mirror of https://github.com/python/cpython
480 lines
13 KiB
C
480 lines
13 KiB
C
/*[clinic input]
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preserve
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[clinic start generated code]*/
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#if defined(Py_BUILD_CORE) && !defined(Py_BUILD_CORE_MODULE)
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# include "pycore_gc.h" // PyGC_Head
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# include "pycore_runtime.h" // _Py_ID()
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#endif
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#include "pycore_abstract.h" // _PyNumber_Index()
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#include "pycore_modsupport.h" // _PyArg_UnpackKeywords()
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static PyObject *
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long_new_impl(PyTypeObject *type, PyObject *x, PyObject *obase);
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static PyObject *
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long_new(PyTypeObject *type, PyObject *args, PyObject *kwargs)
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{
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PyObject *return_value = NULL;
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#if defined(Py_BUILD_CORE) && !defined(Py_BUILD_CORE_MODULE)
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#define NUM_KEYWORDS 1
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static struct {
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PyGC_Head _this_is_not_used;
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PyObject_VAR_HEAD
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PyObject *ob_item[NUM_KEYWORDS];
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} _kwtuple = {
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.ob_base = PyVarObject_HEAD_INIT(&PyTuple_Type, NUM_KEYWORDS)
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.ob_item = { &_Py_ID(base), },
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};
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#undef NUM_KEYWORDS
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#define KWTUPLE (&_kwtuple.ob_base.ob_base)
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#else // !Py_BUILD_CORE
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# define KWTUPLE NULL
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#endif // !Py_BUILD_CORE
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static const char * const _keywords[] = {"", "base", NULL};
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static _PyArg_Parser _parser = {
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.keywords = _keywords,
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.fname = "int",
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.kwtuple = KWTUPLE,
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};
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#undef KWTUPLE
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PyObject *argsbuf[2];
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PyObject * const *fastargs;
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Py_ssize_t nargs = PyTuple_GET_SIZE(args);
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Py_ssize_t noptargs = nargs + (kwargs ? PyDict_GET_SIZE(kwargs) : 0) - 0;
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PyObject *x = NULL;
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PyObject *obase = NULL;
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fastargs = _PyArg_UnpackKeywords(_PyTuple_CAST(args)->ob_item, nargs, kwargs, NULL, &_parser, 0, 2, 0, argsbuf);
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if (!fastargs) {
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goto exit;
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}
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if (nargs < 1) {
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goto skip_optional_posonly;
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}
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noptargs--;
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x = fastargs[0];
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skip_optional_posonly:
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if (!noptargs) {
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goto skip_optional_pos;
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}
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obase = fastargs[1];
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skip_optional_pos:
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return_value = long_new_impl(type, x, obase);
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exit:
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return return_value;
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}
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PyDoc_STRVAR(int___getnewargs____doc__,
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"__getnewargs__($self, /)\n"
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"--\n"
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"\n");
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#define INT___GETNEWARGS___METHODDEF \
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{"__getnewargs__", (PyCFunction)int___getnewargs__, METH_NOARGS, int___getnewargs____doc__},
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static PyObject *
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int___getnewargs___impl(PyObject *self);
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static PyObject *
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int___getnewargs__(PyObject *self, PyObject *Py_UNUSED(ignored))
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{
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return int___getnewargs___impl(self);
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}
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PyDoc_STRVAR(int___format____doc__,
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"__format__($self, format_spec, /)\n"
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"--\n"
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"\n"
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"Convert to a string according to format_spec.");
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#define INT___FORMAT___METHODDEF \
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{"__format__", (PyCFunction)int___format__, METH_O, int___format____doc__},
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static PyObject *
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int___format___impl(PyObject *self, PyObject *format_spec);
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static PyObject *
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int___format__(PyObject *self, PyObject *arg)
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{
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PyObject *return_value = NULL;
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PyObject *format_spec;
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if (!PyUnicode_Check(arg)) {
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_PyArg_BadArgument("__format__", "argument", "str", arg);
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goto exit;
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}
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format_spec = arg;
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return_value = int___format___impl(self, format_spec);
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exit:
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return return_value;
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}
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PyDoc_STRVAR(int___round____doc__,
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"__round__($self, ndigits=None, /)\n"
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"--\n"
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"\n"
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"Rounding an Integral returns itself.\n"
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"\n"
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"Rounding with an ndigits argument also returns an integer.");
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#define INT___ROUND___METHODDEF \
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{"__round__", _PyCFunction_CAST(int___round__), METH_FASTCALL, int___round____doc__},
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static PyObject *
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int___round___impl(PyObject *self, PyObject *o_ndigits);
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static PyObject *
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int___round__(PyObject *self, PyObject *const *args, Py_ssize_t nargs)
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{
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PyObject *return_value = NULL;
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PyObject *o_ndigits = Py_None;
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if (!_PyArg_CheckPositional("__round__", nargs, 0, 1)) {
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goto exit;
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}
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if (nargs < 1) {
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goto skip_optional;
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}
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o_ndigits = args[0];
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skip_optional:
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return_value = int___round___impl(self, o_ndigits);
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exit:
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return return_value;
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}
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PyDoc_STRVAR(int___sizeof____doc__,
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"__sizeof__($self, /)\n"
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"--\n"
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"\n"
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"Returns size in memory, in bytes.");
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#define INT___SIZEOF___METHODDEF \
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{"__sizeof__", (PyCFunction)int___sizeof__, METH_NOARGS, int___sizeof____doc__},
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static Py_ssize_t
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int___sizeof___impl(PyObject *self);
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static PyObject *
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int___sizeof__(PyObject *self, PyObject *Py_UNUSED(ignored))
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{
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PyObject *return_value = NULL;
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Py_ssize_t _return_value;
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_return_value = int___sizeof___impl(self);
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if ((_return_value == -1) && PyErr_Occurred()) {
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goto exit;
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}
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return_value = PyLong_FromSsize_t(_return_value);
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exit:
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return return_value;
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}
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PyDoc_STRVAR(int_bit_length__doc__,
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"bit_length($self, /)\n"
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"--\n"
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"\n"
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"Number of bits necessary to represent self in binary.\n"
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"\n"
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">>> bin(37)\n"
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"\'0b100101\'\n"
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">>> (37).bit_length()\n"
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"6");
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#define INT_BIT_LENGTH_METHODDEF \
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{"bit_length", (PyCFunction)int_bit_length, METH_NOARGS, int_bit_length__doc__},
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static PyObject *
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int_bit_length_impl(PyObject *self);
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static PyObject *
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int_bit_length(PyObject *self, PyObject *Py_UNUSED(ignored))
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{
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return int_bit_length_impl(self);
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}
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PyDoc_STRVAR(int_bit_count__doc__,
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"bit_count($self, /)\n"
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"--\n"
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"\n"
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"Number of ones in the binary representation of the absolute value of self.\n"
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"\n"
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"Also known as the population count.\n"
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"\n"
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">>> bin(13)\n"
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"\'0b1101\'\n"
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">>> (13).bit_count()\n"
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"3");
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#define INT_BIT_COUNT_METHODDEF \
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{"bit_count", (PyCFunction)int_bit_count, METH_NOARGS, int_bit_count__doc__},
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static PyObject *
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int_bit_count_impl(PyObject *self);
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static PyObject *
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int_bit_count(PyObject *self, PyObject *Py_UNUSED(ignored))
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{
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return int_bit_count_impl(self);
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}
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PyDoc_STRVAR(int_as_integer_ratio__doc__,
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"as_integer_ratio($self, /)\n"
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"--\n"
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"\n"
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"Return a pair of integers, whose ratio is equal to the original int.\n"
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"\n"
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"The ratio is in lowest terms and has a positive denominator.\n"
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"\n"
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">>> (10).as_integer_ratio()\n"
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"(10, 1)\n"
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">>> (-10).as_integer_ratio()\n"
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"(-10, 1)\n"
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">>> (0).as_integer_ratio()\n"
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"(0, 1)");
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#define INT_AS_INTEGER_RATIO_METHODDEF \
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{"as_integer_ratio", (PyCFunction)int_as_integer_ratio, METH_NOARGS, int_as_integer_ratio__doc__},
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static PyObject *
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int_as_integer_ratio_impl(PyObject *self);
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static PyObject *
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int_as_integer_ratio(PyObject *self, PyObject *Py_UNUSED(ignored))
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{
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return int_as_integer_ratio_impl(self);
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}
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PyDoc_STRVAR(int_to_bytes__doc__,
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"to_bytes($self, /, length=1, byteorder=\'big\', *, signed=False)\n"
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"--\n"
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"\n"
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"Return an array of bytes representing an integer.\n"
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"\n"
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" length\n"
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" Length of bytes object to use. An OverflowError is raised if the\n"
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" integer is not representable with the given number of bytes. Default\n"
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" is length 1.\n"
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" byteorder\n"
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" The byte order used to represent the integer. If byteorder is \'big\',\n"
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" the most significant byte is at the beginning of the byte array. If\n"
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" byteorder is \'little\', the most significant byte is at the end of the\n"
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" byte array. To request the native byte order of the host system, use\n"
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" sys.byteorder as the byte order value. Default is to use \'big\'.\n"
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" signed\n"
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" Determines whether two\'s complement is used to represent the integer.\n"
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" If signed is False and a negative integer is given, an OverflowError\n"
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" is raised.");
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#define INT_TO_BYTES_METHODDEF \
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{"to_bytes", _PyCFunction_CAST(int_to_bytes), METH_FASTCALL|METH_KEYWORDS, int_to_bytes__doc__},
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static PyObject *
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int_to_bytes_impl(PyObject *self, Py_ssize_t length, PyObject *byteorder,
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int is_signed);
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static PyObject *
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int_to_bytes(PyObject *self, PyObject *const *args, Py_ssize_t nargs, PyObject *kwnames)
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{
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PyObject *return_value = NULL;
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#if defined(Py_BUILD_CORE) && !defined(Py_BUILD_CORE_MODULE)
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#define NUM_KEYWORDS 3
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static struct {
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PyGC_Head _this_is_not_used;
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PyObject_VAR_HEAD
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PyObject *ob_item[NUM_KEYWORDS];
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} _kwtuple = {
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.ob_base = PyVarObject_HEAD_INIT(&PyTuple_Type, NUM_KEYWORDS)
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.ob_item = { &_Py_ID(length), &_Py_ID(byteorder), &_Py_ID(signed), },
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};
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#undef NUM_KEYWORDS
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#define KWTUPLE (&_kwtuple.ob_base.ob_base)
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#else // !Py_BUILD_CORE
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# define KWTUPLE NULL
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#endif // !Py_BUILD_CORE
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static const char * const _keywords[] = {"length", "byteorder", "signed", NULL};
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static _PyArg_Parser _parser = {
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.keywords = _keywords,
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.fname = "to_bytes",
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.kwtuple = KWTUPLE,
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};
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#undef KWTUPLE
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PyObject *argsbuf[3];
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Py_ssize_t noptargs = nargs + (kwnames ? PyTuple_GET_SIZE(kwnames) : 0) - 0;
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Py_ssize_t length = 1;
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PyObject *byteorder = NULL;
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int is_signed = 0;
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args = _PyArg_UnpackKeywords(args, nargs, NULL, kwnames, &_parser, 0, 2, 0, argsbuf);
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if (!args) {
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goto exit;
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}
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if (!noptargs) {
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goto skip_optional_pos;
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}
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if (args[0]) {
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{
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Py_ssize_t ival = -1;
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PyObject *iobj = _PyNumber_Index(args[0]);
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if (iobj != NULL) {
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ival = PyLong_AsSsize_t(iobj);
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Py_DECREF(iobj);
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}
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if (ival == -1 && PyErr_Occurred()) {
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goto exit;
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}
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length = ival;
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}
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if (!--noptargs) {
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goto skip_optional_pos;
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}
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}
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if (args[1]) {
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if (!PyUnicode_Check(args[1])) {
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_PyArg_BadArgument("to_bytes", "argument 'byteorder'", "str", args[1]);
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goto exit;
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}
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byteorder = args[1];
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if (!--noptargs) {
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goto skip_optional_pos;
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}
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}
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skip_optional_pos:
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if (!noptargs) {
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goto skip_optional_kwonly;
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}
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is_signed = PyObject_IsTrue(args[2]);
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if (is_signed < 0) {
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goto exit;
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}
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skip_optional_kwonly:
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return_value = int_to_bytes_impl(self, length, byteorder, is_signed);
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exit:
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return return_value;
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}
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PyDoc_STRVAR(int_from_bytes__doc__,
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"from_bytes($type, /, bytes, byteorder=\'big\', *, signed=False)\n"
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"--\n"
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"\n"
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"Return the integer represented by the given array of bytes.\n"
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"\n"
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" bytes\n"
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" Holds the array of bytes to convert. The argument must either\n"
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" support the buffer protocol or be an iterable object producing bytes.\n"
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" Bytes and bytearray are examples of built-in objects that support the\n"
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" buffer protocol.\n"
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" byteorder\n"
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" The byte order used to represent the integer. If byteorder is \'big\',\n"
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" the most significant byte is at the beginning of the byte array. If\n"
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" byteorder is \'little\', the most significant byte is at the end of the\n"
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" byte array. To request the native byte order of the host system, use\n"
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" sys.byteorder as the byte order value. Default is to use \'big\'.\n"
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" signed\n"
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" Indicates whether two\'s complement is used to represent the integer.");
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#define INT_FROM_BYTES_METHODDEF \
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{"from_bytes", _PyCFunction_CAST(int_from_bytes), METH_FASTCALL|METH_KEYWORDS|METH_CLASS, int_from_bytes__doc__},
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static PyObject *
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int_from_bytes_impl(PyTypeObject *type, PyObject *bytes_obj,
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PyObject *byteorder, int is_signed);
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static PyObject *
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int_from_bytes(PyTypeObject *type, PyObject *const *args, Py_ssize_t nargs, PyObject *kwnames)
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{
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PyObject *return_value = NULL;
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#if defined(Py_BUILD_CORE) && !defined(Py_BUILD_CORE_MODULE)
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#define NUM_KEYWORDS 3
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static struct {
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PyGC_Head _this_is_not_used;
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PyObject_VAR_HEAD
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PyObject *ob_item[NUM_KEYWORDS];
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} _kwtuple = {
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.ob_base = PyVarObject_HEAD_INIT(&PyTuple_Type, NUM_KEYWORDS)
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.ob_item = { &_Py_ID(bytes), &_Py_ID(byteorder), &_Py_ID(signed), },
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};
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#undef NUM_KEYWORDS
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#define KWTUPLE (&_kwtuple.ob_base.ob_base)
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#else // !Py_BUILD_CORE
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# define KWTUPLE NULL
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#endif // !Py_BUILD_CORE
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static const char * const _keywords[] = {"bytes", "byteorder", "signed", NULL};
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static _PyArg_Parser _parser = {
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.keywords = _keywords,
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.fname = "from_bytes",
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.kwtuple = KWTUPLE,
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};
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#undef KWTUPLE
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PyObject *argsbuf[3];
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Py_ssize_t noptargs = nargs + (kwnames ? PyTuple_GET_SIZE(kwnames) : 0) - 1;
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PyObject *bytes_obj;
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PyObject *byteorder = NULL;
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int is_signed = 0;
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args = _PyArg_UnpackKeywords(args, nargs, NULL, kwnames, &_parser, 1, 2, 0, argsbuf);
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if (!args) {
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goto exit;
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}
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bytes_obj = args[0];
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if (!noptargs) {
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goto skip_optional_pos;
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}
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if (args[1]) {
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if (!PyUnicode_Check(args[1])) {
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_PyArg_BadArgument("from_bytes", "argument 'byteorder'", "str", args[1]);
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goto exit;
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}
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byteorder = args[1];
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if (!--noptargs) {
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goto skip_optional_pos;
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}
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}
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skip_optional_pos:
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if (!noptargs) {
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goto skip_optional_kwonly;
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}
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is_signed = PyObject_IsTrue(args[2]);
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if (is_signed < 0) {
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goto exit;
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}
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skip_optional_kwonly:
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return_value = int_from_bytes_impl(type, bytes_obj, byteorder, is_signed);
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exit:
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return return_value;
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}
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PyDoc_STRVAR(int_is_integer__doc__,
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"is_integer($self, /)\n"
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"--\n"
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"\n"
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"Returns True. Exists for duck type compatibility with float.is_integer.");
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#define INT_IS_INTEGER_METHODDEF \
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{"is_integer", (PyCFunction)int_is_integer, METH_NOARGS, int_is_integer__doc__},
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static PyObject *
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int_is_integer_impl(PyObject *self);
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static PyObject *
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int_is_integer(PyObject *self, PyObject *Py_UNUSED(ignored))
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{
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return int_is_integer_impl(self);
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}
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/*[clinic end generated code: output=a53f5ba9a6c16737 input=a9049054013a1b77]*/
|