# Copyright (C) 2001-2018, Python Software Foundation # For licence information, see README file. # msgid "" msgstr "" "Project-Id-Version: Python 3\n" "Report-Msgid-Bugs-To: \n" "POT-Creation-Date: 2023-01-15 22:33+0100\n" "PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n" "Last-Translator: FULL NAME \n" "Language-Team: FRENCH \n" "Language: fr\n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" "Content-Transfer-Encoding: 8bit\n" #: c-api/typeobj.rst:6 msgid "Type Objects" msgstr "Objets type" #: c-api/typeobj.rst:8 msgid "" "Perhaps one of the most important structures of the Python object system is " "the structure that defines a new type: the :c:type:`PyTypeObject` " "structure. Type objects can be handled using any of the ``PyObject_*`` or " "``PyType_*`` functions, but do not offer much that's interesting to most " "Python applications. These objects are fundamental to how objects behave, so " "they are very important to the interpreter itself and to any extension " "module that implements new types." msgstr "" #: c-api/typeobj.rst:16 msgid "" "Type objects are fairly large compared to most of the standard types. The " "reason for the size is that each type object stores a large number of " "values, mostly C function pointers, each of which implements a small part of " "the type's functionality. The fields of the type object are examined in " "detail in this section. The fields will be described in the order in which " "they occur in the structure." msgstr "" #: c-api/typeobj.rst:23 msgid "" "In addition to the following quick reference, the :ref:`typedef-examples` " "section provides at-a-glance insight into the meaning and use of :c:type:" "`PyTypeObject`." msgstr "" #: c-api/typeobj.rst:29 msgid "Quick Reference" msgstr "" #: c-api/typeobj.rst:34 msgid "\"tp slots\"" msgstr "" #: c-api/typeobj.rst:40 msgid "PyTypeObject Slot [#slots]_" msgstr "" #: c-api/typeobj.rst:199 msgid ":ref:`Type `" msgstr "" #: c-api/typeobj.rst:40 msgid "special methods/attrs" msgstr "" #: c-api/typeobj.rst:40 msgid "Info [#cols]_" msgstr "" #: c-api/typeobj.rst:42 msgid "O" msgstr "O" #: c-api/typeobj.rst:42 msgid "T" msgstr "T" #: c-api/typeobj.rst:42 msgid "D" msgstr "D" #: c-api/typeobj.rst:42 msgid "I" msgstr "" #: c-api/typeobj.rst:44 msgid " :c:member:`~PyTypeObject.tp_name`" msgstr "" #: c-api/typeobj.rst:86 c-api/typeobj.rst:0 msgid "const char *" msgstr "" #: c-api/typeobj.rst:44 msgid "__name__" msgstr "__name__" #: c-api/typeobj.rst:46 c-api/typeobj.rst:50 c-api/typeobj.rst:62 #: c-api/typeobj.rst:72 c-api/typeobj.rst:76 c-api/typeobj.rst:84 #: c-api/typeobj.rst:88 c-api/typeobj.rst:92 c-api/typeobj.rst:101 #: c-api/typeobj.rst:105 c-api/typeobj.rst:109 c-api/typeobj.rst:115 #: c-api/typeobj.rst:120 c-api/typeobj.rst:124 c-api/typeobj.rst:128 #: c-api/typeobj.rst:146 msgid "X" msgstr "" #: c-api/typeobj.rst:46 msgid ":c:member:`~PyTypeObject.tp_basicsize`" msgstr "" #: c-api/typeobj.rst:48 c-api/typeobj.rst:99 c-api/typeobj.rst:0 #: c-api/typeobj.rst:414 msgid ":c:type:`Py_ssize_t`" msgstr "" #: c-api/typeobj.rst:48 msgid ":c:member:`~PyTypeObject.tp_itemsize`" msgstr "" #: c-api/typeobj.rst:50 msgid ":c:member:`~PyTypeObject.tp_dealloc`" msgstr "" #: c-api/typeobj.rst:142 c-api/typeobj.rst:344 msgid ":c:type:`destructor`" msgstr "" #: c-api/typeobj.rst:52 msgid ":c:member:`~PyTypeObject.tp_vectorcall_offset`" msgstr "" #: c-api/typeobj.rst:54 msgid "(:c:member:`~PyTypeObject.tp_getattr`)" msgstr "" #: c-api/typeobj.rst:368 msgid ":c:type:`getattrfunc`" msgstr "" #: c-api/typeobj.rst:76 msgid "__getattribute__, __getattr__" msgstr "" #: c-api/typeobj.rst:57 c-api/typeobj.rst:76 c-api/typeobj.rst:88 #: c-api/typeobj.rst:92 msgid "G" msgstr "" #: c-api/typeobj.rst:57 msgid "(:c:member:`~PyTypeObject.tp_setattr`)" msgstr "" #: c-api/typeobj.rst:373 msgid ":c:type:`setattrfunc`" msgstr "" #: c-api/typeobj.rst:79 msgid "__setattr__, __delattr__" msgstr "" #: c-api/typeobj.rst:60 msgid ":c:member:`~PyTypeObject.tp_as_async`" msgstr "" #: c-api/typeobj.rst:60 msgid ":c:type:`PyAsyncMethods` *" msgstr "" #: c-api/typeobj.rst:64 c-api/typeobj.rst:68 msgid ":ref:`sub-slots`" msgstr ":ref:`sub-slots`" #: c-api/typeobj.rst:64 c-api/typeobj.rst:68 c-api/typeobj.rst:82 msgid "%" msgstr "%" #: c-api/typeobj.rst:62 msgid ":c:member:`~PyTypeObject.tp_repr`" msgstr "" #: c-api/typeobj.rst:74 c-api/typeobj.rst:366 msgid ":c:type:`reprfunc`" msgstr "" #: c-api/typeobj.rst:62 msgid "__repr__" msgstr "" #: c-api/typeobj.rst:64 msgid ":c:member:`~PyTypeObject.tp_as_number`" msgstr "" #: c-api/typeobj.rst:64 msgid ":c:type:`PyNumberMethods` *" msgstr "" #: c-api/typeobj.rst:66 msgid ":c:member:`~PyTypeObject.tp_as_sequence`" msgstr "" #: c-api/typeobj.rst:66 msgid ":c:type:`PySequenceMethods` *" msgstr "" #: c-api/typeobj.rst:68 msgid ":c:member:`~PyTypeObject.tp_as_mapping`" msgstr "" #: c-api/typeobj.rst:68 msgid ":c:type:`PyMappingMethods` *" msgstr "" #: c-api/typeobj.rst:70 msgid ":c:member:`~PyTypeObject.tp_hash`" msgstr "" #: c-api/typeobj.rst:402 msgid ":c:type:`hashfunc`" msgstr "" #: c-api/typeobj.rst:70 msgid "__hash__" msgstr "" #: c-api/typeobj.rst:72 msgid ":c:member:`~PyTypeObject.tp_call`" msgstr "" #: c-api/typeobj.rst:235 c-api/typeobj.rst:438 msgid ":c:type:`ternaryfunc`" msgstr "" #: c-api/typeobj.rst:72 msgid "__call__" msgstr "" #: c-api/typeobj.rst:74 msgid ":c:member:`~PyTypeObject.tp_str`" msgstr "" #: c-api/typeobj.rst:74 msgid "__str__" msgstr "" #: c-api/typeobj.rst:76 msgid ":c:member:`~PyTypeObject.tp_getattro`" msgstr "" #: c-api/typeobj.rst:379 msgid ":c:type:`getattrofunc`" msgstr "" #: c-api/typeobj.rst:79 msgid ":c:member:`~PyTypeObject.tp_setattro`" msgstr "" #: c-api/typeobj.rst:384 msgid ":c:type:`setattrofunc`" msgstr "" #: c-api/typeobj.rst:82 msgid ":c:member:`~PyTypeObject.tp_as_buffer`" msgstr "" #: c-api/typeobj.rst:82 msgid ":c:type:`PyBufferProcs` *" msgstr "" #: c-api/typeobj.rst:84 msgid ":c:member:`~PyTypeObject.tp_flags`" msgstr "" #: c-api/typeobj.rst:84 msgid "unsigned long" msgstr "``unsigned long``" #: c-api/typeobj.rst:99 c-api/typeobj.rst:120 c-api/typeobj.rst:126 #: c-api/typeobj.rst:128 msgid "?" msgstr "" #: c-api/typeobj.rst:86 msgid ":c:member:`~PyTypeObject.tp_doc`" msgstr "" #: c-api/typeobj.rst:86 msgid "__doc__" msgstr "__doc__" #: c-api/typeobj.rst:88 msgid ":c:member:`~PyTypeObject.tp_traverse`" msgstr "" #: c-api/typeobj.rst:348 msgid ":c:type:`traverseproc`" msgstr "" #: c-api/typeobj.rst:90 msgid ":c:member:`~PyTypeObject.tp_clear`" msgstr "" #: c-api/typeobj.rst:130 c-api/typeobj.rst:427 msgid ":c:type:`inquiry`" msgstr "" #: c-api/typeobj.rst:92 msgid ":c:member:`~PyTypeObject.tp_richcompare`" msgstr "" #: c-api/typeobj.rst:404 msgid ":c:type:`richcmpfunc`" msgstr "" #: c-api/typeobj.rst:92 msgid "__lt__, __le__, __eq__, __ne__, __gt__, __ge__" msgstr "" #: c-api/typeobj.rst:99 msgid ":c:member:`~PyTypeObject.tp_weaklistoffset`" msgstr "" #: c-api/typeobj.rst:101 msgid ":c:member:`~PyTypeObject.tp_iter`" msgstr "" #: c-api/typeobj.rst:410 msgid ":c:type:`getiterfunc`" msgstr "" #: c-api/typeobj.rst:101 msgid "__iter__" msgstr "" #: c-api/typeobj.rst:103 msgid ":c:member:`~PyTypeObject.tp_iternext`" msgstr "" #: c-api/typeobj.rst:412 msgid ":c:type:`iternextfunc`" msgstr "" #: c-api/typeobj.rst:103 msgid "__next__" msgstr "" #: c-api/typeobj.rst:105 msgid ":c:member:`~PyTypeObject.tp_methods`" msgstr "" #: c-api/typeobj.rst:105 msgid ":c:type:`PyMethodDef` []" msgstr "" #: c-api/typeobj.rst:107 msgid ":c:member:`~PyTypeObject.tp_members`" msgstr "" #: c-api/typeobj.rst:107 msgid ":c:type:`PyMemberDef` []" msgstr "" #: c-api/typeobj.rst:109 msgid ":c:member:`~PyTypeObject.tp_getset`" msgstr "" #: c-api/typeobj.rst:109 msgid ":c:type:`PyGetSetDef` []" msgstr "" #: c-api/typeobj.rst:111 msgid ":c:member:`~PyTypeObject.tp_base`" msgstr "" #: c-api/typeobj.rst:0 msgid ":c:type:`PyTypeObject` *" msgstr "" #: c-api/typeobj.rst:111 msgid "__base__" msgstr "" #: c-api/typeobj.rst:113 msgid ":c:member:`~PyTypeObject.tp_dict`" msgstr "" #: c-api/typeobj.rst:132 c-api/typeobj.rst:136 c-api/typeobj.rst:140 #: c-api/typeobj.rst:0 c-api/typeobj.rst:366 c-api/typeobj.rst:379 #: c-api/typeobj.rst:402 c-api/typeobj.rst:410 c-api/typeobj.rst:414 #: c-api/typeobj.rst:433 c-api/typeobj.rst:444 msgid ":c:type:`PyObject` *" msgstr "" #: c-api/typeobj.rst:113 msgid "__dict__" msgstr "" #: c-api/typeobj.rst:115 msgid ":c:member:`~PyTypeObject.tp_descr_get`" msgstr "" #: c-api/typeobj.rst:390 msgid ":c:type:`descrgetfunc`" msgstr "" #: c-api/typeobj.rst:115 msgid "__get__" msgstr "" #: c-api/typeobj.rst:117 msgid ":c:member:`~PyTypeObject.tp_descr_set`" msgstr "" #: c-api/typeobj.rst:396 msgid ":c:type:`descrsetfunc`" msgstr "" #: c-api/typeobj.rst:117 msgid "__set__, __delete__" msgstr "" #: c-api/typeobj.rst:120 msgid ":c:member:`~PyTypeObject.tp_dictoffset`" msgstr "" #: c-api/typeobj.rst:122 msgid ":c:member:`~PyTypeObject.tp_init`" msgstr "" #: c-api/typeobj.rst:360 msgid ":c:type:`initproc`" msgstr "" #: c-api/typeobj.rst:122 msgid "__init__" msgstr "" #: c-api/typeobj.rst:124 msgid ":c:member:`~PyTypeObject.tp_alloc`" msgstr "" #: c-api/typeobj.rst:339 msgid ":c:type:`allocfunc`" msgstr "" #: c-api/typeobj.rst:126 msgid ":c:member:`~PyTypeObject.tp_new`" msgstr "" #: c-api/typeobj.rst:354 msgid ":c:type:`newfunc`" msgstr "" #: c-api/typeobj.rst:126 msgid "__new__" msgstr "" #: c-api/typeobj.rst:128 msgid ":c:member:`~PyTypeObject.tp_free`" msgstr "" #: c-api/typeobj.rst:346 msgid ":c:type:`freefunc`" msgstr "" #: c-api/typeobj.rst:130 msgid ":c:member:`~PyTypeObject.tp_is_gc`" msgstr "" #: c-api/typeobj.rst:132 msgid "<:c:member:`~PyTypeObject.tp_bases`>" msgstr "" #: c-api/typeobj.rst:132 msgid "__bases__" msgstr "" #: c-api/typeobj.rst:134 msgid "~" msgstr "" #: c-api/typeobj.rst:134 msgid "<:c:member:`~PyTypeObject.tp_mro`>" msgstr "" #: c-api/typeobj.rst:134 msgid "__mro__" msgstr "" #: c-api/typeobj.rst:136 msgid "[:c:member:`~PyTypeObject.tp_cache`]" msgstr "" #: c-api/typeobj.rst:138 msgid "[:c:member:`~PyTypeObject.tp_subclasses`]" msgstr "" #: c-api/typeobj.rst:138 msgid "__subclasses__" msgstr "" #: c-api/typeobj.rst:140 msgid "[:c:member:`~PyTypeObject.tp_weaklist`]" msgstr "" #: c-api/typeobj.rst:142 msgid "(:c:member:`~PyTypeObject.tp_del`)" msgstr "" #: c-api/typeobj.rst:144 msgid "[:c:member:`~PyTypeObject.tp_version_tag`]" msgstr "" #: c-api/typeobj.rst:144 msgid "unsigned int" msgstr "``unsigned int``" #: c-api/typeobj.rst:146 msgid ":c:member:`~PyTypeObject.tp_finalize`" msgstr "" #: c-api/typeobj.rst:146 msgid "__del__" msgstr "" #: c-api/typeobj.rst:148 msgid ":c:member:`~PyTypeObject.tp_vectorcall`" msgstr "" #: c-api/typeobj.rst:148 msgid ":c:type:`vectorcallfunc`" msgstr "" #: c-api/typeobj.rst:153 msgid "" "**()**: A slot name in parentheses indicates it is (effectively) deprecated." msgstr "" #: c-api/typeobj.rst:155 msgid "" "**<>**: Names in angle brackets should be initially set to ``NULL`` and " "treated as read-only." msgstr "" #: c-api/typeobj.rst:158 msgid "**[]**: Names in square brackets are for internal use only." msgstr "" #: c-api/typeobj.rst:160 msgid "" "**** (as a prefix) means the field is required (must be non-``NULL``)." msgstr "" #: c-api/typeobj.rst:162 msgid "Columns:" msgstr "" #: c-api/typeobj.rst:164 msgid "**\"O\"**: set on :c:type:`PyBaseObject_Type`" msgstr "" #: c-api/typeobj.rst:166 msgid "**\"T\"**: set on :c:type:`PyType_Type`" msgstr "" #: c-api/typeobj.rst:168 msgid "**\"D\"**: default (if slot is set to ``NULL``)" msgstr "" #: c-api/typeobj.rst:178 msgid "**\"I\"**: inheritance" msgstr "" #: c-api/typeobj.rst:187 msgid "" "Note that some slots are effectively inherited through the normal attribute " "lookup chain." msgstr "" #: c-api/typeobj.rst:193 msgid "sub-slots" msgstr "" #: c-api/typeobj.rst:199 msgid "Slot" msgstr "" #: c-api/typeobj.rst:199 #, fuzzy msgid "special methods" msgstr "méthode spéciale" #: c-api/typeobj.rst:202 msgid ":c:member:`~PyAsyncMethods.am_await`" msgstr "" #: c-api/typeobj.rst:204 c-api/typeobj.rst:240 c-api/typeobj.rst:244 #: c-api/typeobj.rst:275 c-api/typeobj.rst:289 c-api/typeobj.rst:429 msgid ":c:type:`unaryfunc`" msgstr "" #: c-api/typeobj.rst:202 msgid "__await__" msgstr "" #: c-api/typeobj.rst:204 msgid ":c:member:`~PyAsyncMethods.am_aiter`" msgstr "" #: c-api/typeobj.rst:204 msgid "__aiter__" msgstr "" #: c-api/typeobj.rst:206 msgid ":c:member:`~PyAsyncMethods.am_anext`" msgstr "" #: c-api/typeobj.rst:206 msgid "__anext__" msgstr "" #: c-api/typeobj.rst:208 msgid ":c:member:`~PyAsyncMethods.am_send`" msgstr "" #: c-api/typeobj.rst:208 msgid ":c:type:`sendfunc`" msgstr "" #: c-api/typeobj.rst:212 msgid ":c:member:`~PyNumberMethods.nb_add`" msgstr "" #: c-api/typeobj.rst:215 c-api/typeobj.rst:220 c-api/typeobj.rst:225 #: c-api/typeobj.rst:230 c-api/typeobj.rst:250 c-api/typeobj.rst:255 #: c-api/typeobj.rst:260 c-api/typeobj.rst:265 c-api/typeobj.rst:270 #: c-api/typeobj.rst:281 c-api/typeobj.rst:285 c-api/typeobj.rst:291 #: c-api/typeobj.rst:300 c-api/typeobj.rst:320 c-api/typeobj.rst:433 msgid ":c:type:`binaryfunc`" msgstr "" #: c-api/typeobj.rst:212 msgid "__add__ __radd__" msgstr "" #: c-api/typeobj.rst:215 msgid ":c:member:`~PyNumberMethods.nb_inplace_add`" msgstr "" #: c-api/typeobj.rst:320 msgid "__iadd__" msgstr "" #: c-api/typeobj.rst:217 msgid ":c:member:`~PyNumberMethods.nb_subtract`" msgstr "" #: c-api/typeobj.rst:217 msgid "__sub__ __rsub__" msgstr "" #: c-api/typeobj.rst:220 msgid ":c:member:`~PyNumberMethods.nb_inplace_subtract`" msgstr "" #: c-api/typeobj.rst:220 msgid "__isub__" msgstr "" #: c-api/typeobj.rst:222 msgid ":c:member:`~PyNumberMethods.nb_multiply`" msgstr "" #: c-api/typeobj.rst:222 msgid "__mul__ __rmul__" msgstr "" #: c-api/typeobj.rst:225 msgid ":c:member:`~PyNumberMethods.nb_inplace_multiply`" msgstr "" #: c-api/typeobj.rst:322 msgid "__imul__" msgstr "" #: c-api/typeobj.rst:227 msgid ":c:member:`~PyNumberMethods.nb_remainder`" msgstr "" #: c-api/typeobj.rst:227 msgid "__mod__ __rmod__" msgstr "" #: c-api/typeobj.rst:230 msgid ":c:member:`~PyNumberMethods.nb_inplace_remainder`" msgstr "" #: c-api/typeobj.rst:230 msgid "__imod__" msgstr "" #: c-api/typeobj.rst:232 msgid ":c:member:`~PyNumberMethods.nb_divmod`" msgstr "" #: c-api/typeobj.rst:232 msgid "__divmod__ __rdivmod__" msgstr "" #: c-api/typeobj.rst:235 msgid ":c:member:`~PyNumberMethods.nb_power`" msgstr "" #: c-api/typeobj.rst:235 msgid "__pow__ __rpow__" msgstr "" #: c-api/typeobj.rst:238 msgid ":c:member:`~PyNumberMethods.nb_inplace_power`" msgstr "" #: c-api/typeobj.rst:238 msgid "__ipow__" msgstr "" #: c-api/typeobj.rst:240 msgid ":c:member:`~PyNumberMethods.nb_negative`" msgstr "" #: c-api/typeobj.rst:240 msgid "__neg__" msgstr "" #: c-api/typeobj.rst:242 msgid ":c:member:`~PyNumberMethods.nb_positive`" msgstr "" #: c-api/typeobj.rst:242 msgid "__pos__" msgstr "" #: c-api/typeobj.rst:244 msgid ":c:member:`~PyNumberMethods.nb_absolute`" msgstr "" #: c-api/typeobj.rst:244 msgid "__abs__" msgstr "" #: c-api/typeobj.rst:246 msgid ":c:member:`~PyNumberMethods.nb_bool`" msgstr "" #: c-api/typeobj.rst:246 msgid "__bool__" msgstr "" #: c-api/typeobj.rst:248 msgid ":c:member:`~PyNumberMethods.nb_invert`" msgstr "" #: c-api/typeobj.rst:248 msgid "__invert__" msgstr "" #: c-api/typeobj.rst:250 msgid ":c:member:`~PyNumberMethods.nb_lshift`" msgstr "" #: c-api/typeobj.rst:250 msgid "__lshift__ __rlshift__" msgstr "" #: c-api/typeobj.rst:253 msgid ":c:member:`~PyNumberMethods.nb_inplace_lshift`" msgstr "" #: c-api/typeobj.rst:253 msgid "__ilshift__" msgstr "" #: c-api/typeobj.rst:255 msgid ":c:member:`~PyNumberMethods.nb_rshift`" msgstr "" #: c-api/typeobj.rst:255 msgid "__rshift__ __rrshift__" msgstr "" #: c-api/typeobj.rst:258 msgid ":c:member:`~PyNumberMethods.nb_inplace_rshift`" msgstr "" #: c-api/typeobj.rst:258 msgid "__irshift__" msgstr "" #: c-api/typeobj.rst:260 msgid ":c:member:`~PyNumberMethods.nb_and`" msgstr "" #: c-api/typeobj.rst:260 msgid "__and__ __rand__" msgstr "" #: c-api/typeobj.rst:263 msgid ":c:member:`~PyNumberMethods.nb_inplace_and`" msgstr "" #: c-api/typeobj.rst:263 msgid "__iand__" msgstr "" #: c-api/typeobj.rst:265 msgid ":c:member:`~PyNumberMethods.nb_xor`" msgstr "" #: c-api/typeobj.rst:265 msgid "__xor__ __rxor__" msgstr "" #: c-api/typeobj.rst:268 msgid ":c:member:`~PyNumberMethods.nb_inplace_xor`" msgstr "" #: c-api/typeobj.rst:268 msgid "__ixor__" msgstr "" #: c-api/typeobj.rst:270 msgid ":c:member:`~PyNumberMethods.nb_or`" msgstr "" #: c-api/typeobj.rst:270 msgid "__or__ __ror__" msgstr "" #: c-api/typeobj.rst:273 msgid ":c:member:`~PyNumberMethods.nb_inplace_or`" msgstr "" #: c-api/typeobj.rst:273 msgid "__ior__" msgstr "" #: c-api/typeobj.rst:275 msgid ":c:member:`~PyNumberMethods.nb_int`" msgstr "" #: c-api/typeobj.rst:275 msgid "__int__" msgstr "" #: c-api/typeobj.rst:277 msgid ":c:member:`~PyNumberMethods.nb_reserved`" msgstr "" #: c-api/typeobj.rst:344 c-api/typeobj.rst:0 c-api/typeobj.rst:427 msgid "void *" msgstr "" #: c-api/typeobj.rst:279 msgid ":c:member:`~PyNumberMethods.nb_float`" msgstr "" #: c-api/typeobj.rst:279 msgid "__float__" msgstr "" #: c-api/typeobj.rst:281 msgid ":c:member:`~PyNumberMethods.nb_floor_divide`" msgstr "" #: c-api/typeobj.rst:281 msgid "__floordiv__" msgstr "" #: c-api/typeobj.rst:283 msgid ":c:member:`~PyNumberMethods.nb_inplace_floor_divide`" msgstr "" #: c-api/typeobj.rst:283 msgid "__ifloordiv__" msgstr "" #: c-api/typeobj.rst:285 msgid ":c:member:`~PyNumberMethods.nb_true_divide`" msgstr "" #: c-api/typeobj.rst:285 msgid "__truediv__" msgstr "" #: c-api/typeobj.rst:287 msgid ":c:member:`~PyNumberMethods.nb_inplace_true_divide`" msgstr "" #: c-api/typeobj.rst:287 msgid "__itruediv__" msgstr "" #: c-api/typeobj.rst:289 msgid ":c:member:`~PyNumberMethods.nb_index`" msgstr "" #: c-api/typeobj.rst:289 msgid "__index__" msgstr "" #: c-api/typeobj.rst:291 msgid ":c:member:`~PyNumberMethods.nb_matrix_multiply`" msgstr "" #: c-api/typeobj.rst:291 msgid "__matmul__ __rmatmul__" msgstr "" #: c-api/typeobj.rst:294 msgid ":c:member:`~PyNumberMethods.nb_inplace_matrix_multiply`" msgstr "" #: c-api/typeobj.rst:294 msgid "__imatmul__" msgstr "" #: c-api/typeobj.rst:298 msgid ":c:member:`~PyMappingMethods.mp_length`" msgstr "" #: c-api/typeobj.rst:307 c-api/typeobj.rst:414 msgid ":c:type:`lenfunc`" msgstr "" #: c-api/typeobj.rst:307 msgid "__len__" msgstr "" #: c-api/typeobj.rst:300 msgid ":c:member:`~PyMappingMethods.mp_subscript`" msgstr "" #: c-api/typeobj.rst:313 msgid "__getitem__" msgstr "" #: c-api/typeobj.rst:302 msgid ":c:member:`~PyMappingMethods.mp_ass_subscript`" msgstr "" #: c-api/typeobj.rst:460 msgid ":c:type:`objobjargproc`" msgstr "" #: c-api/typeobj.rst:302 msgid "__setitem__, __delitem__" msgstr "" #: c-api/typeobj.rst:307 msgid ":c:member:`~PySequenceMethods.sq_length`" msgstr "" #: c-api/typeobj.rst:309 msgid ":c:member:`~PySequenceMethods.sq_concat`" msgstr "" #: c-api/typeobj.rst:309 msgid "__add__" msgstr "" #: c-api/typeobj.rst:311 msgid ":c:member:`~PySequenceMethods.sq_repeat`" msgstr "" #: c-api/typeobj.rst:313 c-api/typeobj.rst:444 msgid ":c:type:`ssizeargfunc`" msgstr "" #: c-api/typeobj.rst:311 msgid "__mul__" msgstr "" #: c-api/typeobj.rst:313 msgid ":c:member:`~PySequenceMethods.sq_item`" msgstr "" #: c-api/typeobj.rst:315 msgid ":c:member:`~PySequenceMethods.sq_ass_item`" msgstr "" #: c-api/typeobj.rst:449 msgid ":c:type:`ssizeobjargproc`" msgstr "" #: c-api/typeobj.rst:315 msgid "__setitem__ __delitem__" msgstr "" #: c-api/typeobj.rst:318 msgid ":c:member:`~PySequenceMethods.sq_contains`" msgstr "" #: c-api/typeobj.rst:455 msgid ":c:type:`objobjproc`" msgstr "" #: c-api/typeobj.rst:318 msgid "__contains__" msgstr "" #: c-api/typeobj.rst:320 msgid ":c:member:`~PySequenceMethods.sq_inplace_concat`" msgstr "" #: c-api/typeobj.rst:322 msgid ":c:member:`~PySequenceMethods.sq_inplace_repeat`" msgstr "" #: c-api/typeobj.rst:326 msgid ":c:member:`~PyBufferProcs.bf_getbuffer`" msgstr "" #: c-api/typeobj.rst:326 msgid ":c:func:`getbufferproc`" msgstr "" #: c-api/typeobj.rst:328 msgid ":c:member:`~PyBufferProcs.bf_releasebuffer`" msgstr "" #: c-api/typeobj.rst:328 msgid ":c:func:`releasebufferproc`" msgstr "" #: c-api/typeobj.rst:334 msgid "slot typedefs" msgstr "" #: c-api/typeobj.rst:337 msgid "typedef" msgstr "" #: c-api/typeobj.rst:337 msgid "Parameter Types" msgstr "" #: c-api/typeobj.rst:337 msgid "Return Type" msgstr "" #: c-api/typeobj.rst:346 c-api/typeobj.rst:422 msgid "void" msgstr "" #: c-api/typeobj.rst:0 msgid ":c:type:`visitproc`" msgstr "" #: c-api/typeobj.rst:360 c-api/typeobj.rst:384 c-api/typeobj.rst:0 #: c-api/typeobj.rst:427 c-api/typeobj.rst:455 c-api/typeobj.rst:460 msgid "int" msgstr "*int*" #: c-api/typeobj.rst:402 msgid "Py_hash_t" msgstr "" #: c-api/typeobj.rst:416 msgid ":c:type:`getbufferproc`" msgstr "" #: c-api/typeobj.rst:0 msgid ":c:type:`Py_buffer` *" msgstr "" #: c-api/typeobj.rst:422 msgid ":c:type:`releasebufferproc`" msgstr "" #: c-api/typeobj.rst:467 msgid "See :ref:`slot-typedefs` below for more detail." msgstr "" #: c-api/typeobj.rst:471 msgid "PyTypeObject Definition" msgstr "" #: c-api/typeobj.rst:473 msgid "" "The structure definition for :c:type:`PyTypeObject` can be found in :file:" "`Include/object.h`. For convenience of reference, this repeats the " "definition found there:" msgstr "" #: c-api/typeobj.rst:483 #, fuzzy msgid "PyObject Slots" msgstr "Objets type" #: c-api/typeobj.rst:485 msgid "" "The type object structure extends the :c:type:`PyVarObject` structure. The :" "attr:`ob_size` field is used for dynamic types (created by :func:`type_new`, " "usually called from a class statement). Note that :c:data:`PyType_Type` (the " "metatype) initializes :c:member:`~PyTypeObject.tp_itemsize`, which means " "that its instances (i.e. type objects) *must* have the :attr:`ob_size` field." msgstr "" #: c-api/typeobj.rst:494 msgid "" "This is the type object's reference count, initialized to ``1`` by the " "``PyObject_HEAD_INIT`` macro. Note that for :ref:`statically allocated type " "objects `, the type's instances (objects whose :attr:`ob_type` " "points back to the type) do *not* count as references. But for :ref:" "`dynamically allocated type objects `, the instances *do* count " "as references." msgstr "" #: c-api/typeobj.rst:524 c-api/typeobj.rst:560 c-api/typeobj.rst:647 #: c-api/typeobj.rst:743 c-api/typeobj.rst:780 c-api/typeobj.rst:822 #: c-api/typeobj.rst:851 c-api/typeobj.rst:896 c-api/typeobj.rst:934 #: c-api/typeobj.rst:981 c-api/typeobj.rst:1016 c-api/typeobj.rst:1064 #: c-api/typeobj.rst:1084 c-api/typeobj.rst:1116 c-api/typeobj.rst:1186 #: c-api/typeobj.rst:1220 c-api/typeobj.rst:1272 c-api/typeobj.rst:1356 #: c-api/typeobj.rst:1482 c-api/typeobj.rst:1544 c-api/typeobj.rst:1580 #: c-api/typeobj.rst:1609 c-api/typeobj.rst:1659 c-api/typeobj.rst:1703 #: c-api/typeobj.rst:1787 c-api/typeobj.rst:1845 c-api/typeobj.rst:1899 #: c-api/typeobj.rst:1940 c-api/typeobj.rst:1959 c-api/typeobj.rst:1983 #: c-api/typeobj.rst:2052 msgid "**Inheritance:**" msgstr "" #: c-api/typeobj.rst:562 c-api/typeobj.rst:606 msgid "This field is not inherited by subtypes." msgstr "" #: c-api/typeobj.rst:508 msgid "" "This is the type's type, in other words its metatype. It is initialized by " "the argument to the ``PyObject_HEAD_INIT`` macro, and its value should " "normally be ``&PyType_Type``. However, for dynamically loadable extension " "modules that must be usable on Windows (at least), the compiler complains " "that this is not a valid initializer. Therefore, the convention is to pass " "``NULL`` to the ``PyObject_HEAD_INIT`` macro and to initialize this field " "explicitly at the start of the module's initialization function, before " "doing anything else. This is typically done like this::" msgstr "" #: c-api/typeobj.rst:519 msgid "" "This should be done before any instances of the type are created. :c:func:" "`PyType_Ready` checks if :attr:`ob_type` is ``NULL``, and if so, initializes " "it to the :attr:`ob_type` field of the base class. :c:func:`PyType_Ready` " "will not change this field if it is non-zero." msgstr "" #: c-api/typeobj.rst:707 c-api/typeobj.rst:916 c-api/typeobj.rst:1546 #: c-api/typeobj.rst:1687 c-api/typeobj.rst:1789 c-api/typeobj.rst:2031 msgid "This field is inherited by subtypes." msgstr "" #: c-api/typeobj.rst:532 msgid "" "These fields are only present when the macro ``Py_TRACE_REFS`` is defined " "(see the :option:`configure --with-trace-refs option <--with-trace-refs>`)." msgstr "" #: c-api/typeobj.rst:535 msgid "" "Their initialization to ``NULL`` is taken care of by the " "``PyObject_HEAD_INIT`` macro. For :ref:`statically allocated objects " "`, these fields always remain ``NULL``. For :ref:`dynamically " "allocated objects `, these two fields are used to link the " "object into a doubly linked list of *all* live objects on the heap." msgstr "" #: c-api/typeobj.rst:541 msgid "" "This could be used for various debugging purposes; currently the only uses " "are the :func:`sys.getobjects` function and to print the objects that are " "still alive at the end of a run when the environment variable :envvar:" "`PYTHONDUMPREFS` is set." msgstr "" #: c-api/typeobj.rst:548 msgid "These fields are not inherited by subtypes." msgstr "" #: c-api/typeobj.rst:552 msgid "PyVarObject Slots" msgstr "" #: c-api/typeobj.rst:556 msgid "" "For :ref:`statically allocated type objects `, this should be " "initialized to zero. For :ref:`dynamically allocated type objects `, this field has a special internal meaning." msgstr "" #: c-api/typeobj.rst:566 #, fuzzy msgid "PyTypeObject Slots" msgstr "Objets type" #: c-api/typeobj.rst:568 msgid "" "Each slot has a section describing inheritance. If :c:func:`PyType_Ready` " "may set a value when the field is set to ``NULL`` then there will also be a " "\"Default\" section. (Note that many fields set on :c:type:" "`PyBaseObject_Type` and :c:type:`PyType_Type` effectively act as defaults.)" msgstr "" #: c-api/typeobj.rst:575 msgid "" "Pointer to a NUL-terminated string containing the name of the type. For " "types that are accessible as module globals, the string should be the full " "module name, followed by a dot, followed by the type name; for built-in " "types, it should be just the type name. If the module is a submodule of a " "package, the full package name is part of the full module name. For " "example, a type named :class:`T` defined in module :mod:`M` in subpackage :" "mod:`Q` in package :mod:`P` should have the :c:member:`~PyTypeObject." "tp_name` initializer ``\"P.Q.M.T\"``." msgstr "" #: c-api/typeobj.rst:583 msgid "" "For :ref:`dynamically allocated type objects `, this should just " "be the type name, and the module name explicitly stored in the type dict as " "the value for key ``'__module__'``." msgstr "" #: c-api/typeobj.rst:588 msgid "" "For :ref:`statically allocated type objects `, the *tp_name* " "field should contain a dot. Everything before the last dot is made " "accessible as the :attr:`__module__` attribute, and everything after the " "last dot is made accessible as the :attr:`~definition.__name__` attribute." msgstr "" #: c-api/typeobj.rst:594 msgid "" "If no dot is present, the entire :c:member:`~PyTypeObject.tp_name` field is " "made accessible as the :attr:`~definition.__name__` attribute, and the :attr:" "`__module__` attribute is undefined (unless explicitly set in the " "dictionary, as explained above). This means your type will be impossible to " "pickle. Additionally, it will not be listed in module documentations " "created with pydoc." msgstr "" #: c-api/typeobj.rst:600 msgid "" "This field must not be ``NULL``. It is the only required field in :c:func:" "`PyTypeObject` (other than potentially :c:member:`~PyTypeObject." "tp_itemsize`)." msgstr "" #: c-api/typeobj.rst:612 msgid "" "These fields allow calculating the size in bytes of instances of the type." msgstr "" #: c-api/typeobj.rst:614 msgid "" "There are two kinds of types: types with fixed-length instances have a zero :" "c:member:`~PyTypeObject.tp_itemsize` field, types with variable-length " "instances have a non-zero :c:member:`~PyTypeObject.tp_itemsize` field. For " "a type with fixed-length instances, all instances have the same size, given " "in :c:member:`~PyTypeObject.tp_basicsize`." msgstr "" #: c-api/typeobj.rst:619 msgid "" "For a type with variable-length instances, the instances must have an :attr:" "`ob_size` field, and the instance size is :c:member:`~PyTypeObject." "tp_basicsize` plus N times :c:member:`~PyTypeObject.tp_itemsize`, where N is " "the \"length\" of the object. The value of N is typically stored in the " "instance's :attr:`ob_size` field. There are exceptions: for example, ints " "use a negative :attr:`ob_size` to indicate a negative number, and N is " "``abs(ob_size)`` there. Also, the presence of an :attr:`ob_size` field in " "the instance layout doesn't mean that the instance structure is variable-" "length (for example, the structure for the list type has fixed-length " "instances, yet those instances have a meaningful :attr:`ob_size` field)." msgstr "" #: c-api/typeobj.rst:630 msgid "" "The basic size includes the fields in the instance declared by the macro :c:" "macro:`PyObject_HEAD` or :c:macro:`PyObject_VAR_HEAD` (whichever is used to " "declare the instance struct) and this in turn includes the :attr:`_ob_prev` " "and :attr:`_ob_next` fields if they are present. This means that the only " "correct way to get an initializer for the :c:member:`~PyTypeObject." "tp_basicsize` is to use the ``sizeof`` operator on the struct used to " "declare the instance layout. The basic size does not include the GC header " "size." msgstr "" #: c-api/typeobj.rst:638 msgid "" "A note about alignment: if the variable items require a particular " "alignment, this should be taken care of by the value of :c:member:" "`~PyTypeObject.tp_basicsize`. Example: suppose a type implements an array " "of ``double``. :c:member:`~PyTypeObject.tp_itemsize` is ``sizeof(double)``. " "It is the programmer's responsibility that :c:member:`~PyTypeObject." "tp_basicsize` is a multiple of ``sizeof(double)`` (assuming this is the " "alignment requirement for ``double``)." msgstr "" #: c-api/typeobj.rst:645 msgid "" "For any type with variable-length instances, this field must not be ``NULL``." msgstr "" #: c-api/typeobj.rst:649 msgid "" "These fields are inherited separately by subtypes. If the base type has a " "non-zero :c:member:`~PyTypeObject.tp_itemsize`, it is generally not safe to " "set :c:member:`~PyTypeObject.tp_itemsize` to a different non-zero value in a " "subtype (though this depends on the implementation of the base type)." msgstr "" #: c-api/typeobj.rst:657 msgid "" "A pointer to the instance destructor function. This function must be " "defined unless the type guarantees that its instances will never be " "deallocated (as is the case for the singletons ``None`` and ``Ellipsis``). " "The function signature is::" msgstr "" #: c-api/typeobj.rst:663 msgid "" "The destructor function is called by the :c:func:`Py_DECREF` and :c:func:" "`Py_XDECREF` macros when the new reference count is zero. At this point, " "the instance is still in existence, but there are no references to it. The " "destructor function should free all references which the instance owns, free " "all memory buffers owned by the instance (using the freeing function " "corresponding to the allocation function used to allocate the buffer), and " "call the type's :c:member:`~PyTypeObject.tp_free` function. If the type is " "not subtypable (doesn't have the :const:`Py_TPFLAGS_BASETYPE` flag bit set), " "it is permissible to call the object deallocator directly instead of via :c:" "member:`~PyTypeObject.tp_free`. The object deallocator should be the one " "used to allocate the instance; this is normally :c:func:`PyObject_Del` if " "the instance was allocated using :c:func:`PyObject_New` or :c:func:" "`PyObject_VarNew`, or :c:func:`PyObject_GC_Del` if the instance was " "allocated using :c:func:`PyObject_GC_New` or :c:func:`PyObject_GC_NewVar`." msgstr "" #: c-api/typeobj.rst:678 msgid "" "If the type supports garbage collection (has the :const:`Py_TPFLAGS_HAVE_GC` " "flag bit set), the destructor should call :c:func:`PyObject_GC_UnTrack` " "before clearing any member fields." msgstr "" #: c-api/typeobj.rst:690 msgid "" "Finally, if the type is heap allocated (:const:`Py_TPFLAGS_HEAPTYPE`), the " "deallocator should decrement the reference count for its type object after " "calling the type deallocator. In order to avoid dangling pointers, the " "recommended way to achieve this is:" msgstr "" #: c-api/typeobj.rst:712 msgid "" "An optional offset to a per-instance function that implements calling the " "object using the :ref:`vectorcall protocol `, a more efficient " "alternative of the simpler :c:member:`~PyTypeObject.tp_call`." msgstr "" #: c-api/typeobj.rst:717 msgid "" "This field is only used if the flag :const:`Py_TPFLAGS_HAVE_VECTORCALL` is " "set. If so, this must be a positive integer containing the offset in the " "instance of a :c:type:`vectorcallfunc` pointer." msgstr "" #: c-api/typeobj.rst:721 msgid "" "The *vectorcallfunc* pointer may be ``NULL``, in which case the instance " "behaves as if :const:`Py_TPFLAGS_HAVE_VECTORCALL` was not set: calling the " "instance falls back to :c:member:`~PyTypeObject.tp_call`." msgstr "" #: c-api/typeobj.rst:725 msgid "" "Any class that sets ``Py_TPFLAGS_HAVE_VECTORCALL`` must also set :c:member:" "`~PyTypeObject.tp_call` and make sure its behaviour is consistent with the " "*vectorcallfunc* function. This can be done by setting *tp_call* to :c:func:" "`PyVectorcall_Call`." msgstr "" #: c-api/typeobj.rst:732 msgid "" "It is not recommended for :ref:`mutable heap types ` to " "implement the vectorcall protocol. When a user sets :attr:`__call__` in " "Python code, only *tp_call* is updated, likely making it inconsistent with " "the vectorcall function." msgstr "" #: c-api/typeobj.rst:739 msgid "" "Before version 3.8, this slot was named ``tp_print``. In Python 2.x, it was " "used for printing to a file. In Python 3.0 to 3.7, it was unused." msgstr "" #: c-api/typeobj.rst:745 msgid "" "This field is always inherited. However, the :const:" "`Py_TPFLAGS_HAVE_VECTORCALL` flag is not always inherited. If it's not, then " "the subclass won't use :ref:`vectorcall `, except when :c:func:" "`PyVectorcall_Call` is explicitly called. This is in particular the case for " "types without the :const:`Py_TPFLAGS_IMMUTABLETYPE` flag set (including " "subclasses defined in Python)." msgstr "" #: c-api/typeobj.rst:757 msgid "An optional pointer to the get-attribute-string function." msgstr "" #: c-api/typeobj.rst:759 msgid "" "This field is deprecated. When it is defined, it should point to a function " "that acts the same as the :c:member:`~PyTypeObject.tp_getattro` function, " "but taking a C string instead of a Python string object to give the " "attribute name." msgstr "" #: c-api/typeobj.rst:957 msgid "Group: :attr:`tp_getattr`, :attr:`tp_getattro`" msgstr "" #: c-api/typeobj.rst:767 msgid "" "This field is inherited by subtypes together with :c:member:`~PyTypeObject." "tp_getattro`: a subtype inherits both :c:member:`~PyTypeObject.tp_getattr` " "and :c:member:`~PyTypeObject.tp_getattro` from its base type when the " "subtype's :c:member:`~PyTypeObject.tp_getattr` and :c:member:`~PyTypeObject." "tp_getattro` are both ``NULL``." msgstr "" #: c-api/typeobj.rst:970 msgid "" "An optional pointer to the function for setting and deleting attributes." msgstr "" #: c-api/typeobj.rst:776 msgid "" "This field is deprecated. When it is defined, it should point to a function " "that acts the same as the :c:member:`~PyTypeObject.tp_setattro` function, " "but taking a C string instead of a Python string object to give the " "attribute name." msgstr "" #: c-api/typeobj.rst:983 msgid "Group: :attr:`tp_setattr`, :attr:`tp_setattro`" msgstr "" #: c-api/typeobj.rst:784 msgid "" "This field is inherited by subtypes together with :c:member:`~PyTypeObject." "tp_setattro`: a subtype inherits both :c:member:`~PyTypeObject.tp_setattr` " "and :c:member:`~PyTypeObject.tp_setattro` from its base type when the " "subtype's :c:member:`~PyTypeObject.tp_setattr` and :c:member:`~PyTypeObject." "tp_setattro` are both ``NULL``." msgstr "" #: c-api/typeobj.rst:791 msgid "" "Pointer to an additional structure that contains fields relevant only to " "objects which implement :term:`awaitable` and :term:`asynchronous iterator` " "protocols at the C-level. See :ref:`async-structs` for details." msgstr "" #: c-api/typeobj.rst:795 msgid "Formerly known as ``tp_compare`` and ``tp_reserved``." msgstr "" #: c-api/typeobj.rst:800 msgid "" "The :c:member:`~PyTypeObject.tp_as_async` field is not inherited, but the " "contained fields are inherited individually." msgstr "" #: c-api/typeobj.rst:808 msgid "" "An optional pointer to a function that implements the built-in function :" "func:`repr`." msgstr "" #: c-api/typeobj.rst:811 msgid "The signature is the same as for :c:func:`PyObject_Repr`::" msgstr "" #: c-api/typeobj.rst:815 msgid "" "The function must return a string or a Unicode object. Ideally, this " "function should return a string that, when passed to :func:`eval`, given a " "suitable environment, returns an object with the same value. If this is not " "feasible, it should return a string starting with ``'<'`` and ending with " "``'>'`` from which both the type and the value of the object can be deduced." msgstr "" #: c-api/typeobj.rst:938 c-api/typeobj.rst:989 c-api/typeobj.rst:1491 #: c-api/typeobj.rst:1664 c-api/typeobj.rst:1791 c-api/typeobj.rst:1851 #: c-api/typeobj.rst:1903 msgid "**Default:**" msgstr "" #: c-api/typeobj.rst:828 msgid "" "When this field is not set, a string of the form ``<%s object at %p>`` is " "returned, where ``%s`` is replaced by the type name, and ``%p`` by the " "object's memory address." msgstr "" #: c-api/typeobj.rst:835 msgid "" "Pointer to an additional structure that contains fields relevant only to " "objects which implement the number protocol. These fields are documented " "in :ref:`number-structs`." msgstr "" #: c-api/typeobj.rst:841 msgid "" "The :c:member:`~PyTypeObject.tp_as_number` field is not inherited, but the " "contained fields are inherited individually." msgstr "" #: c-api/typeobj.rst:847 msgid "" "Pointer to an additional structure that contains fields relevant only to " "objects which implement the sequence protocol. These fields are documented " "in :ref:`sequence-structs`." msgstr "" #: c-api/typeobj.rst:853 msgid "" "The :c:member:`~PyTypeObject.tp_as_sequence` field is not inherited, but the " "contained fields are inherited individually." msgstr "" #: c-api/typeobj.rst:859 msgid "" "Pointer to an additional structure that contains fields relevant only to " "objects which implement the mapping protocol. These fields are documented " "in :ref:`mapping-structs`." msgstr "" #: c-api/typeobj.rst:865 msgid "" "The :c:member:`~PyTypeObject.tp_as_mapping` field is not inherited, but the " "contained fields are inherited individually." msgstr "" #: c-api/typeobj.rst:873 msgid "" "An optional pointer to a function that implements the built-in function :" "func:`hash`." msgstr "" #: c-api/typeobj.rst:876 msgid "The signature is the same as for :c:func:`PyObject_Hash`::" msgstr "" #: c-api/typeobj.rst:880 msgid "" "The value ``-1`` should not be returned as a normal return value; when an " "error occurs during the computation of the hash value, the function should " "set an exception and return ``-1``." msgstr "" #: c-api/typeobj.rst:884 msgid "" "When this field is not set (*and* :attr:`tp_richcompare` is not set), an " "attempt to take the hash of the object raises :exc:`TypeError`. This is the " "same as setting it to :c:func:`PyObject_HashNotImplemented`." msgstr "" #: c-api/typeobj.rst:888 msgid "" "This field can be set explicitly to :c:func:`PyObject_HashNotImplemented` to " "block inheritance of the hash method from a parent type. This is interpreted " "as the equivalent of ``__hash__ = None`` at the Python level, causing " "``isinstance(o, collections.Hashable)`` to correctly return ``False``. Note " "that the converse is also true - setting ``__hash__ = None`` on a class at " "the Python level will result in the ``tp_hash`` slot being set to :c:func:" "`PyObject_HashNotImplemented`." msgstr "" #: c-api/typeobj.rst:1484 msgid "Group: :attr:`tp_hash`, :attr:`tp_richcompare`" msgstr "" #: c-api/typeobj.rst:900 msgid "" "This field is inherited by subtypes together with :c:member:`~PyTypeObject." "tp_richcompare`: a subtype inherits both of :c:member:`~PyTypeObject." "tp_richcompare` and :c:member:`~PyTypeObject.tp_hash`, when the subtype's :c:" "member:`~PyTypeObject.tp_richcompare` and :c:member:`~PyTypeObject.tp_hash` " "are both ``NULL``." msgstr "" #: c-api/typeobj.rst:908 msgid "" "An optional pointer to a function that implements calling the object. This " "should be ``NULL`` if the object is not callable. The signature is the same " "as for :c:func:`PyObject_Call`::" msgstr "" #: c-api/typeobj.rst:921 msgid "" "An optional pointer to a function that implements the built-in operation :" "func:`str`. (Note that :class:`str` is a type now, and :func:`str` calls " "the constructor for that type. This constructor calls :c:func:" "`PyObject_Str` to do the actual work, and :c:func:`PyObject_Str` will call " "this handler.)" msgstr "" #: c-api/typeobj.rst:926 msgid "The signature is the same as for :c:func:`PyObject_Str`::" msgstr "" #: c-api/typeobj.rst:930 msgid "" "The function must return a string or a Unicode object. It should be a " "\"friendly\" string representation of the object, as this is the " "representation that will be used, among other things, by the :func:`print` " "function." msgstr "" #: c-api/typeobj.rst:940 msgid "" "When this field is not set, :c:func:`PyObject_Repr` is called to return a " "string representation." msgstr "" #: c-api/typeobj.rst:946 msgid "An optional pointer to the get-attribute function." msgstr "" #: c-api/typeobj.rst:948 msgid "The signature is the same as for :c:func:`PyObject_GetAttr`::" msgstr "" #: c-api/typeobj.rst:952 msgid "" "It is usually convenient to set this field to :c:func:" "`PyObject_GenericGetAttr`, which implements the normal way of looking for " "object attributes." msgstr "" #: c-api/typeobj.rst:959 msgid "" "This field is inherited by subtypes together with :c:member:`~PyTypeObject." "tp_getattr`: a subtype inherits both :c:member:`~PyTypeObject.tp_getattr` " "and :c:member:`~PyTypeObject.tp_getattro` from its base type when the " "subtype's :c:member:`~PyTypeObject.tp_getattr` and :c:member:`~PyTypeObject." "tp_getattro` are both ``NULL``." msgstr "" #: c-api/typeobj.rst:965 msgid ":c:type:`PyBaseObject_Type` uses :c:func:`PyObject_GenericGetAttr`." msgstr "" #: c-api/typeobj.rst:972 msgid "The signature is the same as for :c:func:`PyObject_SetAttr`::" msgstr "" #: c-api/typeobj.rst:976 msgid "" "In addition, setting *value* to ``NULL`` to delete an attribute must be " "supported. It is usually convenient to set this field to :c:func:" "`PyObject_GenericSetAttr`, which implements the normal way of setting object " "attributes." msgstr "" #: c-api/typeobj.rst:985 msgid "" "This field is inherited by subtypes together with :c:member:`~PyTypeObject." "tp_setattr`: a subtype inherits both :c:member:`~PyTypeObject.tp_setattr` " "and :c:member:`~PyTypeObject.tp_setattro` from its base type when the " "subtype's :c:member:`~PyTypeObject.tp_setattr` and :c:member:`~PyTypeObject." "tp_setattro` are both ``NULL``." msgstr "" #: c-api/typeobj.rst:991 msgid ":c:type:`PyBaseObject_Type` uses :c:func:`PyObject_GenericSetAttr`." msgstr "" #: c-api/typeobj.rst:996 msgid "" "Pointer to an additional structure that contains fields relevant only to " "objects which implement the buffer interface. These fields are documented " "in :ref:`buffer-structs`." msgstr "" #: c-api/typeobj.rst:1002 msgid "" "The :c:member:`~PyTypeObject.tp_as_buffer` field is not inherited, but the " "contained fields are inherited individually." msgstr "" #: c-api/typeobj.rst:1008 msgid "" "This field is a bit mask of various flags. Some flags indicate variant " "semantics for certain situations; others are used to indicate that certain " "fields in the type object (or in the extension structures referenced via :c:" "member:`~PyTypeObject.tp_as_number`, :c:member:`~PyTypeObject." "tp_as_sequence`, :c:member:`~PyTypeObject.tp_as_mapping`, and :c:member:" "`~PyTypeObject.tp_as_buffer`) that were historically not always present are " "valid; if such a flag bit is clear, the type fields it guards must not be " "accessed and must be considered to have a zero or ``NULL`` value instead." msgstr "" #: c-api/typeobj.rst:1018 msgid "" "Inheritance of this field is complicated. Most flag bits are inherited " "individually, i.e. if the base type has a flag bit set, the subtype inherits " "this flag bit. The flag bits that pertain to extension structures are " "strictly inherited if the extension structure is inherited, i.e. the base " "type's value of the flag bit is copied into the subtype together with a " "pointer to the extension structure. The :const:`Py_TPFLAGS_HAVE_GC` flag " "bit is inherited together with the :c:member:`~PyTypeObject.tp_traverse` " "and :c:member:`~PyTypeObject.tp_clear` fields, i.e. if the :const:" "`Py_TPFLAGS_HAVE_GC` flag bit is clear in the subtype and the :c:member:" "`~PyTypeObject.tp_traverse` and :c:member:`~PyTypeObject.tp_clear` fields in " "the subtype exist and have ``NULL`` values." msgstr "" #: c-api/typeobj.rst:1033 msgid "" ":c:type:`PyBaseObject_Type` uses ``Py_TPFLAGS_DEFAULT | " "Py_TPFLAGS_BASETYPE``." msgstr "" #: c-api/typeobj.rst:1036 msgid "**Bit Masks:**" msgstr "" #: c-api/typeobj.rst:1038 msgid "" "The following bit masks are currently defined; these can be ORed together " "using the ``|`` operator to form the value of the :c:member:`~PyTypeObject." "tp_flags` field. The macro :c:func:`PyType_HasFeature` takes a type and a " "flags value, *tp* and *f*, and checks whether ``tp->tp_flags & f`` is non-" "zero." msgstr "" #: c-api/typeobj.rst:1045 msgid "" "This bit is set when the type object itself is allocated on the heap, for " "example, types created dynamically using :c:func:`PyType_FromSpec`. In this " "case, the :attr:`ob_type` field of its instances is considered a reference " "to the type, and the type object is INCREF'ed when a new instance is " "created, and DECREF'ed when an instance is destroyed (this does not apply to " "instances of subtypes; only the type referenced by the instance's ob_type " "gets INCREF'ed or DECREF'ed)." msgstr "" #: c-api/typeobj.rst:1066 c-api/typeobj.rst:1086 c-api/typeobj.rst:1118 msgid "???" msgstr "" #: c-api/typeobj.rst:1060 msgid "" "This bit is set when the type can be used as the base type of another type. " "If this bit is clear, the type cannot be subtyped (similar to a \"final\" " "class in Java)." msgstr "" #: c-api/typeobj.rst:1071 msgid "" "This bit is set when the type object has been fully initialized by :c:func:" "`PyType_Ready`." msgstr "" #: c-api/typeobj.rst:1081 msgid "" "This bit is set while :c:func:`PyType_Ready` is in the process of " "initializing the type object." msgstr "" #: c-api/typeobj.rst:1091 msgid "" "This bit is set when the object supports garbage collection. If this bit is " "set, instances must be created using :c:func:`PyObject_GC_New` and destroyed " "using :c:func:`PyObject_GC_Del`. More information in section :ref:" "`supporting-cycle-detection`. This bit also implies that the GC-related " "fields :c:member:`~PyTypeObject.tp_traverse` and :c:member:`~PyTypeObject." "tp_clear` are present in the type object." msgstr "" #: c-api/typeobj.rst:1358 c-api/typeobj.rst:1425 msgid "" "Group: :const:`Py_TPFLAGS_HAVE_GC`, :attr:`tp_traverse`, :attr:`tp_clear`" msgstr "" #: c-api/typeobj.rst:1102 msgid "" "The :const:`Py_TPFLAGS_HAVE_GC` flag bit is inherited together with the :" "attr:`tp_traverse` and :attr:`tp_clear` fields, i.e. if the :const:" "`Py_TPFLAGS_HAVE_GC` flag bit is clear in the subtype and the :attr:" "`tp_traverse` and :attr:`tp_clear` fields in the subtype exist and have " "``NULL`` values." msgstr "" #: c-api/typeobj.rst:1112 msgid "" "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`." msgstr "" #: c-api/typeobj.rst:1123 msgid "This bit indicates that objects behave like unbound methods." msgstr "" #: c-api/typeobj.rst:1125 msgid "If this flag is set for ``type(meth)``, then:" msgstr "" #: c-api/typeobj.rst:1127 msgid "" "``meth.__get__(obj, cls)(*args, **kwds)`` (with ``obj`` not None) must be " "equivalent to ``meth(obj, *args, **kwds)``." msgstr "" #: c-api/typeobj.rst:1130 msgid "" "``meth.__get__(None, cls)(*args, **kwds)`` must be equivalent to " "``meth(*args, **kwds)``." msgstr "" #: c-api/typeobj.rst:1133 msgid "" "This flag enables an optimization for typical method calls like ``obj." "meth()``: it avoids creating a temporary \"bound method\" object for ``obj." "meth``." msgstr "" #: c-api/typeobj.rst:1141 msgid "" "This flag is never inherited by types without the :const:" "`Py_TPFLAGS_IMMUTABLETYPE` flag set. For extension types, it is inherited " "whenever :c:member:`~PyTypeObject.tp_descr_get` is inherited." msgstr "" #: c-api/typeobj.rst:1158 msgid "" "These flags are used by functions such as :c:func:`PyLong_Check` to quickly " "determine if a type is a subclass of a built-in type; such specific checks " "are faster than a generic check, like :c:func:`PyObject_IsInstance`. Custom " "types that inherit from built-ins should have their :c:member:`~PyTypeObject." "tp_flags` set appropriately, or the code that interacts with such types will " "behave differently depending on what kind of check is used." msgstr "" #: c-api/typeobj.rst:1169 msgid "" "This bit is set when the :c:member:`~PyTypeObject.tp_finalize` slot is " "present in the type structure." msgstr "" #: c-api/typeobj.rst:1174 msgid "" "This flag isn't necessary anymore, as the interpreter assumes the :c:member:" "`~PyTypeObject.tp_finalize` slot is always present in the type structure." msgstr "" #: c-api/typeobj.rst:1182 msgid "" "This bit is set when the class implements the :ref:`vectorcall protocol " "`. See :c:member:`~PyTypeObject.tp_vectorcall_offset` for " "details." msgstr "" #: c-api/typeobj.rst:1188 msgid "" "This bit is inherited for types with the :const:`Py_TPFLAGS_IMMUTABLETYPE` " "flag set, if :c:member:`~PyTypeObject.tp_call` is also inherited." msgstr "" #: c-api/typeobj.rst:1196 msgid "" "This bit is set for type objects that are immutable: type attributes cannot " "be set nor deleted." msgstr "" #: c-api/typeobj.rst:1198 msgid "" ":c:func:`PyType_Ready` automatically applies this flag to :ref:`static types " "`." msgstr "" #: c-api/typeobj.rst:1203 msgid "This flag is not inherited." msgstr "" #: c-api/typeobj.rst:1209 msgid "" "Disallow creating instances of the type: set :c:member:`~PyTypeObject." "tp_new` to NULL and don't create the ``__new__`` key in the type dictionary." msgstr "" #: c-api/typeobj.rst:1213 msgid "" "The flag must be set before creating the type, not after. For example, it " "must be set before :c:func:`PyType_Ready` is called on the type." msgstr "" #: c-api/typeobj.rst:1216 msgid "" "The flag is set automatically on :ref:`static types ` if :c:" "member:`~PyTypeObject.tp_base` is NULL or ``&PyBaseObject_Type`` and :c:" "member:`~PyTypeObject.tp_new` is NULL." msgstr "" #: c-api/typeobj.rst:1222 msgid "" "This flag is not inherited. However, subclasses will not be instantiable " "unless they provide a non-NULL :c:member:`~PyTypeObject.tp_new` (which is " "only possible via the C API)." msgstr "" #: c-api/typeobj.rst:1229 msgid "" "To disallow instantiating a class directly but allow instantiating its " "subclasses (e.g. for an :term:`abstract base class`), do not use this flag. " "Instead, make :c:member:`~PyTypeObject.tp_new` only succeed for subclasses." msgstr "" #: c-api/typeobj.rst:1240 msgid "" "This bit indicates that instances of the class may match mapping patterns " "when used as the subject of a :keyword:`match` block. It is automatically " "set when registering or subclassing :class:`collections.abc.Mapping`, and " "unset when registering :class:`collections.abc.Sequence`." msgstr "" #: c-api/typeobj.rst:1269 msgid "" ":const:`Py_TPFLAGS_MAPPING` and :const:`Py_TPFLAGS_SEQUENCE` are mutually " "exclusive; it is an error to enable both flags simultaneously." msgstr "" #: c-api/typeobj.rst:1252 msgid "" "This flag is inherited by types that do not already set :const:" "`Py_TPFLAGS_SEQUENCE`." msgstr "" #: c-api/typeobj.rst:1277 msgid ":pep:`634` -- Structural Pattern Matching: Specification" msgstr "" #: c-api/typeobj.rst:1262 msgid "" "This bit indicates that instances of the class may match sequence patterns " "when used as the subject of a :keyword:`match` block. It is automatically " "set when registering or subclassing :class:`collections.abc.Sequence`, and " "unset when registering :class:`collections.abc.Mapping`." msgstr "" #: c-api/typeobj.rst:1274 msgid "" "This flag is inherited by types that do not already set :const:" "`Py_TPFLAGS_MAPPING`." msgstr "" #: c-api/typeobj.rst:1284 msgid "" "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." msgstr "" #: c-api/typeobj.rst:1290 msgid "This field is *not* inherited by subtypes." msgstr "" #: c-api/typeobj.rst:1295 msgid "" "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. The " "signature is::" msgstr "" #: c-api/typeobj.rst:1420 msgid "" "More information about Python's garbage collection scheme can be found in " "section :ref:`supporting-cycle-detection`." msgstr "" #: c-api/typeobj.rst:1303 msgid "" "The :c:member:`~PyTypeObject.tp_traverse` pointer is used by the garbage " "collector to detect reference cycles. A typical implementation of a :c:" "member:`~PyTypeObject.tp_traverse` function simply calls :c:func:`Py_VISIT` " "on each of the instance's members that are Python objects that the instance " "owns. For example, this is function :c:func:`local_traverse` from the :mod:" "`_thread` extension module::" msgstr "" #: c-api/typeobj.rst:1318 msgid "" "Note that :c:func:`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." msgstr "" #: c-api/typeobj.rst:1322 msgid "" "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:`~gc.get_referents` function will include it." msgstr "" #: c-api/typeobj.rst:1327 msgid "" "When implementing :c:member:`~PyTypeObject.tp_traverse`, only the members " "that the instance *owns* (by having :term:`strong references ` to them) must be visited. For instance, if an object supports " "weak references via the :c:member:`~PyTypeObject.tp_weaklist` slot, the " "pointer supporting the linked list (what *tp_weaklist* points to) must " "**not** be visited as the instance does not directly own the weak references " "to itself (the weakreference list is there to support the weak reference " "machinery, but the instance has no strong reference to the elements inside " "it, as they are allowed to be removed even if the instance is still alive)." msgstr "" #: c-api/typeobj.rst:1338 msgid "" "Note that :c:func:`Py_VISIT` requires the *visit* and *arg* parameters to :c:" "func:`local_traverse` to have these specific names; don't name them just " "anything." msgstr "" #: c-api/typeobj.rst:1342 msgid "" "Instances of :ref:`heap-allocated types ` hold a reference to " "their type. Their traversal function must therefore either visit :c:func:" "`Py_TYPE(self) `, or delegate this responsibility by calling " "``tp_traverse`` of another heap-allocated type (such as a heap-allocated " "superclass). If they do not, the type object may not be garbage-collected." msgstr "" #: c-api/typeobj.rst:1351 msgid "" "Heap-allocated types are expected to visit ``Py_TYPE(self)`` in " "``tp_traverse``. In earlier versions of Python, due to `bug 40217 `_, doing this may lead to crashes in subclasses." msgstr "" #: c-api/typeobj.rst:1360 msgid "" "This field is inherited by subtypes together with :c:member:`~PyTypeObject." "tp_clear` and the :const:`Py_TPFLAGS_HAVE_GC` flag bit: the flag bit, :c:" "member:`~PyTypeObject.tp_traverse`, and :c:member:`~PyTypeObject.tp_clear` " "are all inherited from the base type if they are all zero in the subtype." msgstr "" #: c-api/typeobj.rst:1368 msgid "" "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 signature " "is::" msgstr "" #: c-api/typeobj.rst:1373 msgid "" "The :c:member:`~PyTypeObject.tp_clear` member function is used to break " "reference cycles in cyclic garbage detected by the garbage collector. Taken " "together, all :c:member:`~PyTypeObject.tp_clear` functions in the system " "must combine to break all reference cycles. This is subtle, and if in any " "doubt supply a :c:member:`~PyTypeObject.tp_clear` function. For example, " "the tuple type does not implement a :c:member:`~PyTypeObject.tp_clear` " "function, because it's possible to prove that no reference cycle can be " "composed entirely of tuples. Therefore the :c:member:`~PyTypeObject." "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 :c:member:`~PyTypeObject.tp_clear`." msgstr "" #: c-api/typeobj.rst:1383 msgid "" "Implementations of :c:member:`~PyTypeObject.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::" msgstr "" #: c-api/typeobj.rst:1397 msgid "" "The :c:func:`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 :c:func:`Py_CLEAR` macro performs the operations " "in a safe order." msgstr "" #: c-api/typeobj.rst:1408 msgid "" "Note that :c:member:`~PyTypeObject.tp_clear` is not *always* called before " "an instance is deallocated. For example, when reference counting is enough " "to determine that an object is no longer used, the cyclic garbage collector " "is not involved and :c:member:`~PyTypeObject.tp_dealloc` is called directly." msgstr "" #: c-api/typeobj.rst:1414 msgid "" "Because the goal of :c:member:`~PyTypeObject.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 :c:member:`~PyTypeObject.tp_dealloc` function to " "invoke :c:member:`~PyTypeObject.tp_clear`." msgstr "" #: c-api/typeobj.rst:1427 msgid "" "This field is inherited by subtypes together with :c:member:`~PyTypeObject." "tp_traverse` and the :const:`Py_TPFLAGS_HAVE_GC` flag bit: the flag bit, :c:" "member:`~PyTypeObject.tp_traverse`, and :c:member:`~PyTypeObject.tp_clear` " "are all inherited from the base type if they are all zero in the subtype." msgstr "" #: c-api/typeobj.rst:1435 msgid "" "An optional pointer to the rich comparison function, whose signature is::" msgstr "" #: c-api/typeobj.rst:1439 msgid "" "The first parameter is guaranteed to be an instance of the type that is " "defined by :c:type:`PyTypeObject`." msgstr "" #: c-api/typeobj.rst:1442 msgid "" "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." msgstr "" #: c-api/typeobj.rst:1447 msgid "" "The following constants are defined to be used as the third argument for :c:" "member:`~PyTypeObject.tp_richcompare` and for :c:func:`PyObject_RichCompare`:" msgstr "" #: c-api/typeobj.rst:1451 msgid "Constant" msgstr "Constante" #: c-api/typeobj.rst:1451 msgid "Comparison" msgstr "Comparaison" #: c-api/typeobj.rst:1453 msgid ":const:`Py_LT`" msgstr ":const:`Py_LT`" #: c-api/typeobj.rst:1453 msgid "``<``" msgstr "``<``" #: c-api/typeobj.rst:1455 msgid ":const:`Py_LE`" msgstr ":const:`Py_LE`" #: c-api/typeobj.rst:1455 msgid "``<=``" msgstr "``<=``" #: c-api/typeobj.rst:1457 msgid ":const:`Py_EQ`" msgstr ":const:`Py_EQ`" #: c-api/typeobj.rst:1457 msgid "``==``" msgstr "``==``" #: c-api/typeobj.rst:1459 msgid ":const:`Py_NE`" msgstr ":const:`Py_NE`" #: c-api/typeobj.rst:1459 msgid "``!=``" msgstr "``!=``" #: c-api/typeobj.rst:1461 msgid ":const:`Py_GT`" msgstr ":const:`Py_GT`" #: c-api/typeobj.rst:1461 msgid "``>``" msgstr "``>``" #: c-api/typeobj.rst:1463 msgid ":const:`Py_GE`" msgstr ":const:`Py_GE`" #: c-api/typeobj.rst:1463 msgid "``>=``" msgstr "``>=``" #: c-api/typeobj.rst:1466 msgid "" "The following macro is defined to ease writing rich comparison functions:" msgstr "" #: c-api/typeobj.rst:1470 msgid "" "Return ``Py_True`` or ``Py_False`` from the function, depending on the " "result of a comparison. VAL_A and VAL_B must be orderable by C comparison " "operators (for example, they may be C ints or floats). The third argument " "specifies the requested operation, as for :c:func:`PyObject_RichCompare`." msgstr "" #: c-api/typeobj.rst:1476 msgid "The return value's reference count is properly incremented." msgstr "" #: c-api/typeobj.rst:1478 msgid "On error, sets an exception and returns ``NULL`` from the function." msgstr "" #: c-api/typeobj.rst:1486 msgid "" "This field is inherited by subtypes together with :c:member:`~PyTypeObject." "tp_hash`: a subtype inherits :c:member:`~PyTypeObject.tp_richcompare` and :c:" "member:`~PyTypeObject.tp_hash` when the subtype's :c:member:`~PyTypeObject." "tp_richcompare` and :c:member:`~PyTypeObject.tp_hash` are both ``NULL``." msgstr "" #: c-api/typeobj.rst:1493 msgid "" ":c:type:`PyBaseObject_Type` provides a :attr:`tp_richcompare` " "implementation, which may be inherited. However, if only :attr:`tp_hash` is " "defined, not even the inherited function is used and instances of the type " "will not be able to participate in any comparisons." msgstr "" #: c-api/typeobj.rst:1502 msgid "" "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 :c:func:`PyObject_ClearWeakRefs` and the ``PyWeakref_*`` " "functions. The instance structure needs to include a field of type :c:expr:" "`PyObject*` which is initialized to ``NULL``." msgstr "" #: c-api/typeobj.rst:1509 msgid "" "Do not confuse this field with :c:member:`~PyTypeObject.tp_weaklist`; that " "is the list head for weak references to the type object itself." msgstr "" #: c-api/typeobj.rst:1514 msgid "" "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 :c:member:`~PyTypeObject.tp_weaklistoffset`, this should " "not be a problem." msgstr "" #: c-api/typeobj.rst:1519 msgid "" "When a type defined by a class statement has no :attr:`~object.__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 :c:member:`~PyTypeObject." "tp_weaklistoffset` of that slot's offset." msgstr "" #: c-api/typeobj.rst:1524 msgid "" "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 :c:member:" "`~PyTypeObject.tp_weaklistoffset`." msgstr "" #: c-api/typeobj.rst:1529 msgid "" "When a type's :attr:`__slots__` declaration does not contain a slot named :" "attr:`__weakref__`, the type inherits its :c:member:`~PyTypeObject." "tp_weaklistoffset` from its base type." msgstr "" #: c-api/typeobj.rst:1536 msgid "" "An optional pointer to a function that returns an :term:`iterator` for the " "object. Its presence normally signals that the instances of this type are :" "term:`iterable` (although sequences may be iterable without this function)." msgstr "" #: c-api/typeobj.rst:1540 msgid "This function has the same signature as :c:func:`PyObject_GetIter`::" msgstr "" #: c-api/typeobj.rst:1551 msgid "" "An optional pointer to a function that returns the next item in an :term:" "`iterator`. The signature is::" msgstr "" #: c-api/typeobj.rst:1556 msgid "" "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." msgstr "" #: c-api/typeobj.rst:1561 msgid "" "Iterator types should also define the :c:member:`~PyTypeObject.tp_iter` " "function, and that function should return the iterator instance itself (not " "a new iterator instance)." msgstr "" #: c-api/typeobj.rst:1565 msgid "This function has the same signature as :c:func:`PyIter_Next`." msgstr "" #: c-api/typeobj.rst:1574 msgid "" "An optional pointer to a static ``NULL``-terminated array of :c:type:" "`PyMethodDef` structures, declaring regular methods of this type." msgstr "" #: c-api/typeobj.rst:1577 msgid "" "For each entry in the array, an entry is added to the type's dictionary " "(see :c:member:`~PyTypeObject.tp_dict` below) containing a method descriptor." msgstr "" #: c-api/typeobj.rst:1582 msgid "" "This field is not inherited by subtypes (methods are inherited through a " "different mechanism)." msgstr "" #: c-api/typeobj.rst:1588 msgid "" "An optional pointer to a static ``NULL``-terminated array of :c:type:" "`PyMemberDef` structures, declaring regular data members (fields or slots) " "of instances of this type." msgstr "" #: c-api/typeobj.rst:1592 msgid "" "For each entry in the array, an entry is added to the type's dictionary " "(see :c:member:`~PyTypeObject.tp_dict` below) containing a member descriptor." msgstr "" #: c-api/typeobj.rst:1597 msgid "" "This field is not inherited by subtypes (members are inherited through a " "different mechanism)." msgstr "" #: c-api/typeobj.rst:1603 msgid "" "An optional pointer to a static ``NULL``-terminated array of :c:type:" "`PyGetSetDef` structures, declaring computed attributes of instances of this " "type." msgstr "" #: c-api/typeobj.rst:1606 msgid "" "For each entry in the array, an entry is added to the type's dictionary " "(see :c:member:`~PyTypeObject.tp_dict` below) containing a getset descriptor." msgstr "" #: c-api/typeobj.rst:1611 msgid "" "This field is not inherited by subtypes (computed attributes are inherited " "through a different mechanism)." msgstr "" #: c-api/typeobj.rst:1617 msgid "" "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." msgstr "" #: c-api/typeobj.rst:1625 msgid "" "Slot initialization is subject to the rules of initializing globals. C99 " "requires the initializers to be \"address constants\". Function designators " "like :c:func:`PyType_GenericNew`, with implicit conversion to a pointer, are " "valid C99 address constants." msgstr "" #: c-api/typeobj.rst:1630 msgid "" "However, the unary '&' operator applied to a non-static variable like :c:" "func:`PyBaseObject_Type` is not required to produce an address constant. " "Compilers may support this (gcc does), MSVC does not. Both compilers are " "strictly standard conforming in this particular behavior." msgstr "" #: c-api/typeobj.rst:1636 msgid "" "Consequently, :c:member:`~PyTypeObject.tp_base` should be set in the " "extension module's init function." msgstr "" #: c-api/typeobj.rst:1641 msgid "This field is not inherited by subtypes (obviously)." msgstr "" #: c-api/typeobj.rst:1645 msgid "" "This field defaults to ``&PyBaseObject_Type`` (which to Python programmers " "is known as the type :class:`object`)." msgstr "" #: c-api/typeobj.rst:1651 msgid "The type's dictionary is stored here by :c:func:`PyType_Ready`." msgstr "" #: c-api/typeobj.rst:1653 msgid "" "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 :c:func:`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__`)." msgstr "" #: c-api/typeobj.rst:1661 msgid "" "This field is not inherited by subtypes (though the attributes defined in " "here are inherited through a different mechanism)." msgstr "" #: c-api/typeobj.rst:1666 msgid "" "If this field is ``NULL``, :c:func:`PyType_Ready` will assign a new " "dictionary to it." msgstr "" #: c-api/typeobj.rst:1671 msgid "" "It is not safe to use :c:func:`PyDict_SetItem` on or otherwise modify :c:" "member:`~PyTypeObject.tp_dict` with the dictionary C-API." msgstr "" #: c-api/typeobj.rst:1677 msgid "An optional pointer to a \"descriptor get\" function." msgstr "" #: c-api/typeobj.rst:1695 c-api/typeobj.rst:1800 c-api/typeobj.rst:1824 msgid "The function signature is::" msgstr "" #: c-api/typeobj.rst:1692 msgid "" "An optional pointer to a function for setting and deleting a descriptor's " "value." msgstr "" #: c-api/typeobj.rst:1699 msgid "The *value* argument is set to ``NULL`` to delete the value." msgstr "" #: c-api/typeobj.rst:1710 msgid "" "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 :c:" "func:`PyObject_GenericGetAttr`." msgstr "" #: c-api/typeobj.rst:1715 msgid "" "Do not confuse this field with :c:member:`~PyTypeObject.tp_dict`; that is " "the dictionary for attributes of the type object itself." msgstr "" #: c-api/typeobj.rst:1718 msgid "" "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 :c:member:`~PyTypeObject.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, :c:member:`~PyTypeObject." "tp_dictoffset` should be set to ``-4`` to indicate that the dictionary is at " "the very end of the structure." msgstr "" #: c-api/typeobj.rst:1730 msgid "" "The :c:member:`~PyTypeObject.tp_dictoffset` should be regarded as write-" "only. To get the pointer to the dictionary call :c:func:" "`PyObject_GenericGetDict`. Calling :c:func:`PyObject_GenericGetDict` may " "need to allocate memory for the dictionary, so it is may be more efficient " "to call :c:func:`PyObject_GetAttr` when accessing an attribute on the object." msgstr "" #: c-api/typeobj.rst:1738 msgid "" "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 :c:member:`~PyTypeObject.tp_dictoffset`, this " "should not be a problem." msgstr "" #: c-api/typeobj.rst:1743 msgid "" "When a type defined by a class statement has no :attr:`~object.__slots__` " "declaration, and none of its base types has an instance variable dictionary, " "a dictionary slot is added to the instance layout and the :c:member:" "`~PyTypeObject.tp_dictoffset` is set to that slot's offset." msgstr "" #: c-api/typeobj.rst:1748 msgid "" "When a type defined by a class statement has a :attr:`__slots__` " "declaration, the type inherits its :c:member:`~PyTypeObject.tp_dictoffset` " "from its base type." msgstr "" #: c-api/typeobj.rst:1751 msgid "" "(Adding a slot named :attr:`~object.__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.)" msgstr "" #: c-api/typeobj.rst:1757 msgid "" "This slot has no default. For :ref:`static types `, if the " "field is ``NULL`` then no :attr:`__dict__` gets created for instances." msgstr "" #: c-api/typeobj.rst:1763 msgid "An optional pointer to an instance initialization function." msgstr "" #: c-api/typeobj.rst:1765 msgid "" "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." msgstr "" #: c-api/typeobj.rst:1774 msgid "" "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__`." msgstr "" #: c-api/typeobj.rst:1778 msgid "" "The :c:member:`~PyTypeObject.tp_init` function, if not ``NULL``, is called " "when an instance is created normally by calling its type, after the type's :" "c:member:`~PyTypeObject.tp_new` function has returned an instance of the " "type. If the :c:member:`~PyTypeObject.tp_new` function returns an instance " "of some other type that is not a subtype of the original type, no :c:member:" "`~PyTypeObject.tp_init` function is called; if :c:member:`~PyTypeObject." "tp_new` returns an instance of a subtype of the original type, the " "subtype's :c:member:`~PyTypeObject.tp_init` is called." msgstr "" #: c-api/typeobj.rst:1785 msgid "Returns ``0`` on success, ``-1`` and sets an exception on error." msgstr "" #: c-api/typeobj.rst:1793 msgid "" "For :ref:`static types ` this field does not have a default." msgstr "" #: c-api/typeobj.rst:1798 msgid "An optional pointer to an instance allocation function." msgstr "" #: c-api/typeobj.rst:1806 msgid "" "This field is inherited by static subtypes, but not by dynamic subtypes " "(subtypes created by a class statement)." msgstr "" #: c-api/typeobj.rst:1811 msgid "" "For dynamic subtypes, this field is always set to :c:func:" "`PyType_GenericAlloc`, to force a standard heap allocation strategy." msgstr "" #: c-api/typeobj.rst:1815 msgid "" "For static subtypes, :c:type:`PyBaseObject_Type` uses :c:func:" "`PyType_GenericAlloc`. That is the recommended value for all statically " "defined types." msgstr "" #: c-api/typeobj.rst:1822 msgid "An optional pointer to an instance creation function." msgstr "" #: c-api/typeobj.rst:1828 msgid "" "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 :c:" "member:`~PyTypeObject.tp_new` function is called; it may be a subtype of " "that type (but not an unrelated type)." msgstr "" #: c-api/typeobj.rst:1834 msgid "" "The :c:member:`~PyTypeObject.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 :c:member:`~PyTypeObject.tp_init` handler. A good rule of thumb is that " "for immutable types, all initialization should take place in :c:member:" "`~PyTypeObject.tp_new`, while for mutable types, most initialization should " "be deferred to :c:member:`~PyTypeObject.tp_init`." msgstr "" #: c-api/typeobj.rst:1842 msgid "" "Set the :const:`Py_TPFLAGS_DISALLOW_INSTANTIATION` flag to disallow creating " "instances of the type in Python." msgstr "" #: c-api/typeobj.rst:1847 msgid "" "This field is inherited by subtypes, except it is not inherited by :ref:" "`static types ` whose :c:member:`~PyTypeObject.tp_base` is " "``NULL`` or ``&PyBaseObject_Type``." msgstr "" #: c-api/typeobj.rst:1853 msgid "" "For :ref:`static types ` this field has no default. This means " "if the slot is defined as ``NULL``, the type cannot be called to create new " "instances; presumably there is some other way to create instances, like a " "factory function." msgstr "" #: c-api/typeobj.rst:1861 msgid "" "An optional pointer to an instance deallocation function. Its signature is::" msgstr "" #: c-api/typeobj.rst:1865 msgid "" "An initializer that is compatible with this signature is :c:func:" "`PyObject_Free`." msgstr "" #: c-api/typeobj.rst:1869 msgid "" "This field is inherited by static subtypes, but not by dynamic subtypes " "(subtypes created by a class statement)" msgstr "" #: c-api/typeobj.rst:1874 msgid "" "In dynamic subtypes, this field is set to a deallocator suitable to match :c:" "func:`PyType_GenericAlloc` and the value of the :const:`Py_TPFLAGS_HAVE_GC` " "flag bit." msgstr "" #: c-api/typeobj.rst:1878 msgid "For static subtypes, :c:type:`PyBaseObject_Type` uses PyObject_Del." msgstr "" #: c-api/typeobj.rst:1883 msgid "An optional pointer to a function called by the garbage collector." msgstr "" #: c-api/typeobj.rst:1885 msgid "" "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 :c:member:`~PyTypeObject.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::" msgstr "" #: c-api/typeobj.rst:1895 msgid "" "(The only example of this are types themselves. The metatype, :c:data:" "`PyType_Type`, defines this function to distinguish between statically and :" "ref:`dynamically allocated types `.)" msgstr "" #: c-api/typeobj.rst:1905 msgid "" "This slot has no default. If this field is ``NULL``, :const:" "`Py_TPFLAGS_HAVE_GC` is used as the functional equivalent." msgstr "" #: c-api/typeobj.rst:1911 msgid "Tuple of base types." msgstr "" #: c-api/typeobj.rst:1937 msgid "" "This field should be set to ``NULL`` and treated as read-only. Python will " "fill it in when the type is :c:func:`initialized `." msgstr "" #: c-api/typeobj.rst:1916 msgid "" "For dynamically created classes, the ``Py_tp_bases`` :c:type:`slot " "` can be used instead of the *bases* argument of :c:func:" "`PyType_FromSpecWithBases`. The argument form is preferred." msgstr "" #: c-api/typeobj.rst:1923 msgid "" "Multiple inheritance does not work well for statically defined types. If you " "set ``tp_bases`` to a tuple, Python will not raise an error, but some slots " "will only be inherited from the first base." msgstr "" #: c-api/typeobj.rst:1952 c-api/typeobj.rst:1971 c-api/typeobj.rst:1985 msgid "This field is not inherited." msgstr "" #: c-api/typeobj.rst:1934 msgid "" "Tuple containing the expanded set of base types, starting with the type " "itself and ending with :class:`object`, in Method Resolution Order." msgstr "" #: c-api/typeobj.rst:1942 msgid "" "This field is not inherited; it is calculated fresh by :c:func:" "`PyType_Ready`." msgstr "" #: c-api/typeobj.rst:1948 msgid "Unused. Internal use only." msgstr "" #: c-api/typeobj.rst:1957 msgid "List of weak references to subclasses. Internal use only." msgstr "" #: c-api/typeobj.rst:1966 msgid "" "Weak reference list head, for weak references to this type object. Not " "inherited. Internal use only." msgstr "" #: c-api/typeobj.rst:1976 msgid "" "This field is deprecated. Use :c:member:`~PyTypeObject.tp_finalize` instead." msgstr "" #: c-api/typeobj.rst:1981 msgid "Used to index into the method cache. Internal use only." msgstr "" #: c-api/typeobj.rst:1990 msgid "" "An optional pointer to an instance finalization function. Its signature is::" msgstr "" #: c-api/typeobj.rst:1994 msgid "" "If :c:member:`~PyTypeObject.tp_finalize` is set, the interpreter calls it " "once when finalizing an instance. It is called either from the garbage " "collector (if the instance is part of an isolated reference cycle) or just " "before the object is deallocated. Either way, it is guaranteed to be called " "before attempting to break reference cycles, ensuring that it finds the " "object in a sane state." msgstr "" #: c-api/typeobj.rst:2001 msgid "" ":c:member:`~PyTypeObject.tp_finalize` should not mutate the current " "exception status; therefore, a recommended way to write a non-trivial " "finalizer is::" msgstr "" #: c-api/typeobj.rst:2018 msgid "" "Also, note that, in a garbage collected Python, :c:member:`~PyTypeObject." "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." msgstr "" #: c-api/typeobj.rst:2037 msgid "" "Before version 3.8 it was necessary to set the :const:" "`Py_TPFLAGS_HAVE_FINALIZE` flags bit in order for this field to be used. " "This is no longer required." msgstr "" #: c-api/typeobj.rst:2041 msgid "\"Safe object finalization\" (:pep:`442`)" msgstr "" #: c-api/typeobj.rst:2046 msgid "" "Vectorcall function to use for calls of this type object. In other words, it " "is used to implement :ref:`vectorcall ` for ``type.__call__``. " "If ``tp_vectorcall`` is ``NULL``, the default call implementation using :" "attr:`__new__` and :attr:`__init__` is used." msgstr "" #: c-api/typeobj.rst:2054 msgid "This field is never inherited." msgstr "" #: c-api/typeobj.rst:2056 msgid "(the field exists since 3.8 but it's only used since 3.9)" msgstr "" #: c-api/typeobj.rst:2062 msgid "Static Types" msgstr "" #: c-api/typeobj.rst:2064 msgid "" "Traditionally, types defined in C code are *static*, that is, a static :c:" "type:`PyTypeObject` structure is defined directly in code and initialized " "using :c:func:`PyType_Ready`." msgstr "" #: c-api/typeobj.rst:2068 msgid "" "This results in types that are limited relative to types defined in Python:" msgstr "" #: c-api/typeobj.rst:2070 msgid "" "Static types are limited to one base, i.e. they cannot use multiple " "inheritance." msgstr "" #: c-api/typeobj.rst:2072 msgid "" "Static type objects (but not necessarily their instances) are immutable. It " "is not possible to add or modify the type object's attributes from Python." msgstr "" #: c-api/typeobj.rst:2074 msgid "" "Static type objects are shared across :ref:`sub-interpreters `, so they should not include any subinterpreter-" "specific state." msgstr "" #: c-api/typeobj.rst:2078 msgid "" "Also, since :c:type:`PyTypeObject` is only part of the :ref:`Limited API " "` as an opaque struct, any extension modules using static types must " "be compiled for a specific Python minor version." msgstr "" #: c-api/typeobj.rst:2086 msgid "Heap Types" msgstr "" #: c-api/typeobj.rst:2088 msgid "" "An alternative to :ref:`static types ` is *heap-allocated " "types*, or *heap types* for short, which correspond closely to classes " "created by Python's ``class`` statement. Heap types have the :const:" "`Py_TPFLAGS_HEAPTYPE` flag set." msgstr "" #: c-api/typeobj.rst:2093 msgid "" "This is done by filling a :c:type:`PyType_Spec` structure and calling :c:" "func:`PyType_FromSpec`, :c:func:`PyType_FromSpecWithBases`, or :c:func:" "`PyType_FromModuleAndSpec`." msgstr "" #: c-api/typeobj.rst:2101 msgid "Number Object Structures" msgstr "" #: c-api/typeobj.rst:2108 msgid "" "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." msgstr "" #: c-api/typeobj.rst:2438 msgid "Here is the structure definition::" msgstr "" #: c-api/typeobj.rst:2161 msgid "" "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." msgstr "" #: c-api/typeobj.rst:2170 msgid "" "The :c:data:`nb_reserved` field should always be ``NULL``. It was " "previously called :c:data:`nb_long`, and was renamed in Python 3.0.1." msgstr "" #: c-api/typeobj.rst:2215 msgid "Mapping Object Structures" msgstr "" #: c-api/typeobj.rst:2222 msgid "" "This structure holds pointers to the functions which an object uses to " "implement the mapping protocol. It has three members:" msgstr "" #: c-api/typeobj.rst:2227 msgid "" "This function is used by :c:func:`PyMapping_Size` and :c:func:" "`PyObject_Size`, and has the same signature. This slot may be set to " "``NULL`` if the object has no defined length." msgstr "" #: c-api/typeobj.rst:2233 msgid "" "This function is used by :c:func:`PyObject_GetItem` and :c:func:" "`PySequence_GetSlice`, and has the same signature as :c:func:`!" "PyObject_GetItem`. This slot must be filled for the :c:func:" "`PyMapping_Check` function to return ``1``, it can be ``NULL`` otherwise." msgstr "" #: c-api/typeobj.rst:2241 msgid "" "This function is used by :c:func:`PyObject_SetItem`, :c:func:" "`PyObject_DelItem`, :c:func:`PyObject_SetSlice` and :c:func:" "`PyObject_DelSlice`. It has the same signature as :c:func:`!" "PyObject_SetItem`, but *v* can also be set to ``NULL`` to delete an item. " "If this slot is ``NULL``, the object does not support item assignment and " "deletion." msgstr "" #: c-api/typeobj.rst:2252 msgid "Sequence Object Structures" msgstr "" #: c-api/typeobj.rst:2259 msgid "" "This structure holds pointers to the functions which an object uses to " "implement the sequence protocol." msgstr "" #: c-api/typeobj.rst:2264 msgid "" "This function is used by :c:func:`PySequence_Size` and :c:func:" "`PyObject_Size`, and has the same signature. It is also used for handling " "negative indices via the :c:member:`~PySequenceMethods.sq_item` and the :c:" "member:`~PySequenceMethods.sq_ass_item` slots." msgstr "" #: c-api/typeobj.rst:2271 msgid "" "This function is used by :c:func:`PySequence_Concat` and has the same " "signature. It is also used by the ``+`` operator, after trying the numeric " "addition via the :c:member:`~PyNumberMethods.nb_add` slot." msgstr "" #: c-api/typeobj.rst:2277 msgid "" "This function is used by :c:func:`PySequence_Repeat` and has the same " "signature. It is also used by the ``*`` operator, after trying numeric " "multiplication via the :c:member:`~PyNumberMethods.nb_multiply` slot." msgstr "" #: c-api/typeobj.rst:2283 msgid "" "This function is used by :c:func:`PySequence_GetItem` and has the same " "signature. It is also used by :c:func:`PyObject_GetItem`, after trying the " "subscription via the :c:member:`~PyMappingMethods.mp_subscript` slot. This " "slot must be filled for the :c:func:`PySequence_Check` function to return " "``1``, it can be ``NULL`` otherwise." msgstr "" #: c-api/typeobj.rst:2289 msgid "" "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." msgstr "" #: c-api/typeobj.rst:2296 msgid "" "This function is used by :c:func:`PySequence_SetItem` and has the same " "signature. It is also used by :c:func:`PyObject_SetItem` and :c:func:" "`PyObject_DelItem`, after trying the item assignment and deletion via the :c:" "member:`~PyMappingMethods.mp_ass_subscript` slot. This slot may be left to " "``NULL`` if the object does not support item assignment and deletion." msgstr "" #: c-api/typeobj.rst:2305 msgid "" "This function may be used by :c:func:`PySequence_Contains` and has the same " "signature. This slot may be left to ``NULL``, in this case :c:func:`!" "PySequence_Contains` simply traverses the sequence until it finds a match." msgstr "" #: c-api/typeobj.rst:2312 msgid "" "This function is used by :c:func:`PySequence_InPlaceConcat` and has the same " "signature. It should modify its first operand, and return it. This slot " "may be left to ``NULL``, in this case :c:func:`!PySequence_InPlaceConcat` " "will fall back to :c:func:`PySequence_Concat`. It is also used by the " "augmented assignment ``+=``, after trying numeric in-place addition via the :" "c:member:`~PyNumberMethods.nb_inplace_add` slot." msgstr "" #: c-api/typeobj.rst:2321 msgid "" "This function is used by :c:func:`PySequence_InPlaceRepeat` and has the same " "signature. It should modify its first operand, and return it. This slot " "may be left to ``NULL``, in this case :c:func:`!PySequence_InPlaceRepeat` " "will fall back to :c:func:`PySequence_Repeat`. It is also used by the " "augmented assignment ``*=``, after trying numeric in-place multiplication " "via the :c:member:`~PyNumberMethods.nb_inplace_multiply` slot." msgstr "" #: c-api/typeobj.rst:2332 msgid "Buffer Object Structures" msgstr "" #: c-api/typeobj.rst:2340 msgid "" "This structure holds pointers to the functions required by the :ref:`Buffer " "protocol `. The protocol defines how an exporter object can " "expose its internal data to consumer objects." msgstr "" #: c-api/typeobj.rst:2395 c-api/typeobj.rst:2460 c-api/typeobj.rst:2481 msgid "The signature of this function is::" msgstr "" #: c-api/typeobj.rst:2350 msgid "" "Handle a request to *exporter* to fill in *view* as specified by *flags*. " "Except for point (3), an implementation of this function MUST take these " "steps:" msgstr "" #: c-api/typeobj.rst:2354 msgid "" "Check if the request can be met. If not, raise :c:data:`PyExc_BufferError`, " "set :c:expr:`view->obj` to ``NULL`` and return ``-1``." msgstr "" #: c-api/typeobj.rst:2357 msgid "Fill in the requested fields." msgstr "" #: c-api/typeobj.rst:2359 msgid "Increment an internal counter for the number of exports." msgstr "" #: c-api/typeobj.rst:2361 msgid "" "Set :c:expr:`view->obj` to *exporter* and increment :c:expr:`view->obj`." msgstr "" #: c-api/typeobj.rst:2363 msgid "Return ``0``." msgstr "" #: c-api/typeobj.rst:2365 msgid "" "If *exporter* is part of a chain or tree of buffer providers, two main " "schemes can be used:" msgstr "" #: c-api/typeobj.rst:2368 msgid "" "Re-export: Each member of the tree acts as the exporting object and sets :c:" "expr:`view->obj` to a new reference to itself." msgstr "" #: c-api/typeobj.rst:2371 msgid "" "Redirect: The buffer request is redirected to the root object of the tree. " "Here, :c:expr:`view->obj` will be a new reference to the root object." msgstr "" #: c-api/typeobj.rst:2375 msgid "" "The individual fields of *view* are described in section :ref:`Buffer " "structure `, the rules how an exporter must react to " "specific requests are in section :ref:`Buffer request types `." msgstr "" #: c-api/typeobj.rst:2380 msgid "" "All memory pointed to in the :c:type:`Py_buffer` structure belongs to the " "exporter and must remain valid until there are no consumers left. :c:member:" "`~Py_buffer.format`, :c:member:`~Py_buffer.shape`, :c:member:`~Py_buffer." "strides`, :c:member:`~Py_buffer.suboffsets` and :c:member:`~Py_buffer." "internal` are read-only for the consumer." msgstr "" #: c-api/typeobj.rst:2387 msgid "" ":c:func:`PyBuffer_FillInfo` provides an easy way of exposing a simple bytes " "buffer while dealing correctly with all request types." msgstr "" #: c-api/typeobj.rst:2390 msgid "" ":c:func:`PyObject_GetBuffer` is the interface for the consumer that wraps " "this function." msgstr "" #: c-api/typeobj.rst:2399 msgid "" "Handle a request to release the resources of the buffer. If no resources " "need to be released, :c:member:`PyBufferProcs.bf_releasebuffer` may be " "``NULL``. Otherwise, a standard implementation of this function will take " "these optional steps:" msgstr "" #: c-api/typeobj.rst:2404 msgid "Decrement an internal counter for the number of exports." msgstr "" #: c-api/typeobj.rst:2406 msgid "If the counter is ``0``, free all memory associated with *view*." msgstr "" #: c-api/typeobj.rst:2408 msgid "" "The exporter MUST use the :c:member:`~Py_buffer.internal` field to keep " "track of buffer-specific resources. This field is guaranteed to remain " "constant, while a consumer MAY pass a copy of the original buffer as the " "*view* argument." msgstr "" #: c-api/typeobj.rst:2414 msgid "" "This function MUST NOT decrement :c:expr:`view->obj`, since that is done " "automatically in :c:func:`PyBuffer_Release` (this scheme is useful for " "breaking reference cycles)." msgstr "" #: c-api/typeobj.rst:2419 msgid "" ":c:func:`PyBuffer_Release` is the interface for the consumer that wraps this " "function." msgstr "" #: c-api/typeobj.rst:2427 msgid "Async Object Structures" msgstr "" #: c-api/typeobj.rst:2435 msgid "" "This structure holds pointers to the functions required to implement :term:" "`awaitable` and :term:`asynchronous iterator` objects." msgstr "" #: c-api/typeobj.rst:2453 msgid "" "The returned object must be an :term:`iterator`, i.e. :c:func:`PyIter_Check` " "must return ``1`` for it." msgstr "" #: c-api/typeobj.rst:2456 msgid "" "This slot may be set to ``NULL`` if an object is not an :term:`awaitable`." msgstr "" #: c-api/typeobj.rst:2464 msgid "" "Must return an :term:`asynchronous iterator` object. See :meth:`__anext__` " "for details." msgstr "" #: c-api/typeobj.rst:2467 msgid "" "This slot may be set to ``NULL`` if an object does not implement " "asynchronous iteration protocol." msgstr "" #: c-api/typeobj.rst:2476 msgid "" "Must return an :term:`awaitable` object. See :meth:`__anext__` for details. " "This slot may be set to ``NULL``." msgstr "" #: c-api/typeobj.rst:2485 msgid "" "See :c:func:`PyIter_Send` for details. This slot may be set to ``NULL``." msgstr "" #: c-api/typeobj.rst:2494 msgid "Slot Type typedefs" msgstr "" #: c-api/typeobj.rst:2498 msgid "" "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 :c:member:`~PyTypeObject.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 :c:" "member:`~PyTypeObject.tp_basicsize`." msgstr "" #: c-api/typeobj.rst:2508 msgid "" "This function should not do any other instance initialization, not even to " "allocate additional memory; that should be done by :c:member:`~PyTypeObject." "tp_new`." msgstr "" #: c-api/typeobj.rst:2515 msgid "See :c:member:`~PyTypeObject.tp_free`." msgstr "" #: c-api/typeobj.rst:2519 msgid "See :c:member:`~PyTypeObject.tp_new`." msgstr "" #: c-api/typeobj.rst:2523 msgid "See :c:member:`~PyTypeObject.tp_init`." msgstr "" #: c-api/typeobj.rst:2527 msgid "See :c:member:`~PyTypeObject.tp_repr`." msgstr "" #: c-api/typeobj.rst:2540 msgid "Return the value of the named attribute for the object." msgstr "" #: c-api/typeobj.rst:2546 msgid "" "Set the value of the named attribute for the object. The value argument is " "set to ``NULL`` to delete the attribute." msgstr "" #: c-api/typeobj.rst:2542 msgid "See :c:member:`~PyTypeObject.tp_getattro`." msgstr "" #: c-api/typeobj.rst:2549 msgid "See :c:member:`~PyTypeObject.tp_setattro`." msgstr "" #: c-api/typeobj.rst:2553 msgid "See :c:member:`~PyTypeObject.tp_descr_get`." msgstr "" #: c-api/typeobj.rst:2557 msgid "See :c:member:`~PyTypeObject.tp_descr_set`." msgstr "" #: c-api/typeobj.rst:2561 msgid "See :c:member:`~PyTypeObject.tp_hash`." msgstr "" #: c-api/typeobj.rst:2565 msgid "See :c:member:`~PyTypeObject.tp_richcompare`." msgstr "" #: c-api/typeobj.rst:2569 msgid "See :c:member:`~PyTypeObject.tp_iter`." msgstr "" #: c-api/typeobj.rst:2573 msgid "See :c:member:`~PyTypeObject.tp_iternext`." msgstr "" #: c-api/typeobj.rst:2587 msgid "See :c:member:`~PyAsyncMethods.am_send`." msgstr "" #: c-api/typeobj.rst:2603 msgid "Examples" msgstr "Exemples" #: c-api/typeobj.rst:2605 msgid "" "The following are simple examples of Python type definitions. They include " "common usage you may encounter. Some demonstrate tricky corner cases. For " "more examples, practical info, and a tutorial, see :ref:`defining-new-types` " "and :ref:`new-types-topics`." msgstr "" #: c-api/typeobj.rst:2610 msgid "A basic :ref:`static type `::" msgstr "" #: c-api/typeobj.rst:2627 msgid "" "You may also find older code (especially in the CPython code base) with a " "more verbose initializer::" msgstr "" #: c-api/typeobj.rst:2671 msgid "A type that supports weakrefs, instance dicts, and hashing::" msgstr "" #: c-api/typeobj.rst:2698 msgid "" "A str subclass that cannot be subclassed and cannot be called to create " "instances (e.g. uses a separate factory func) using :c:data:" "`Py_TPFLAGS_DISALLOW_INSTANTIATION` flag::" msgstr "" #: c-api/typeobj.rst:2717 msgid "" "The simplest :ref:`static type ` with fixed-length instances::" msgstr "" #: c-api/typeobj.rst:2728 msgid "" "The simplest :ref:`static type ` with variable-length " "instances::" msgstr ""