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# SOME DESCRIPTIVE TITLE.
# Copyright (C) 2001 Python Software Foundation
# This file is distributed under the same license as the Python package.
# FIRST AUTHOR <EMAIL@ADDRESS>, YEAR.
#
# Translators:
# python-doc bot, 2025
#
#, fuzzy
msgid ""
msgstr ""
"Project-Id-Version: Python 3.14\n"
"Report-Msgid-Bugs-To: \n"
"POT-Creation-Date: 2026-03-09 14:44+0000\n"
"PO-Revision-Date: 2025-09-16 00:00+0000\n"
"Last-Translator: python-doc bot, 2025\n"
"Language-Team: Indonesian (https://app.transifex.com/python-doc/teams/5390/"
"id/)\n"
"MIME-Version: 1.0\n"
"Content-Type: text/plain; charset=UTF-8\n"
"Content-Transfer-Encoding: 8bit\n"
"Language: id\n"
"Plural-Forms: nplurals=1; plural=0;\n"
msgid "Common Object Structures"
msgstr "Struktur Objek Umum"
msgid ""
"There are a large number of structures which are used in the definition of "
"object types for Python. This section describes these structures and how "
"they are used."
msgstr ""
msgid "Base object types and macros"
msgstr ""
msgid ""
"All Python objects ultimately share a small number of fields at the "
"beginning of the object's representation in memory. These are represented "
"by the :c:type:`PyObject` and :c:type:`PyVarObject` types, which are "
"defined, in turn, by the expansions of some macros also used, whether "
"directly or indirectly, in the definition of all other Python objects. "
"Additional macros can be found under :ref:`reference counting "
"<countingrefs>`."
msgstr ""
msgid ""
"All object types are extensions of this type. This is a type which contains "
"the information Python needs to treat a pointer to an object as an object. "
"In a normal \"release\" build, it contains only the object's reference count "
"and a pointer to the corresponding type object. Nothing is actually declared "
"to be a :c:type:`PyObject`, but every pointer to a Python object can be cast "
"to a :c:expr:`PyObject*`."
msgstr ""
msgid ""
"The members must not be accessed directly; instead use macros such as :c:"
"macro:`Py_REFCNT` and :c:macro:`Py_TYPE`."
msgstr ""
msgid ""
"The object's reference count, as returned by :c:macro:`Py_REFCNT`. Do not "
"use this field directly; instead use functions and macros such as :c:macro:`!"
"Py_REFCNT`, :c:func:`Py_INCREF` and :c:func:`Py_DecRef`."
msgstr ""
msgid ""
"The field type may be different from ``Py_ssize_t``, depending on build "
"configuration and platform."
msgstr ""
msgid ""
"The object's type. Do not use this field directly; use :c:macro:`Py_TYPE` "
"and :c:func:`Py_SET_TYPE` instead."
msgstr ""
msgid ""
"An extension of :c:type:`PyObject` that adds the :c:member:`~PyVarObject."
"ob_size` field. This is intended for objects that have some notion of "
"*length*."
msgstr ""
msgid ""
"As with :c:type:`!PyObject`, the members must not be accessed directly; "
"instead use macros such as :c:macro:`Py_SIZE`, :c:macro:`Py_REFCNT` and :c:"
"macro:`Py_TYPE`."
msgstr ""
msgid ""
"A size field, whose contents should be considered an object's internal "
"implementation detail."
msgstr ""
msgid "Do not use this field directly; use :c:macro:`Py_SIZE` instead."
msgstr ""
msgid ""
"Object creation functions such as :c:func:`PyObject_NewVar` will generally "
"set this field to the requested size (number of items). After creation, "
"arbitrary values can be stored in :c:member:`!ob_size` using :c:macro:"
"`Py_SET_SIZE`."
msgstr ""
msgid ""
"To get an object's publicly exposed length, as returned by the Python "
"function :py:func:`len`, use :c:func:`PyObject_Length` instead."
msgstr ""
msgid ""
"This is a macro used when declaring new types which represent objects "
"without a varying length. The PyObject_HEAD macro expands to::"
msgstr ""
msgid "PyObject ob_base;"
msgstr ""
msgid "See documentation of :c:type:`PyObject` above."
msgstr ""
msgid ""
"This is a macro used when declaring new types which represent objects with a "
"length that varies from instance to instance. The PyObject_VAR_HEAD macro "
"expands to::"
msgstr ""
msgid "PyVarObject ob_base;"
msgstr ""
msgid "See documentation of :c:type:`PyVarObject` above."
msgstr ""
msgid ""
"The base class of all other objects, the same as :class:`object` in Python."
msgstr ""
msgid ""
"Test if the *x* object is the *y* object, the same as ``x is y`` in Python."
msgstr ""
msgid ""
"Test if an object is the ``None`` singleton, the same as ``x is None`` in "
"Python."
msgstr ""
msgid ""
"Test if an object is the ``True`` singleton, the same as ``x is True`` in "
"Python."
msgstr ""
msgid ""
"Test if an object is the ``False`` singleton, the same as ``x is False`` in "
"Python."
msgstr ""
msgid "Get the type of the Python object *o*."
msgstr ""
msgid ""
"The returned reference is :term:`borrowed <borrowed reference>` from *o*. Do "
"not release it with :c:func:`Py_DECREF` or similar."
msgstr ""
msgid ""
":c:func:`Py_TYPE()` is changed to an inline static function. The parameter "
"type is no longer :c:expr:`const PyObject*`."
msgstr ""
msgid ""
"Return non-zero if the object *o* type is *type*. Return zero otherwise. "
"Equivalent to: ``Py_TYPE(o) == type``."
msgstr ""
msgid ""
"Set the type of object *o* to *type*, without any checking or reference "
"counting."
msgstr ""
msgid ""
"This is a very low-level operation. Consider instead setting the Python "
"attribute :attr:`~object.__class__` using :c:func:`PyObject_SetAttrString` "
"or similar."
msgstr ""
msgid ""
"Note that assigning an incompatible type can lead to undefined behavior."
msgstr ""
msgid ""
"If *type* is a :ref:`heap type <heap-types>`, the caller must create a new "
"reference to it. Similarly, if the old type of *o* is a heap type, the "
"caller must release a reference to that type."
msgstr ""
msgid "Get the :c:member:`~PyVarObject.ob_size` field of *o*."
msgstr ""
msgid ""
":c:func:`Py_SIZE()` is changed to an inline static function. The parameter "
"type is no longer :c:expr:`const PyVarObject*`."
msgstr ""
msgid "Set the :c:member:`~PyVarObject.ob_size` field of *o* to *size*."
msgstr ""
msgid ""
"This is a macro which expands to initialization values for a new :c:type:"
"`PyObject` type. This macro expands to::"
msgstr ""
msgid ""
"_PyObject_EXTRA_INIT\n"
"1, type,"
msgstr ""
msgid ""
"This is a macro which expands to initialization values for a new :c:type:"
"`PyVarObject` type, including the :c:member:`~PyVarObject.ob_size` field. "
"This macro expands to::"
msgstr ""
msgid ""
"_PyObject_EXTRA_INIT\n"
"1, type, size,"
msgstr ""
msgid "Implementing functions and methods"
msgstr ""
msgid ""
"Type of the functions used to implement most Python callables in C. "
"Functions of this type take two :c:expr:`PyObject*` parameters and return "
"one such value. If the return value is ``NULL``, an exception shall have "
"been set. If not ``NULL``, the return value is interpreted as the return "
"value of the function as exposed in Python. The function must return a new "
"reference."
msgstr ""
msgid "The function signature is::"
msgstr ""
msgid ""
"PyObject *PyCFunction(PyObject *self,\n"
" PyObject *args);"
msgstr ""
msgid ""
"Type of the functions used to implement Python callables in C with "
"signature :ref:`METH_VARARGS | METH_KEYWORDS <METH_VARARGS-METH_KEYWORDS>`. "
"The function signature is::"
msgstr ""
msgid ""
"PyObject *PyCFunctionWithKeywords(PyObject *self,\n"
" PyObject *args,\n"
" PyObject *kwargs);"
msgstr ""
msgid ""
"Type of the functions used to implement Python callables in C with "
"signature :c:macro:`METH_FASTCALL`. The function signature is::"
msgstr ""
msgid ""
"PyObject *PyCFunctionFast(PyObject *self,\n"
" PyObject *const *args,\n"
" Py_ssize_t nargs);"
msgstr ""
msgid ""
"Type of the functions used to implement Python callables in C with "
"signature :ref:`METH_FASTCALL | METH_KEYWORDS <METH_FASTCALL-"
"METH_KEYWORDS>`. The function signature is::"
msgstr ""
msgid ""
"PyObject *PyCFunctionFastWithKeywords(PyObject *self,\n"
" PyObject *const *args,\n"
" Py_ssize_t nargs,\n"
" PyObject *kwnames);"
msgstr ""
msgid ""
"Type of the functions used to implement Python callables in C with "
"signature :ref:`METH_METHOD | METH_FASTCALL | METH_KEYWORDS <METH_METHOD-"
"METH_FASTCALL-METH_KEYWORDS>`. The function signature is::"
msgstr ""
msgid ""
"PyObject *PyCMethod(PyObject *self,\n"
" PyTypeObject *defining_class,\n"
" PyObject *const *args,\n"
" Py_ssize_t nargs,\n"
" PyObject *kwnames)"
msgstr ""
msgid ""
"Structure used to describe a method of an extension type. This structure "
"has four fields:"
msgstr ""
msgid "Name of the method."
msgstr ""
msgid "Pointer to the C implementation."
msgstr ""
msgid "Flags bits indicating how the call should be constructed."
msgstr ""
msgid "Points to the contents of the docstring."
msgstr ""
msgid ""
"The :c:member:`~PyMethodDef.ml_meth` is a C function pointer. The functions "
"may be of different types, but they always return :c:expr:`PyObject*`. If "
"the function is not of the :c:type:`PyCFunction`, the compiler will require "
"a cast in the method table. Even though :c:type:`PyCFunction` defines the "
"first parameter as :c:expr:`PyObject*`, it is common that the method "
"implementation uses the specific C type of the *self* object."
msgstr ""
msgid ""
"The :c:member:`~PyMethodDef.ml_flags` field is a bitfield which can include "
"the following flags. The individual flags indicate either a calling "
"convention or a binding convention."
msgstr ""
msgid "There are these calling conventions:"
msgstr ""
msgid ""
"This is the typical calling convention, where the methods have the type :c:"
"type:`PyCFunction`. The function expects two :c:expr:`PyObject*` values. The "
"first one is the *self* object for methods; for module functions, it is the "
"module object. The second parameter (often called *args*) is a tuple object "
"representing all arguments. This parameter is typically processed using :c:"
"func:`PyArg_ParseTuple` or :c:func:`PyArg_UnpackTuple`."
msgstr ""
msgid ""
"Can only be used in certain combinations with other flags: :ref:"
"`METH_VARARGS | METH_KEYWORDS <METH_VARARGS-METH_KEYWORDS>`, :ref:"
"`METH_FASTCALL | METH_KEYWORDS <METH_FASTCALL-METH_KEYWORDS>` and :ref:"
"`METH_METHOD | METH_FASTCALL | METH_KEYWORDS <METH_METHOD-METH_FASTCALL-"
"METH_KEYWORDS>`."
msgstr ""
msgid ":c:expr:`METH_VARARGS | METH_KEYWORDS`"
msgstr ""
msgid ""
"Methods with these flags must be of type :c:type:`PyCFunctionWithKeywords`. "
"The function expects three parameters: *self*, *args*, *kwargs* where "
"*kwargs* is a dictionary of all the keyword arguments or possibly ``NULL`` "
"if there are no keyword arguments. The parameters are typically processed "
"using :c:func:`PyArg_ParseTupleAndKeywords`."
msgstr ""
msgid ""
"Fast calling convention supporting only positional arguments. The methods "
"have the type :c:type:`PyCFunctionFast`. The first parameter is *self*, the "
"second parameter is a C array of :c:expr:`PyObject*` values indicating the "
"arguments and the third parameter is the number of arguments (the length of "
"the array)."
msgstr ""
msgid "``METH_FASTCALL`` is now part of the :ref:`stable ABI <stable-abi>`."
msgstr ""
msgid ":c:expr:`METH_FASTCALL | METH_KEYWORDS`"
msgstr ""
msgid ""
"Extension of :c:macro:`METH_FASTCALL` supporting also keyword arguments, "
"with methods of type :c:type:`PyCFunctionFastWithKeywords`. Keyword "
"arguments are passed the same way as in the :ref:`vectorcall protocol "
"<vectorcall>`: there is an additional fourth :c:expr:`PyObject*` parameter "
"which is a tuple representing the names of the keyword arguments (which are "
"guaranteed to be strings) or possibly ``NULL`` if there are no keywords. "
"The values of the keyword arguments are stored in the *args* array, after "
"the positional arguments."
msgstr ""
msgid ""
"Can only be used in the combination with other flags: :ref:`METH_METHOD | "
"METH_FASTCALL | METH_KEYWORDS <METH_METHOD-METH_FASTCALL-METH_KEYWORDS>`."
msgstr ""
msgid ":c:expr:`METH_METHOD | METH_FASTCALL | METH_KEYWORDS`"
msgstr ""
msgid ""
"Extension of :ref:`METH_FASTCALL | METH_KEYWORDS <METH_FASTCALL-"
"METH_KEYWORDS>` supporting the *defining class*, that is, the class that "
"contains the method in question. The defining class might be a superclass of "
"``Py_TYPE(self)``."
msgstr ""
msgid ""
"The method needs to be of type :c:type:`PyCMethod`, the same as for "
"``METH_FASTCALL | METH_KEYWORDS`` with ``defining_class`` argument added "
"after ``self``."
msgstr ""
msgid ""
"Methods without parameters don't need to check whether arguments are given "
"if they are listed with the :c:macro:`METH_NOARGS` flag. They need to be of "
"type :c:type:`PyCFunction`. The first parameter is typically named *self* "
"and will hold a reference to the module or object instance. In all cases "
"the second parameter will be ``NULL``."
msgstr ""
msgid ""
"The function must have 2 parameters. Since the second parameter is unused, :"
"c:macro:`Py_UNUSED` can be used to prevent a compiler warning."
msgstr ""
msgid ""
"Methods with a single object argument can be listed with the :c:macro:"
"`METH_O` flag, instead of invoking :c:func:`PyArg_ParseTuple` with a "
"``\"O\"`` argument. They have the type :c:type:`PyCFunction`, with the "
"*self* parameter, and a :c:expr:`PyObject*` parameter representing the "
"single argument."
msgstr ""
msgid ""
"These two constants are not used to indicate the calling convention but the "
"binding when used with methods of classes. These may not be used for "
"functions defined for modules. At most one of these flags may be set for "
"any given method."
msgstr ""
msgid ""
"The method will be passed the type object as the first parameter rather than "
"an instance of the type. This is used to create *class methods*, similar to "
"what is created when using the :func:`classmethod` built-in function."
msgstr ""
msgid ""
"The method will be passed ``NULL`` as the first parameter rather than an "
"instance of the type. This is used to create *static methods*, similar to "
"what is created when using the :func:`staticmethod` built-in function."
msgstr ""
msgid ""
"One other constant controls whether a method is loaded in place of another "
"definition with the same method name."
msgstr ""
msgid ""
"The method will be loaded in place of existing definitions. Without "
"*METH_COEXIST*, the default is to skip repeated definitions. Since slot "
"wrappers are loaded before the method table, the existence of a "
"*sq_contains* slot, for example, would generate a wrapped method named :meth:"
"`~object.__contains__` and preclude the loading of a corresponding "
"PyCFunction with the same name. With the flag defined, the PyCFunction will "
"be loaded in place of the wrapper object and will co-exist with the slot. "
"This is helpful because calls to PyCFunctions are optimized more than "
"wrapper object calls."
msgstr ""
msgid ""
"The type object corresponding to Python C method objects. This is available "
"as :class:`types.BuiltinMethodType` in the Python layer."
msgstr ""
msgid ""
"Return true if *op* is an instance of the :c:type:`PyCMethod_Type` type or a "
"subtype of it. This function always succeeds."
msgstr ""
msgid ""
"This is the same as :c:func:`PyCMethod_Check`, but does not account for "
"subtypes."
msgstr ""
msgid ""
"Turn *ml* into a Python :term:`callable` object. The caller must ensure that "
"*ml* outlives the :term:`callable`. Typically, *ml* is defined as a static "
"variable."
msgstr ""
msgid ""
"The *self* parameter will be passed as the *self* argument to the C function "
"in ``ml->ml_meth`` when invoked. *self* can be ``NULL``."
msgstr ""
msgid ""
"The :term:`callable` object's ``__module__`` attribute can be set from the "
"given *module* argument. *module* should be a Python string, which will be "
"used as name of the module the function is defined in. If unavailable, it "
"can be set to :const:`None` or ``NULL``."
msgstr ""
msgid ":attr:`function.__module__`"
msgstr ""
msgid ""
"The *cls* parameter will be passed as the *defining_class* argument to the C "
"function. Must be set if :c:macro:`METH_METHOD` is set on ``ml->ml_flags``."
msgstr ""
msgid ""
"The type object corresponding to Python C function objects. This is "
"available as :class:`types.BuiltinFunctionType` in the Python layer."
msgstr ""
msgid ""
"Return true if *op* is an instance of the :c:type:`PyCFunction_Type` type or "
"a subtype of it. This function always succeeds."
msgstr ""
msgid ""
"This is the same as :c:func:`PyCFunction_Check`, but does not account for "
"subtypes."
msgstr ""
msgid "Equivalent to ``PyCMethod_New(ml, self, module, NULL)``."
msgstr ""
msgid "Equivalent to ``PyCMethod_New(ml, self, NULL, NULL)``."
msgstr ""
msgid ""
"Get the function's flags on *func* as they were passed to :c:member:"
"`~PyMethodDef.ml_flags`."
msgstr ""
msgid ""
"If *func* is not a C function object, this fails with an exception. *func* "
"must not be ``NULL``."
msgstr ""
msgid ""
"This function returns the function's flags on success, and ``-1`` with an "
"exception set on failure."
msgstr ""
msgid ""
"This is the same as :c:func:`PyCFunction_GetFlags`, but without error or "
"type checking."
msgstr ""
msgid ""
"Get the function pointer on *func* as it was passed to :c:member:"
"`~PyMethodDef.ml_meth`."
msgstr ""
msgid ""
"This function returns the function pointer on success, and ``NULL`` with an "
"exception set on failure."
msgstr ""
msgid ""
"This is the same as :c:func:`PyCFunction_GetFunction`, but without error or "
"type checking."
msgstr ""
msgid ""
"Get the \"self\" object on *func*. This is the object that would be passed "
"to the first argument of a :c:type:`PyCFunction`. For C function objects "
"created through a :c:type:`PyMethodDef` on a :c:type:`PyModuleDef`, this is "
"the resulting module object."
msgstr ""
msgid ""
"This function returns a :term:`borrowed reference` to the \"self\" object on "
"success, and ``NULL`` with an exception set on failure."
msgstr ""
msgid ""
"This is the same as :c:func:`PyCFunction_GetSelf`, but without error or type "
"checking."
msgstr ""
msgid "Accessing attributes of extension types"
msgstr ""
msgid ""
"Structure which describes an attribute of a type which corresponds to a C "
"struct member. When defining a class, put a NULL-terminated array of these "
"structures in the :c:member:`~PyTypeObject.tp_members` slot."
msgstr ""
msgid "Its fields are, in order:"
msgstr ""
msgid ""
"Name of the member. A NULL value marks the end of a ``PyMemberDef[]`` array."
msgstr ""
msgid "The string should be static, no copy is made of it."
msgstr ""
msgid ""
"The type of the member in the C struct. See :ref:`PyMemberDef-types` for the "
"possible values."
msgstr ""
msgid ""
"The offset in bytes that the member is located on the type’s object struct."
msgstr ""
msgid ""
"Zero or more of the :ref:`PyMemberDef-flags`, combined using bitwise OR."
msgstr ""
msgid ""
"The docstring, or NULL. The string should be static, no copy is made of it. "
"Typically, it is defined using :c:macro:`PyDoc_STR`."
msgstr ""
msgid ""
"By default (when :c:member:`~PyMemberDef.flags` is ``0``), members allow "
"both read and write access. Use the :c:macro:`Py_READONLY` flag for read-"
"only access. Certain types, like :c:macro:`Py_T_STRING`, imply :c:macro:"
"`Py_READONLY`. Only :c:macro:`Py_T_OBJECT_EX` (and legacy :c:macro:"
"`T_OBJECT`) members can be deleted."
msgstr ""
msgid ""
"For heap-allocated types (created using :c:func:`PyType_FromSpec` or "
"similar), ``PyMemberDef`` may contain a definition for the special member "
"``\"__vectorcalloffset__\"``, corresponding to :c:member:`~PyTypeObject."
"tp_vectorcall_offset` in type objects. This member must be defined with "
"``Py_T_PYSSIZET``, and either ``Py_READONLY`` or ``Py_READONLY | "
"Py_RELATIVE_OFFSET``. For example::"
msgstr ""
msgid ""
"static PyMemberDef spam_type_members[] = {\n"
" {\"__vectorcalloffset__\", Py_T_PYSSIZET,\n"
" offsetof(Spam_object, vectorcall), Py_READONLY},\n"
" {NULL} /* Sentinel */\n"
"};"
msgstr ""
msgid "(You may need to ``#include <stddef.h>`` for :c:func:`!offsetof`.)"
msgstr ""
msgid ""
"The legacy offsets :c:member:`~PyTypeObject.tp_dictoffset` and :c:member:"
"`~PyTypeObject.tp_weaklistoffset` can be defined similarly using "
"``\"__dictoffset__\"`` and ``\"__weaklistoffset__\"`` members, but "
"extensions are strongly encouraged to use :c:macro:`Py_TPFLAGS_MANAGED_DICT` "
"and :c:macro:`Py_TPFLAGS_MANAGED_WEAKREF` instead."
msgstr ""
msgid ""
"``PyMemberDef`` is always available. Previously, it required including "
"``\"structmember.h\"``."
msgstr ""
msgid ""
":c:macro:`Py_RELATIVE_OFFSET` is now allowed for "
"``\"__vectorcalloffset__\"``, ``\"__dictoffset__\"`` and "
"``\"__weaklistoffset__\"``."
msgstr ""
msgid ""
"Get an attribute belonging to the object at address *obj_addr*. The "
"attribute is described by ``PyMemberDef`` *m*. Returns ``NULL`` on error."
msgstr ""
msgid ""
"``PyMember_GetOne`` is always available. Previously, it required including "
"``\"structmember.h\"``."
msgstr ""
msgid ""
"Set an attribute belonging to the object at address *obj_addr* to object "
"*o*. The attribute to set is described by ``PyMemberDef`` *m*. Returns "
"``0`` if successful and a negative value on failure."
msgstr ""
msgid ""
"``PyMember_SetOne`` is always available. Previously, it required including "
"``\"structmember.h\"``."
msgstr ""
msgid "Member flags"
msgstr ""
msgid "The following flags can be used with :c:member:`PyMemberDef.flags`:"
msgstr ""
msgid "Not writable."
msgstr ""
msgid ""
"Emit an ``object.__getattr__`` :ref:`audit event <audit-events>` before "
"reading."
msgstr ""
msgid ""
"Indicates that the :c:member:`~PyMemberDef.offset` of this ``PyMemberDef`` "
"entry indicates an offset from the subclass-specific data, rather than from "
"``PyObject``."
msgstr ""
msgid ""
"Can only be used as part of the :c:data:`Py_tp_members` :c:type:`slot "
"<PyType_Slot>` when creating a class using negative :c:member:`~PyType_Spec."
"basicsize`. It is mandatory in that case. When setting :c:member:"
"`~PyTypeObject.tp_members` from the slot during class creation, Python "
"clears the flag and sets :c:member:`PyMemberDef.offset` to the offset from "
"the ``PyObject`` struct."
msgstr ""
msgid ""
"The :c:macro:`!RESTRICTED`, :c:macro:`!READ_RESTRICTED` and :c:macro:`!"
"WRITE_RESTRICTED` macros available with ``#include \"structmember.h\"`` are "
"deprecated. :c:macro:`!READ_RESTRICTED` and :c:macro:`!RESTRICTED` are "
"equivalent to :c:macro:`Py_AUDIT_READ`; :c:macro:`!WRITE_RESTRICTED` does "
"nothing."
msgstr ""
msgid ""
"The :c:macro:`!READONLY` macro was renamed to :c:macro:`Py_READONLY`. The :c:"
"macro:`!PY_AUDIT_READ` macro was renamed with the ``Py_`` prefix. The new "
"names are now always available. Previously, these required ``#include "
"\"structmember.h\"``. The header is still available and it provides the old "
"names."
msgstr ""
msgid "Member types"
msgstr ""
msgid ""
":c:member:`PyMemberDef.type` can be one of the following macros "
"corresponding to various C types. When the member is accessed in Python, it "
"will be converted to the equivalent Python type. When it is set from Python, "
"it will be converted back to the C type. If that is not possible, an "
"exception such as :exc:`TypeError` or :exc:`ValueError` is raised."
msgstr ""
msgid ""
"Unless marked (D), attributes defined this way cannot be deleted using e.g. :"
"keyword:`del` or :py:func:`delattr`."
msgstr ""
msgid "Macro name"
msgstr "Nama macro"
msgid "C type"
msgstr "tipe C"
msgid "Python type"
msgstr "tipe Python"
msgid ":c:expr:`char`"
msgstr ""
msgid ":py:class:`int`"
msgstr ""
msgid ":c:expr:`short`"
msgstr ""
msgid ":c:expr:`int`"
msgstr ""
msgid ":c:expr:`long`"
msgstr ""
msgid ":c:expr:`long long`"
msgstr ""
msgid ":c:expr:`unsigned char`"
msgstr ""
msgid ":c:expr:`unsigned int`"
msgstr ""
msgid ":c:expr:`unsigned short`"
msgstr ""
msgid ":c:expr:`unsigned long`"
msgstr ""
msgid ":c:expr:`unsigned long long`"
msgstr ""
msgid ":c:expr:`Py_ssize_t`"
msgstr ""
msgid ":c:expr:`float`"
msgstr ""
msgid ":py:class:`float`"
msgstr ""
msgid ":c:expr:`double`"
msgstr ""
msgid ":c:expr:`char` (written as 0 or 1)"
msgstr ""
msgid ":py:class:`bool`"
msgstr ""
msgid ":c:expr:`const char *` (*)"
msgstr ""
msgid ":py:class:`str` (RO)"
msgstr ""
msgid ":c:expr:`const char[]` (*)"
msgstr ""
msgid ":c:expr:`char` (0-127)"
msgstr ""
msgid ":py:class:`str` (**)"
msgstr ""
msgid ":c:expr:`PyObject *`"
msgstr ""
msgid ":py:class:`object` (D)"
msgstr ""
msgid ""
"(*): Zero-terminated, UTF8-encoded C string. With :c:macro:`!Py_T_STRING` "
"the C representation is a pointer; with :c:macro:`!Py_T_STRING_INPLACE` the "
"string is stored directly in the structure."
msgstr ""
msgid "(**): String of length 1. Only ASCII is accepted."
msgstr ""
msgid "(RO): Implies :c:macro:`Py_READONLY`."
msgstr ""
msgid ""
"(D): Can be deleted, in which case the pointer is set to ``NULL``. Reading a "
"``NULL`` pointer raises :py:exc:`AttributeError`."
msgstr ""
msgid ""
"In previous versions, the macros were only available with ``#include "
"\"structmember.h\"`` and were named without the ``Py_`` prefix (e.g. as "
"``T_INT``). The header is still available and contains the old names, along "
"with the following deprecated types:"
msgstr ""
msgid ""
"Like ``Py_T_OBJECT_EX``, but ``NULL`` is converted to ``None``. This results "
"in surprising behavior in Python: deleting the attribute effectively sets it "
"to ``None``."
msgstr ""
msgid "Always ``None``. Must be used with :c:macro:`Py_READONLY`."
msgstr ""
msgid "Defining Getters and Setters"
msgstr ""
msgid ""
"Structure to define property-like access for a type. See also description of "
"the :c:member:`PyTypeObject.tp_getset` slot."
msgstr ""
msgid "attribute name"
msgstr "nama atribut"
msgid "C function to get the attribute."
msgstr ""
msgid ""
"Optional C function to set or delete the attribute. If ``NULL``, the "
"attribute is read-only."
msgstr ""
msgid "optional docstring"
msgstr "*docstring* pilihan"
msgid ""
"Optional user data pointer, providing additional data for getter and setter."
msgstr ""
msgid ""
"The ``get`` function takes one :c:expr:`PyObject*` parameter (the instance) "
"and a user data pointer (the associated ``closure``):"
msgstr ""
msgid ""
"It should return a new reference on success or ``NULL`` with a set exception "
"on failure."
msgstr ""
msgid ""
"``set`` functions take two :c:expr:`PyObject*` parameters (the instance and "
"the value to be set) and a user data pointer (the associated ``closure``):"
msgstr ""
msgid ""
"In case the attribute should be deleted the second parameter is ``NULL``. "
"Should return ``0`` on success or ``-1`` with a set exception on failure."
msgstr ""
msgid "built-in function"
msgstr "fungsi bawaan"
msgid "classmethod"
msgstr ""
msgid "staticmethod"
msgstr ""
msgid "READ_RESTRICTED (C macro)"
msgstr ""
msgid "WRITE_RESTRICTED (C macro)"
msgstr ""
msgid "RESTRICTED (C macro)"
msgstr ""
msgid "READONLY (C macro)"
msgstr ""
msgid "T_BYTE (C macro)"
msgstr ""
msgid "T_SHORT (C macro)"
msgstr ""
msgid "T_INT (C macro)"
msgstr ""
msgid "T_LONG (C macro)"
msgstr ""
msgid "T_LONGLONG (C macro)"
msgstr ""
msgid "T_UBYTE (C macro)"
msgstr ""
msgid "T_USHORT (C macro)"
msgstr ""
msgid "T_UINT (C macro)"
msgstr ""
msgid "T_ULONG (C macro)"
msgstr ""
msgid "T_ULONGULONG (C macro)"
msgstr ""
msgid "T_PYSSIZET (C macro)"
msgstr ""
msgid "T_FLOAT (C macro)"
msgstr ""
msgid "T_DOUBLE (C macro)"
msgstr ""
msgid "T_BOOL (C macro)"
msgstr ""
msgid "T_CHAR (C macro)"
msgstr ""
msgid "T_STRING (C macro)"
msgstr ""
msgid "T_STRING_INPLACE (C macro)"
msgstr ""
msgid "T_OBJECT_EX (C macro)"
msgstr ""
msgid "structmember.h"
msgstr ""