stream}, \var{errors}='strict')}
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The factory functions must return objects providing the interfaces
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defined by the base classes \class{StreamWriter} and
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\class{StreamReader}, respectively. Stream codecs can maintain
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state.
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Possible values for errors are \code{'strict'} (raise an exception
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in case of an encoding error), \code{'replace'} (replace malformed
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data with a suitable replacement marker, such as \character{?}),
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\code{'ignore'} (ignore malformed data and continue without further
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notice), \code{'xmlcharrefreplace'} (replace with the appropriate XML
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character reference (for encoding only)) and \code{'backslashreplace'}
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(replace with backslashed escape sequences (for encoding only)) as
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well as any other error handling name defined via
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\function{register_error()}.
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In case a search function cannot find a given encoding, it should
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return \code{None}.
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\end{funcdesc}
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\begin{funcdesc}{lookup}{encoding}
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Looks up a codec tuple in the Python codec registry and returns the
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function tuple as defined above.
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Encodings are first looked up in the registry's cache. If not found,
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the list of registered search functions is scanned. If no codecs tuple
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is found, a \exception{LookupError} is raised. Otherwise, the codecs
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tuple is stored in the cache and returned to the caller.
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\end{funcdesc}
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To simplify access to the various codecs, the module provides these
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additional functions which use \function{lookup()} for the codec
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lookup:
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\begin{funcdesc}{getencoder}{encoding}
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Lookup up the codec for the given encoding and return its encoder
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function.
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Raises a \exception{LookupError} in case the encoding cannot be found.
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\end{funcdesc}
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\begin{funcdesc}{getdecoder}{encoding}
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Lookup up the codec for the given encoding and return its decoder
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function.
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Raises a \exception{LookupError} in case the encoding cannot be found.
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\end{funcdesc}
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\begin{funcdesc}{getreader}{encoding}
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Lookup up the codec for the given encoding and return its StreamReader
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class or factory function.
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Raises a \exception{LookupError} in case the encoding cannot be found.
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\end{funcdesc}
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\begin{funcdesc}{getwriter}{encoding}
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Lookup up the codec for the given encoding and return its StreamWriter
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class or factory function.
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Raises a \exception{LookupError} in case the encoding cannot be found.
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\end{funcdesc}
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\begin{funcdesc}{register_error}{name, error_handler}
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Register the error handling function \var{error_handler} under the
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name \var{name}. \var{error_handler} will be called during encoding
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and decoding in case of an error, when \var{name} is specified as the
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errors parameter.
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For encoding \var{error_handler} will be called with a
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\exception{UnicodeEncodeError} instance, which contains information about
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the location of the error. The error handler must either raise this or
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a different exception or return a tuple with a replacement for the
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unencodable part of the input and a position where encoding should
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continue. The encoder will encode the replacement and continue encoding
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the original input at the specified position. Negative position values
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will be treated as being relative to the end of the input string. If the
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resulting position is out of bound an IndexError will be raised.
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Decoding and translating works similar, except \exception{UnicodeDecodeError}
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or \exception{UnicodeTranslateError} will be passed to the handler and
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that the replacement from the error handler will be put into the output
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directly.
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\end{funcdesc}
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\begin{funcdesc}{lookup_error}{name}
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Return the error handler previously register under the name \var{name}.
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Raises a \exception{LookupError} in case the handler cannot be found.
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\end{funcdesc}
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\begin{funcdesc}{strict_errors}{exception}
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Implements the \code{strict} error handling.
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\end{funcdesc}
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\begin{funcdesc}{replace_errors}{exception}
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Implements the \code{replace} error handling.
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\end{funcdesc}
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\begin{funcdesc}{ignore_errors}{exception}
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Implements the \code{ignore} error handling.
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\end{funcdesc}
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\begin{funcdesc}{xmlcharrefreplace_errors_errors}{exception}
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Implements the \code{xmlcharrefreplace} error handling.
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\end{funcdesc}
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\begin{funcdesc}{backslashreplace_errors_errors}{exception}
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Implements the \code{backslashreplace} error handling.
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\end{funcdesc}
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To simplify working with encoded files or stream, the module
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also defines these utility functions:
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\begin{funcdesc}{open}{filename, mode\optional{, encoding\optional{,
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errors\optional{, buffering}}}}
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Open an encoded file using the given \var{mode} and return
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a wrapped version providing transparent encoding/decoding.
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\note{The wrapped version will only accept the object format
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defined by the codecs, i.e.\ Unicode objects for most built-in
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codecs. Output is also codec-dependent and will usually be Unicode as
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well.}
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\var{encoding} specifies the encoding which is to be used for the
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file.
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\var{errors} may be given to define the error handling. It defaults
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to \code{'strict'} which causes a \exception{ValueError} to be raised
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in case an encoding error occurs.
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\var{buffering} has the same meaning as for the built-in
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\function{open()} function. It defaults to line buffered.
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\end{funcdesc}
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\begin{funcdesc}{EncodedFile}{file, input\optional{,
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output\optional{, errors}}}
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Return a wrapped version of file which provides transparent
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encoding translation.
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Strings written to the wrapped file are interpreted according to the
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given \var{input} encoding and then written to the original file as
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strings using the \var{output} encoding. The intermediate encoding will
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usually be Unicode but depends on the specified codecs.
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If \var{output} is not given, it defaults to \var{input}.
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\var{errors} may be given to define the error handling. It defaults to
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\code{'strict'}, which causes \exception{ValueError} to be raised in case
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an encoding error occurs.
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\end{funcdesc}
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The module also provides the following constants which are useful
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for reading and writing to platform dependent files:
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\begin{datadesc}{BOM}
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\dataline{BOM_BE}
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\dataline{BOM_LE}
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\dataline{BOM_UTF8}
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\dataline{BOM_UTF16}
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\dataline{BOM_UTF16_BE}
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\dataline{BOM_UTF16_LE}
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\dataline{BOM_UTF32}
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\dataline{BOM_UTF32_BE}
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\dataline{BOM_UTF32_LE}
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These constants define various encodings of the Unicode byte order mark
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(BOM) used in UTF-16 and UTF-32 data streams to indicate the byte order
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used in the stream or file and in UTF-8 as a Unicode signature.
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\constant{BOM_UTF16} is either \constant{BOM_UTF16_BE} or
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\constant{BOM_UTF16_LE} depending on the platform's native byte order,
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\constant{BOM} is an alias for \constant{BOM_UTF16}, \constant{BOM_LE}
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for \constant{BOM_UTF16_LE} and \constant{BOM_BE} for \constant{BOM_UTF16_BE}.
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The others represent the BOM in UTF-8 and UTF-32 encodings.
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\end{datadesc}
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\subsection{Codec Base Classes \label{codec-base-classes}}
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The \module{codecs} module defines a set of base classes which define the
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interface and can also be used to easily write you own codecs for use
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in Python.
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Each codec has to define four interfaces to make it usable as codec in
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Python: stateless encoder, stateless decoder, stream reader and stream
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writer. The stream reader and writers typically reuse the stateless
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encoder/decoder to implement the file protocols.
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The \class{Codec} class defines the interface for stateless
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encoders/decoders.
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To simplify and standardize error handling, the \method{encode()} and
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\method{decode()} methods may implement different error handling
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schemes by providing the \var{errors} string argument. The following
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string values are defined and implemented by all standard Python
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codecs:
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\begin{tableii}{l|l}{code}{Value}{Meaning}
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\lineii{'strict'}{Raise \exception{UnicodeError} (or a subclass);
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this is the default.}
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\lineii{'ignore'}{Ignore the character and continue with the next.}
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\lineii{'replace'}{Replace with a suitable replacement character;
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Python will use the official U+FFFD REPLACEMENT
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CHARACTER for the built-in Unicode codecs on
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decoding and '?' on encoding.}
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\lineii{'xmlcharrefreplace'}{Replace with the appropriate XML
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character reference (only for encoding).}
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\lineii{'backslashreplace'}{Replace with backslashed escape sequences
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(only for encoding).}
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\end{tableii}
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The set of allowed values can be extended via \method{register_error}.
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\subsubsection{Codec Objects \label{codec-objects}}
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The \class{Codec} class defines these methods which also define the
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function interfaces of the stateless encoder and decoder:
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\begin{methoddesc}{encode}{input\optional{, errors}}
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Encodes the object \var{input} and returns a tuple (output object,
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length consumed). While codecs are not restricted to use with Unicode, in
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a Unicode context, encoding converts a Unicode object to a plain string
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using a particular character set encoding (e.g., \code{cp1252} or
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\code{iso-8859-1}).
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\var{errors} defines the error handling to apply. It defaults to
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\code{'strict'} handling.
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The method may not store state in the \class{Codec} instance. Use
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\class{StreamCodec} for codecs which have to keep state in order to
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make encoding/decoding efficient.
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The encoder must be able to handle zero length input and return an
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empty object of the output object type in this situation.
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\end{methoddesc}
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\begin{methoddesc}{decode}{input\optional{, errors}}
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Decodes the object \var{input} and returns a tuple (output object,
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length consumed). In a Unicode context, decoding converts a plain string
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encoded using a particular character set encoding to a Unicode object.
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\var{input} must be an object which provides the \code{bf_getreadbuf}
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buffer slot. Python strings, buffer objects and memory mapped files
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are examples of objects providing this slot.
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\var{errors} defines the error handling to apply. It defaults to
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\code{'strict'} handling.
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The method may not store state in the \class{Codec} instance. Use
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\class{StreamCodec} for codecs which have to keep state in order to
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make encoding/decoding efficient.
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The decoder must be able to handle zero length input and return an
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empty object of the output object type in this situation.
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\end{methoddesc}
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The \class{StreamWriter} and \class{StreamReader} classes provide
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generic working interfaces which can be used to implement new
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encodings submodules very easily. See \module{encodings.utf_8} for an
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example on how this is done.
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\subsubsection{StreamWriter Objects \label{stream-writer-objects}}
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The \class{StreamWriter} class is a subclass of \class{Codec} and
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defines the following methods which every stream writer must define in
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order to be compatible to the Python codec registry.
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\begin{classdesc}{StreamWriter}{stream\optional{, errors}}
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Constructor for a \class{StreamWriter} instance.
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All stream writers must provide this constructor interface. They are
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free to add additional keyword arguments, but only the ones defined
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here are used by the Python codec registry.
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\var{stream} must be a file-like object open for writing (binary)
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data.
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The \class{StreamWriter} may implement different error handling
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schemes by providing the \var{errors} keyword argument. These
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parameters are predefined:
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\begin{itemize}
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\item \code{'strict'} Raise \exception{ValueError} (or a subclass);
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this is the default.
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\item \code{'ignore'} Ignore the character and continue with the next.
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\item \code{'replace'} Replace with a suitable replacement character
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\item \code{'xmlcharrefreplace'} Replace with the appropriate XML
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character reference
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\item \code{'backslashreplace'} Replace with backslashed escape sequences.
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\end{itemize}
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The \var{errors} argument will be assigned to an attribute of the
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same name. Assigning to this attribute makes it possible to switch
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between different error handling strategies during the lifetime
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of the \class{StreamWriter} object.
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The set of allowed values for the \var{errors} argument can
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be extended with \function{register_error()}.
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\end{classdesc}
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\begin{methoddesc}{write}{object}
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Writes the object's contents encoded to the stream.
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\end{methoddesc}
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\begin{methoddesc}{writelines}{list}
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Writes the concatenated list of strings to the stream (possibly by
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reusing the \method{write()} method).
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\end{methoddesc}
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\begin{methoddesc}{reset}{}
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Flushes and resets the codec buffers used for keeping state.
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Calling this method should ensure that the data on the output is put
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into a clean state, that allows appending of new fresh data without
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having to rescan the whole stream to recover state.
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\end{methoddesc}
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In addition to the above methods, the \class{StreamWriter} must also
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inherit all other methods and attribute from the underlying stream.
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\subsubsection{StreamReader Objects \label{stream-reader-objects}}
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The \class{StreamReader} class is a subclass of \class{Codec} and
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defines the following methods which every stream reader must define in
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order to be compatible to the Python codec registry.
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\begin{classdesc}{StreamReader}{stream\optional{, errors}}
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Constructor for a \class{StreamReader} instance.
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All stream readers must provide this constructor interface. They are
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free to add additional keyword arguments, but only the ones defined
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here are used by the Python codec registry.
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\var{stream} must be a file-like object open for reading (binary)
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data.
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The \class{StreamReader} may implement different error handling
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schemes by providing the \var{errors} keyword argument. These
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parameters are defined:
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\begin{itemize}
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\item \code{'strict'} Raise \exception{ValueError} (or a subclass);
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this is the default.
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\item \code{'ignore'} Ignore the character and continue with the next.
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\item \code{'replace'} Replace with a suitable replacement character.
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\end{itemize}
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The \var{errors} argument will be assigned to an attribute of the
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same name. Assigning to this attribute makes it possible to switch
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between different error handling strategies during the lifetime
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of the \class{StreamReader} object.
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The set of allowed values for the \var{errors} argument can
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be extended with \function{register_error()}.
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\end{classdesc}
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\begin{methoddesc}{read}{\optional{size\optional{, chars, \optional{firstline}}}}
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Decodes data from the stream and returns the resulting object.
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\var{chars} indicates the number of characters to read from the
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stream. \function{read()} will never return more than \var{chars}
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characters, but it might return less, if there are not enough
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characters available.
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\var{size} indicates the approximate maximum number of bytes to read
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from the stream for decoding purposes. The decoder can modify this
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setting as appropriate. The default value -1 indicates to read and
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decode as much as possible. \var{size} is intended to prevent having
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to decode huge files in one step.
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\var{firstline} indicates that it would be sufficient to only return
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the first line, if there are decoding errors on later lines.
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The method should use a greedy read strategy meaning that it should
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read as much data as is allowed within the definition of the encoding
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and the given size, e.g. if optional encoding endings or state
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markers are available on the stream, these should be read too.
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\versionchanged[\var{chars} argument added]{2.4}
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\versionchanged[\var{firstline} argument added]{2.4.2}
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\end{methoddesc}
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\begin{methoddesc}{readline}{\optional{size\optional{, keepends}}}
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Read one line from the input stream and return the
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decoded data.
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\var{size}, if given, is passed as size argument to the stream's
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\method{readline()} method.
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If \var{keepends} is false lineends will be stripped from the
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lines returned.
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\versionchanged[\var{keepends} argument added]{2.4}
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\end{methoddesc}
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\begin{methoddesc}{readlines}{\optional{sizehint\optional{, keepends}}}
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Read all lines available on the input stream and return them as list
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of lines.
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Line breaks are implemented using the codec's decoder method and are
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included in the list entries if \var{keepends} is true.
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\var{sizehint}, if given, is passed as \var{size} argument to the
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stream's \method{read()} method.
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\end{methoddesc}
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\begin{methoddesc}{reset}{}
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Resets the codec buffers used for keeping state.
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Note that no stream repositioning should take place. This method is
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primarily intended to be able to recover from decoding errors.
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\end{methoddesc}
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In addition to the above methods, the \class{StreamReader} must also
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inherit all other methods and attribute from the underlying stream.
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The next two base classes are included for convenience. They are not
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needed by the codec registry, but may provide useful in practice.
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\subsubsection{StreamReaderWriter Objects \label{stream-reader-writer}}
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The \class{StreamReaderWriter} allows wrapping streams which work in
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both read and write modes.
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The design is such that one can use the factory functions returned by
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the \function{lookup()} function to construct the instance.
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\begin{classdesc}{StreamReaderWriter}{stream, Reader, Writer, errors}
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Creates a \class{StreamReaderWriter} instance.
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\var{stream} must be a file-like object.
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\var{Reader} and \var{Writer} must be factory functions or classes
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providing the \class{StreamReader} and \class{StreamWriter} interface
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resp.
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Error handling is done in the same way as defined for the
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stream readers and writers.
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\end{classdesc}
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\class{StreamReaderWriter} instances define the combined interfaces of
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\class{StreamReader} and \class{StreamWriter} classes. They inherit
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all other methods and attribute from the underlying stream.
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\subsubsection{StreamRecoder Objects \label{stream-recoder-objects}}
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The \class{StreamRecoder} provide a frontend - backend view of
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encoding data which is sometimes useful when dealing with different
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encoding environments.
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|
|
The design is such that one can use the factory functions returned by
|
|
the \function{lookup()} function to construct the instance.
|
|
|
|
\begin{classdesc}{StreamRecoder}{stream, encode, decode,
|
|
Reader, Writer, errors}
|
|
Creates a \class{StreamRecoder} instance which implements a two-way
|
|
conversion: \var{encode} and \var{decode} work on the frontend (the
|
|
input to \method{read()} and output of \method{write()}) while
|
|
\var{Reader} and \var{Writer} work on the backend (reading and
|
|
writing to the stream).
|
|
|
|
You can use these objects to do transparent direct recodings from
|
|
e.g.\ Latin-1 to UTF-8 and back.
|
|
|
|
\var{stream} must be a file-like object.
|
|
|
|
\var{encode}, \var{decode} must adhere to the \class{Codec}
|
|
interface, \var{Reader}, \var{Writer} must be factory functions or
|
|
classes providing objects of the \class{StreamReader} and
|
|
\class{StreamWriter} interface respectively.
|
|
|
|
\var{encode} and \var{decode} are needed for the frontend
|
|
translation, \var{Reader} and \var{Writer} for the backend
|
|
translation. The intermediate format used is determined by the two
|
|
sets of codecs, e.g. the Unicode codecs will use Unicode as
|
|
intermediate encoding.
|
|
|
|
Error handling is done in the same way as defined for the
|
|
stream readers and writers.
|
|
\end{classdesc}
|
|
|
|
\class{StreamRecoder} instances define the combined interfaces of
|
|
\class{StreamReader} and \class{StreamWriter} classes. They inherit
|
|
all other methods and attribute from the underlying stream.
|
|
|
|
\subsection{Encodings and Unicode\label{encodings-overview}}
|
|
|
|
Unicode strings are stored internally as sequences of codepoints (to
|
|
be precise as \ctype{Py_UNICODE} arrays). Depending on the way Python is
|
|
compiled (either via \longprogramopt{enable-unicode=ucs2} or
|
|
\longprogramopt{enable-unicode=ucs4}, with the former being the default)
|
|
\ctype{Py_UNICODE} is either a 16-bit or
|
|
32-bit data type. Once a Unicode object is used outside of CPU and
|
|
memory, CPU endianness and how these arrays are stored as bytes become
|
|
an issue. Transforming a unicode object into a sequence of bytes is
|
|
called encoding and recreating the unicode object from the sequence of
|
|
bytes is known as decoding. There are many different methods how this
|
|
transformation can be done (these methods are also called encodings).
|
|
The simplest method is to map the codepoints 0-255 to the bytes
|
|
\code{0x0}-\code{0xff}. This means that a unicode object that contains
|
|
codepoints above \code{U+00FF} can't be encoded with this method (which
|
|
is called \code{'latin-1'} or \code{'iso-8859-1'}). unicode.encode() will
|
|
raise a UnicodeEncodeError that looks like this: \samp{UnicodeEncodeError:
|
|
'latin-1' codec can't encode character u'\e u1234' in position 3: ordinal
|
|
not in range(256)}.
|
|
|
|
There's another group of encodings (the so called charmap encodings)
|
|
that choose a different subset of all unicode code points and how
|
|
these codepoints are mapped to the bytes \code{0x0}-\code{0xff.}
|
|
To see how this is done simply open e.g. \file{encodings/cp1252.py}
|
|
(which is an encoding that is used primarily on Windows).
|
|
There's a string constant with 256 characters that shows you which
|
|
character is mapped to which byte value.
|
|
|
|
All of these encodings can only encode 256 of the 65536 (or 1114111)
|
|
codepoints defined in unicode. A simple and straightforward way that
|
|
can store each Unicode code point, is to store each codepoint as two
|
|
consecutive bytes. There are two possibilities: Store the bytes in big
|
|
endian or in little endian order. These two encodings are called
|
|
UTF-16-BE and UTF-16-LE respectively. Their disadvantage is that if
|
|
e.g. you use UTF-16-BE on a little endian machine you will always have
|
|
to swap bytes on encoding and decoding. UTF-16 avoids this problem:
|
|
Bytes will always be in natural endianness. When these bytes are read
|
|
by a CPU with a different endianness, then bytes have to be swapped
|
|
though. To be able to detect the endianness of a UTF-16 byte sequence,
|
|
there's the so called BOM (the "Byte Order Mark"). This is the Unicode
|
|
character \code{U+FEFF}. This character will be prepended to every UTF-16
|
|
byte sequence. The byte swapped version of this character (\code{0xFFFE}) is
|
|
an illegal character that may not appear in a Unicode text. So when
|
|
the first character in an UTF-16 byte sequence appears to be a \code{U+FFFE}
|
|
the bytes have to be swapped on decoding. Unfortunately upto Unicode
|
|
4.0 the character \code{U+FEFF} had a second purpose as a \samp{ZERO WIDTH
|
|
NO-BREAK SPACE}: A character that has no width and doesn't allow a
|
|
word to be split. It can e.g. be used to give hints to a ligature
|
|
algorithm. With Unicode 4.0 using \code{U+FEFF} as a \samp{ZERO WIDTH NO-BREAK
|
|
SPACE} has been deprecated (with \code{U+2060} (\samp{WORD JOINER}) assuming
|
|
this role). Nevertheless Unicode software still must be able to handle
|
|
\code{U+FEFF} in both roles: As a BOM it's a device to determine the storage
|
|
layout of the encoded bytes, and vanishes once the byte sequence has
|
|
been decoded into a Unicode string; as a \samp{ZERO WIDTH NO-BREAK SPACE}
|
|
it's a normal character that will be decoded like any other.
|
|
|
|
There's another encoding that is able to encoding the full range of
|
|
Unicode characters: UTF-8. UTF-8 is an 8bit encoding, which means
|
|
there are no issues with byte order in UTF-8. Each byte in a UTF-8
|
|
byte sequence consists of two parts: Marker bits (the most significant
|
|
bits) and payload bits. The marker bits are a sequence of zero to six
|
|
1 bits followed by a 0 bit. Unicode characters are encoded like this
|
|
(with x being payload bits, which when concatenated give the Unicode
|
|
character):
|
|
|
|
\begin{tableii}{l|l}{textrm}{}{Range}{Encoding}
|
|
\lineii{\code{U-00000000} ... \code{U-0000007F}}{0xxxxxxx}
|
|
\lineii{\code{U-00000080} ... \code{U-000007FF}}{110xxxxx 10xxxxxx}
|
|
\lineii{\code{U-00000800} ... \code{U-0000FFFF}}{1110xxxx 10xxxxxx 10xxxxxx}
|
|
\lineii{\code{U-00010000} ... \code{U-001FFFFF}}{11110xxx 10xxxxxx 10xxxxxx 10xxxxxx}
|
|
\lineii{\code{U-00200000} ... \code{U-03FFFFFF}}{111110xx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx}
|
|
\lineii{\code{U-04000000} ... \code{U-7FFFFFFF}}{1111110x 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx}
|
|
\end{tableii}
|
|
|
|
The least significant bit of the Unicode character is the rightmost x
|
|
bit.
|
|
|
|
As UTF-8 is an 8bit encoding no BOM is required and any \code{U+FEFF}
|
|
character in the decoded Unicode string (even if it's the first
|
|
character) is treated as a \samp{ZERO WIDTH NO-BREAK SPACE}.
|
|
|
|
Without external information it's impossible to reliably determine
|
|
which encoding was used for encoding a Unicode string. Each charmap
|
|
encoding can decode any random byte sequence. However that's not
|
|
possible with UTF-8, as UTF-8 byte sequences have a structure that
|
|
doesn't allow arbitrary byte sequence. To increase the reliability
|
|
with which a UTF-8 encoding can be detected, Microsoft invented a
|
|
variant of UTF-8 (that Python 2.5 calls \code{"utf-8-sig"}) for its Notepad
|
|
program: Before any of the Unicode characters is written to the file,
|
|
a UTF-8 encoded BOM (which looks like this as a byte sequence: \code{0xef},
|
|
\code{0xbb}, \code{0xbf}) is written. As it's rather improbably that any
|
|
charmap encoded file starts with these byte values (which would e.g. map to
|
|
|
|
LATIN SMALL LETTER I WITH DIAERESIS \\
|
|
RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK \\
|
|
INVERTED QUESTION MARK
|
|
|
|
in iso-8859-1), this increases the probability that a utf-8-sig
|
|
encoding can be correctly guessed from the byte sequence. So here the
|
|
BOM is not used to be able to determine the byte order used for
|
|
generating the byte sequence, but as a signature that helps in
|
|
guessing the encoding. On encoding the utf-8-sig codec will write
|
|
\code{0xef}, \code{0xbb}, \code{0xbf} as the first three bytes to the file.
|
|
On decoding utf-8-sig will skip those three bytes if they appear as the
|
|
first three bytes in the file.
|
|
|
|
|
|
\subsection{Standard Encodings\label{standard-encodings}}
|
|
|
|
Python comes with a number of codecs builtin, either implemented as C
|
|
functions, or with dictionaries as mapping tables. The following table
|
|
lists the codecs by name, together with a few common aliases, and the
|
|
languages for which the encoding is likely used. Neither the list of
|
|
aliases nor the list of languages is meant to be exhaustive. Notice
|
|
that spelling alternatives that only differ in case or use a hyphen
|
|
instead of an underscore are also valid aliases.
|
|
|
|
Many of the character sets support the same languages. They vary in
|
|
individual characters (e.g. whether the EURO SIGN is supported or
|
|
not), and in the assignment of characters to code positions. For the
|
|
European languages in particular, the following variants typically
|
|
exist:
|
|
|
|
\begin{itemize}
|
|
\item an ISO 8859 codeset
|
|
\item a Microsoft Windows code page, which is typically derived from
|
|
a 8859 codeset, but replaces control characters with additional
|
|
graphic characters
|
|
\item an IBM EBCDIC code page
|
|
\item an IBM PC code page, which is \ASCII{} compatible
|
|
\end{itemize}
|
|
|
|
\begin{longtableiii}{l|l|l}{textrm}{Codec}{Aliases}{Languages}
|
|
|
|
\lineiii{ascii}
|
|
{646, us-ascii}
|
|
{English}
|
|
|
|
\lineiii{big5}
|
|
{big5-tw, csbig5}
|
|
{Traditional Chinese}
|
|
|
|
\lineiii{big5hkscs}
|
|
{big5-hkscs, hkscs}
|
|
{Traditional Chinese}
|
|
|
|
\lineiii{cp037}
|
|
{IBM037, IBM039}
|
|
{English}
|
|
|
|
\lineiii{cp424}
|
|
{EBCDIC-CP-HE, IBM424}
|
|
{Hebrew}
|
|
|
|
\lineiii{cp437}
|
|
{437, IBM437}
|
|
{English}
|
|
|
|
\lineiii{cp500}
|
|
{EBCDIC-CP-BE, EBCDIC-CP-CH, IBM500}
|
|
{Western Europe}
|
|
|
|
\lineiii{cp737}
|
|
{}
|
|
{Greek}
|
|
|
|
\lineiii{cp775}
|
|
{IBM775}
|
|
{Baltic languages}
|
|
|
|
\lineiii{cp850}
|
|
{850, IBM850}
|
|
{Western Europe}
|
|
|
|
\lineiii{cp852}
|
|
{852, IBM852}
|
|
{Central and Eastern Europe}
|
|
|
|
\lineiii{cp855}
|
|
{855, IBM855}
|
|
{Bulgarian, Byelorussian, Macedonian, Russian, Serbian}
|
|
|
|
\lineiii{cp856}
|
|
{}
|
|
{Hebrew}
|
|
|
|
\lineiii{cp857}
|
|
{857, IBM857}
|
|
{Turkish}
|
|
|
|
\lineiii{cp860}
|
|
{860, IBM860}
|
|
{Portuguese}
|
|
|
|
\lineiii{cp861}
|
|
{861, CP-IS, IBM861}
|
|
{Icelandic}
|
|
|
|
\lineiii{cp862}
|
|
{862, IBM862}
|
|
{Hebrew}
|
|
|
|
\lineiii{cp863}
|
|
{863, IBM863}
|
|
{Canadian}
|
|
|
|
\lineiii{cp864}
|
|
{IBM864}
|
|
{Arabic}
|
|
|
|
\lineiii{cp865}
|
|
{865, IBM865}
|
|
{Danish, Norwegian}
|
|
|
|
\lineiii{cp866}
|
|
{866, IBM866}
|
|
{Russian}
|
|
|
|
\lineiii{cp869}
|
|
{869, CP-GR, IBM869}
|
|
{Greek}
|
|
|
|
\lineiii{cp874}
|
|
{}
|
|
{Thai}
|
|
|
|
\lineiii{cp875}
|
|
{}
|
|
{Greek}
|
|
|
|
\lineiii{cp932}
|
|
{932, ms932, mskanji, ms-kanji}
|
|
{Japanese}
|
|
|
|
\lineiii{cp949}
|
|
{949, ms949, uhc}
|
|
{Korean}
|
|
|
|
\lineiii{cp950}
|
|
{950, ms950}
|
|
{Traditional Chinese}
|
|
|
|
\lineiii{cp1006}
|
|
{}
|
|
{Urdu}
|
|
|
|
\lineiii{cp1026}
|
|
{ibm1026}
|
|
{Turkish}
|
|
|
|
\lineiii{cp1140}
|
|
{ibm1140}
|
|
{Western Europe}
|
|
|
|
\lineiii{cp1250}
|
|
{windows-1250}
|
|
{Central and Eastern Europe}
|
|
|
|
\lineiii{cp1251}
|
|
{windows-1251}
|
|
{Bulgarian, Byelorussian, Macedonian, Russian, Serbian}
|
|
|
|
\lineiii{cp1252}
|
|
{windows-1252}
|
|
{Western Europe}
|
|
|
|
\lineiii{cp1253}
|
|
{windows-1253}
|
|
{Greek}
|
|
|
|
\lineiii{cp1254}
|
|
{windows-1254}
|
|
{Turkish}
|
|
|
|
\lineiii{cp1255}
|
|
{windows-1255}
|
|
{Hebrew}
|
|
|
|
\lineiii{cp1256}
|
|
{windows1256}
|
|
{Arabic}
|
|
|
|
\lineiii{cp1257}
|
|
{windows-1257}
|
|
{Baltic languages}
|
|
|
|
\lineiii{cp1258}
|
|
{windows-1258}
|
|
{Vietnamese}
|
|
|
|
\lineiii{euc_jp}
|
|
{eucjp, ujis, u-jis}
|
|
{Japanese}
|
|
|
|
\lineiii{euc_jis_2004}
|
|
{jisx0213, eucjis2004}
|
|
{Japanese}
|
|
|
|
\lineiii{euc_jisx0213}
|
|
{eucjisx0213}
|
|
{Japanese}
|
|
|
|
\lineiii{euc_kr}
|
|
{euckr, korean, ksc5601, ks_c-5601, ks_c-5601-1987, ksx1001, ks_x-1001}
|
|
{Korean}
|
|
|
|
\lineiii{gb2312}
|
|
{chinese, csiso58gb231280, euc-cn, euccn, eucgb2312-cn, gb2312-1980,
|
|
gb2312-80, iso-ir-58}
|
|
{Simplified Chinese}
|
|
|
|
\lineiii{gbk}
|
|
{936, cp936, ms936}
|
|
{Unified Chinese}
|
|
|
|
\lineiii{gb18030}
|
|
{gb18030-2000}
|
|
{Unified Chinese}
|
|
|
|
\lineiii{hz}
|
|
{hzgb, hz-gb, hz-gb-2312}
|
|
{Simplified Chinese}
|
|
|
|
\lineiii{iso2022_jp}
|
|
{csiso2022jp, iso2022jp, iso-2022-jp}
|
|
{Japanese}
|
|
|
|
\lineiii{iso2022_jp_1}
|
|
{iso2022jp-1, iso-2022-jp-1}
|
|
{Japanese}
|
|
|
|
\lineiii{iso2022_jp_2}
|
|
{iso2022jp-2, iso-2022-jp-2}
|
|
{Japanese, Korean, Simplified Chinese, Western Europe, Greek}
|
|
|
|
\lineiii{iso2022_jp_2004}
|
|
{iso2022jp-2004, iso-2022-jp-2004}
|
|
{Japanese}
|
|
|
|
\lineiii{iso2022_jp_3}
|
|
{iso2022jp-3, iso-2022-jp-3}
|
|
{Japanese}
|
|
|
|
\lineiii{iso2022_jp_ext}
|
|
{iso2022jp-ext, iso-2022-jp-ext}
|
|
{Japanese}
|
|
|
|
\lineiii{iso2022_kr}
|
|
{csiso2022kr, iso2022kr, iso-2022-kr}
|
|
{Korean}
|
|
|
|
\lineiii{latin_1}
|
|
{iso-8859-1, iso8859-1, 8859, cp819, latin, latin1, L1}
|
|
{West Europe}
|
|
|
|
\lineiii{iso8859_2}
|
|
{iso-8859-2, latin2, L2}
|
|
{Central and Eastern Europe}
|
|
|
|
\lineiii{iso8859_3}
|
|
{iso-8859-3, latin3, L3}
|
|
{Esperanto, Maltese}
|
|
|
|
\lineiii{iso8859_4}
|
|
{iso-8859-4, latin4, L4}
|
|
{Baltic languagues}
|
|
|
|
\lineiii{iso8859_5}
|
|
{iso-8859-5, cyrillic}
|
|
{Bulgarian, Byelorussian, Macedonian, Russian, Serbian}
|
|
|
|
\lineiii{iso8859_6}
|
|
{iso-8859-6, arabic}
|
|
{Arabic}
|
|
|
|
\lineiii{iso8859_7}
|
|
{iso-8859-7, greek, greek8}
|
|
{Greek}
|
|
|
|
\lineiii{iso8859_8}
|
|
{iso-8859-8, hebrew}
|
|
{Hebrew}
|
|
|
|
\lineiii{iso8859_9}
|
|
{iso-8859-9, latin5, L5}
|
|
{Turkish}
|
|
|
|
\lineiii{iso8859_10}
|
|
{iso-8859-10, latin6, L6}
|
|
{Nordic languages}
|
|
|
|
\lineiii{iso8859_13}
|
|
{iso-8859-13}
|
|
{Baltic languages}
|
|
|
|
\lineiii{iso8859_14}
|
|
{iso-8859-14, latin8, L8}
|
|
{Celtic languages}
|
|
|
|
\lineiii{iso8859_15}
|
|
{iso-8859-15}
|
|
{Western Europe}
|
|
|
|
\lineiii{johab}
|
|
{cp1361, ms1361}
|
|
{Korean}
|
|
|
|
\lineiii{koi8_r}
|
|
{}
|
|
{Russian}
|
|
|
|
\lineiii{koi8_u}
|
|
{}
|
|
{Ukrainian}
|
|
|
|
\lineiii{mac_cyrillic}
|
|
{maccyrillic}
|
|
{Bulgarian, Byelorussian, Macedonian, Russian, Serbian}
|
|
|
|
\lineiii{mac_greek}
|
|
{macgreek}
|
|
{Greek}
|
|
|
|
\lineiii{mac_iceland}
|
|
{maciceland}
|
|
{Icelandic}
|
|
|
|
\lineiii{mac_latin2}
|
|
{maclatin2, maccentraleurope}
|
|
{Central and Eastern Europe}
|
|
|
|
\lineiii{mac_roman}
|
|
{macroman}
|
|
{Western Europe}
|
|
|
|
\lineiii{mac_turkish}
|
|
{macturkish}
|
|
{Turkish}
|
|
|
|
\lineiii{ptcp154}
|
|
{csptcp154, pt154, cp154, cyrillic-asian}
|
|
{Kazakh}
|
|
|
|
\lineiii{shift_jis}
|
|
{csshiftjis, shiftjis, sjis, s_jis}
|
|
{Japanese}
|
|
|
|
\lineiii{shift_jis_2004}
|
|
{shiftjis2004, sjis_2004, sjis2004}
|
|
{Japanese}
|
|
|
|
\lineiii{shift_jisx0213}
|
|
{shiftjisx0213, sjisx0213, s_jisx0213}
|
|
{Japanese}
|
|
|
|
\lineiii{utf_16}
|
|
{U16, utf16}
|
|
{all languages}
|
|
|
|
\lineiii{utf_16_be}
|
|
{UTF-16BE}
|
|
{all languages (BMP only)}
|
|
|
|
\lineiii{utf_16_le}
|
|
{UTF-16LE}
|
|
{all languages (BMP only)}
|
|
|
|
\lineiii{utf_7}
|
|
{U7, unicode-1-1-utf-7}
|
|
{all languages}
|
|
|
|
\lineiii{utf_8}
|
|
{U8, UTF, utf8}
|
|
{all languages}
|
|
|
|
\lineiii{utf_8_sig}
|
|
{}
|
|
{all languages}
|
|
|
|
\end{longtableiii}
|
|
|
|
A number of codecs are specific to Python, so their codec names have
|
|
no meaning outside Python. Some of them don't convert from Unicode
|
|
strings to byte strings, but instead use the property of the Python
|
|
codecs machinery that any bijective function with one argument can be
|
|
considered as an encoding.
|
|
|
|
For the codecs listed below, the result in the ``encoding'' direction
|
|
is always a byte string. The result of the ``decoding'' direction is
|
|
listed as operand type in the table.
|
|
|
|
\begin{tableiv}{l|l|l|l}{textrm}{Codec}{Aliases}{Operand type}{Purpose}
|
|
|
|
\lineiv{base64_codec}
|
|
{base64, base-64}
|
|
{byte string}
|
|
{Convert operand to MIME base64}
|
|
|
|
\lineiv{bz2_codec}
|
|
{bz2}
|
|
{byte string}
|
|
{Compress the operand using bz2}
|
|
|
|
\lineiv{hex_codec}
|
|
{hex}
|
|
{byte string}
|
|
{Convert operand to hexadecimal representation, with two
|
|
digits per byte}
|
|
|
|
\lineiv{idna}
|
|
{}
|
|
{Unicode string}
|
|
{Implements \rfc{3490}.
|
|
\versionadded{2.3}
|
|
See also \refmodule{encodings.idna}}
|
|
|
|
\lineiv{mbcs}
|
|
{dbcs}
|
|
{Unicode string}
|
|
{Windows only: Encode operand according to the ANSI codepage (CP_ACP)}
|
|
|
|
\lineiv{palmos}
|
|
{}
|
|
{Unicode string}
|
|
{Encoding of PalmOS 3.5}
|
|
|
|
\lineiv{punycode}
|
|
{}
|
|
{Unicode string}
|
|
{Implements \rfc{3492}.
|
|
\versionadded{2.3}}
|
|
|
|
\lineiv{quopri_codec}
|
|
{quopri, quoted-printable, quotedprintable}
|
|
{byte string}
|
|
{Convert operand to MIME quoted printable}
|
|
|
|
\lineiv{raw_unicode_escape}
|
|
{}
|
|
{Unicode string}
|
|
{Produce a string that is suitable as raw Unicode literal in
|
|
Python source code}
|
|
|
|
\lineiv{rot_13}
|
|
{rot13}
|
|
{byte string}
|
|
{Returns the Caesar-cypher encryption of the operand}
|
|
|
|
\lineiv{string_escape}
|
|
{}
|
|
{byte string}
|
|
{Produce a string that is suitable as string literal in
|
|
Python source code}
|
|
|
|
\lineiv{undefined}
|
|
{}
|
|
{any}
|
|
{Raise an exception for all conversion. Can be used as the
|
|
system encoding if no automatic coercion between byte and
|
|
Unicode strings is desired.}
|
|
|
|
\lineiv{unicode_escape}
|
|
{}
|
|
{Unicode string}
|
|
{Produce a string that is suitable as Unicode literal in
|
|
Python source code}
|
|
|
|
\lineiv{unicode_internal}
|
|
{}
|
|
{Unicode string}
|
|
{Return the internal representation of the operand}
|
|
|
|
\lineiv{uu_codec}
|
|
{uu}
|
|
{byte string}
|
|
{Convert the operand using uuencode}
|
|
|
|
\lineiv{zlib_codec}
|
|
{zip, zlib}
|
|
{byte string}
|
|
{Compress the operand using gzip}
|
|
|
|
\end{tableiv}
|
|
|
|
\subsection{\module{encodings.idna} ---
|
|
Internationalized Domain Names in Applications}
|
|
|
|
\declaremodule{standard}{encodings.idna}
|
|
\modulesynopsis{Internationalized Domain Names implementation}
|
|
% XXX The next line triggers a formatting bug, so it's commented out
|
|
% until that can be fixed.
|
|
%\moduleauthor{Martin v. L\"owis}
|
|
|
|
\versionadded{2.3}
|
|
|
|
This module implements \rfc{3490} (Internationalized Domain Names in
|
|
Applications) and \rfc{3492} (Nameprep: A Stringprep Profile for
|
|
Internationalized Domain Names (IDN)). It builds upon the
|
|
\code{punycode} encoding and \refmodule{stringprep}.
|
|
|
|
These RFCs together define a protocol to support non-\ASCII{} characters
|
|
in domain names. A domain name containing non-\ASCII{} characters (such
|
|
as ``www.Alliancefran\c caise.nu'') is converted into an
|
|
\ASCII-compatible encoding (ACE, such as
|
|
``www.xn--alliancefranaise-npb.nu''). The ACE form of the domain name
|
|
is then used in all places where arbitrary characters are not allowed
|
|
by the protocol, such as DNS queries, HTTP \mailheader{Host} fields, and so
|
|
on. This conversion is carried out in the application; if possible
|
|
invisible to the user: The application should transparently convert
|
|
Unicode domain labels to IDNA on the wire, and convert back ACE labels
|
|
to Unicode before presenting them to the user.
|
|
|
|
Python supports this conversion in several ways: The \code{idna} codec
|
|
allows to convert between Unicode and the ACE. Furthermore, the
|
|
\refmodule{socket} module transparently converts Unicode host names to
|
|
ACE, so that applications need not be concerned about converting host
|
|
names themselves when they pass them to the socket module. On top of
|
|
that, modules that have host names as function parameters, such as
|
|
\refmodule{httplib} and \refmodule{ftplib}, accept Unicode host names
|
|
(\refmodule{httplib} then also transparently sends an IDNA hostname in
|
|
the \mailheader{Host} field if it sends that field at all).
|
|
|
|
When receiving host names from the wire (such as in reverse name
|
|
lookup), no automatic conversion to Unicode is performed: Applications
|
|
wishing to present such host names to the user should decode them to
|
|
Unicode.
|
|
|
|
The module \module{encodings.idna} also implements the nameprep
|
|
procedure, which performs certain normalizations on host names, to
|
|
achieve case-insensitivity of international domain names, and to unify
|
|
similar characters. The nameprep functions can be used directly if
|
|
desired.
|
|
|
|
\begin{funcdesc}{nameprep}{label}
|
|
Return the nameprepped version of \var{label}. The implementation
|
|
currently assumes query strings, so \code{AllowUnassigned} is
|
|
true.
|
|
\end{funcdesc}
|
|
|
|
\begin{funcdesc}{ToASCII}{label}
|
|
Convert a label to \ASCII, as specified in \rfc{3490}.
|
|
\code{UseSTD3ASCIIRules} is assumed to be false.
|
|
\end{funcdesc}
|
|
|
|
\begin{funcdesc}{ToUnicode}{label}
|
|
Convert a label to Unicode, as specified in \rfc{3490}.
|
|
\end{funcdesc}
|
|
|
|
\subsection{\module{encodings.utf_8_sig} ---
|
|
UTF-8 codec with BOM signature}
|
|
\declaremodule{standard}{encodings.utf-8-sig} % XXX utf_8_sig gives TeX errors
|
|
\modulesynopsis{UTF-8 codec with BOM signature}
|
|
\moduleauthor{Walter D\"orwald}
|
|
|
|
\versionadded{2.5}
|
|
|
|
This module implements a variant of the UTF-8 codec: On encoding a
|
|
UTF-8 encoded BOM will be prepended to the UTF-8 encoded bytes. For
|
|
the stateful encoder this is only done once (on the first write to the
|
|
byte stream). For decoding an optional UTF-8 encoded BOM at the start
|
|
of the data will be skipped.
|