mirror of https://github.com/python/cpython
234 lines
7.8 KiB
Python
234 lines
7.8 KiB
Python
from math import isnan
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import errno
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import unittest
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import warnings
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from test.test_capi.test_getargs import (BadComplex, BadComplex2, Complex,
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FloatSubclass, Float, BadFloat,
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BadFloat2, ComplexSubclass)
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from test.support import import_helper
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_testcapi = import_helper.import_module('_testcapi')
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NULL = None
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INF = float("inf")
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NAN = float("nan")
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DBL_MAX = _testcapi.DBL_MAX
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class BadComplex3:
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def __complex__(self):
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raise RuntimeError
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class CAPIComplexTest(unittest.TestCase):
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def test_check(self):
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# Test PyComplex_Check()
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check = _testcapi.complex_check
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self.assertTrue(check(1+2j))
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self.assertTrue(check(ComplexSubclass(1+2j)))
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self.assertFalse(check(Complex()))
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self.assertFalse(check(3))
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self.assertFalse(check(3.0))
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self.assertFalse(check(object()))
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# CRASHES check(NULL)
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def test_checkexact(self):
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# PyComplex_CheckExact()
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checkexact = _testcapi.complex_checkexact
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self.assertTrue(checkexact(1+2j))
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self.assertFalse(checkexact(ComplexSubclass(1+2j)))
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self.assertFalse(checkexact(Complex()))
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self.assertFalse(checkexact(3))
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self.assertFalse(checkexact(3.0))
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self.assertFalse(checkexact(object()))
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# CRASHES checkexact(NULL)
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def test_fromccomplex(self):
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# Test PyComplex_FromCComplex()
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fromccomplex = _testcapi.complex_fromccomplex
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self.assertEqual(fromccomplex(1+2j), 1.0+2.0j)
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def test_fromdoubles(self):
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# Test PyComplex_FromDoubles()
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fromdoubles = _testcapi.complex_fromdoubles
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self.assertEqual(fromdoubles(1.0, 2.0), 1.0+2.0j)
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def test_realasdouble(self):
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# Test PyComplex_RealAsDouble()
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realasdouble = _testcapi.complex_realasdouble
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self.assertEqual(realasdouble(1+2j), 1.0)
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self.assertEqual(realasdouble(-1+0j), -1.0)
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self.assertEqual(realasdouble(4.25), 4.25)
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self.assertEqual(realasdouble(-1.0), -1.0)
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self.assertEqual(realasdouble(42), 42.)
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self.assertEqual(realasdouble(-1), -1.0)
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# Test subclasses of complex/float
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self.assertEqual(realasdouble(ComplexSubclass(1+2j)), 1.0)
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self.assertEqual(realasdouble(FloatSubclass(4.25)), 4.25)
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# Test types with __complex__ dunder method
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# Function doesn't support classes with __complex__ dunder, see #109598
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self.assertRaises(TypeError, realasdouble, Complex())
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# Test types with __float__ dunder method
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self.assertEqual(realasdouble(Float()), 4.25)
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self.assertRaises(TypeError, realasdouble, BadFloat())
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with self.assertWarns(DeprecationWarning):
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self.assertEqual(realasdouble(BadFloat2()), 4.25)
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self.assertRaises(TypeError, realasdouble, object())
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# CRASHES realasdouble(NULL)
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def test_imagasdouble(self):
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# Test PyComplex_ImagAsDouble()
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imagasdouble = _testcapi.complex_imagasdouble
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self.assertEqual(imagasdouble(1+2j), 2.0)
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self.assertEqual(imagasdouble(1-1j), -1.0)
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self.assertEqual(imagasdouble(4.25), 0.0)
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self.assertEqual(imagasdouble(42), 0.0)
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# Test subclasses of complex/float
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self.assertEqual(imagasdouble(ComplexSubclass(1+2j)), 2.0)
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self.assertEqual(imagasdouble(FloatSubclass(4.25)), 0.0)
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# Test types with __complex__ dunder method
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# Function doesn't support classes with __complex__ dunder, see #109598
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self.assertEqual(imagasdouble(Complex()), 0.0)
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# Function returns 0.0 anyway, see #109598
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self.assertEqual(imagasdouble(object()), 0.0)
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# CRASHES imagasdouble(NULL)
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def test_asccomplex(self):
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# Test PyComplex_AsCComplex()
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asccomplex = _testcapi.complex_asccomplex
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self.assertEqual(asccomplex(1+2j), 1.0+2.0j)
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self.assertEqual(asccomplex(-1+2j), -1.0+2.0j)
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self.assertEqual(asccomplex(4.25), 4.25+0.0j)
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self.assertEqual(asccomplex(-1.0), -1.0+0.0j)
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self.assertEqual(asccomplex(42), 42+0j)
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self.assertEqual(asccomplex(-1), -1.0+0.0j)
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# Test subclasses of complex/float
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self.assertEqual(asccomplex(ComplexSubclass(1+2j)), 1.0+2.0j)
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self.assertEqual(asccomplex(FloatSubclass(4.25)), 4.25+0.0j)
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# Test types with __complex__ dunder method
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self.assertEqual(asccomplex(Complex()), 4.25+0.5j)
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self.assertRaises(TypeError, asccomplex, BadComplex())
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with self.assertWarns(DeprecationWarning):
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self.assertEqual(asccomplex(BadComplex2()), 4.25+0.5j)
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with warnings.catch_warnings():
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warnings.simplefilter("error", DeprecationWarning)
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self.assertRaises(DeprecationWarning, asccomplex, BadComplex2())
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self.assertRaises(RuntimeError, asccomplex, BadComplex3())
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# Test types with __float__ dunder method
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self.assertEqual(asccomplex(Float()), 4.25+0.0j)
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self.assertRaises(TypeError, asccomplex, BadFloat())
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with self.assertWarns(DeprecationWarning):
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self.assertEqual(asccomplex(BadFloat2()), 4.25+0.0j)
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self.assertRaises(TypeError, asccomplex, object())
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# CRASHES asccomplex(NULL)
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def test_py_c_sum(self):
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# Test _Py_c_sum()
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_py_c_sum = _testcapi._py_c_sum
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self.assertEqual(_py_c_sum(1, 1j), (1+1j, 0))
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def test_py_c_diff(self):
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# Test _Py_c_diff()
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_py_c_diff = _testcapi._py_c_diff
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self.assertEqual(_py_c_diff(1, 1j), (1-1j, 0))
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def test_py_c_neg(self):
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# Test _Py_c_neg()
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_py_c_neg = _testcapi._py_c_neg
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self.assertEqual(_py_c_neg(1+1j), -1-1j)
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def test_py_c_prod(self):
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# Test _Py_c_prod()
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_py_c_prod = _testcapi._py_c_prod
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self.assertEqual(_py_c_prod(2, 1j), (2j, 0))
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def test_py_c_quot(self):
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# Test _Py_c_quot()
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_py_c_quot = _testcapi._py_c_quot
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self.assertEqual(_py_c_quot(1, 1j), (-1j, 0))
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self.assertEqual(_py_c_quot(1, -1j), (1j, 0))
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self.assertEqual(_py_c_quot(1j, 2), (0.5j, 0))
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self.assertEqual(_py_c_quot(1j, -2), (-0.5j, 0))
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self.assertEqual(_py_c_quot(1, 2j), (-0.5j, 0))
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z, e = _py_c_quot(NAN, 1j)
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self.assertTrue(isnan(z.real))
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self.assertTrue(isnan(z.imag))
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self.assertEqual(e, 0)
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z, e = _py_c_quot(1j, NAN)
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self.assertTrue(isnan(z.real))
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self.assertTrue(isnan(z.imag))
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self.assertEqual(e, 0)
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self.assertEqual(_py_c_quot(1, 0j)[1], errno.EDOM)
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def test_py_c_pow(self):
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# Test _Py_c_pow()
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_py_c_pow = _testcapi._py_c_pow
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self.assertEqual(_py_c_pow(1j, 0j), (1+0j, 0))
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self.assertEqual(_py_c_pow(1, 1j), (1+0j, 0))
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self.assertEqual(_py_c_pow(0j, 1), (0j, 0))
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self.assertAlmostEqual(_py_c_pow(1j, 2)[0], -1.0+0j)
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r, e = _py_c_pow(1+1j, -1)
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self.assertAlmostEqual(r, 0.5-0.5j)
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self.assertEqual(e, 0)
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self.assertEqual(_py_c_pow(0j, -1)[1], errno.EDOM)
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self.assertEqual(_py_c_pow(0j, 1j)[1], errno.EDOM)
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self.assertEqual(_py_c_pow(*[DBL_MAX+1j]*2)[0], complex(*[INF]*2))
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def test_py_c_abs(self):
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# Test _Py_c_abs()
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_py_c_abs = _testcapi._py_c_abs
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self.assertEqual(_py_c_abs(-1), (1.0, 0))
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self.assertEqual(_py_c_abs(1j), (1.0, 0))
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self.assertEqual(_py_c_abs(complex('+inf+1j')), (INF, 0))
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self.assertEqual(_py_c_abs(complex('-inf+1j')), (INF, 0))
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self.assertEqual(_py_c_abs(complex('1.25+infj')), (INF, 0))
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self.assertEqual(_py_c_abs(complex('1.25-infj')), (INF, 0))
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self.assertTrue(isnan(_py_c_abs(complex('1.25+nanj'))[0]))
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self.assertTrue(isnan(_py_c_abs(complex('nan-1j'))[0]))
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self.assertEqual(_py_c_abs(complex(*[DBL_MAX]*2))[1], errno.ERANGE)
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if __name__ == "__main__":
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unittest.main()
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