1239 lines
51 KiB
ReStructuredText
1239 lines
51 KiB
ReStructuredText
.. highlightlang:: c
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.. _type-structs:
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Type Objects
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============
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Perhaps one of the most important structures of the Python object system is the
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structure that defines a new type: the :ctype:`PyTypeObject` structure. Type
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objects can be handled using any of the :cfunc:`PyObject_\*` or
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:cfunc:`PyType_\*` functions, but do not offer much that's interesting to most
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Python applications. These objects are fundamental to how objects behave, so
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they are very important to the interpreter itself and to any extension module
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that implements new types.
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Type objects are fairly large compared to most of the standard types. The reason
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for the size is that each type object stores a large number of values, mostly C
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function pointers, each of which implements a small part of the type's
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functionality. The fields of the type object are examined in detail in this
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section. The fields will be described in the order in which they occur in the
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structure.
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Typedefs: unaryfunc, binaryfunc, ternaryfunc, inquiry, intargfunc,
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intintargfunc, intobjargproc, intintobjargproc, objobjargproc, destructor,
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freefunc, printfunc, getattrfunc, getattrofunc, setattrfunc, setattrofunc,
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reprfunc, hashfunc
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The structure definition for :ctype:`PyTypeObject` can be found in
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:file:`Include/object.h`. For convenience of reference, this repeats the
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definition found there:
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.. literalinclude:: ../includes/typestruct.h
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The type object structure extends the :ctype:`PyVarObject` structure. The
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:attr:`ob_size` field is used for dynamic types (created by :func:`type_new`,
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usually called from a class statement). Note that :cdata:`PyType_Type` (the
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metatype) initializes :attr:`tp_itemsize`, which means that its instances (i.e.
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type objects) *must* have the :attr:`ob_size` field.
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.. cmember:: PyObject* PyObject._ob_next
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PyObject* PyObject._ob_prev
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These fields are only present when the macro ``Py_TRACE_REFS`` is defined.
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Their initialization to *NULL* is taken care of by the ``PyObject_HEAD_INIT``
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macro. For statically allocated objects, these fields always remain *NULL*.
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For dynamically allocated objects, these two fields are used to link the object
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into a doubly-linked list of *all* live objects on the heap. This could be used
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for various debugging purposes; currently the only use is to print the objects
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that are still alive at the end of a run when the environment variable
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:envvar:`PYTHONDUMPREFS` is set.
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These fields are not inherited by subtypes.
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.. cmember:: Py_ssize_t PyObject.ob_refcnt
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This is the type object's reference count, initialized to ``1`` by the
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``PyObject_HEAD_INIT`` macro. Note that for statically allocated type objects,
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the type's instances (objects whose :attr:`ob_type` points back to the type) do
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*not* count as references. But for dynamically allocated type objects, the
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instances *do* count as references.
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This field is not inherited by subtypes.
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.. cmember:: PyTypeObject* PyObject.ob_type
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This is the type's type, in other words its metatype. It is initialized by the
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argument to the ``PyObject_HEAD_INIT`` macro, and its value should normally be
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``&PyType_Type``. However, for dynamically loadable extension modules that must
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be usable on Windows (at least), the compiler complains that this is not a valid
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initializer. Therefore, the convention is to pass *NULL* to the
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``PyObject_HEAD_INIT`` macro and to initialize this field explicitly at the
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start of the module's initialization function, before doing anything else. This
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is typically done like this::
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Foo_Type.ob_type = &PyType_Type;
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This should be done before any instances of the type are created.
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:cfunc:`PyType_Ready` checks if :attr:`ob_type` is *NULL*, and if so,
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initializes it to the :attr:`ob_type` field of the base class.
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:cfunc:`PyType_Ready` will not change this field if it is non-zero.
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This field is inherited by subtypes.
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.. cmember:: Py_ssize_t PyVarObject.ob_size
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For statically allocated type objects, this should be initialized to zero. For
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dynamically allocated type objects, this field has a special internal meaning.
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This field is not inherited by subtypes.
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.. cmember:: char* PyTypeObject.tp_name
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Pointer to a NUL-terminated string containing the name of the type. For types
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that are accessible as module globals, the string should be the full module
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name, followed by a dot, followed by the type name; for built-in types, it
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should be just the type name. If the module is a submodule of a package, the
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full package name is part of the full module name. For example, a type named
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:class:`T` defined in module :mod:`M` in subpackage :mod:`Q` in package :mod:`P`
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should have the :attr:`tp_name` initializer ``"P.Q.M.T"``.
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For dynamically allocated type objects, this should just be the type name, and
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the module name explicitly stored in the type dict as the value for key
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``'__module__'``.
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For statically allocated type objects, the tp_name field should contain a dot.
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Everything before the last dot is made accessible as the :attr:`__module__`
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attribute, and everything after the last dot is made accessible as the
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:attr:`__name__` attribute.
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If no dot is present, the entire :attr:`tp_name` field is made accessible as the
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:attr:`__name__` attribute, and the :attr:`__module__` attribute is undefined
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(unless explicitly set in the dictionary, as explained above). This means your
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type will be impossible to pickle.
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This field is not inherited by subtypes.
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.. cmember:: Py_ssize_t PyTypeObject.tp_basicsize
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Py_ssize_t PyTypeObject.tp_itemsize
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These fields allow calculating the size in bytes of instances of the type.
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There are two kinds of types: types with fixed-length instances have a zero
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:attr:`tp_itemsize` field, types with variable-length instances have a non-zero
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:attr:`tp_itemsize` field. For a type with fixed-length instances, all
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instances have the same size, given in :attr:`tp_basicsize`.
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For a type with variable-length instances, the instances must have an
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:attr:`ob_size` field, and the instance size is :attr:`tp_basicsize` plus N
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times :attr:`tp_itemsize`, where N is the "length" of the object. The value of
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N is typically stored in the instance's :attr:`ob_size` field. There are
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exceptions: for example, ints use a negative :attr:`ob_size` to indicate a
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negative number, and N is ``abs(ob_size)`` there. Also, the presence of an
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:attr:`ob_size` field in the instance layout doesn't mean that the instance
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structure is variable-length (for example, the structure for the list type has
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fixed-length instances, yet those instances have a meaningful :attr:`ob_size`
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field).
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The basic size includes the fields in the instance declared by the macro
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:cmacro:`PyObject_HEAD` or :cmacro:`PyObject_VAR_HEAD` (whichever is used to
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declare the instance struct) and this in turn includes the :attr:`_ob_prev` and
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:attr:`_ob_next` fields if they are present. This means that the only correct
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way to get an initializer for the :attr:`tp_basicsize` is to use the
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``sizeof`` operator on the struct used to declare the instance layout.
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The basic size does not include the GC header size.
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These fields are inherited separately by subtypes. If the base type has a
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non-zero :attr:`tp_itemsize`, it is generally not safe to set
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:attr:`tp_itemsize` to a different non-zero value in a subtype (though this
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depends on the implementation of the base type).
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A note about alignment: if the variable items require a particular alignment,
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this should be taken care of by the value of :attr:`tp_basicsize`. Example:
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suppose a type implements an array of ``double``. :attr:`tp_itemsize` is
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``sizeof(double)``. It is the programmer's responsibility that
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:attr:`tp_basicsize` is a multiple of ``sizeof(double)`` (assuming this is the
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alignment requirement for ``double``).
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.. cmember:: destructor PyTypeObject.tp_dealloc
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A pointer to the instance destructor function. This function must be defined
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unless the type guarantees that its instances will never be deallocated (as is
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the case for the singletons ``None`` and ``Ellipsis``).
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The destructor function is called by the :cfunc:`Py_DECREF` and
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:cfunc:`Py_XDECREF` macros when the new reference count is zero. At this point,
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the instance is still in existence, but there are no references to it. The
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destructor function should free all references which the instance owns, free all
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memory buffers owned by the instance (using the freeing function corresponding
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to the allocation function used to allocate the buffer), and finally (as its
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last action) call the type's :attr:`tp_free` function. If the type is not
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subtypable (doesn't have the :const:`Py_TPFLAGS_BASETYPE` flag bit set), it is
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permissible to call the object deallocator directly instead of via
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:attr:`tp_free`. The object deallocator should be the one used to allocate the
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instance; this is normally :cfunc:`PyObject_Del` if the instance was allocated
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using :cfunc:`PyObject_New` or :cfunc:`PyObject_VarNew`, or
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:cfunc:`PyObject_GC_Del` if the instance was allocated using
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:cfunc:`PyObject_GC_New` or :cfunc:`PyObject_GC_NewVar`.
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This field is inherited by subtypes.
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.. cmember:: printfunc PyTypeObject.tp_print
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An optional pointer to the instance print function.
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The print function is only called when the instance is printed to a *real* file;
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when it is printed to a pseudo-file (like a :class:`StringIO` instance), the
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instance's :attr:`tp_repr` or :attr:`tp_str` function is called to convert it to
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a string. These are also called when the type's :attr:`tp_print` field is
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*NULL*. A type should never implement :attr:`tp_print` in a way that produces
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different output than :attr:`tp_repr` or :attr:`tp_str` would.
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The print function is called with the same signature as :cfunc:`PyObject_Print`:
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``int tp_print(PyObject *self, FILE *file, int flags)``. The *self* argument is
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the instance to be printed. The *file* argument is the stdio file to which it
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is to be printed. The *flags* argument is composed of flag bits. The only flag
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bit currently defined is :const:`Py_PRINT_RAW`. When the :const:`Py_PRINT_RAW`
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flag bit is set, the instance should be printed the same way as :attr:`tp_str`
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would format it; when the :const:`Py_PRINT_RAW` flag bit is clear, the instance
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should be printed the same was as :attr:`tp_repr` would format it. It should
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return ``-1`` and set an exception condition when an error occurred during the
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comparison.
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It is possible that the :attr:`tp_print` field will be deprecated. In any case,
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it is recommended not to define :attr:`tp_print`, but instead to rely on
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:attr:`tp_repr` and :attr:`tp_str` for printing.
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This field is inherited by subtypes.
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.. cmember:: getattrfunc PyTypeObject.tp_getattr
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An optional pointer to the get-attribute-string function.
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This field is deprecated. When it is defined, it should point to a function
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that acts the same as the :attr:`tp_getattro` function, but taking a C string
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instead of a Python string object to give the attribute name. The signature is
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the same as for :cfunc:`PyObject_GetAttrString`.
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This field is inherited by subtypes together with :attr:`tp_getattro`: a subtype
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inherits both :attr:`tp_getattr` and :attr:`tp_getattro` from its base type when
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the subtype's :attr:`tp_getattr` and :attr:`tp_getattro` are both *NULL*.
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.. cmember:: setattrfunc PyTypeObject.tp_setattr
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An optional pointer to the set-attribute-string function.
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This field is deprecated. When it is defined, it should point to a function
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that acts the same as the :attr:`tp_setattro` function, but taking a C string
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instead of a Python string object to give the attribute name. The signature is
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the same as for :cfunc:`PyObject_SetAttrString`.
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This field is inherited by subtypes together with :attr:`tp_setattro`: a subtype
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inherits both :attr:`tp_setattr` and :attr:`tp_setattro` from its base type when
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the subtype's :attr:`tp_setattr` and :attr:`tp_setattro` are both *NULL*.
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.. cmember:: void* PyTypeObject.tp_reserved
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Reserved slot, formerly known as tp_compare.
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.. cmember:: reprfunc PyTypeObject.tp_repr
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.. index:: builtin: repr
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An optional pointer to a function that implements the built-in function
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:func:`repr`.
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The signature is the same as for :cfunc:`PyObject_Repr`; it must return a string
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or a Unicode object. Ideally, this function should return a string that, when
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passed to :func:`eval`, given a suitable environment, returns an object with the
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same value. If this is not feasible, it should return a string starting with
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``'<'`` and ending with ``'>'`` from which both the type and the value of the
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object can be deduced.
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When this field is not set, a string of the form ``<%s object at %p>`` is
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returned, where ``%s`` is replaced by the type name, and ``%p`` by the object's
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memory address.
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This field is inherited by subtypes.
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.. cmember:: PyNumberMethods* tp_as_number
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Pointer to an additional structure that contains fields relevant only to
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objects which implement the number protocol. These fields are documented in
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:ref:`number-structs`.
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The :attr:`tp_as_number` field is not inherited, but the contained fields are
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inherited individually.
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.. cmember:: PySequenceMethods* tp_as_sequence
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Pointer to an additional structure that contains fields relevant only to
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objects which implement the sequence protocol. These fields are documented
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in :ref:`sequence-structs`.
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The :attr:`tp_as_sequence` field is not inherited, but the contained fields
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are inherited individually.
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.. cmember:: PyMappingMethods* tp_as_mapping
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Pointer to an additional structure that contains fields relevant only to
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objects which implement the mapping protocol. These fields are documented in
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:ref:`mapping-structs`.
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The :attr:`tp_as_mapping` field is not inherited, but the contained fields
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are inherited individually.
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.. cmember:: hashfunc PyTypeObject.tp_hash
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.. index:: builtin: hash
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An optional pointer to a function that implements the built-in function
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:func:`hash`.
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The signature is the same as for :cfunc:`PyObject_Hash`; it must return a C
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long. The value ``-1`` should not be returned as a normal return value; when an
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error occurs during the computation of the hash value, the function should set
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an exception and return ``-1``.
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This field can be set explicitly to :cfunc:`PyObject_HashNotImplemented` to
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block inheritance of the hash method from a parent type. This is interpreted
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as the equivalent of ``__hash__ = None`` at the Python level, causing
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``isinstance(o, collections.Hashable)`` to correctly return ``False``. Note
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that the converse is also true - setting ``__hash__ = None`` on a class at
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the Python level will result in the ``tp_hash`` slot being set to
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:cfunc:`PyObject_HashNotImplemented`.
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When this field is not set, an attempt to take the hash of the
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object raises :exc:`TypeError`.
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This field is inherited by subtypes together with
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:attr:`tp_richcompare`: a subtype inherits both of
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:attr:`tp_richcompare` and :attr:`tp_hash`, when the subtype's
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:attr:`tp_richcompare` and :attr:`tp_hash` are both *NULL*.
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.. cmember:: ternaryfunc PyTypeObject.tp_call
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An optional pointer to a function that implements calling the object. This
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should be *NULL* if the object is not callable. The signature is the same as
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for :cfunc:`PyObject_Call`.
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This field is inherited by subtypes.
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.. cmember:: reprfunc PyTypeObject.tp_str
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An optional pointer to a function that implements the built-in operation
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:func:`str`. (Note that :class:`str` is a type now, and :func:`str` calls the
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constructor for that type. This constructor calls :cfunc:`PyObject_Str` to do
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the actual work, and :cfunc:`PyObject_Str` will call this handler.)
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The signature is the same as for :cfunc:`PyObject_Str`; it must return a string
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or a Unicode object. This function should return a "friendly" string
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representation of the object, as this is the representation that will be used,
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among other things, by the :func:`print` function.
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When this field is not set, :cfunc:`PyObject_Repr` is called to return a string
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representation.
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This field is inherited by subtypes.
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.. cmember:: getattrofunc PyTypeObject.tp_getattro
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An optional pointer to the get-attribute function.
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The signature is the same as for :cfunc:`PyObject_GetAttr`. It is usually
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convenient to set this field to :cfunc:`PyObject_GenericGetAttr`, which
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implements the normal way of looking for object attributes.
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This field is inherited by subtypes together with :attr:`tp_getattr`: a subtype
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inherits both :attr:`tp_getattr` and :attr:`tp_getattro` from its base type when
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the subtype's :attr:`tp_getattr` and :attr:`tp_getattro` are both *NULL*.
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.. cmember:: setattrofunc PyTypeObject.tp_setattro
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An optional pointer to the set-attribute function.
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The signature is the same as for :cfunc:`PyObject_SetAttr`. It is usually
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convenient to set this field to :cfunc:`PyObject_GenericSetAttr`, which
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implements the normal way of setting object attributes.
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This field is inherited by subtypes together with :attr:`tp_setattr`: a subtype
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inherits both :attr:`tp_setattr` and :attr:`tp_setattro` from its base type when
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the subtype's :attr:`tp_setattr` and :attr:`tp_setattro` are both *NULL*.
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.. cmember:: PyBufferProcs* PyTypeObject.tp_as_buffer
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Pointer to an additional structure that contains fields relevant only to objects
|
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which implement the buffer interface. These fields are documented in
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:ref:`buffer-structs`.
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The :attr:`tp_as_buffer` field is not inherited, but the contained fields are
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inherited individually.
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.. cmember:: long PyTypeObject.tp_flags
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This field is a bit mask of various flags. Some flags indicate variant
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semantics for certain situations; others are used to indicate that certain
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fields in the type object (or in the extension structures referenced via
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:attr:`tp_as_number`, :attr:`tp_as_sequence`, :attr:`tp_as_mapping`, and
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:attr:`tp_as_buffer`) that were historically not always present are valid; if
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such a flag bit is clear, the type fields it guards must not be accessed and
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must be considered to have a zero or *NULL* value instead.
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Inheritance of this field is complicated. Most flag bits are inherited
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individually, i.e. if the base type has a flag bit set, the subtype inherits
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this flag bit. The flag bits that pertain to extension structures are strictly
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inherited if the extension structure is inherited, i.e. the base type's value of
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the flag bit is copied into the subtype together with a pointer to the extension
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structure. The :const:`Py_TPFLAGS_HAVE_GC` flag bit is inherited together with
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the :attr:`tp_traverse` and :attr:`tp_clear` fields, i.e. if the
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:const:`Py_TPFLAGS_HAVE_GC` flag bit is clear in the subtype and the
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:attr:`tp_traverse` and :attr:`tp_clear` fields in the subtype exist and have
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*NULL* values.
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The following bit masks are currently defined; these can be ORed together using
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the ``|`` operator to form the value of the :attr:`tp_flags` field. The macro
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:cfunc:`PyType_HasFeature` takes a type and a flags value, *tp* and *f*, and
|
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checks whether ``tp->tp_flags & f`` is non-zero.
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.. data:: Py_TPFLAGS_HEAPTYPE
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This bit is set when the type object itself is allocated on the heap. In this
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case, the :attr:`ob_type` field of its instances is considered a reference to
|
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the type, and the type object is INCREF'ed when a new instance is created, and
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DECREF'ed when an instance is destroyed (this does not apply to instances of
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subtypes; only the type referenced by the instance's ob_type gets INCREF'ed or
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DECREF'ed).
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.. data:: Py_TPFLAGS_BASETYPE
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This bit is set when the type can be used as the base type of another type. If
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this bit is clear, the type cannot be subtyped (similar to a "final" class in
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Java).
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.. data:: Py_TPFLAGS_READY
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This bit is set when the type object has been fully initialized by
|
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:cfunc:`PyType_Ready`.
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|
|
|
|
|
.. data:: Py_TPFLAGS_READYING
|
|
|
|
This bit is set while :cfunc:`PyType_Ready` is in the process of initializing
|
|
the type object.
|
|
|
|
|
|
.. data:: Py_TPFLAGS_HAVE_GC
|
|
|
|
This bit is set when the object supports garbage collection. If this bit
|
|
is set, instances must be created using :cfunc:`PyObject_GC_New` and
|
|
destroyed using :cfunc:`PyObject_GC_Del`. More information in section
|
|
:ref:`supporting-cycle-detection`. This bit also implies that the
|
|
GC-related fields :attr:`tp_traverse` and :attr:`tp_clear` are present in
|
|
the type object.
|
|
|
|
|
|
.. data:: Py_TPFLAGS_DEFAULT
|
|
|
|
This is a bitmask of all the bits that pertain to the existence of certain
|
|
fields in the type object and its extension structures. Currently, it includes
|
|
the following bits: :const:`Py_TPFLAGS_HAVE_STACKLESS_EXTENSION`,
|
|
:const:`Py_TPFLAGS_HAVE_VERSION_TAG`.
|
|
|
|
|
|
.. cmember:: char* PyTypeObject.tp_doc
|
|
|
|
An optional pointer to a NUL-terminated C string giving the docstring for this
|
|
type object. This is exposed as the :attr:`__doc__` attribute on the type and
|
|
instances of the type.
|
|
|
|
This field is *not* inherited by subtypes.
|
|
|
|
|
|
.. cmember:: traverseproc PyTypeObject.tp_traverse
|
|
|
|
An optional pointer to a traversal function for the garbage collector. This is
|
|
only used if the :const:`Py_TPFLAGS_HAVE_GC` flag bit is set. More information
|
|
about Python's garbage collection scheme can be found in section
|
|
:ref:`supporting-cycle-detection`.
|
|
|
|
The :attr:`tp_traverse` pointer is used by the garbage collector to detect
|
|
reference cycles. A typical implementation of a :attr:`tp_traverse` function
|
|
simply calls :cfunc:`Py_VISIT` on each of the instance's members that are Python
|
|
objects. For example, this is function :cfunc:`local_traverse` from the
|
|
:mod:`_thread` extension module::
|
|
|
|
static int
|
|
local_traverse(localobject *self, visitproc visit, void *arg)
|
|
{
|
|
Py_VISIT(self->args);
|
|
Py_VISIT(self->kw);
|
|
Py_VISIT(self->dict);
|
|
return 0;
|
|
}
|
|
|
|
Note that :cfunc:`Py_VISIT` is called only on those members that can participate
|
|
in reference cycles. Although there is also a ``self->key`` member, it can only
|
|
be *NULL* or a Python string and therefore cannot be part of a reference cycle.
|
|
|
|
On the other hand, even if you know a member can never be part of a cycle, as a
|
|
debugging aid you may want to visit it anyway just so the :mod:`gc` module's
|
|
:func:`get_referents` function will include it.
|
|
|
|
Note that :cfunc:`Py_VISIT` requires the *visit* and *arg* parameters to
|
|
:cfunc:`local_traverse` to have these specific names; don't name them just
|
|
anything.
|
|
|
|
This field is inherited by subtypes together with :attr:`tp_clear` and the
|
|
:const:`Py_TPFLAGS_HAVE_GC` flag bit: the flag bit, :attr:`tp_traverse`, and
|
|
:attr:`tp_clear` are all inherited from the base type if they are all zero in
|
|
the subtype.
|
|
|
|
|
|
.. cmember:: inquiry PyTypeObject.tp_clear
|
|
|
|
An optional pointer to a clear function for the garbage collector. This is only
|
|
used if the :const:`Py_TPFLAGS_HAVE_GC` flag bit is set.
|
|
|
|
The :attr:`tp_clear` member function is used to break reference cycles in cyclic
|
|
garbage detected by the garbage collector. Taken together, all :attr:`tp_clear`
|
|
functions in the system must combine to break all reference cycles. This is
|
|
subtle, and if in any doubt supply a :attr:`tp_clear` function. For example,
|
|
the tuple type does not implement a :attr:`tp_clear` function, because it's
|
|
possible to prove that no reference cycle can be composed entirely of tuples.
|
|
Therefore the :attr:`tp_clear` functions of other types must be sufficient to
|
|
break any cycle containing a tuple. This isn't immediately obvious, and there's
|
|
rarely a good reason to avoid implementing :attr:`tp_clear`.
|
|
|
|
Implementations of :attr:`tp_clear` should drop the instance's references to
|
|
those of its members that may be Python objects, and set its pointers to those
|
|
members to *NULL*, as in the following example::
|
|
|
|
static int
|
|
local_clear(localobject *self)
|
|
{
|
|
Py_CLEAR(self->key);
|
|
Py_CLEAR(self->args);
|
|
Py_CLEAR(self->kw);
|
|
Py_CLEAR(self->dict);
|
|
return 0;
|
|
}
|
|
|
|
The :cfunc:`Py_CLEAR` macro should be used, because clearing references is
|
|
delicate: the reference to the contained object must not be decremented until
|
|
after the pointer to the contained object is set to *NULL*. This is because
|
|
decrementing the reference count may cause the contained object to become trash,
|
|
triggering a chain of reclamation activity that may include invoking arbitrary
|
|
Python code (due to finalizers, or weakref callbacks, associated with the
|
|
contained object). If it's possible for such code to reference *self* again,
|
|
it's important that the pointer to the contained object be *NULL* at that time,
|
|
so that *self* knows the contained object can no longer be used. The
|
|
:cfunc:`Py_CLEAR` macro performs the operations in a safe order.
|
|
|
|
Because the goal of :attr:`tp_clear` functions is to break reference cycles,
|
|
it's not necessary to clear contained objects like Python strings or Python
|
|
integers, which can't participate in reference cycles. On the other hand, it may
|
|
be convenient to clear all contained Python objects, and write the type's
|
|
:attr:`tp_dealloc` function to invoke :attr:`tp_clear`.
|
|
|
|
More information about Python's garbage collection scheme can be found in
|
|
section :ref:`supporting-cycle-detection`.
|
|
|
|
This field is inherited by subtypes together with :attr:`tp_traverse` and the
|
|
:const:`Py_TPFLAGS_HAVE_GC` flag bit: the flag bit, :attr:`tp_traverse`, and
|
|
:attr:`tp_clear` are all inherited from the base type if they are all zero in
|
|
the subtype.
|
|
|
|
|
|
.. cmember:: richcmpfunc PyTypeObject.tp_richcompare
|
|
|
|
An optional pointer to the rich comparison function, whose signature is
|
|
``PyObject *tp_richcompare(PyObject *a, PyObject *b, int op)``.
|
|
|
|
The function should return the result of the comparison (usually ``Py_True``
|
|
or ``Py_False``). If the comparison is undefined, it must return
|
|
``Py_NotImplemented``, if another error occurred it must return ``NULL`` and
|
|
set an exception condition.
|
|
|
|
.. note::
|
|
|
|
If you want to implement a type for which only a limited set of
|
|
comparisons makes sense (e.g. ``==`` and ``!=``, but not ``<`` and
|
|
friends), directly raise :exc:`TypeError` in the rich comparison function.
|
|
|
|
This field is inherited by subtypes together with :attr:`tp_hash`:
|
|
a subtype inherits :attr:`tp_richcompare` and :attr:`tp_hash` when
|
|
the subtype's :attr:`tp_richcompare` and :attr:`tp_hash` are both
|
|
*NULL*.
|
|
|
|
The following constants are defined to be used as the third argument for
|
|
:attr:`tp_richcompare` and for :cfunc:`PyObject_RichCompare`:
|
|
|
|
+----------------+------------+
|
|
| Constant | Comparison |
|
|
+================+============+
|
|
| :const:`Py_LT` | ``<`` |
|
|
+----------------+------------+
|
|
| :const:`Py_LE` | ``<=`` |
|
|
+----------------+------------+
|
|
| :const:`Py_EQ` | ``==`` |
|
|
+----------------+------------+
|
|
| :const:`Py_NE` | ``!=`` |
|
|
+----------------+------------+
|
|
| :const:`Py_GT` | ``>`` |
|
|
+----------------+------------+
|
|
| :const:`Py_GE` | ``>=`` |
|
|
+----------------+------------+
|
|
|
|
|
|
.. cmember:: long PyTypeObject.tp_weaklistoffset
|
|
|
|
If the instances of this type are weakly referenceable, this field is greater
|
|
than zero and contains the offset in the instance structure of the weak
|
|
reference list head (ignoring the GC header, if present); this offset is used by
|
|
:cfunc:`PyObject_ClearWeakRefs` and the :cfunc:`PyWeakref_\*` functions. The
|
|
instance structure needs to include a field of type :ctype:`PyObject\*` which is
|
|
initialized to *NULL*.
|
|
|
|
Do not confuse this field with :attr:`tp_weaklist`; that is the list head for
|
|
weak references to the type object itself.
|
|
|
|
This field is inherited by subtypes, but see the rules listed below. A subtype
|
|
may override this offset; this means that the subtype uses a different weak
|
|
reference list head than the base type. Since the list head is always found via
|
|
:attr:`tp_weaklistoffset`, this should not be a problem.
|
|
|
|
When a type defined by a class statement has no :attr:`__slots__` declaration,
|
|
and none of its base types are weakly referenceable, the type is made weakly
|
|
referenceable by adding a weak reference list head slot to the instance layout
|
|
and setting the :attr:`tp_weaklistoffset` of that slot's offset.
|
|
|
|
When a type's :attr:`__slots__` declaration contains a slot named
|
|
:attr:`__weakref__`, that slot becomes the weak reference list head for
|
|
instances of the type, and the slot's offset is stored in the type's
|
|
:attr:`tp_weaklistoffset`.
|
|
|
|
When a type's :attr:`__slots__` declaration does not contain a slot named
|
|
:attr:`__weakref__`, the type inherits its :attr:`tp_weaklistoffset` from its
|
|
base type.
|
|
|
|
.. cmember:: getiterfunc PyTypeObject.tp_iter
|
|
|
|
An optional pointer to a function that returns an iterator for the object. Its
|
|
presence normally signals that the instances of this type are iterable (although
|
|
sequences may be iterable without this function).
|
|
|
|
This function has the same signature as :cfunc:`PyObject_GetIter`.
|
|
|
|
This field is inherited by subtypes.
|
|
|
|
|
|
.. cmember:: iternextfunc PyTypeObject.tp_iternext
|
|
|
|
An optional pointer to a function that returns the next item in an iterator.
|
|
When the iterator is exhausted, it must return *NULL*; a :exc:`StopIteration`
|
|
exception may or may not be set. When another error occurs, it must return
|
|
*NULL* too. Its presence signals that the instances of this type are
|
|
iterators.
|
|
|
|
Iterator types should also define the :attr:`tp_iter` function, and that
|
|
function should return the iterator instance itself (not a new iterator
|
|
instance).
|
|
|
|
This function has the same signature as :cfunc:`PyIter_Next`.
|
|
|
|
This field is inherited by subtypes.
|
|
|
|
|
|
.. cmember:: struct PyMethodDef* PyTypeObject.tp_methods
|
|
|
|
An optional pointer to a static *NULL*-terminated array of :ctype:`PyMethodDef`
|
|
structures, declaring regular methods of this type.
|
|
|
|
For each entry in the array, an entry is added to the type's dictionary (see
|
|
:attr:`tp_dict` below) containing a method descriptor.
|
|
|
|
This field is not inherited by subtypes (methods are inherited through a
|
|
different mechanism).
|
|
|
|
|
|
.. cmember:: struct PyMemberDef* PyTypeObject.tp_members
|
|
|
|
An optional pointer to a static *NULL*-terminated array of :ctype:`PyMemberDef`
|
|
structures, declaring regular data members (fields or slots) of instances of
|
|
this type.
|
|
|
|
For each entry in the array, an entry is added to the type's dictionary (see
|
|
:attr:`tp_dict` below) containing a member descriptor.
|
|
|
|
This field is not inherited by subtypes (members are inherited through a
|
|
different mechanism).
|
|
|
|
|
|
.. cmember:: struct PyGetSetDef* PyTypeObject.tp_getset
|
|
|
|
An optional pointer to a static *NULL*-terminated array of :ctype:`PyGetSetDef`
|
|
structures, declaring computed attributes of instances of this type.
|
|
|
|
For each entry in the array, an entry is added to the type's dictionary (see
|
|
:attr:`tp_dict` below) containing a getset descriptor.
|
|
|
|
This field is not inherited by subtypes (computed attributes are inherited
|
|
through a different mechanism).
|
|
|
|
.. XXX belongs elsewhere
|
|
|
|
Docs for PyGetSetDef::
|
|
|
|
typedef PyObject *(*getter)(PyObject *, void *);
|
|
typedef int (*setter)(PyObject *, PyObject *, void *);
|
|
|
|
typedef struct PyGetSetDef {
|
|
char *name; /* attribute name */
|
|
getter get; /* C function to get the attribute */
|
|
setter set; /* C function to set the attribute */
|
|
char *doc; /* optional doc string */
|
|
void *closure; /* optional additional data for getter and setter */
|
|
} PyGetSetDef;
|
|
|
|
|
|
.. cmember:: PyTypeObject* PyTypeObject.tp_base
|
|
|
|
An optional pointer to a base type from which type properties are inherited. At
|
|
this level, only single inheritance is supported; multiple inheritance require
|
|
dynamically creating a type object by calling the metatype.
|
|
|
|
This field is not inherited by subtypes (obviously), but it defaults to
|
|
``&PyBaseObject_Type`` (which to Python programmers is known as the type
|
|
:class:`object`).
|
|
|
|
|
|
.. cmember:: PyObject* PyTypeObject.tp_dict
|
|
|
|
The type's dictionary is stored here by :cfunc:`PyType_Ready`.
|
|
|
|
This field should normally be initialized to *NULL* before PyType_Ready is
|
|
called; it may also be initialized to a dictionary containing initial attributes
|
|
for the type. Once :cfunc:`PyType_Ready` has initialized the type, extra
|
|
attributes for the type may be added to this dictionary only if they don't
|
|
correspond to overloaded operations (like :meth:`__add__`).
|
|
|
|
This field is not inherited by subtypes (though the attributes defined in here
|
|
are inherited through a different mechanism).
|
|
|
|
|
|
.. cmember:: descrgetfunc PyTypeObject.tp_descr_get
|
|
|
|
An optional pointer to a "descriptor get" function.
|
|
|
|
The function signature is ::
|
|
|
|
PyObject * tp_descr_get(PyObject *self, PyObject *obj, PyObject *type);
|
|
|
|
.. XXX explain.
|
|
|
|
This field is inherited by subtypes.
|
|
|
|
|
|
.. cmember:: descrsetfunc PyTypeObject.tp_descr_set
|
|
|
|
An optional pointer to a "descriptor set" function.
|
|
|
|
The function signature is ::
|
|
|
|
int tp_descr_set(PyObject *self, PyObject *obj, PyObject *value);
|
|
|
|
This field is inherited by subtypes.
|
|
|
|
.. XXX explain.
|
|
|
|
|
|
.. cmember:: long PyTypeObject.tp_dictoffset
|
|
|
|
If the instances of this type have a dictionary containing instance variables,
|
|
this field is non-zero and contains the offset in the instances of the type of
|
|
the instance variable dictionary; this offset is used by
|
|
:cfunc:`PyObject_GenericGetAttr`.
|
|
|
|
Do not confuse this field with :attr:`tp_dict`; that is the dictionary for
|
|
attributes of the type object itself.
|
|
|
|
If the value of this field is greater than zero, it specifies the offset from
|
|
the start of the instance structure. If the value is less than zero, it
|
|
specifies the offset from the *end* of the instance structure. A negative
|
|
offset is more expensive to use, and should only be used when the instance
|
|
structure contains a variable-length part. This is used for example to add an
|
|
instance variable dictionary to subtypes of :class:`str` or :class:`tuple`. Note
|
|
that the :attr:`tp_basicsize` field should account for the dictionary added to
|
|
the end in that case, even though the dictionary is not included in the basic
|
|
object layout. On a system with a pointer size of 4 bytes,
|
|
:attr:`tp_dictoffset` should be set to ``-4`` to indicate that the dictionary is
|
|
at the very end of the structure.
|
|
|
|
The real dictionary offset in an instance can be computed from a negative
|
|
:attr:`tp_dictoffset` as follows::
|
|
|
|
dictoffset = tp_basicsize + abs(ob_size)*tp_itemsize + tp_dictoffset
|
|
if dictoffset is not aligned on sizeof(void*):
|
|
round up to sizeof(void*)
|
|
|
|
where :attr:`tp_basicsize`, :attr:`tp_itemsize` and :attr:`tp_dictoffset` are
|
|
taken from the type object, and :attr:`ob_size` is taken from the instance. The
|
|
absolute value is taken because ints use the sign of :attr:`ob_size` to
|
|
store the sign of the number. (There's never a need to do this calculation
|
|
yourself; it is done for you by :cfunc:`_PyObject_GetDictPtr`.)
|
|
|
|
This field is inherited by subtypes, but see the rules listed below. A subtype
|
|
may override this offset; this means that the subtype instances store the
|
|
dictionary at a difference offset than the base type. Since the dictionary is
|
|
always found via :attr:`tp_dictoffset`, this should not be a problem.
|
|
|
|
When a type defined by a class statement has no :attr:`__slots__` declaration,
|
|
and none of its base types has an instance variable dictionary, a dictionary
|
|
slot is added to the instance layout and the :attr:`tp_dictoffset` is set to
|
|
that slot's offset.
|
|
|
|
When a type defined by a class statement has a :attr:`__slots__` declaration,
|
|
the type inherits its :attr:`tp_dictoffset` from its base type.
|
|
|
|
(Adding a slot named :attr:`__dict__` to the :attr:`__slots__` declaration does
|
|
not have the expected effect, it just causes confusion. Maybe this should be
|
|
added as a feature just like :attr:`__weakref__` though.)
|
|
|
|
|
|
.. cmember:: initproc PyTypeObject.tp_init
|
|
|
|
An optional pointer to an instance initialization function.
|
|
|
|
This function corresponds to the :meth:`__init__` method of classes. Like
|
|
:meth:`__init__`, it is possible to create an instance without calling
|
|
:meth:`__init__`, and it is possible to reinitialize an instance by calling its
|
|
:meth:`__init__` method again.
|
|
|
|
The function signature is ::
|
|
|
|
int tp_init(PyObject *self, PyObject *args, PyObject *kwds)
|
|
|
|
The self argument is the instance to be initialized; the *args* and *kwds*
|
|
arguments represent positional and keyword arguments of the call to
|
|
:meth:`__init__`.
|
|
|
|
The :attr:`tp_init` function, if not *NULL*, is called when an instance is
|
|
created normally by calling its type, after the type's :attr:`tp_new` function
|
|
has returned an instance of the type. If the :attr:`tp_new` function returns an
|
|
instance of some other type that is not a subtype of the original type, no
|
|
:attr:`tp_init` function is called; if :attr:`tp_new` returns an instance of a
|
|
subtype of the original type, the subtype's :attr:`tp_init` is called.
|
|
|
|
This field is inherited by subtypes.
|
|
|
|
|
|
.. cmember:: allocfunc PyTypeObject.tp_alloc
|
|
|
|
An optional pointer to an instance allocation function.
|
|
|
|
The function signature is ::
|
|
|
|
PyObject *tp_alloc(PyTypeObject *self, Py_ssize_t nitems)
|
|
|
|
The purpose of this function is to separate memory allocation from memory
|
|
initialization. It should return a pointer to a block of memory of adequate
|
|
length for the instance, suitably aligned, and initialized to zeros, but with
|
|
:attr:`ob_refcnt` set to ``1`` and :attr:`ob_type` set to the type argument. If
|
|
the type's :attr:`tp_itemsize` is non-zero, the object's :attr:`ob_size` field
|
|
should be initialized to *nitems* and the length of the allocated memory block
|
|
should be ``tp_basicsize + nitems*tp_itemsize``, rounded up to a multiple of
|
|
``sizeof(void*)``; otherwise, *nitems* is not used and the length of the block
|
|
should be :attr:`tp_basicsize`.
|
|
|
|
Do not use this function to do any other instance initialization, not even to
|
|
allocate additional memory; that should be done by :attr:`tp_new`.
|
|
|
|
This field is inherited by static subtypes, but not by dynamic subtypes
|
|
(subtypes created by a class statement); in the latter, this field is always set
|
|
to :cfunc:`PyType_GenericAlloc`, to force a standard heap allocation strategy.
|
|
That is also the recommended value for statically defined types.
|
|
|
|
|
|
.. cmember:: newfunc PyTypeObject.tp_new
|
|
|
|
An optional pointer to an instance creation function.
|
|
|
|
If this function is *NULL* for a particular type, that type cannot be called to
|
|
create new instances; presumably there is some other way to create instances,
|
|
like a factory function.
|
|
|
|
The function signature is ::
|
|
|
|
PyObject *tp_new(PyTypeObject *subtype, PyObject *args, PyObject *kwds)
|
|
|
|
The subtype argument is the type of the object being created; the *args* and
|
|
*kwds* arguments represent positional and keyword arguments of the call to the
|
|
type. Note that subtype doesn't have to equal the type whose :attr:`tp_new`
|
|
function is called; it may be a subtype of that type (but not an unrelated
|
|
type).
|
|
|
|
The :attr:`tp_new` function should call ``subtype->tp_alloc(subtype, nitems)``
|
|
to allocate space for the object, and then do only as much further
|
|
initialization as is absolutely necessary. Initialization that can safely be
|
|
ignored or repeated should be placed in the :attr:`tp_init` handler. A good
|
|
rule of thumb is that for immutable types, all initialization should take place
|
|
in :attr:`tp_new`, while for mutable types, most initialization should be
|
|
deferred to :attr:`tp_init`.
|
|
|
|
This field is inherited by subtypes, except it is not inherited by static types
|
|
whose :attr:`tp_base` is *NULL* or ``&PyBaseObject_Type``.
|
|
|
|
|
|
.. cmember:: destructor PyTypeObject.tp_free
|
|
|
|
An optional pointer to an instance deallocation function. Its signature is
|
|
:ctype:`freefunc`::
|
|
|
|
void tp_free(void *)
|
|
|
|
An initializer that is compatible with this signature is :cfunc:`PyObject_Free`.
|
|
|
|
This field is inherited by static subtypes, but not by dynamic subtypes
|
|
(subtypes created by a class statement); in the latter, this field is set to a
|
|
deallocator suitable to match :cfunc:`PyType_GenericAlloc` and the value of the
|
|
:const:`Py_TPFLAGS_HAVE_GC` flag bit.
|
|
|
|
|
|
.. cmember:: inquiry PyTypeObject.tp_is_gc
|
|
|
|
An optional pointer to a function called by the garbage collector.
|
|
|
|
The garbage collector needs to know whether a particular object is collectible
|
|
or not. Normally, it is sufficient to look at the object's type's
|
|
:attr:`tp_flags` field, and check the :const:`Py_TPFLAGS_HAVE_GC` flag bit. But
|
|
some types have a mixture of statically and dynamically allocated instances, and
|
|
the statically allocated instances are not collectible. Such types should
|
|
define this function; it should return ``1`` for a collectible instance, and
|
|
``0`` for a non-collectible instance. The signature is ::
|
|
|
|
int tp_is_gc(PyObject *self)
|
|
|
|
(The only example of this are types themselves. The metatype,
|
|
:cdata:`PyType_Type`, defines this function to distinguish between statically
|
|
and dynamically allocated types.)
|
|
|
|
This field is inherited by subtypes.
|
|
|
|
|
|
.. cmember:: PyObject* PyTypeObject.tp_bases
|
|
|
|
Tuple of base types.
|
|
|
|
This is set for types created by a class statement. It should be *NULL* for
|
|
statically defined types.
|
|
|
|
This field is not inherited.
|
|
|
|
|
|
.. cmember:: PyObject* PyTypeObject.tp_mro
|
|
|
|
Tuple containing the expanded set of base types, starting with the type itself
|
|
and ending with :class:`object`, in Method Resolution Order.
|
|
|
|
This field is not inherited; it is calculated fresh by :cfunc:`PyType_Ready`.
|
|
|
|
|
|
.. cmember:: PyObject* PyTypeObject.tp_cache
|
|
|
|
Unused. Not inherited. Internal use only.
|
|
|
|
|
|
.. cmember:: PyObject* PyTypeObject.tp_subclasses
|
|
|
|
List of weak references to subclasses. Not inherited. Internal use only.
|
|
|
|
|
|
.. cmember:: PyObject* PyTypeObject.tp_weaklist
|
|
|
|
Weak reference list head, for weak references to this type object. Not
|
|
inherited. Internal use only.
|
|
|
|
The remaining fields are only defined if the feature test macro
|
|
:const:`COUNT_ALLOCS` is defined, and are for internal use only. They are
|
|
documented here for completeness. None of these fields are inherited by
|
|
subtypes.
|
|
|
|
|
|
.. cmember:: Py_ssize_t PyTypeObject.tp_allocs
|
|
|
|
Number of allocations.
|
|
|
|
|
|
.. cmember:: Py_ssize_t PyTypeObject.tp_frees
|
|
|
|
Number of frees.
|
|
|
|
|
|
.. cmember:: Py_ssize_t PyTypeObject.tp_maxalloc
|
|
|
|
Maximum simultaneously allocated objects.
|
|
|
|
|
|
.. cmember:: PyTypeObject* PyTypeObject.tp_next
|
|
|
|
Pointer to the next type object with a non-zero :attr:`tp_allocs` field.
|
|
|
|
Also, note that, in a garbage collected Python, tp_dealloc may be called from
|
|
any Python thread, not just the thread which created the object (if the object
|
|
becomes part of a refcount cycle, that cycle might be collected by a garbage
|
|
collection on any thread). This is not a problem for Python API calls, since
|
|
the thread on which tp_dealloc is called will own the Global Interpreter Lock
|
|
(GIL). However, if the object being destroyed in turn destroys objects from some
|
|
other C or C++ library, care should be taken to ensure that destroying those
|
|
objects on the thread which called tp_dealloc will not violate any assumptions
|
|
of the library.
|
|
|
|
|
|
.. _number-structs:
|
|
|
|
Number Object Structures
|
|
========================
|
|
|
|
.. sectionauthor:: Amaury Forgeot d'Arc
|
|
|
|
|
|
.. ctype:: PyNumberMethods
|
|
|
|
This structure holds pointers to the functions which an object uses to
|
|
implement the number protocol. Each function is used by the function of
|
|
similar name documented in the :ref:`number` section.
|
|
|
|
Here is the structure definition::
|
|
|
|
typedef struct {
|
|
binaryfunc nb_add;
|
|
binaryfunc nb_subtract;
|
|
binaryfunc nb_multiply;
|
|
binaryfunc nb_remainder;
|
|
binaryfunc nb_divmod;
|
|
ternaryfunc nb_power;
|
|
unaryfunc nb_negative;
|
|
unaryfunc nb_positive;
|
|
unaryfunc nb_absolute;
|
|
inquiry nb_bool;
|
|
unaryfunc nb_invert;
|
|
binaryfunc nb_lshift;
|
|
binaryfunc nb_rshift;
|
|
binaryfunc nb_and;
|
|
binaryfunc nb_xor;
|
|
binaryfunc nb_or;
|
|
unaryfunc nb_int;
|
|
void *nb_reserved;
|
|
unaryfunc nb_float;
|
|
|
|
binaryfunc nb_inplace_add;
|
|
binaryfunc nb_inplace_subtract;
|
|
binaryfunc nb_inplace_multiply;
|
|
binaryfunc nb_inplace_remainder;
|
|
ternaryfunc nb_inplace_power;
|
|
binaryfunc nb_inplace_lshift;
|
|
binaryfunc nb_inplace_rshift;
|
|
binaryfunc nb_inplace_and;
|
|
binaryfunc nb_inplace_xor;
|
|
binaryfunc nb_inplace_or;
|
|
|
|
binaryfunc nb_floor_divide;
|
|
binaryfunc nb_true_divide;
|
|
binaryfunc nb_inplace_floor_divide;
|
|
binaryfunc nb_inplace_true_divide;
|
|
|
|
unaryfunc nb_index;
|
|
} PyNumberMethods;
|
|
|
|
.. note::
|
|
|
|
Binary and ternary functions must check the type of all their operands,
|
|
and implement the necessary conversions (at least one of the operands is
|
|
an instance of the defined type). If the operation is not defined for the
|
|
given operands, binary and ternary functions must return
|
|
``Py_NotImplemented``, if another error occurred they must return ``NULL``
|
|
and set an exception.
|
|
|
|
.. note::
|
|
|
|
The :cdata:`nb_reserved` field should always be ``NULL``. It
|
|
was previously called :cdata:`nb_long`, and was renamed in
|
|
Python 3.0.1.
|
|
|
|
|
|
.. _mapping-structs:
|
|
|
|
Mapping Object Structures
|
|
=========================
|
|
|
|
.. sectionauthor:: Amaury Forgeot d'Arc
|
|
|
|
|
|
.. ctype:: PyMappingMethods
|
|
|
|
This structure holds pointers to the functions which an object uses to
|
|
implement the mapping protocol. It has three members:
|
|
|
|
.. cmember:: lenfunc PyMappingMethods.mp_length
|
|
|
|
This function is used by :cfunc:`PyMapping_Length` and
|
|
:cfunc:`PyObject_Size`, and has the same signature. This slot may be set to
|
|
*NULL* if the object has no defined length.
|
|
|
|
.. cmember:: binaryfunc PyMappingMethods.mp_subscript
|
|
|
|
This function is used by :cfunc:`PyObject_GetItem` and has the same
|
|
signature. This slot must be filled for the :cfunc:`PyMapping_Check`
|
|
function to return ``1``, it can be *NULL* otherwise.
|
|
|
|
.. cmember:: objobjargproc PyMappingMethods.mp_ass_subscript
|
|
|
|
This function is used by :cfunc:`PyObject_SetItem` and has the same
|
|
signature. If this slot is *NULL*, the object does not support item
|
|
assignment.
|
|
|
|
|
|
.. _sequence-structs:
|
|
|
|
Sequence Object Structures
|
|
==========================
|
|
|
|
.. sectionauthor:: Amaury Forgeot d'Arc
|
|
|
|
|
|
.. ctype:: PySequenceMethods
|
|
|
|
This structure holds pointers to the functions which an object uses to
|
|
implement the sequence protocol.
|
|
|
|
.. cmember:: lenfunc PySequenceMethods.sq_length
|
|
|
|
This function is used by :cfunc:`PySequence_Size` and :cfunc:`PyObject_Size`,
|
|
and has the same signature.
|
|
|
|
.. cmember:: binaryfunc PySequenceMethods.sq_concat
|
|
|
|
This function is used by :cfunc:`PySequence_Concat` and has the same
|
|
signature. It is also used by the ``+`` operator, after trying the numeric
|
|
addition via the :attr:`tp_as_number.nb_add` slot.
|
|
|
|
.. cmember:: ssizeargfunc PySequenceMethods.sq_repeat
|
|
|
|
This function is used by :cfunc:`PySequence_Repeat` and has the same
|
|
signature. It is also used by the ``*`` operator, after trying numeric
|
|
multiplication via the :attr:`tp_as_number.nb_mul` slot.
|
|
|
|
.. cmember:: ssizeargfunc PySequenceMethods.sq_item
|
|
|
|
This function is used by :cfunc:`PySequence_GetItem` and has the same
|
|
signature. This slot must be filled for the :cfunc:`PySequence_Check`
|
|
function to return ``1``, it can be *NULL* otherwise.
|
|
|
|
Negative indexes are handled as follows: if the :attr:`sq_length` slot is
|
|
filled, it is called and the sequence length is used to compute a positive
|
|
index which is passed to :attr:`sq_item`. If :attr:`sq_length` is *NULL*,
|
|
the index is passed as is to the function.
|
|
|
|
.. cmember:: ssizeobjargproc PySequenceMethods.sq_ass_item
|
|
|
|
This function is used by :cfunc:`PySequence_SetItem` and has the same
|
|
signature. This slot may be left to *NULL* if the object does not support
|
|
item assignment.
|
|
|
|
.. cmember:: objobjproc PySequenceMethods.sq_contains
|
|
|
|
This function may be used by :cfunc:`PySequence_Contains` and has the same
|
|
signature. This slot may be left to *NULL*, in this case
|
|
:cfunc:`PySequence_Contains` simply traverses the sequence until it finds a
|
|
match.
|
|
|
|
.. cmember:: binaryfunc PySequenceMethods.sq_inplace_concat
|
|
|
|
This function is used by :cfunc:`PySequence_InPlaceConcat` and has the same
|
|
signature. It should modify its first operand, and return it.
|
|
|
|
.. cmember:: ssizeargfunc PySequenceMethods.sq_inplace_repeat
|
|
|
|
This function is used by :cfunc:`PySequence_InPlaceRepeat` and has the same
|
|
signature. It should modify its first operand, and return it.
|
|
|
|
.. XXX need to explain precedence between mapping and sequence
|
|
.. XXX explains when to implement the sq_inplace_* slots
|
|
|
|
|
|
.. _buffer-structs:
|
|
|
|
Buffer Object Structures
|
|
========================
|
|
|
|
.. sectionauthor:: Greg J. Stein <greg@lyra.org>
|
|
.. sectionauthor:: Benjamin Peterson
|
|
|
|
|
|
The :ref:`buffer interface <bufferobjects>` exports a model where an object can expose its internal
|
|
data.
|
|
|
|
If an object does not export the buffer interface, then its :attr:`tp_as_buffer`
|
|
member in the :ctype:`PyTypeObject` structure should be *NULL*. Otherwise, the
|
|
:attr:`tp_as_buffer` will point to a :ctype:`PyBufferProcs` structure.
|
|
|
|
|
|
.. ctype:: PyBufferProcs
|
|
|
|
Structure used to hold the function pointers which define an implementation of
|
|
the buffer protocol.
|
|
|
|
.. cmember:: getbufferproc bf_getbuffer
|
|
|
|
This should fill a :ctype:`Py_buffer` with the necessary data for
|
|
exporting the type. The signature of :data:`getbufferproc` is ``int
|
|
(PyObject *obj, Py_buffer *view, int flags)``. *obj* is the object to
|
|
export, *view* is the :ctype:`Py_buffer` struct to fill, and *flags* gives
|
|
the conditions the caller wants the memory under. (See
|
|
:cfunc:`PyObject_GetBuffer` for all flags.) :cmember:`bf_getbuffer` is
|
|
responsible for filling *view* with the appropriate information.
|
|
(:cfunc:`PyBuffer_FillView` can be used in simple cases.) See
|
|
:ctype:`Py_buffer`\s docs for what needs to be filled in.
|
|
|
|
|
|
.. cmember:: releasebufferproc bf_releasebuffer
|
|
|
|
This should release the resources of the buffer. The signature of
|
|
:cdata:`releasebufferproc` is ``void (PyObject *obj, Py_buffer *view)``.
|
|
If the :cdata:`bf_releasebuffer` function is not provided (i.e. it is
|
|
*NULL*), then it does not ever need to be called.
|
|
|
|
The exporter of the buffer interface must make sure that any memory
|
|
pointed to in the :ctype:`Py_buffer` structure remains valid until
|
|
releasebuffer is called. Exporters will need to define a
|
|
:cdata:`bf_releasebuffer` function if they can re-allocate their memory,
|
|
strides, shape, suboffsets, or format variables which they might share
|
|
through the struct bufferinfo.
|
|
|
|
See :cfunc:`PyBuffer_Release`.
|