Doc/lib/libxdrlib.tex - platform/external/python/cpython3 - Gitiles

 \section{\module{xdrlib} ---
          Encode and decode XDR data.}
 \declaremodule{standard}{xdrlib}

 \modulesynopsis{Encoders and decoders for the External Data
 Representation (XDR).}

 \index{XDR}
 \index{External Data Representation}


 The \module{xdrlib} module supports the External Data Representation
 Standard as described in \rfc{1014}, written by Sun Microsystems,
 Inc. June 1987.  It supports most of the data types described in the
 RFC.

 The \module{xdrlib} module defines two classes, one for packing
 variables into XDR representation, and another for unpacking from XDR
 representation.  There are also two exception classes.

 \begin{classdesc}{Packer}{}
 \class{Packer} is the class for packing data into XDR representation.
 The \class{Packer} class is instantiated with no arguments.
 \end{classdesc}

 \begin{classdesc}{Unpacker}{data}
 \code{Unpacker} is the complementary class which unpacks XDR data
 values from a string buffer.  The input buffer is given as
 \var{data}.
 \end{classdesc}


 \subsection{Packer Objects \label{xdr-packer-objects}}

 \class{Packer} instances have the following methods:

 \begin{methoddesc}[Packer]{get_buffer}{}
 Returns the current pack buffer as a string.
 \end{methoddesc}

 \begin{methoddesc}[Packer]{reset}{}
 Resets the pack buffer to the empty string.
 \end{methoddesc}

 In general, you can pack any of the most common XDR data types by
 calling the appropriate \code{pack_\var{type}()} method.  Each method
 takes a single argument, the value to pack.  The following simple data
 type packing methods are supported: \method{pack_uint()},
 \method{pack_int()}, \method{pack_enum()}, \method{pack_bool()},
 \method{pack_uhyper()}, and \method{pack_hyper()}.

 \begin{methoddesc}[Packer]{pack_float}{value}
 Packs the single-precision floating point number \var{value}.
 \end{methoddesc}

 \begin{methoddesc}[Packer]{pack_double}{value}
 Packs the double-precision floating point number \var{value}.
 \end{methoddesc}

 The following methods support packing strings, bytes, and opaque data:

 \begin{methoddesc}[Packer]{pack_fstring}{n, s}
 Packs a fixed length string, \var{s}.  \var{n} is the length of the
 string but it is \emph{not} packed into the data buffer.  The string
 is padded with null bytes if necessary to guaranteed 4 byte alignment.
 \end{methoddesc}

 \begin{methoddesc}[Packer]{pack_fopaque}{n, data}
 Packs a fixed length opaque data stream, similarly to
 \method{pack_fstring()}.
 \end{methoddesc}

 \begin{methoddesc}[Packer]{pack_string}{s}
 Packs a variable length string, \var{s}.  The length of the string is
 first packed as an unsigned integer, then the string data is packed
 with \method{pack_fstring()}.
 \end{methoddesc}

 \begin{methoddesc}[Packer]{pack_opaque}{data}
 Packs a variable length opaque data string, similarly to
 \method{pack_string()}.
 \end{methoddesc}

 \begin{methoddesc}[Packer]{pack_bytes}{bytes}
 Packs a variable length byte stream, similarly to \method{pack_string()}.
 \end{methoddesc}

 The following methods support packing arrays and lists:

 \begin{methoddesc}[Packer]{pack_list}{list, pack_item}
 Packs a \var{list} of homogeneous items.  This method is useful for
 lists with an indeterminate size; i.e. the size is not available until
 the entire list has been walked.  For each item in the list, an
 unsigned integer \code{1} is packed first, followed by the data value
 from the list.  \var{pack_item} is the function that is called to pack
 the individual item.  At the end of the list, an unsigned integer
 \code{0} is packed.

 For example, to pack a list of integers, the code might appear like
 this:

 \begin{verbatim}
 import xdrlib
 p = xdrlib.Packer()
 p.pack_list([1, 2, 3], p.pack_int)
 \end{verbatim}
 \end{methoddesc}

 \begin{methoddesc}[Packer]{pack_farray}{n, array, pack_item}
 Packs a fixed length list (\var{array}) of homogeneous items.  \var{n}
 is the length of the list; it is \emph{not} packed into the buffer,
 but a \exception{ValueError} exception is raised if
 \code{len(\var{array})} is not equal to \var{n}.  As above,
 \var{pack_item} is the function used to pack each element.
 \end{methoddesc}

 \begin{methoddesc}[Packer]{pack_array}{list, pack_item}
 Packs a variable length \var{list} of homogeneous items.  First, the
 length of the list is packed as an unsigned integer, then each element
 is packed as in \method{pack_farray()} above.
 \end{methoddesc}


 \subsection{Unpacker Objects \label{xdr-unpacker-objects}}

 The \class{Unpacker} class offers the following methods:

 \begin{methoddesc}[Unpacker]{reset}{data}
 Resets the string buffer with the given \var{data}.
 \end{methoddesc}

 \begin{methoddesc}[Unpacker]{get_position}{}
 Returns the current unpack position in the data buffer.
 \end{methoddesc}

 \begin{methoddesc}[Unpacker]{set_position}{position}
 Sets the data buffer unpack position to \var{position}.  You should be
 careful about using \method{get_position()} and \method{set_position()}.
 \end{methoddesc}

 \begin{methoddesc}[Unpacker]{get_buffer}{}
 Returns the current unpack data buffer as a string.
 \end{methoddesc}

 \begin{methoddesc}[Unpacker]{done}{}
 Indicates unpack completion.  Raises an \exception{Error} exception
 if all of the data has not been unpacked.
 \end{methoddesc}

 In addition, every data type that can be packed with a \class{Packer},
 can be unpacked with an \class{Unpacker}.  Unpacking methods are of the
 form \code{unpack_\var{type}()}, and take no arguments.  They return the
 unpacked object.

 \begin{methoddesc}[Unpacker]{unpack_float}{}
 Unpacks a single-precision floating point number.
 \end{methoddesc}

 \begin{methoddesc}[Unpacker]{unpack_double}{}
 Unpacks a double-precision floating point number, similarly to
 \method{unpack_float()}.
 \end{methoddesc}

 In addition, the following methods unpack strings, bytes, and opaque
 data:

 \begin{methoddesc}[Unpacker]{unpack_fstring}{n}
 Unpacks and returns a fixed length string.  \var{n} is the number of
 characters expected.  Padding with null bytes to guaranteed 4 byte
 alignment is assumed.
 \end{methoddesc}

 \begin{methoddesc}[Unpacker]{unpack_fopaque}{n}
 Unpacks and returns a fixed length opaque data stream, similarly to
 \method{unpack_fstring()}.
 \end{methoddesc}

 \begin{methoddesc}[Unpacker]{unpack_string}{}
 Unpacks and returns a variable length string.  The length of the
 string is first unpacked as an unsigned integer, then the string data
 is unpacked with \method{unpack_fstring()}.
 \end{methoddesc}

 \begin{methoddesc}[Unpacker]{unpack_opaque}{}
 Unpacks and returns a variable length opaque data string, similarly to
 \method{unpack_string()}.
 \end{methoddesc}

 \begin{methoddesc}[Unpacker]{unpack_bytes}{}
 Unpacks and returns a variable length byte stream, similarly to
 \method{unpack_string()}.
 \end{methoddesc}

 The following methods support unpacking arrays and lists:

 \begin{methoddesc}[Unpacker]{unpack_list}{unpack_item}
 Unpacks and returns a list of homogeneous items.  The list is unpacked
 one element at a time
 by first unpacking an unsigned integer flag.  If the flag is \code{1},
 then the item is unpacked and appended to the list.  A flag of
 \code{0} indicates the end of the list.  \var{unpack_item} is the
 function that is called to unpack the items.
 \end{methoddesc}

 \begin{methoddesc}[Unpacker]{unpack_farray}{n, unpack_item}
 Unpacks and returns (as a list) a fixed length array of homogeneous
 items.  \var{n} is number of list elements to expect in the buffer.
 As above, \var{unpack_item} is the function used to unpack each element.
 \end{methoddesc}

 \begin{methoddesc}[Unpacker]{unpack_array}{unpack_item}
 Unpacks and returns a variable length \var{list} of homogeneous items.
 First, the length of the list is unpacked as an unsigned integer, then
 each element is unpacked as in \method{unpack_farray()} above.
 \end{methoddesc}


 \subsection{Exceptions \label{xdr-exceptions}}

 Exceptions in this module are coded as class instances:

 \begin{excdesc}{Error}
 The base exception class.  \exception{Error} has a single public data
 member \member{msg} containing the description of the error.
 \end{excdesc}

 \begin{excdesc}{ConversionError}
 Class derived from \exception{Error}.  Contains no additional instance
 variables.
 \end{excdesc}

 Here is an example of how you would catch one of these exceptions:

 \begin{verbatim}
 import xdrlib
 p = xdrlib.Packer()
 try:
     p.pack_double(8.01)
 except xdrlib.ConversionError, instance:
     print 'packing the double failed:', instance.msg
 \end{verbatim}
	\section{\module{xdrlib} ---
	Encode and decode XDR data.}
	\declaremodule{standard}{xdrlib}

	\modulesynopsis{Encoders and decoders for the External Data
	Representation (XDR).}

	\index{XDR}
	\index{External Data Representation}


	The \module{xdrlib} module supports the External Data Representation
	Standard as described in \rfc{1014}, written by Sun Microsystems,
	Inc. June 1987. It supports most of the data types described in the
	RFC.

	The \module{xdrlib} module defines two classes, one for packing
	variables into XDR representation, and another for unpacking from XDR
	representation. There are also two exception classes.

	\begin{classdesc}{Packer}{}
	\class{Packer} is the class for packing data into XDR representation.
	The \class{Packer} class is instantiated with no arguments.
	\end{classdesc}

	\begin{classdesc}{Unpacker}{data}
	\code{Unpacker} is the complementary class which unpacks XDR data
	values from a string buffer. The input buffer is given as
	\var{data}.
	\end{classdesc}


	\subsection{Packer Objects \label{xdr-packer-objects}}

	\class{Packer} instances have the following methods:

	\begin{methoddesc}[Packer]{get_buffer}{}
	Returns the current pack buffer as a string.
	\end{methoddesc}

	\begin{methoddesc}[Packer]{reset}{}
	Resets the pack buffer to the empty string.
	\end{methoddesc}

	In general, you can pack any of the most common XDR data types by
	calling the appropriate \code{pack_\var{type}()} method. Each method
	takes a single argument, the value to pack. The following simple data
	type packing methods are supported: \method{pack_uint()},
	\method{pack_int()}, \method{pack_enum()}, \method{pack_bool()},
	\method{pack_uhyper()}, and \method{pack_hyper()}.

	\begin{methoddesc}[Packer]{pack_float}{value}
	Packs the single-precision floating point number \var{value}.
	\end{methoddesc}

	\begin{methoddesc}[Packer]{pack_double}{value}
	Packs the double-precision floating point number \var{value}.
	\end{methoddesc}

	The following methods support packing strings, bytes, and opaque data:

	\begin{methoddesc}[Packer]{pack_fstring}{n, s}
	Packs a fixed length string, \var{s}. \var{n} is the length of the
	string but it is \emph{not} packed into the data buffer. The string
	is padded with null bytes if necessary to guaranteed 4 byte alignment.
	\end{methoddesc}

	\begin{methoddesc}[Packer]{pack_fopaque}{n, data}
	Packs a fixed length opaque data stream, similarly to
	\method{pack_fstring()}.
	\end{methoddesc}

	\begin{methoddesc}[Packer]{pack_string}{s}
	Packs a variable length string, \var{s}. The length of the string is
	first packed as an unsigned integer, then the string data is packed
	with \method{pack_fstring()}.
	\end{methoddesc}

	\begin{methoddesc}[Packer]{pack_opaque}{data}
	Packs a variable length opaque data string, similarly to
	\method{pack_string()}.
	\end{methoddesc}

	\begin{methoddesc}[Packer]{pack_bytes}{bytes}
	Packs a variable length byte stream, similarly to \method{pack_string()}.
	\end{methoddesc}

	The following methods support packing arrays and lists:

	\begin{methoddesc}[Packer]{pack_list}{list, pack_item}
	Packs a \var{list} of homogeneous items. This method is useful for
	lists with an indeterminate size; i.e. the size is not available until
	the entire list has been walked. For each item in the list, an
	unsigned integer \code{1} is packed first, followed by the data value
	from the list. \var{pack_item} is the function that is called to pack
	the individual item. At the end of the list, an unsigned integer
	\code{0} is packed.

	For example, to pack a list of integers, the code might appear like
	this:

	\begin{verbatim}
	import xdrlib
	p = xdrlib.Packer()
	p.pack_list([1, 2, 3], p.pack_int)
	\end{verbatim}
	\end{methoddesc}

	\begin{methoddesc}[Packer]{pack_farray}{n, array, pack_item}
	Packs a fixed length list (\var{array}) of homogeneous items. \var{n}
	is the length of the list; it is \emph{not} packed into the buffer,
	but a \exception{ValueError} exception is raised if
	\code{len(\var{array})} is not equal to \var{n}. As above,
	\var{pack_item} is the function used to pack each element.
	\end{methoddesc}

	\begin{methoddesc}[Packer]{pack_array}{list, pack_item}
	Packs a variable length \var{list} of homogeneous items. First, the
	length of the list is packed as an unsigned integer, then each element
	is packed as in \method{pack_farray()} above.
	\end{methoddesc}


	\subsection{Unpacker Objects \label{xdr-unpacker-objects}}

	The \class{Unpacker} class offers the following methods:

	\begin{methoddesc}[Unpacker]{reset}{data}
	Resets the string buffer with the given \var{data}.
	\end{methoddesc}

	\begin{methoddesc}[Unpacker]{get_position}{}
	Returns the current unpack position in the data buffer.
	\end{methoddesc}

	\begin{methoddesc}[Unpacker]{set_position}{position}
	Sets the data buffer unpack position to \var{position}. You should be
	careful about using \method{get_position()} and \method{set_position()}.
	\end{methoddesc}

	\begin{methoddesc}[Unpacker]{get_buffer}{}
	Returns the current unpack data buffer as a string.
	\end{methoddesc}

	\begin{methoddesc}[Unpacker]{done}{}
	Indicates unpack completion. Raises an \exception{Error} exception
	if all of the data has not been unpacked.
	\end{methoddesc}

	In addition, every data type that can be packed with a \class{Packer},
	can be unpacked with an \class{Unpacker}. Unpacking methods are of the
	form \code{unpack_\var{type}()}, and take no arguments. They return the
	unpacked object.

	\begin{methoddesc}[Unpacker]{unpack_float}{}
	Unpacks a single-precision floating point number.
	\end{methoddesc}

	\begin{methoddesc}[Unpacker]{unpack_double}{}
	Unpacks a double-precision floating point number, similarly to
	\method{unpack_float()}.
	\end{methoddesc}

	In addition, the following methods unpack strings, bytes, and opaque
	data:

	\begin{methoddesc}[Unpacker]{unpack_fstring}{n}
	Unpacks and returns a fixed length string. \var{n} is the number of
	characters expected. Padding with null bytes to guaranteed 4 byte
	alignment is assumed.
	\end{methoddesc}

	\begin{methoddesc}[Unpacker]{unpack_fopaque}{n}
	Unpacks and returns a fixed length opaque data stream, similarly to
	\method{unpack_fstring()}.
	\end{methoddesc}

	\begin{methoddesc}[Unpacker]{unpack_string}{}
	Unpacks and returns a variable length string. The length of the
	string is first unpacked as an unsigned integer, then the string data
	is unpacked with \method{unpack_fstring()}.
	\end{methoddesc}

	\begin{methoddesc}[Unpacker]{unpack_opaque}{}
	Unpacks and returns a variable length opaque data string, similarly to
	\method{unpack_string()}.
	\end{methoddesc}

	\begin{methoddesc}[Unpacker]{unpack_bytes}{}
	Unpacks and returns a variable length byte stream, similarly to
	\method{unpack_string()}.
	\end{methoddesc}

	The following methods support unpacking arrays and lists:

	\begin{methoddesc}[Unpacker]{unpack_list}{unpack_item}
	Unpacks and returns a list of homogeneous items. The list is unpacked
	one element at a time
	by first unpacking an unsigned integer flag. If the flag is \code{1},
	then the item is unpacked and appended to the list. A flag of
	\code{0} indicates the end of the list. \var{unpack_item} is the
	function that is called to unpack the items.
	\end{methoddesc}

	\begin{methoddesc}[Unpacker]{unpack_farray}{n, unpack_item}
	Unpacks and returns (as a list) a fixed length array of homogeneous
	items. \var{n} is number of list elements to expect in the buffer.
	As above, \var{unpack_item} is the function used to unpack each element.
	\end{methoddesc}

	\begin{methoddesc}[Unpacker]{unpack_array}{unpack_item}
	Unpacks and returns a variable length \var{list} of homogeneous items.
	First, the length of the list is unpacked as an unsigned integer, then
	each element is unpacked as in \method{unpack_farray()} above.
	\end{methoddesc}


	\subsection{Exceptions \label{xdr-exceptions}}

	Exceptions in this module are coded as class instances:

	\begin{excdesc}{Error}
	The base exception class. \exception{Error} has a single public data
	member \member{msg} containing the description of the error.
	\end{excdesc}

	\begin{excdesc}{ConversionError}
	Class derived from \exception{Error}. Contains no additional instance
	variables.
	\end{excdesc}

	Here is an example of how you would catch one of these exceptions:

	\begin{verbatim}
	import xdrlib
	p = xdrlib.Packer()
	try:
	p.pack_double(8.01)
	except xdrlib.ConversionError, instance:
	print 'packing the double failed:', instance.msg
	\end{verbatim}