5.5 Parsing arguments and building values
These functions are useful when creating your own extensions functions
and methods. Additional information and examples are available in
Extending and Embedding the Python
Interpreter.
The first three of these functions described,
PyArg_ParseTuple(),
PyArg_ParseTupleAndKeywords(), and
PyArg_Parse(), all use format strings which are
used to tell the function about the expected arguments. The format
strings use the same syntax for each of these functions.
A format string consists of zero or more ``format units.'' A format
unit describes one Python object; it is usually a single character or
a parenthesized sequence of format units. With a few exceptions, a
format unit that is not a parenthesized sequence normally corresponds
to a single address argument to these functions. In the following
description, the quoted form is the format unit; the entry in (round)
parentheses is the Python object type that matches the format unit;
and the entry in [square] brackets is the type of the C variable(s)
whose address should be passed.
- "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
NUL-terminated. The Python string must not contain embedded NUL
bytes; if it does, a TypeError exception is raised.
Unicode objects are converted to C strings using the default
encoding. If this conversion fails, a UnicodeError is
raised.
- "s#" (string, Unicode or any read buffer compatible object)
[char *, int]
- This variant on "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 pass back a pointer to the default encoded string version of
the object if such a conversion is possible. All other read-buffer
compatible objects pass back a reference to the raw internal data
representation.
- "z" (string or
None
) [char *]
- Like "s", but the Python object may also be
None
, in
which case the C pointer is set to NULL.
- "z#" (string or
None
or any read buffer
compatible object) [char *, int]
- This is to "s#" as "z" is to "s".
- "u" (Unicode object) [Py_UNICODE *]
- Convert a Python Unicode object to a C pointer to a NUL-terminated
buffer of 16-bit Unicode (UTF-16) data. As with "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.
- "u#" (Unicode object) [Py_UNICODE *, int]
- This variant on "u" stores into two C variables, the first one
a pointer to a Unicode data buffer, the second one its length.
Non-Unicode objects are handled by interpreting their read-buffer
pointer as pointer to a Py_UNICODE array.
- "es" (string, Unicode object or character buffer
compatible object) [const char *encoding, char **buffer]
- This variant on "s" is used for encoding Unicode and objects
convertible to Unicode into a character buffer. It only works for
encoded data without embedded NUL bytes.
This format requires two arguments. The first is only used as
input, and must be a char* which points to the name of an
encoding as a NUL-terminated string, or NULL, in which case the
default encoding is used. An exception is raised if the named
encoding is not known to Python. The second argument must be a
char**; the value of the pointer it references will be set
to a buffer with the contents of the argument text. The text will
be encoded in the encoding specified by the first argument.
PyArg_ParseTuple() will allocate a buffer of the needed
size, copy the encoded data into this buffer and adjust
*buffer to reference the newly allocated storage. The caller
is responsible for calling PyMem_Free() to free the
allocated buffer after use.
- "et" (string, Unicode object or character buffer
compatible object) [const char *encoding, char **buffer]
- Same as "es" except that 8-bit string objects are passed
through without recoding them. Instead, the implementation assumes
that the string object uses the encoding passed in as parameter.
- "es#" (string, Unicode object or character buffer compatible
object) [const char *encoding, char **buffer, int *buffer_length]
- This variant on "s#" is used for encoding Unicode and objects
convertible to Unicode into a character buffer. Unlike the
"es" format, this variant allows input data which contains NUL
characters.
It requires three arguments. The first is only used as input, and
must be a char* which points to the name of an encoding as a
NUL-terminated string, or NULL, in which case the default encoding
is used. An exception is raised if the named encoding is not known
to Python. The second argument must be a char**; the value
of the pointer it references will be set to a buffer with the
contents of the argument text. The text will be encoded in the
encoding specified by the first argument. The third argument must
be a pointer to an integer; the referenced integer will be set to
the number of bytes in the output buffer.
There are two modes of operation:
If *buffer points a NULL pointer, the function will
allocate a buffer of the needed size, copy the encoded data into
this buffer and set *buffer to reference the newly allocated
storage. The caller is responsible for calling
PyMem_Free() to free the allocated buffer after usage.
If *buffer points to a non-NULL pointer (an already
allocated buffer), PyArg_ParseTuple() will use this
location as the buffer and interpret the initial value of
*buffer_length as the buffer size. It will then copy the
encoded data into the buffer and NUL-terminate it. If the buffer
is not large enough, a ValueError will be set.
In both cases, *buffer_length is set to the length of the
encoded data without the trailing NUL byte.
- "et#" (string, Unicode object or character buffer compatible
object) [const char *encoding, char **buffer]
- Same as "es#" except that string objects are passed through
without recoding them. Instead, the implementation assumes that the
string object uses the encoding passed in as parameter.
- "b" (integer) [char]
- Convert a Python integer to a tiny int, stored in a C char.
- "B" (integer) [unsigned char]
- Convert a Python integer to a tiny int without overflow checking,
stored in a C unsigned char.
New in version 2.3.
- "h" (integer) [short int]
- Convert a Python integer to a C short int.
- "H" (integer) [unsigned short int]
- Convert a Python integer to a C unsigned short int, without
overflow checking.
New in version 2.3.
- "i" (integer) [int]
- Convert a Python integer to a plain C int.
- "I" (integer) [unsigned int]
- Convert a Python integer to a C unsigned int, without
overflow checking.
New in version 2.3.
- "l" (integer) [long int]
- Convert a Python integer to a C long int.
- "k" (integer) [unsigned long]
- Convert a Python integer to a C unsigned long without
overflow checking.
New in version 2.3.
- "L" (integer) [PY_LONG_LONG]
- Convert a Python integer to a C long long. This format is
only available on platforms that support long long (or
_int64 on Windows).
- "K" (integer) [unsigned PY_LONG_LONG]
- Convert a Python integer to a C unsigned long long
without overflow checking. This format is only available on
platforms that support unsigned long long (or
unsigned _int64 on Windows).
New in version 2.3.
- "c" (string of length 1) [char]
- Convert a Python character, represented as a string of length 1, to
a C char.
- "f" (float) [float]
- Convert a Python floating point number to a C float.
- "d" (float) [double]
- Convert a Python floating point number to a C double.
- "D" (complex) [Py_complex]
- Convert a Python complex number to a C Py_complex structure.
- "O" (object) [PyObject *]
- Store a Python object (without any conversion) in a C object
pointer. The C program thus receives the actual object that was
passed. The object's reference count is not increased. The pointer
stored is not NULL.
- "O!" (object) [typeobject, PyObject *]
- Store a Python object in a C object pointer. This is similar to
"O", but takes two C arguments: the first is the address of a
Python type object, the second is the address of the C variable (of
type PyObject*) into which the object pointer is stored. If
the Python object does not have the required type,
TypeError is raised.
- "O&" (object) [converter, anything]
- Convert a Python object to a C variable through a converter
function. This takes two arguments: the first is a function, the
second is the address of a C variable (of arbitrary type), converted
to void *. The converter function in turn is called
as follows:
status =
converter(
object,
address);
where object is the Python object to be converted and
address is the void* argument that was passed to the
PyArg_Parse*() function. The returned status
should be 1
for a successful conversion and 0
if the
conversion has failed. When the conversion fails, the
converter function should raise an exception.
- "S" (string) [PyStringObject *]
- Like "O" but requires that the Python object is a string
object. Raises TypeError if the object is not a string
object. The C variable may also be declared as PyObject*.
- "U" (Unicode string) [PyUnicodeObject *]
- Like "O" but requires that the Python object is a Unicode
object. Raises TypeError if the object is not a Unicode
object. The C variable may also be declared as PyObject*.
- "t#" (read-only character buffer) [char *, int]
- Like "s#", but accepts any object which implements the
read-only buffer interface. The char* variable is set to
point to the first byte of the buffer, and the int is set to
the length of the buffer. Only single-segment buffer objects are
accepted; TypeError is raised for all others.
- "w" (read-write character buffer) [char *]
- Similar to "s", but accepts any object which implements the
read-write buffer interface. The caller must determine the length
of the buffer by other means, or use "w#" instead. Only
single-segment buffer objects are accepted; TypeError is
raised for all others.
- "w#" (read-write character buffer) [char *, int]
- Like "s#", but accepts any object which implements the
read-write buffer interface. The char * variable is set to
point to the first byte of the buffer, and the int is set to
the length of the buffer. Only single-segment buffer objects are
accepted; TypeError is raised for all others.
- "(items)" (tuple) [matching-items]
- The object must be a Python sequence whose length is the number of
format units in items. The C arguments must correspond to the
individual format units in items. Format units for sequences
may be nested.
Note:
Prior to Python version 1.5.2, this format specifier only
accepted a tuple containing the individual parameters, not an
arbitrary sequence. Code which previously caused
TypeError to be raised here may now proceed without an
exception. This is not expected to be a problem for existing code.
It is possible to pass Python long integers where integers are
requested; however no proper range checking is done -- the most
significant bits are silently truncated when the receiving field is
too small to receive the value (actually, the semantics are inherited
from downcasts in C -- your mileage may vary).
A few other characters have a meaning in a format string. These may
not occur inside nested parentheses. They are:
- "|"
- Indicates that the remaining arguments in the Python argument list
are optional. The C variables corresponding to optional arguments
should be initialized to their default value -- when an optional
argument is not specified, PyArg_ParseTuple() does not
touch the contents of the corresponding C variable(s).
- ":"
- The list of format units ends here; the string after the colon is
used as the function name in error messages (the ``associated
value'' of the exception that PyArg_ParseTuple()
raises).
- ";"
- The list of format units ends here; the string after the semicolon
is used as the error message instead of the default error
message. Clearly, ":" and ";" mutually exclude each
other.
Note that any Python object references which are provided to the
caller are borrowed references; do not decrement their
reference count!
Additional arguments passed to these functions must be addresses of
variables whose type is determined by the format string; these are
used to store values from the input tuple. There are a few cases, as
described in the list of format units above, where these parameters
are used as input values; they should match what is specified for the
corresponding format unit in that case.
For the conversion to succeed, the arg object must match the
format and the format must be exhausted. On success, the
PyArg_Parse*() functions return true, otherwise they
return false and raise an appropriate exception.
-
-
Parse the parameters of a function that takes only positional
parameters into local variables. Returns true on success; on
failure, it returns false and raises the appropriate exception.
-
-
Parse the parameters of a function that takes both positional and
keyword parameters into local variables. Returns true on success;
on failure, it returns false and raises the appropriate exception.
-
-
Function used to deconstruct the argument lists of ``old-style''
functions -- these are functions which use the
METH_OLDARGS parameter parsing method. This is not
recommended for use in parameter parsing in new code, and most code
in the standard interpreter has been modified to no longer use this
for that purpose. It does remain a convenient way to decompose
other tuples, however, and may continue to be used for that
purpose.
-
-
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
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 PyObject* variable; these
will be filled in with the values from args; they will contain
borrowed references. 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 _weakref helper module for weak references:
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 PyArg_UnpackTuple() in this example is
entirely equivalent to this call to PyArg_ParseTuple():
PyArg_ParseTuple(args, "O|O:ref", &object, &callback)
New in version 2.2.
-
-
Return value:
New reference.
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.
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 Py_BuildValue(). In other
words, if your code invokes malloc() and passes the
allocated memory to Py_BuildValue(), your code is
responsible for calling free() for that memory once
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" (string) [char *]
- Convert a null-terminated C string to a Python object. If the C
string pointer is NULL,
None
is used.
- "s#" (string) [char *, int]
- Convert a C string and its length to a Python object. If the C
string pointer is NULL, the length is ignored and
None
is
returned.
- "z" (string or
None
) [char *]
- Same as "s".
- "z#" (string or
None
) [char *, int]
- Same as "s#".
- "u" (Unicode string) [Py_UNICODE *]
- Convert a null-terminated buffer of Unicode (UCS-2) data to a
Python Unicode object. If the Unicode buffer pointer is NULL,
None
is returned.
- "u#" (Unicode string) [Py_UNICODE *, int]
- Convert a Unicode (UCS-2) 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.
- "i" (integer) [int]
- Convert a plain C int to a Python integer object.
- "b" (integer) [char]
- Same as "i".
- "h" (integer) [short int]
- Same as "i".
- "l" (integer) [long int]
- Convert a C long int to a Python integer object.
- "c" (string of length 1) [char]
- Convert a C int representing a character to a Python
string of length 1.
- "d" (float) [double]
- Convert a C double to a Python floating point number.
- "f" (float) [float]
- Same as "d".
- "D" (complex) [Py_complex *]
- Convert a C Py_complex structure to a Python complex
number.
- "O" (object) [PyObject *]
- Pass a Python object untouched (except for its reference count,
which 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, Py_BuildValue() will return NULL but
won't raise an exception. If no exception has been raised yet,
SystemError is set.
- "S" (object) [PyObject *]
- Same as "O".
- "U" (object) [PyObject *]
- Same as "O".
- "N" (object) [PyObject *]
- Same as "O", except it doesn't increment the reference count
on the object. 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 void *) as
its argument and should return a ``new'' Python object, or NULL
if an error occurred.
- "(items)" (tuple) [matching-items]
- Convert a sequence of C values to a Python tuple with the same
number of items.
- "[items]" (list) [matching-items]
- Convert a sequence of C values to a Python list with the same
number of items.
- "{items}" (dictionary) [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
SystemError exception is set and NULL returned.
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