Type Objects¶
-
type PyTypeObject¶
- Parte del API Limitata (come una struttura opaca).
The C structure of the objects used to describe built-in types.
-
PyTypeObject PyType_Type¶
- Parte del ABI Stabile.
This is the type object for type objects; it is the same object as
type
in the Python layer.
-
int PyType_Check(PyObject *o)¶
Return non-zero if the object o is a type object, including instances of types derived from the standard type object. Return 0 in all other cases. This function always succeeds.
-
int PyType_CheckExact(PyObject *o)¶
Return non-zero if the object o is a type object, but not a subtype of the standard type object. Return 0 in all other cases. This function always succeeds.
-
unsigned int PyType_ClearCache()¶
- Parte del ABI Stabile.
Clear the internal lookup cache. Return the current version tag.
-
unsigned long PyType_GetFlags(PyTypeObject *type)¶
- Parte del ABI Stabile.
Return the
tp_flags
member of type. This function is primarily meant for use withPy_LIMITED_API
; the individual flag bits are guaranteed to be stable across Python releases, but access totp_flags
itself is not part of the limited API.Added in version 3.2.
Cambiato nella versione 3.4: The return type is now
unsigned long
rather thanlong
.
-
PyObject *PyType_GetDict(PyTypeObject *type)¶
Return the type object’s internal namespace, which is otherwise only exposed via a read-only proxy (
cls.__dict__
). This is a replacement for accessingtp_dict
directly. The returned dictionary must be treated as read-only.This function is meant for specific embedding and language-binding cases, where direct access to the dict is necessary and indirect access (e.g. via the proxy or
PyObject_GetAttr()
) isn’t adequate.Extension modules should continue to use
tp_dict
, directly or indirectly, when setting up their own types.Added in version 3.12.
-
void PyType_Modified(PyTypeObject *type)¶
- Parte del ABI Stabile.
Invalidate the internal lookup cache for the type and all of its subtypes. This function must be called after any manual modification of the attributes or base classes of the type.
-
int PyType_AddWatcher(PyType_WatchCallback callback)¶
Register callback as a type watcher. Return a non-negative integer ID which must be passed to future calls to
PyType_Watch()
. In case of error (e.g. no more watcher IDs available), return-1
and set an exception.Added in version 3.12.
-
int PyType_ClearWatcher(int watcher_id)¶
Clear watcher identified by watcher_id (previously returned from
PyType_AddWatcher()
). Return0
on success,-1
on error (e.g. if watcher_id was never registered.)An extension should never call
PyType_ClearWatcher
with a watcher_id that was not returned to it by a previous call toPyType_AddWatcher()
.Added in version 3.12.
-
int PyType_Watch(int watcher_id, PyObject *type)¶
Mark type as watched. The callback granted watcher_id by
PyType_AddWatcher()
will be called wheneverPyType_Modified()
reports a change to type. (The callback may be called only once for a series of consecutive modifications to type, if_PyType_Lookup()
is not called on type between the modifications; this is an implementation detail and subject to change.)An extension should never call
PyType_Watch
with a watcher_id that was not returned to it by a previous call toPyType_AddWatcher()
.Added in version 3.12.
-
typedef int (*PyType_WatchCallback)(PyObject *type)¶
Type of a type-watcher callback function.
The callback must not modify type or cause
PyType_Modified()
to be called on type or any type in its MRO; violating this rule could cause infinite recursion.Added in version 3.12.
-
int PyType_HasFeature(PyTypeObject *o, int feature)¶
Return non-zero if the type object o sets the feature feature. Type features are denoted by single bit flags.
-
int PyType_IS_GC(PyTypeObject *o)¶
Return true if the type object includes support for the cycle detector; this tests the type flag
Py_TPFLAGS_HAVE_GC
.
-
int PyType_IsSubtype(PyTypeObject *a, PyTypeObject *b)¶
- Parte del ABI Stabile.
Return true if a is a subtype of b.
This function only checks for actual subtypes, which means that
__subclasscheck__()
is not called on b. CallPyObject_IsSubclass()
to do the same check thatissubclass()
would do.
-
PyObject *PyType_GenericAlloc(PyTypeObject *type, Py_ssize_t nitems)¶
- Valore di ritorno: Nuovo riferimento. Parte del ABI Stabile.
Generic handler for the
tp_alloc
slot of a type object. Use Python’s default memory allocation mechanism to allocate a new instance and initialize all its contents toNULL
.
-
PyObject *PyType_GenericNew(PyTypeObject *type, PyObject *args, PyObject *kwds)¶
- Valore di ritorno: Nuovo riferimento. Parte del ABI Stabile.
Generic handler for the
tp_new
slot of a type object. Create a new instance using the type’stp_alloc
slot.
-
int PyType_Ready(PyTypeObject *type)¶
- Parte del ABI Stabile.
Finalize a type object. This should be called on all type objects to finish their initialization. This function is responsible for adding inherited slots from a type’s base class. Return
0
on success, or return-1
and sets an exception on error.Nota
If some of the base classes implements the GC protocol and the provided type does not include the
Py_TPFLAGS_HAVE_GC
in its flags, then the GC protocol will be automatically implemented from its parents. On the contrary, if the type being created does includePy_TPFLAGS_HAVE_GC
in its flags then it must implement the GC protocol itself by at least implementing thetp_traverse
handle.
-
PyObject *PyType_GetName(PyTypeObject *type)¶
- Valore di ritorno: Nuovo riferimento. Parte del ABI Stabile dalla versione 3.11.
Return the type’s name. Equivalent to getting the type’s
__name__
attribute.Added in version 3.11.
-
PyObject *PyType_GetQualName(PyTypeObject *type)¶
- Valore di ritorno: Nuovo riferimento. Parte del ABI Stabile dalla versione 3.11.
Return the type’s qualified name. Equivalent to getting the type’s
__qualname__
attribute.Added in version 3.11.
-
PyObject *PyType_GetFullyQualifiedName(PyTypeObject *type)¶
- Parte del ABI Stabile dalla versione 3.13.
Return the type’s fully qualified name. Equivalent to
f"{type.__module__}.{type.__qualname__}"
, ortype.__qualname__
iftype.__module__
is not a string or is equal to"builtins"
.Added in version 3.13.
-
PyObject *PyType_GetModuleName(PyTypeObject *type)¶
- Parte del ABI Stabile dalla versione 3.13.
Return the type’s module name. Equivalent to getting the
type.__module__
attribute.Added in version 3.13.
-
void *PyType_GetSlot(PyTypeObject *type, int slot)¶
- Parte del ABI Stabile dalla versione 3.4.
Return the function pointer stored in the given slot. If the result is
NULL
, this indicates that either the slot isNULL
, or that the function was called with invalid parameters. Callers will typically cast the result pointer into the appropriate function type.See
PyType_Slot.slot
for possible values of the slot argument.Added in version 3.4.
Cambiato nella versione 3.10:
PyType_GetSlot()
can now accept all types. Previously, it was limited to heap types.
-
PyObject *PyType_GetModule(PyTypeObject *type)¶
- Parte del ABI Stabile dalla versione 3.10.
Return the module object associated with the given type when the type was created using
PyType_FromModuleAndSpec()
.If no module is associated with the given type, sets
TypeError
and returnsNULL
.This function is usually used to get the module in which a method is defined. Note that in such a method,
PyType_GetModule(Py_TYPE(self))
may not return the intended result.Py_TYPE(self)
may be a subclass of the intended class, and subclasses are not necessarily defined in the same module as their superclass. SeePyCMethod
to get the class that defines the method. SeePyType_GetModuleByDef()
for cases whenPyCMethod
cannot be used.Added in version 3.9.
-
void *PyType_GetModuleState(PyTypeObject *type)¶
- Parte del ABI Stabile dalla versione 3.10.
Return the state of the module object associated with the given type. This is a shortcut for calling
PyModule_GetState()
on the result ofPyType_GetModule()
.If no module is associated with the given type, sets
TypeError
and returnsNULL
.If the type has an associated module but its state is
NULL
, returnsNULL
without setting an exception.Added in version 3.9.
-
PyObject *PyType_GetModuleByDef(PyTypeObject *type, struct PyModuleDef *def)¶
- Parte del ABI Stabile dalla versione 3.13.
Find the first superclass whose module was created from the given
PyModuleDef
def, and return that module.If no module is found, raises a
TypeError
and returnsNULL
.This function is intended to be used together with
PyModule_GetState()
to get module state from slot methods (such astp_init
ornb_add
) and other places where a method’s defining class cannot be passed using thePyCMethod
calling convention.Added in version 3.11.
-
int PyUnstable_Type_AssignVersionTag(PyTypeObject *type)¶
- Questa pagina API Instabile. Potrebbe cambiare senza preavviso nelle release minori.
Attempt to assign a version tag to the given type.
Returns 1 if the type already had a valid version tag or a new one was assigned, or 0 if a new tag could not be assigned.
Added in version 3.12.
Creating Heap-Allocated Types¶
The following functions and structs are used to create heap types.
-
PyObject *PyType_FromMetaclass(PyTypeObject *metaclass, PyObject *module, PyType_Spec *spec, PyObject *bases)¶
- Parte del ABI Stabile dalla versione 3.12.
Create and return a heap type from the spec (see
Py_TPFLAGS_HEAPTYPE
).The metaclass metaclass is used to construct the resulting type object. When metaclass is
NULL
, the metaclass is derived from bases (or Py_tp_base[s] slots if bases isNULL
, see below).Metaclasses that override
tp_new
are not supported, except iftp_new
isNULL
. (For backwards compatibility, otherPyType_From*
functions allow such metaclasses. They ignoretp_new
, which may result in incomplete initialization. This is deprecated and in Python 3.14+ such metaclasses will not be supported.)The bases argument can be used to specify base classes; it can either be only one class or a tuple of classes. If bases is
NULL
, the Py_tp_bases slot is used instead. If that also isNULL
, the Py_tp_base slot is used instead. If that also isNULL
, the new type derives fromobject
.The module argument can be used to record the module in which the new class is defined. It must be a module object or
NULL
. If notNULL
, the module is associated with the new type and can later be retrieved withPyType_GetModule()
. The associated module is not inherited by subclasses; it must be specified for each class individually.This function calls
PyType_Ready()
on the new type.Note that this function does not fully match the behavior of calling
type()
or using theclass
statement. With user-provided base types or metaclasses, prefer callingtype
(or the metaclass) overPyType_From*
functions. Specifically:__new__()
is not called on the new class (and it must be set totype.__new__
).__init__()
is not called on the new class.__init_subclass__()
is not called on any bases.__set_name__()
is not called on new descriptors.
Added in version 3.12.
-
PyObject *PyType_FromModuleAndSpec(PyObject *module, PyType_Spec *spec, PyObject *bases)¶
- Valore di ritorno: Nuovo riferimento. Parte del ABI Stabile dalla versione 3.10.
Equivalent to
PyType_FromMetaclass(NULL, module, spec, bases)
.Added in version 3.9.
Cambiato nella versione 3.10: The function now accepts a single class as the bases argument and
NULL
as thetp_doc
slot.Cambiato nella versione 3.12: The function now finds and uses a metaclass corresponding to the provided base classes. Previously, only
type
instances were returned.The
tp_new
of the metaclass is ignored. which may result in incomplete initialization. Creating classes whose metaclass overridestp_new
is deprecated and in Python 3.14+ it will be no longer allowed.
-
PyObject *PyType_FromSpecWithBases(PyType_Spec *spec, PyObject *bases)¶
- Valore di ritorno: Nuovo riferimento. Parte del ABI Stabile dalla versione 3.3.
Equivalent to
PyType_FromMetaclass(NULL, NULL, spec, bases)
.Added in version 3.3.
Cambiato nella versione 3.12: The function now finds and uses a metaclass corresponding to the provided base classes. Previously, only
type
instances were returned.The
tp_new
of the metaclass is ignored. which may result in incomplete initialization. Creating classes whose metaclass overridestp_new
is deprecated and in Python 3.14+ it will be no longer allowed.
-
PyObject *PyType_FromSpec(PyType_Spec *spec)¶
- Valore di ritorno: Nuovo riferimento. Parte del ABI Stabile.
Equivalent to
PyType_FromMetaclass(NULL, NULL, spec, NULL)
.Cambiato nella versione 3.12: The function now finds and uses a metaclass corresponding to the base classes provided in Py_tp_base[s] slots. Previously, only
type
instances were returned.The
tp_new
of the metaclass is ignored. which may result in incomplete initialization. Creating classes whose metaclass overridestp_new
is deprecated and in Python 3.14+ it will be no longer allowed.
-
type PyType_Spec¶
- Parte del ABI Stabile (inclusi tutti i membri).
Structure defining a type’s behavior.
-
const char *name¶
Name of the type, used to set
PyTypeObject.tp_name
.
-
int basicsize¶
If positive, specifies the size of the instance in bytes. It is used to set
PyTypeObject.tp_basicsize
.If zero, specifies that
tp_basicsize
should be inherited.If negative, the absolute value specifies how much space instances of the class need in addition to the superclass. Use
PyObject_GetTypeData()
to get a pointer to subclass-specific memory reserved this way.Cambiato nella versione 3.12: Previously, this field could not be negative.
-
int itemsize¶
Size of one element of a variable-size type, in bytes. Used to set
PyTypeObject.tp_itemsize
. Seetp_itemsize
documentation for caveats.If zero,
tp_itemsize
is inherited. Extending arbitrary variable-sized classes is dangerous, since some types use a fixed offset for variable-sized memory, which can then overlap fixed-sized memory used by a subclass. To help prevent mistakes, inheritingitemsize
is only possible in the following situations:The base is not variable-sized (its
tp_itemsize
).The requested
PyType_Spec.basicsize
is positive, suggesting that the memory layout of the base class is known.The requested
PyType_Spec.basicsize
is zero, suggesting that the subclass does not access the instance’s memory directly.With the
Py_TPFLAGS_ITEMS_AT_END
flag.
-
unsigned int flags¶
Type flags, used to set
PyTypeObject.tp_flags
.If the
Py_TPFLAGS_HEAPTYPE
flag is not set,PyType_FromSpecWithBases()
sets it automatically.
-
PyType_Slot *slots¶
Array of
PyType_Slot
structures. Terminated by the special slot value{0, NULL}
.Each slot ID should be specified at most once.
-
const char *name¶
-
type PyType_Slot¶
- Parte del ABI Stabile (inclusi tutti i membri).
Structure defining optional functionality of a type, containing a slot ID and a value pointer.
-
int slot¶
A slot ID.
Slot IDs are named like the field names of the structures
PyTypeObject
,PyNumberMethods
,PySequenceMethods
,PyMappingMethods
andPyAsyncMethods
with an addedPy_
prefix. For example, use:Py_tp_dealloc
to setPyTypeObject.tp_dealloc
Py_nb_add
to setPyNumberMethods.nb_add
Py_sq_length
to setPySequenceMethods.sq_length
The following “offset” fields cannot be set using
PyType_Slot
:tp_weaklistoffset
(usePy_TPFLAGS_MANAGED_WEAKREF
instead if possible)tp_dictoffset
(usePy_TPFLAGS_MANAGED_DICT
instead if possible)tp_vectorcall_offset
(use"__vectorcalloffset__"
in PyMemberDef)
If it is not possible to switch to a
MANAGED
flag (for example, for vectorcall or to support Python older than 3.12), specify the offset inPy_tp_members
. See PyMemberDef documentation for details.The following fields cannot be set at all when creating a heap type:
tp_vectorcall
(usetp_new
and/ortp_init
)Internal fields:
tp_dict
,tp_mro
,tp_cache
,tp_subclasses
, andtp_weaklist
.
Setting
Py_tp_bases
orPy_tp_base
may be problematic on some platforms. To avoid issues, use the bases argument ofPyType_FromSpecWithBases()
instead.Cambiato nella versione 3.9: Slots in
PyBufferProcs
may be set in the unlimited API.Cambiato nella versione 3.11:
bf_getbuffer
andbf_releasebuffer
are now available under the limited API.
-
void *pfunc¶
The desired value of the slot. In most cases, this is a pointer to a function.
Slots other than
Py_tp_doc
may not beNULL
.
-
int slot¶