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author | Marc-André Lemburg <mal@egenix.com> | 2000-08-03 19:38:07 (GMT) |
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committer | Marc-André Lemburg <mal@egenix.com> | 2000-08-03 19:38:07 (GMT) |
commit | 8b9835cdb286f29ba7d2d06a6802bb4f8524555d (patch) | |
tree | 148614e389fbe677de215ee68b30c669afd0d6d0 /Doc/ext/ext.tex | |
parent | da1ec468b1c37d3b4dc61ed831a770cd98fd553b (diff) | |
download | cpython-8b9835cdb286f29ba7d2d06a6802bb4f8524555d.zip cpython-8b9835cdb286f29ba7d2d06a6802bb4f8524555d.tar.gz cpython-8b9835cdb286f29ba7d2d06a6802bb4f8524555d.tar.bz2 |
Added descriptions of the new parser markers for PyArg_ParseTuple().
Diffstat (limited to 'Doc/ext/ext.tex')
-rw-r--r-- | Doc/ext/ext.tex | 93 |
1 files changed, 77 insertions, 16 deletions
diff --git a/Doc/ext/ext.tex b/Doc/ext/ext.tex index 002fdf7..12100cc 100644 --- a/Doc/ext/ext.tex +++ b/Doc/ext/ext.tex @@ -676,37 +676,98 @@ reference count! \begin{description} -\item[\samp{s} (string) {[char *]}] -Convert a Python string to a C pointer to a character string. You -must not provide storage for the string itself; a pointer to an -existing string is stored into the character pointer variable whose -address you pass. The C string is null-terminated. The Python string -must not contain embedded null bytes; if it does, a \exception{TypeError} -exception is raised. - -\item[\samp{s\#} (string) {[char *, int]}] -This variant on \samp{s} stores into two C variables, the first one -a pointer to a character string, the second one its length. In this -case the Python string may contain embedded null bytes. +\item[\samp{s} (string or Unicode object) {[char *]}] +Convert a Python string or Unicode object to a C pointer to a +character string. You must not provide storage for the string +itself; a pointer to an existing string is stored into the character +pointer variable whose address you pass. The C string is +null-terminated. The Python string must not contain embedded null +bytes; if it does, a \exception{TypeError} exception is raised. +Unicode objects are converted to C strings using the default +encoding. If this conversion fails, an \exception{UnicodeError} is +raised. + +\item[\samp{s\#} (string, Unicode or any read buffer compatible object) +{[char *, int]}] +This variant on \samp{s} stores into two C variables, the first one a +pointer to a character string, the second one its length. In this +case the Python string may contain embedded null bytes. Unicode +objects and all other read buffer compatible objects pass back a +reference to the raw internal data representation. In case of Unicode +objects the pointer points to a null-terminated buffer of 16-bit +Py_UNICODE (UTF-16) data. \item[\samp{z} (string or \code{None}) {[char *]}] Like \samp{s}, but the Python object may also be \code{None}, in which case the C pointer is set to \NULL{}. -\item[\samp{z\#} (string or \code{None}) {[char *, int]}] +\item[\samp{z\#} (string or \code{None} or any read buffer compatible object) +{[char *, int]}] This is to \samp{s\#} as \samp{z} is to \samp{s}. -\item[\samp{u} (Unicode string) {[Py_UNICODE *]}] +\item[\samp{u} (Unicode object) {[Py_UNICODE *]}] Convert a Python Unicode object to a C pointer to a null-terminated -buffer of Unicode (UCS-2) data. As with \samp{s}, there is no need +buffer of 16-bit Unicode (UTF-16) data. As with \samp{s}, there is no need to provide storage for the Unicode data buffer; a pointer to the existing Unicode data is stored into the Py_UNICODE pointer variable whose address you pass. -\item[\samp{u\#} (Unicode string) {[Py_UNICODE *, int]}] +\item[\samp{u\#} (Unicode object) {[Py_UNICODE *, int]}] This variant on \samp{u} stores into two C variables, the first one a pointer to a Unicode data buffer, the second one its length. +\item[\samp{es} (string, Unicode object or character buffer compatible +object) {[const char *encoding, char **buffer]}] +This variant on \samp{s} is used for encoding Unicode and objects +convertible to Unicode into a character buffer. It only works for +encoded data without embedded \NULL{} bytes. + +The variant reads one C variable and stores into two C variables, the +first one a pointer to an encoding name string (\var{encoding}), the +second a pointer to a pointer to a character buffer (\var{**buffer}, +the buffer used for storing the encoded data) and the third one a +pointer to an integer (\var{*buffer_length}, the buffer length). + +The encoding name must map to a registered codec. If set to \NULL{}, +the default encoding is used. + +\cfuntion{PyArg_ParseTuple()} will allocate a buffer of the needed +size using \cfunction{PyMem_NEW()}, copy the encoded data into this +buffer and adjust \var{*buffer} to reference the newly allocated +storage. The caller is responsible for calling +\cfunction{PyMem_Free()} to free the allocated buffer after usage. + +\item[\samp{es\#} (string, Unicode object or character buffer compatible +object) {[const char *encoding, char **buffer, int *buffer_length]}] +This variant on \samp{s\#} is used for encoding Unicode and objects +convertible to Unicode into a character buffer. It reads one C +variable and stores into two C variables, the first one a pointer to +an encoding name string (\var{encoding}), the second a pointer to a +pointer to a character buffer (\var{**buffer}, the buffer used for +storing the encoded data) and the third one a pointer to an integer +(\var{*buffer_length}, the buffer length). + +The encoding name must map to a registered codec. If set to \NULL{}, +the default encoding is used. + +There are two modes of operation: + +If \var{*buffer} points a \NULL{} pointer, +\cfuntion{PyArg_ParseTuple()} will allocate a buffer of the needed +size using \cfunction{PyMem_NEW()}, copy the encoded data into this +buffer and adjust \var{*buffer} to reference the newly allocated +storage. The caller is responsible for calling +\cfunction{PyMem_Free()} to free the allocated buffer after usage. + +If \var{*buffer} points to a non-\NULL{} pointer (an already allocated +buffer), \cfuntion{PyArg_ParseTuple()} will use this location as +buffer and interpret \var{*buffer_length} as buffer size. It will then +copy the encoded data into the buffer and 0-terminate it. Buffer +overflow is signalled with an exception. + +In both cases, \var{*buffer_length} is set to the length of the +encoded data without the trailing 0-byte. + \item[\samp{b} (integer) {[char]}] Convert a Python integer to a tiny int, stored in a C \ctype{char}. |