mirror of https://github.com/python/cpython
198 lines
7.8 KiB
TeX
198 lines
7.8 KiB
TeX
\section{\module{struct} ---
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Interpret strings as packed binary data}
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\declaremodule{builtin}{struct}
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\modulesynopsis{Interpret strings as packed binary data.}
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\indexii{C}{structures}
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\indexiii{packing}{binary}{data}
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This module performs conversions between Python values and C
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structs represented as Python strings. It uses \dfn{format strings}
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(explained below) as compact descriptions of the lay-out of the C
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structs and the intended conversion to/from Python values. This can
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be used in handling binary data stored in files or from network
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connections, among other sources.
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The module defines the following exception and functions:
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\begin{excdesc}{error}
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Exception raised on various occasions; argument is a string
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describing what is wrong.
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\end{excdesc}
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\begin{funcdesc}{pack}{fmt, v1, v2, \textrm{\ldots}}
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Return a string containing the values
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\code{\var{v1}, \var{v2}, \textrm{\ldots}} packed according to the given
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format. The arguments must match the values required by the format
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exactly.
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\end{funcdesc}
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\begin{funcdesc}{unpack}{fmt, string}
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Unpack the string (presumably packed by \code{pack(\var{fmt},
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\textrm{\ldots})}) according to the given format. The result is a
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tuple even if it contains exactly one item. The string must contain
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exactly the amount of data required by the format
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(\code{len(\var{string})} must equal \code{calcsize(\var{fmt})}).
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\end{funcdesc}
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\begin{funcdesc}{calcsize}{fmt}
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Return the size of the struct (and hence of the string)
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corresponding to the given format.
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\end{funcdesc}
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Format characters have the following meaning; the conversion between
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C and Python values should be obvious given their types:
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\begin{tableiv}{c|l|l|c}{samp}{Format}{C Type}{Python}{Notes}
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\lineiv{x}{pad byte}{no value}{}
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\lineiv{c}{\ctype{char}}{string of length 1}{}
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\lineiv{b}{\ctype{signed char}}{integer}{}
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\lineiv{B}{\ctype{unsigned char}}{integer}{}
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\lineiv{h}{\ctype{short}}{integer}{}
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\lineiv{H}{\ctype{unsigned short}}{integer}{}
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\lineiv{i}{\ctype{int}}{integer}{}
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\lineiv{I}{\ctype{unsigned int}}{long}{}
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\lineiv{l}{\ctype{long}}{integer}{}
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\lineiv{L}{\ctype{unsigned long}}{long}{}
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\lineiv{q}{\ctype{long long}}{long}{(1)}
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\lineiv{Q}{\ctype{unsigned long long}}{long}{(1)}
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\lineiv{f}{\ctype{float}}{float}{}
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\lineiv{d}{\ctype{double}}{float}{}
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\lineiv{s}{\ctype{char[]}}{string}{}
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\lineiv{p}{\ctype{char[]}}{string}{}
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\lineiv{P}{\ctype{void *}}{integer}{}
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\end{tableiv}
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\noindent
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Notes:
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\begin{description}
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\item[(1)]
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The \character{q} and \character{Q} conversion codes are available in
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native mode only if the platform C compiler supports C \ctype{long long},
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or, on Windows, \ctype{__int64}. They are always available in standard
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modes.
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\versionadded{2.2}
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\end{description}
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A format character may be preceded by an integral repeat count. For
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example, the format string \code{'4h'} means exactly the same as
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\code{'hhhh'}.
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Whitespace characters between formats are ignored; a count and its
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format must not contain whitespace though.
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For the \character{s} format character, the count is interpreted as the
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size of the string, not a repeat count like for the other format
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characters; for example, \code{'10s'} means a single 10-byte string, while
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\code{'10c'} means 10 characters. For packing, the string is
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truncated or padded with null bytes as appropriate to make it fit.
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For unpacking, the resulting string always has exactly the specified
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number of bytes. As a special case, \code{'0s'} means a single, empty
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string (while \code{'0c'} means 0 characters).
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The \character{p} format character encodes a "Pascal string", meaning
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a short variable-length string stored in a fixed number of bytes.
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The count is the total number of bytes stored. The first byte stored is
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the length of the string, or 255, whichever is smaller. The bytes
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of the string follow. If the string passed in to \function{pack()} is too
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long (longer than the count minus 1), only the leading count-1 bytes of the
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string are stored. If the string is shorter than count-1, it is padded
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with null bytes so that exactly count bytes in all are used. Note that
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for \function{unpack()}, the \character{p} format character consumes count
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bytes, but that the string returned can never contain more than 255
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characters.
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For the \character{I}, \character{L}, \character{q} and \character{Q}
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format characters, the return value is a Python long integer.
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For the \character{P} format character, the return value is a Python
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integer or long integer, depending on the size needed to hold a
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pointer when it has been cast to an integer type. A \NULL{} pointer will
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always be returned as the Python integer \code{0}. When packing pointer-sized
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values, Python integer or long integer objects may be used. For
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example, the Alpha and Merced processors use 64-bit pointer values,
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meaning a Python long integer will be used to hold the pointer; other
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platforms use 32-bit pointers and will use a Python integer.
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By default, C numbers are represented in the machine's native format
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and byte order, and properly aligned by skipping pad bytes if
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necessary (according to the rules used by the C compiler).
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Alternatively, the first character of the format string can be used to
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indicate the byte order, size and alignment of the packed data,
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according to the following table:
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\begin{tableiii}{c|l|l}{samp}{Character}{Byte order}{Size and alignment}
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\lineiii{@}{native}{native}
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\lineiii{=}{native}{standard}
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\lineiii{<}{little-endian}{standard}
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\lineiii{>}{big-endian}{standard}
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\lineiii{!}{network (= big-endian)}{standard}
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\end{tableiii}
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If the first character is not one of these, \character{@} is assumed.
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Native byte order is big-endian or little-endian, depending on the
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host system. For example, Motorola and Sun processors are big-endian;
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Intel and DEC processors are little-endian.
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Native size and alignment are determined using the C compiler's
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\keyword{sizeof} expression. This is always combined with native byte
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order.
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Standard size and alignment are as follows: no alignment is required
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for any type (so you have to use pad bytes);
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\ctype{short} is 2 bytes;
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\ctype{int} and \ctype{long} are 4 bytes;
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\ctype{long long} (\ctype{__int64} on Windows) is 8 bytes;
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\ctype{float} and \ctype{double} are 32-bit and 64-bit
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IEEE floating point numbers, respectively.
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Note the difference between \character{@} and \character{=}: both use
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native byte order, but the size and alignment of the latter is
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standardized.
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The form \character{!} is available for those poor souls who claim they
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can't remember whether network byte order is big-endian or
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little-endian.
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There is no way to indicate non-native byte order (force
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byte-swapping); use the appropriate choice of \character{<} or
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\character{>}.
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The \character{P} format character is only available for the native
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byte ordering (selected as the default or with the \character{@} byte
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order character). The byte order character \character{=} chooses to
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use little- or big-endian ordering based on the host system. The
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struct module does not interpret this as native ordering, so the
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\character{P} format is not available.
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Examples (all using native byte order, size and alignment, on a
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big-endian machine):
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\begin{verbatim}
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>>> from struct import *
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>>> pack('hhl', 1, 2, 3)
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'\x00\x01\x00\x02\x00\x00\x00\x03'
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>>> unpack('hhl', '\x00\x01\x00\x02\x00\x00\x00\x03')
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(1, 2, 3)
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>>> calcsize('hhl')
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8
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\end{verbatim}
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Hint: to align the end of a structure to the alignment requirement of
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a particular type, end the format with the code for that type with a
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repeat count of zero. For example, the format \code{'llh0l'}
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specifies two pad bytes at the end, assuming longs are aligned on
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4-byte boundaries. This only works when native size and alignment are
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in effect; standard size and alignment does not enforce any alignment.
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\begin{seealso}
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\seemodule{array}{Packed binary storage of homogeneous data.}
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\seemodule{xdrlib}{Packing and unpacking of XDR data.}
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\end{seealso}
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