mirror of https://github.com/python/cpython
695 lines
30 KiB
ReStructuredText
695 lines
30 KiB
ReStructuredText
.. highlight:: c
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.. _arg-parsing:
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Parsing arguments and building values
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=====================================
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These functions are useful when creating your own extensions functions and
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methods. Additional information and examples are available in
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:ref:`extending-index`.
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The first three of these functions described, :c:func:`PyArg_ParseTuple`,
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:c:func:`PyArg_ParseTupleAndKeywords`, and :c:func:`PyArg_Parse`, all use *format
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strings* which are used to tell the function about the expected arguments. The
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format strings use the same syntax for each of these functions.
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-----------------
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Parsing arguments
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-----------------
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A format string consists of zero or more "format units." A format unit
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describes one Python object; it is usually a single character or a parenthesized
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sequence of format units. With a few exceptions, a format unit that is not a
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parenthesized sequence normally corresponds to a single address argument to
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these functions. In the following description, the quoted form is the format
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unit; the entry in (round) parentheses is the Python object type that matches
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the format unit; and the entry in [square] brackets is the type of the C
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variable(s) whose address should be passed.
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.. _arg-parsing-string-and-buffers:
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Strings and buffers
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-------------------
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.. note::
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On Python 3.12 and older, the macro :c:macro:`!PY_SSIZE_T_CLEAN` must be
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defined before including :file:`Python.h` to use all ``#`` variants of
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formats (``s#``, ``y#``, etc.) explained below.
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This is not necessary on Python 3.13 and later.
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These formats allow accessing an object as a contiguous chunk of memory.
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You don't have to provide raw storage for the returned unicode or bytes
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area.
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Unless otherwise stated, buffers are not NUL-terminated.
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There are three ways strings and buffers can be converted to C:
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* Formats such as ``y*`` and ``s*`` fill a :c:type:`Py_buffer` structure.
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This locks the underlying buffer so that the caller can subsequently use
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the buffer even inside a :c:type:`Py_BEGIN_ALLOW_THREADS`
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block without the risk of mutable data being resized or destroyed.
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As a result, **you have to call** :c:func:`PyBuffer_Release` after you have
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finished processing the data (or in any early abort case).
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* The ``es``, ``es#``, ``et`` and ``et#`` formats allocate the result buffer.
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**You have to call** :c:func:`PyMem_Free` after you have finished
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processing the data (or in any early abort case).
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* .. _c-arg-borrowed-buffer:
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Other formats take a :class:`str` or a read-only :term:`bytes-like object`,
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such as :class:`bytes`, and provide a ``const char *`` pointer to
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its buffer.
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In this case the buffer is "borrowed": it is managed by the corresponding
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Python object, and shares the lifetime of this object.
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You won't have to release any memory yourself.
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To ensure that the underlying buffer may be safely borrowed, the object's
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:c:member:`PyBufferProcs.bf_releasebuffer` field must be ``NULL``.
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This disallows common mutable objects such as :class:`bytearray`,
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but also some read-only objects such as :class:`memoryview` of
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:class:`bytes`.
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Besides this ``bf_releasebuffer`` requirement, there is no check to verify
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whether the input object is immutable (e.g. whether it would honor a request
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for a writable buffer, or whether another thread can mutate the data).
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``s`` (:class:`str`) [const char \*]
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Convert a Unicode object to a C pointer to a character string.
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A pointer to an existing string is stored in the character pointer
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variable whose address you pass. The C string is NUL-terminated.
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The Python string must not contain embedded null code points; if it does,
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a :exc:`ValueError` exception is raised. Unicode objects are converted
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to C strings using ``'utf-8'`` encoding. If this conversion fails, a
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:exc:`UnicodeError` is raised.
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.. note::
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This format does not accept :term:`bytes-like objects
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<bytes-like object>`. If you want to accept
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filesystem paths and convert them to C character strings, it is
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preferable to use the ``O&`` format with :c:func:`PyUnicode_FSConverter`
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as *converter*.
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.. versionchanged:: 3.5
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Previously, :exc:`TypeError` was raised when embedded null code points
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were encountered in the Python string.
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``s*`` (:class:`str` or :term:`bytes-like object`) [Py_buffer]
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This format accepts Unicode objects as well as bytes-like objects.
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It fills a :c:type:`Py_buffer` structure provided by the caller.
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In this case the resulting C string may contain embedded NUL bytes.
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Unicode objects are converted to C strings using ``'utf-8'`` encoding.
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``s#`` (:class:`str`, read-only :term:`bytes-like object`) [const char \*, :c:type:`Py_ssize_t`]
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Like ``s*``, except that it provides a :ref:`borrowed buffer <c-arg-borrowed-buffer>`.
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The result is stored into two C variables,
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the first one a pointer to a C string, the second one its length.
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The string may contain embedded null bytes. Unicode objects are converted
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to C strings using ``'utf-8'`` encoding.
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``z`` (:class:`str` or ``None``) [const char \*]
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Like ``s``, but the Python object may also be ``None``, in which case the C
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pointer is set to ``NULL``.
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``z*`` (:class:`str`, :term:`bytes-like object` or ``None``) [Py_buffer]
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Like ``s*``, but the Python object may also be ``None``, in which case the
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``buf`` member of the :c:type:`Py_buffer` structure is set to ``NULL``.
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``z#`` (:class:`str`, read-only :term:`bytes-like object` or ``None``) [const char \*, :c:type:`Py_ssize_t`]
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Like ``s#``, but the Python object may also be ``None``, in which case the C
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pointer is set to ``NULL``.
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``y`` (read-only :term:`bytes-like object`) [const char \*]
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This format converts a bytes-like object to a C pointer to a
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:ref:`borrowed <c-arg-borrowed-buffer>` character string;
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it does not accept Unicode objects. The bytes buffer must not
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contain embedded null bytes; if it does, a :exc:`ValueError`
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exception is raised.
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.. versionchanged:: 3.5
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Previously, :exc:`TypeError` was raised when embedded null bytes were
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encountered in the bytes buffer.
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``y*`` (:term:`bytes-like object`) [Py_buffer]
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This variant on ``s*`` doesn't accept Unicode objects, only
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bytes-like objects. **This is the recommended way to accept
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binary data.**
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``y#`` (read-only :term:`bytes-like object`) [const char \*, :c:type:`Py_ssize_t`]
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This variant on ``s#`` doesn't accept Unicode objects, only bytes-like
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objects.
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``S`` (:class:`bytes`) [PyBytesObject \*]
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Requires that the Python object is a :class:`bytes` object, without
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attempting any conversion. Raises :exc:`TypeError` if the object is not
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a bytes object. The C variable may also be declared as :c:expr:`PyObject*`.
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``Y`` (:class:`bytearray`) [PyByteArrayObject \*]
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Requires that the Python object is a :class:`bytearray` object, without
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attempting any conversion. Raises :exc:`TypeError` if the object is not
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a :class:`bytearray` object. The C variable may also be declared as :c:expr:`PyObject*`.
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``U`` (:class:`str`) [PyObject \*]
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Requires that the Python object is a Unicode object, without attempting
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any conversion. Raises :exc:`TypeError` if the object is not a Unicode
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object. The C variable may also be declared as :c:expr:`PyObject*`.
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``w*`` (read-write :term:`bytes-like object`) [Py_buffer]
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This format accepts any object which implements the read-write buffer
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interface. It fills a :c:type:`Py_buffer` structure provided by the caller.
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The buffer may contain embedded null bytes. The caller have to call
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:c:func:`PyBuffer_Release` when it is done with the buffer.
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``es`` (:class:`str`) [const char \*encoding, char \*\*buffer]
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This variant on ``s`` is used for encoding Unicode into a character buffer.
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It only works for encoded data without embedded NUL bytes.
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This format requires two arguments. The first is only used as input, and
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must be a :c:expr:`const char*` which points to the name of an encoding as a
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NUL-terminated string, or ``NULL``, in which case ``'utf-8'`` encoding is used.
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An exception is raised if the named encoding is not known to Python. The
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second argument must be a :c:expr:`char**`; the value of the pointer it
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references will be set to a buffer with the contents of the argument text.
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The text will be encoded in the encoding specified by the first argument.
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:c:func:`PyArg_ParseTuple` will allocate a buffer of the needed size, copy the
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encoded data into this buffer and adjust *\*buffer* to reference the newly
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allocated storage. The caller is responsible for calling :c:func:`PyMem_Free` to
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free the allocated buffer after use.
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``et`` (:class:`str`, :class:`bytes` or :class:`bytearray`) [const char \*encoding, char \*\*buffer]
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Same as ``es`` except that byte string objects are passed through without
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recoding them. Instead, the implementation assumes that the byte string object uses
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the encoding passed in as parameter.
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``es#`` (:class:`str`) [const char \*encoding, char \*\*buffer, :c:type:`Py_ssize_t` \*buffer_length]
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This variant on ``s#`` is used for encoding Unicode into a character buffer.
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Unlike the ``es`` format, this variant allows input data which contains NUL
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characters.
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It requires three arguments. The first is only used as input, and must be a
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:c:expr:`const char*` which points to the name of an encoding as a
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NUL-terminated string, or ``NULL``, in which case ``'utf-8'`` encoding is used.
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An exception is raised if the named encoding is not known to Python. The
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second argument must be a :c:expr:`char**`; the value of the pointer it
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references will be set to a buffer with the contents of the argument text.
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The text will be encoded in the encoding specified by the first argument.
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The third argument must be a pointer to an integer; the referenced integer
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will be set to the number of bytes in the output buffer.
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There are two modes of operation:
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If *\*buffer* points a ``NULL`` pointer, the function will allocate a buffer of
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the needed size, copy the encoded data into this buffer and set *\*buffer* to
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reference the newly allocated storage. The caller is responsible for calling
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:c:func:`PyMem_Free` to free the allocated buffer after usage.
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If *\*buffer* points to a non-``NULL`` pointer (an already allocated buffer),
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:c:func:`PyArg_ParseTuple` will use this location as the buffer and interpret the
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initial value of *\*buffer_length* as the buffer size. It will then copy the
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encoded data into the buffer and NUL-terminate it. If the buffer is not large
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enough, a :exc:`ValueError` will be set.
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In both cases, *\*buffer_length* is set to the length of the encoded data
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without the trailing NUL byte.
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``et#`` (:class:`str`, :class:`bytes` or :class:`bytearray`) [const char \*encoding, char \*\*buffer, :c:type:`Py_ssize_t` \*buffer_length]
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Same as ``es#`` except that byte string objects are passed through without recoding
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them. Instead, the implementation assumes that the byte string object uses the
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encoding passed in as parameter.
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.. versionchanged:: 3.12
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``u``, ``u#``, ``Z``, and ``Z#`` are removed because they used a legacy
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``Py_UNICODE*`` representation.
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Numbers
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-------
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``b`` (:class:`int`) [unsigned char]
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Convert a nonnegative Python integer to an unsigned tiny int, stored in a C
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:c:expr:`unsigned char`.
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``B`` (:class:`int`) [unsigned char]
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Convert a Python integer to a tiny int without overflow checking, stored in a C
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:c:expr:`unsigned char`.
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``h`` (:class:`int`) [short int]
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Convert a Python integer to a C :c:expr:`short int`.
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``H`` (:class:`int`) [unsigned short int]
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Convert a Python integer to a C :c:expr:`unsigned short int`, without overflow
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checking.
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``i`` (:class:`int`) [int]
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Convert a Python integer to a plain C :c:expr:`int`.
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``I`` (:class:`int`) [unsigned int]
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Convert a Python integer to a C :c:expr:`unsigned int`, without overflow
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checking.
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``l`` (:class:`int`) [long int]
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Convert a Python integer to a C :c:expr:`long int`.
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``k`` (:class:`int`) [unsigned long]
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Convert a Python integer to a C :c:expr:`unsigned long` without
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overflow checking.
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``L`` (:class:`int`) [long long]
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Convert a Python integer to a C :c:expr:`long long`.
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``K`` (:class:`int`) [unsigned long long]
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Convert a Python integer to a C :c:expr:`unsigned long long`
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without overflow checking.
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``n`` (:class:`int`) [:c:type:`Py_ssize_t`]
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Convert a Python integer to a C :c:type:`Py_ssize_t`.
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``c`` (:class:`bytes` or :class:`bytearray` of length 1) [char]
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Convert a Python byte, represented as a :class:`bytes` or
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:class:`bytearray` object of length 1, to a C :c:expr:`char`.
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.. versionchanged:: 3.3
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Allow :class:`bytearray` objects.
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``C`` (:class:`str` of length 1) [int]
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Convert a Python character, represented as a :class:`str` object of
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length 1, to a C :c:expr:`int`.
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``f`` (:class:`float`) [float]
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Convert a Python floating-point number to a C :c:expr:`float`.
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``d`` (:class:`float`) [double]
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Convert a Python floating-point number to a C :c:expr:`double`.
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``D`` (:class:`complex`) [Py_complex]
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Convert a Python complex number to a C :c:type:`Py_complex` structure.
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Other objects
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-------------
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``O`` (object) [PyObject \*]
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Store a Python object (without any conversion) in a C object pointer. The C
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program thus receives the actual object that was passed. A new
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:term:`strong reference` to the object is not created
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(i.e. its reference count is not increased).
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The pointer stored is not ``NULL``.
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``O!`` (object) [*typeobject*, PyObject \*]
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Store a Python object in a C object pointer. This is similar to ``O``, but
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takes two C arguments: the first is the address of a Python type object, the
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second is the address of the C variable (of type :c:expr:`PyObject*`) into which
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the object pointer is stored. If the Python object does not have the required
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type, :exc:`TypeError` is raised.
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.. _o_ampersand:
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``O&`` (object) [*converter*, *anything*]
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Convert a Python object to a C variable through a *converter* function. This
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takes two arguments: the first is a function, the second is the address of a C
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variable (of arbitrary type), converted to :c:expr:`void *`. The *converter*
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function in turn is called as follows::
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status = converter(object, address);
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where *object* is the Python object to be converted and *address* is the
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:c:expr:`void*` argument that was passed to the ``PyArg_Parse*`` function.
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The returned *status* should be ``1`` for a successful conversion and ``0`` if
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the conversion has failed. When the conversion fails, the *converter* function
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should raise an exception and leave the content of *address* unmodified.
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If the *converter* returns ``Py_CLEANUP_SUPPORTED``, it may get called a
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second time if the argument parsing eventually fails, giving the converter a
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chance to release any memory that it had already allocated. In this second
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call, the *object* parameter will be ``NULL``; *address* will have the same value
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as in the original call.
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.. versionchanged:: 3.1
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``Py_CLEANUP_SUPPORTED`` was added.
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``p`` (:class:`bool`) [int]
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Tests the value passed in for truth (a boolean **p**\ redicate) and converts
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the result to its equivalent C true/false integer value.
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Sets the int to ``1`` if the expression was true and ``0`` if it was false.
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This accepts any valid Python value. See :ref:`truth` for more
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information about how Python tests values for truth.
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.. versionadded:: 3.3
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``(items)`` (:class:`tuple`) [*matching-items*]
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The object must be a Python sequence whose length is the number of format units
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in *items*. The C arguments must correspond to the individual format units in
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*items*. Format units for sequences may be nested.
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It is possible to pass "long" integers (integers whose value exceeds the
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platform's :c:macro:`LONG_MAX`) however no proper range checking is done --- the
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most significant bits are silently truncated when the receiving field is too
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small to receive the value (actually, the semantics are inherited from downcasts
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in C --- your mileage may vary).
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A few other characters have a meaning in a format string. These may not occur
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inside nested parentheses. They are:
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``|``
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Indicates that the remaining arguments in the Python argument list are optional.
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The C variables corresponding to optional arguments should be initialized to
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their default value --- when an optional argument is not specified,
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:c:func:`PyArg_ParseTuple` does not touch the contents of the corresponding C
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variable(s).
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``$``
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:c:func:`PyArg_ParseTupleAndKeywords` only:
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Indicates that the remaining arguments in the Python argument list are
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keyword-only. Currently, all keyword-only arguments must also be optional
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arguments, so ``|`` must always be specified before ``$`` in the format
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string.
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.. versionadded:: 3.3
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``:``
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The list of format units ends here; the string after the colon is used as the
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function name in error messages (the "associated value" of the exception that
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:c:func:`PyArg_ParseTuple` raises).
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``;``
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The list of format units ends here; the string after the semicolon is used as
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the error message *instead* of the default error message. ``:`` and ``;``
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mutually exclude each other.
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Note that any Python object references which are provided to the caller are
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*borrowed* references; do not release them
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(i.e. do not decrement their reference count)!
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Additional arguments passed to these functions must be addresses of variables
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whose type is determined by the format string; these are used to store values
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from the input tuple. There are a few cases, as described in the list of format
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units above, where these parameters are used as input values; they should match
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what is specified for the corresponding format unit in that case.
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For the conversion to succeed, the *arg* object must match the format
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and the format must be exhausted. On success, the
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``PyArg_Parse*`` functions return true, otherwise they return
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false and raise an appropriate exception. When the
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``PyArg_Parse*`` functions fail due to conversion failure in one
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of the format units, the variables at the addresses corresponding to that
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and the following format units are left untouched.
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API Functions
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-------------
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.. c:function:: int PyArg_ParseTuple(PyObject *args, const char *format, ...)
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Parse the parameters of a function that takes only positional parameters into
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local variables. Returns true on success; on failure, it returns false and
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raises the appropriate exception.
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.. c:function:: int PyArg_VaParse(PyObject *args, const char *format, va_list vargs)
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Identical to :c:func:`PyArg_ParseTuple`, except that it accepts a va_list rather
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than a variable number of arguments.
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.. c:function:: int PyArg_ParseTupleAndKeywords(PyObject *args, PyObject *kw, const char *format, char * const *keywords, ...)
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Parse the parameters of a function that takes both positional and keyword
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parameters into local variables.
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The *keywords* argument is a ``NULL``-terminated array of keyword parameter
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names specified as null-terminated ASCII or UTF-8 encoded C strings.
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Empty names denote
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:ref:`positional-only parameters <positional-only_parameter>`.
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Returns true on success; on failure, it returns false and raises the
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appropriate exception.
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.. note::
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The *keywords* parameter declaration is :c:expr:`char * const *` in C and
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:c:expr:`const char * const *` in C++.
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This can be overridden with the :c:macro:`PY_CXX_CONST` macro.
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.. versionchanged:: 3.6
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Added support for :ref:`positional-only parameters
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<positional-only_parameter>`.
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.. versionchanged:: 3.13
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The *keywords* parameter has now type :c:expr:`char * const *` in C and
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:c:expr:`const char * const *` in C++, instead of :c:expr:`char **`.
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Added support for non-ASCII keyword parameter names.
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.. c:function:: int PyArg_VaParseTupleAndKeywords(PyObject *args, PyObject *kw, const char *format, char * const *keywords, va_list vargs)
|
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|
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Identical to :c:func:`PyArg_ParseTupleAndKeywords`, except that it accepts a
|
|
va_list rather than a variable number of arguments.
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|
|
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.. c:function:: int PyArg_ValidateKeywordArguments(PyObject *)
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|
|
Ensure that the keys in the keywords argument dictionary are strings. This
|
|
is only needed if :c:func:`PyArg_ParseTupleAndKeywords` is not used, since the
|
|
latter already does this check.
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|
|
.. versionadded:: 3.2
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|
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.. c:function:: int PyArg_Parse(PyObject *args, const char *format, ...)
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|
|
Parse the parameter of a function that takes a single positional parameter
|
|
into a local variable. Returns true on success; on failure, it returns
|
|
false and raises the appropriate exception.
|
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|
|
Example::
|
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|
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// Function using METH_O calling convention
|
|
static PyObject*
|
|
my_function(PyObject *module, PyObject *arg)
|
|
{
|
|
int value;
|
|
if (!PyArg_Parse(arg, "i:my_function", &value)) {
|
|
return NULL;
|
|
}
|
|
// ... use value ...
|
|
}
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|
|
.. c:function:: int PyArg_UnpackTuple(PyObject *args, const char *name, Py_ssize_t min, Py_ssize_t max, ...)
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|
|
A simpler form of parameter retrieval which does not use a format string to
|
|
specify the types of the arguments. Functions which use this method to retrieve
|
|
their parameters should be declared as :c:macro:`METH_VARARGS` in function or
|
|
method tables. The tuple containing the actual parameters should be passed as
|
|
*args*; it must actually be a tuple. The length of the tuple must be at least
|
|
*min* and no more than *max*; *min* and *max* may be equal. Additional
|
|
arguments must be passed to the function, each of which should be a pointer to a
|
|
:c:expr:`PyObject*` variable; these will be filled in with the values from
|
|
*args*; they will contain :term:`borrowed references <borrowed reference>`.
|
|
The variables which correspond
|
|
to optional parameters not given by *args* will not be filled in; these should
|
|
be initialized by the caller. This function returns true on success and false if
|
|
*args* is not a tuple or contains the wrong number of elements; an exception
|
|
will be set if there was a failure.
|
|
|
|
This is an example of the use of this function, taken from the sources for the
|
|
:mod:`!_weakref` helper module for weak references::
|
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|
|
static PyObject *
|
|
weakref_ref(PyObject *self, PyObject *args)
|
|
{
|
|
PyObject *object;
|
|
PyObject *callback = NULL;
|
|
PyObject *result = NULL;
|
|
|
|
if (PyArg_UnpackTuple(args, "ref", 1, 2, &object, &callback)) {
|
|
result = PyWeakref_NewRef(object, callback);
|
|
}
|
|
return result;
|
|
}
|
|
|
|
The call to :c:func:`PyArg_UnpackTuple` in this example is entirely equivalent to
|
|
this call to :c:func:`PyArg_ParseTuple`::
|
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|
|
PyArg_ParseTuple(args, "O|O:ref", &object, &callback)
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|
|
.. c:macro:: PY_CXX_CONST
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|
|
The value to be inserted, if any, before :c:expr:`char * const *`
|
|
in the *keywords* parameter declaration of
|
|
:c:func:`PyArg_ParseTupleAndKeywords` and
|
|
:c:func:`PyArg_VaParseTupleAndKeywords`.
|
|
Default empty for C and ``const`` for C++
|
|
(:c:expr:`const char * const *`).
|
|
To override, define it to the desired value before including
|
|
:file:`Python.h`.
|
|
|
|
.. versionadded:: 3.13
|
|
|
|
|
|
---------------
|
|
Building values
|
|
---------------
|
|
|
|
.. c:function:: PyObject* Py_BuildValue(const char *format, ...)
|
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|
|
Create a new value based on a format string similar to those accepted by the
|
|
``PyArg_Parse*`` family of functions and a sequence of values. Returns
|
|
the value or ``NULL`` in the case of an error; an exception will be raised if
|
|
``NULL`` is returned.
|
|
|
|
:c:func:`Py_BuildValue` does not always build a tuple. It builds a tuple only if
|
|
its format string contains two or more format units. If the format string is
|
|
empty, it returns ``None``; if it contains exactly one format unit, it returns
|
|
whatever object is described by that format unit. To force it to return a tuple
|
|
of size 0 or one, parenthesize the format string.
|
|
|
|
When memory buffers are passed as parameters to supply data to build objects, as
|
|
for the ``s`` and ``s#`` formats, the required data is copied. Buffers provided
|
|
by the caller are never referenced by the objects created by
|
|
:c:func:`Py_BuildValue`. In other words, if your code invokes :c:func:`malloc`
|
|
and passes the allocated memory to :c:func:`Py_BuildValue`, your code is
|
|
responsible for calling :c:func:`free` for that memory once
|
|
:c:func:`Py_BuildValue` returns.
|
|
|
|
In the following description, the quoted form is the format unit; the entry in
|
|
(round) parentheses is the Python object type that the format unit will return;
|
|
and the entry in [square] brackets is the type of the C value(s) to be passed.
|
|
|
|
The characters space, tab, colon and comma are ignored in format strings (but
|
|
not within format units such as ``s#``). This can be used to make long format
|
|
strings a tad more readable.
|
|
|
|
``s`` (:class:`str` or ``None``) [const char \*]
|
|
Convert a null-terminated C string to a Python :class:`str` object using ``'utf-8'``
|
|
encoding. If the C string pointer is ``NULL``, ``None`` is used.
|
|
|
|
``s#`` (:class:`str` or ``None``) [const char \*, :c:type:`Py_ssize_t`]
|
|
Convert a C string and its length to a Python :class:`str` object using ``'utf-8'``
|
|
encoding. If the C string pointer is ``NULL``, the length is ignored and
|
|
``None`` is returned.
|
|
|
|
``y`` (:class:`bytes`) [const char \*]
|
|
This converts a C string to a Python :class:`bytes` object. If the C
|
|
string pointer is ``NULL``, ``None`` is returned.
|
|
|
|
``y#`` (:class:`bytes`) [const char \*, :c:type:`Py_ssize_t`]
|
|
This converts a C string and its lengths to a Python object. If the C
|
|
string pointer is ``NULL``, ``None`` is returned.
|
|
|
|
``z`` (:class:`str` or ``None``) [const char \*]
|
|
Same as ``s``.
|
|
|
|
``z#`` (:class:`str` or ``None``) [const char \*, :c:type:`Py_ssize_t`]
|
|
Same as ``s#``.
|
|
|
|
``u`` (:class:`str`) [const wchar_t \*]
|
|
Convert a null-terminated :c:type:`wchar_t` buffer of Unicode (UTF-16 or UCS-4)
|
|
data to a Python Unicode object. If the Unicode buffer pointer is ``NULL``,
|
|
``None`` is returned.
|
|
|
|
``u#`` (:class:`str`) [const wchar_t \*, :c:type:`Py_ssize_t`]
|
|
Convert a Unicode (UTF-16 or UCS-4) data buffer and its length to a Python
|
|
Unicode object. If the Unicode buffer pointer is ``NULL``, the length is ignored
|
|
and ``None`` is returned.
|
|
|
|
``U`` (:class:`str` or ``None``) [const char \*]
|
|
Same as ``s``.
|
|
|
|
``U#`` (:class:`str` or ``None``) [const char \*, :c:type:`Py_ssize_t`]
|
|
Same as ``s#``.
|
|
|
|
``i`` (:class:`int`) [int]
|
|
Convert a plain C :c:expr:`int` to a Python integer object.
|
|
|
|
``b`` (:class:`int`) [char]
|
|
Convert a plain C :c:expr:`char` to a Python integer object.
|
|
|
|
``h`` (:class:`int`) [short int]
|
|
Convert a plain C :c:expr:`short int` to a Python integer object.
|
|
|
|
``l`` (:class:`int`) [long int]
|
|
Convert a C :c:expr:`long int` to a Python integer object.
|
|
|
|
``B`` (:class:`int`) [unsigned char]
|
|
Convert a C :c:expr:`unsigned char` to a Python integer object.
|
|
|
|
``H`` (:class:`int`) [unsigned short int]
|
|
Convert a C :c:expr:`unsigned short int` to a Python integer object.
|
|
|
|
``I`` (:class:`int`) [unsigned int]
|
|
Convert a C :c:expr:`unsigned int` to a Python integer object.
|
|
|
|
``k`` (:class:`int`) [unsigned long]
|
|
Convert a C :c:expr:`unsigned long` to a Python integer object.
|
|
|
|
``L`` (:class:`int`) [long long]
|
|
Convert a C :c:expr:`long long` to a Python integer object.
|
|
|
|
``K`` (:class:`int`) [unsigned long long]
|
|
Convert a C :c:expr:`unsigned long long` to a Python integer object.
|
|
|
|
``n`` (:class:`int`) [:c:type:`Py_ssize_t`]
|
|
Convert a C :c:type:`Py_ssize_t` to a Python integer.
|
|
|
|
``c`` (:class:`bytes` of length 1) [char]
|
|
Convert a C :c:expr:`int` representing a byte to a Python :class:`bytes` object of
|
|
length 1.
|
|
|
|
``C`` (:class:`str` of length 1) [int]
|
|
Convert a C :c:expr:`int` representing a character to Python :class:`str`
|
|
object of length 1.
|
|
|
|
``d`` (:class:`float`) [double]
|
|
Convert a C :c:expr:`double` to a Python floating-point number.
|
|
|
|
``f`` (:class:`float`) [float]
|
|
Convert a C :c:expr:`float` to a Python floating-point number.
|
|
|
|
``D`` (:class:`complex`) [Py_complex \*]
|
|
Convert a C :c:type:`Py_complex` structure to a Python complex number.
|
|
|
|
``O`` (object) [PyObject \*]
|
|
Pass a Python object untouched but create a new
|
|
:term:`strong reference` to it
|
|
(i.e. its reference count is incremented by one).
|
|
If the object passed in is a ``NULL`` pointer, it is assumed
|
|
that this was caused because the call producing the argument found an error and
|
|
set an exception. Therefore, :c:func:`Py_BuildValue` will return ``NULL`` but won't
|
|
raise an exception. If no exception has been raised yet, :exc:`SystemError` is
|
|
set.
|
|
|
|
``S`` (object) [PyObject \*]
|
|
Same as ``O``.
|
|
|
|
``N`` (object) [PyObject \*]
|
|
Same as ``O``, except it doesn't create a new :term:`strong reference`.
|
|
Useful when the object is created by a call to an object constructor in the
|
|
argument list.
|
|
|
|
``O&`` (object) [*converter*, *anything*]
|
|
Convert *anything* to a Python object through a *converter* function. The
|
|
function is called with *anything* (which should be compatible with :c:expr:`void*`)
|
|
as its argument and should return a "new" Python object, or ``NULL`` if an
|
|
error occurred.
|
|
|
|
``(items)`` (:class:`tuple`) [*matching-items*]
|
|
Convert a sequence of C values to a Python tuple with the same number of items.
|
|
|
|
``[items]`` (:class:`list`) [*matching-items*]
|
|
Convert a sequence of C values to a Python list with the same number of items.
|
|
|
|
``{items}`` (:class:`dict`) [*matching-items*]
|
|
Convert a sequence of C values to a Python dictionary. Each pair of consecutive
|
|
C values adds one item to the dictionary, serving as key and value,
|
|
respectively.
|
|
|
|
If there is an error in the format string, the :exc:`SystemError` exception is
|
|
set and ``NULL`` returned.
|
|
|
|
.. c:function:: PyObject* Py_VaBuildValue(const char *format, va_list vargs)
|
|
|
|
Identical to :c:func:`Py_BuildValue`, except that it accepts a va_list
|
|
rather than a variable number of arguments.
|