mirror of
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0c77a82c3d
svn+ssh://pythondev@svn.python.org/python/trunk ........ r63829 | mark.summerfield | 2008-05-31 15:05:34 +0200 (Sat, 31 May 2008) | 4 lines Added a note to [] that special forms & special chars lose their meaning and backrefs can't be used inside [] ........ r63830 | georg.brandl | 2008-05-31 16:40:09 +0200 (Sat, 31 May 2008) | 2 lines #3010: clarification about stdin/use_rawinput. ........ r63831 | georg.brandl | 2008-05-31 16:45:55 +0200 (Sat, 31 May 2008) | 2 lines #3005: add explaining sentence to easydialogs docs. ........ r63858 | georg.brandl | 2008-06-01 18:41:31 +0200 (Sun, 01 Jun 2008) | 2 lines Add plain text make target. ........ r63865 | georg.brandl | 2008-06-01 21:24:36 +0200 (Sun, 01 Jun 2008) | 2 lines Spaces vs. tabs. ........ r63879 | gregory.p.smith | 2008-06-02 00:57:47 +0200 (Mon, 02 Jun 2008) | 3 lines Make the _H #define's match the header file names. Fix comments to mention the correct type names. ........ r63882 | gregory.p.smith | 2008-06-02 01:48:47 +0200 (Mon, 02 Jun 2008) | 3 lines Adds a Thread.getIdent() method to provide the _get_ident() value for any given threading.Thread object. feature request issue 2871. ........ r63948 | alexandre.vassalotti | 2008-06-04 22:41:44 +0200 (Wed, 04 Jun 2008) | 2 lines Fixed complex.__getnewargs__() to not emit another complex object. ........ r63970 | andrew.kuchling | 2008-06-06 01:33:54 +0200 (Fri, 06 Jun 2008) | 1 line Document 'utc' parameter ........ r63971 | andrew.kuchling | 2008-06-06 01:35:31 +0200 (Fri, 06 Jun 2008) | 1 line Add various items ........ r63972 | andrew.kuchling | 2008-06-06 01:35:48 +0200 (Fri, 06 Jun 2008) | 1 line Grammar fix ........ r63976 | georg.brandl | 2008-06-06 09:34:50 +0200 (Fri, 06 Jun 2008) | 2 lines Markup fix. ........ r63989 | thomas.heller | 2008-06-06 20:42:11 +0200 (Fri, 06 Jun 2008) | 2 lines Add a reminder for the maintainer of whatsnew. ........ r64014 | georg.brandl | 2008-06-07 17:59:10 +0200 (Sat, 07 Jun 2008) | 3 lines Factor out docstring dedenting from inspect.getdoc() into inspect.cleandoc() to ease standalone use of the algorithm. ........ r64015 | georg.brandl | 2008-06-07 18:04:01 +0200 (Sat, 07 Jun 2008) | 2 lines Revert unwanted changes. ........ r64021 | georg.brandl | 2008-06-07 20:16:12 +0200 (Sat, 07 Jun 2008) | 2 lines X-ref to numbers module. ........ r64022 | georg.brandl | 2008-06-07 20:17:37 +0200 (Sat, 07 Jun 2008) | 3 lines Document the "st" API, to avoid confusion with the "new" AST. Add a note about using the new AST module. ........ r64063 | martin.v.loewis | 2008-06-10 07:03:35 +0200 (Tue, 10 Jun 2008) | 2 lines Add Gregor Lingl. ........ r64064 | georg.brandl | 2008-06-10 09:45:28 +0200 (Tue, 10 Jun 2008) | 2 lines Add the "ast" module, containing helpers to ease use of the "_ast" classes. ........ r64065 | raymond.hettinger | 2008-06-10 09:57:15 +0200 (Tue, 10 Jun 2008) | 1 line Add Arnaud for his efforts on multi-arg set operations. ........ r64067 | georg.brandl | 2008-06-10 14:46:39 +0200 (Tue, 10 Jun 2008) | 2 lines #2536: fix itertools.permutations and itertools.combinations docstrings. ........
375 lines
14 KiB
Python
375 lines
14 KiB
Python
import unittest, os
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from test import support
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from random import random
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from math import atan2
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INF = float("inf")
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NAN = float("nan")
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# These tests ensure that complex math does the right thing
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class ComplexTest(unittest.TestCase):
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def assertAlmostEqual(self, a, b):
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if isinstance(a, complex):
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if isinstance(b, complex):
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unittest.TestCase.assertAlmostEqual(self, a.real, b.real)
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unittest.TestCase.assertAlmostEqual(self, a.imag, b.imag)
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else:
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unittest.TestCase.assertAlmostEqual(self, a.real, b)
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unittest.TestCase.assertAlmostEqual(self, a.imag, 0.)
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else:
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if isinstance(b, complex):
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unittest.TestCase.assertAlmostEqual(self, a, b.real)
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unittest.TestCase.assertAlmostEqual(self, 0., b.imag)
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else:
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unittest.TestCase.assertAlmostEqual(self, a, b)
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def assertCloseAbs(self, x, y, eps=1e-9):
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"""Return true iff floats x and y "are close\""""
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# put the one with larger magnitude second
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if abs(x) > abs(y):
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x, y = y, x
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if y == 0:
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return abs(x) < eps
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if x == 0:
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return abs(y) < eps
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# check that relative difference < eps
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self.assert_(abs((x-y)/y) < eps)
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def assertClose(self, x, y, eps=1e-9):
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"""Return true iff complexes x and y "are close\""""
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self.assertCloseAbs(x.real, y.real, eps)
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self.assertCloseAbs(x.imag, y.imag, eps)
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def assertIs(self, a, b):
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self.assert_(a is b)
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def check_div(self, x, y):
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"""Compute complex z=x*y, and check that z/x==y and z/y==x."""
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z = x * y
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if x != 0:
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q = z / x
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self.assertClose(q, y)
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q = z.__truediv__(x)
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self.assertClose(q, y)
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if y != 0:
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q = z / y
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self.assertClose(q, x)
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q = z.__truediv__(y)
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self.assertClose(q, x)
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def test_truediv(self):
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simple_real = [float(i) for i in range(-5, 6)]
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simple_complex = [complex(x, y) for x in simple_real for y in simple_real]
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for x in simple_complex:
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for y in simple_complex:
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self.check_div(x, y)
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# A naive complex division algorithm (such as in 2.0) is very prone to
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# nonsense errors for these (overflows and underflows).
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self.check_div(complex(1e200, 1e200), 1+0j)
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self.check_div(complex(1e-200, 1e-200), 1+0j)
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# Just for fun.
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for i in range(100):
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self.check_div(complex(random(), random()),
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complex(random(), random()))
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self.assertRaises(ZeroDivisionError, complex.__truediv__, 1+1j, 0+0j)
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# FIXME: The following currently crashes on Alpha
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# self.assertRaises(OverflowError, pow, 1e200+1j, 1e200+1j)
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def test_truediv(self):
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self.assertAlmostEqual(complex.__truediv__(2+0j, 1+1j), 1-1j)
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self.assertRaises(ZeroDivisionError, complex.__truediv__, 1+1j, 0+0j)
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def test_floordiv(self):
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self.assertRaises(TypeError, complex.__floordiv__, 3+0j, 1.5+0j)
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self.assertRaises(TypeError, complex.__floordiv__, 3+0j, 0+0j)
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def test_richcompare(self):
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self.assertRaises(OverflowError, complex.__eq__, 1+1j, 1<<10000)
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self.assertEqual(complex.__lt__(1+1j, None), NotImplemented)
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self.assertIs(complex.__eq__(1+1j, 1+1j), True)
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self.assertIs(complex.__eq__(1+1j, 2+2j), False)
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self.assertIs(complex.__ne__(1+1j, 1+1j), False)
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self.assertIs(complex.__ne__(1+1j, 2+2j), True)
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self.assertRaises(TypeError, complex.__lt__, 1+1j, 2+2j)
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self.assertRaises(TypeError, complex.__le__, 1+1j, 2+2j)
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self.assertRaises(TypeError, complex.__gt__, 1+1j, 2+2j)
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self.assertRaises(TypeError, complex.__ge__, 1+1j, 2+2j)
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def test_mod(self):
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# % is no longer supported on complex numbers
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self.assertRaises(TypeError, (1+1j).__mod__, 0+0j)
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self.assertRaises(TypeError, lambda: (3.33+4.43j) % 0)
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self.assertRaises(TypeError, (1+1j).__mod__, 4.3j)
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def test_divmod(self):
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self.assertRaises(TypeError, divmod, 1+1j, 1+0j)
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self.assertRaises(TypeError, divmod, 1+1j, 0+0j)
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def test_pow(self):
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self.assertAlmostEqual(pow(1+1j, 0+0j), 1.0)
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self.assertAlmostEqual(pow(0+0j, 2+0j), 0.0)
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self.assertRaises(ZeroDivisionError, pow, 0+0j, 1j)
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self.assertAlmostEqual(pow(1j, -1), 1/1j)
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self.assertAlmostEqual(pow(1j, 200), 1)
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self.assertRaises(ValueError, pow, 1+1j, 1+1j, 1+1j)
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a = 3.33+4.43j
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self.assertEqual(a ** 0j, 1)
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self.assertEqual(a ** 0.+0.j, 1)
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self.assertEqual(3j ** 0j, 1)
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self.assertEqual(3j ** 0, 1)
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try:
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0j ** a
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except ZeroDivisionError:
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pass
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else:
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self.fail("should fail 0.0 to negative or complex power")
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try:
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0j ** (3-2j)
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except ZeroDivisionError:
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pass
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else:
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self.fail("should fail 0.0 to negative or complex power")
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# The following is used to exercise certain code paths
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self.assertEqual(a ** 105, a ** 105)
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self.assertEqual(a ** -105, a ** -105)
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self.assertEqual(a ** -30, a ** -30)
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self.assertEqual(0.0j ** 0, 1)
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b = 5.1+2.3j
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self.assertRaises(ValueError, pow, a, b, 0)
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def test_boolcontext(self):
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for i in range(100):
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self.assert_(complex(random() + 1e-6, random() + 1e-6))
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self.assert_(not complex(0.0, 0.0))
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def test_conjugate(self):
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self.assertClose(complex(5.3, 9.8).conjugate(), 5.3-9.8j)
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def test_constructor(self):
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class OS:
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def __init__(self, value): self.value = value
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def __complex__(self): return self.value
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class NS(object):
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def __init__(self, value): self.value = value
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def __complex__(self): return self.value
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self.assertEqual(complex(OS(1+10j)), 1+10j)
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self.assertEqual(complex(NS(1+10j)), 1+10j)
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self.assertRaises(TypeError, complex, OS(None))
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self.assertRaises(TypeError, complex, NS(None))
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self.assertAlmostEqual(complex("1+10j"), 1+10j)
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self.assertAlmostEqual(complex(10), 10+0j)
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self.assertAlmostEqual(complex(10.0), 10+0j)
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self.assertAlmostEqual(complex(10), 10+0j)
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self.assertAlmostEqual(complex(10+0j), 10+0j)
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self.assertAlmostEqual(complex(1,10), 1+10j)
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self.assertAlmostEqual(complex(1,10), 1+10j)
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self.assertAlmostEqual(complex(1,10.0), 1+10j)
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self.assertAlmostEqual(complex(1,10), 1+10j)
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self.assertAlmostEqual(complex(1,10), 1+10j)
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self.assertAlmostEqual(complex(1,10.0), 1+10j)
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self.assertAlmostEqual(complex(1.0,10), 1+10j)
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self.assertAlmostEqual(complex(1.0,10), 1+10j)
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self.assertAlmostEqual(complex(1.0,10.0), 1+10j)
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self.assertAlmostEqual(complex(3.14+0j), 3.14+0j)
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self.assertAlmostEqual(complex(3.14), 3.14+0j)
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self.assertAlmostEqual(complex(314), 314.0+0j)
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self.assertAlmostEqual(complex(314), 314.0+0j)
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self.assertAlmostEqual(complex(3.14+0j, 0j), 3.14+0j)
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self.assertAlmostEqual(complex(3.14, 0.0), 3.14+0j)
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self.assertAlmostEqual(complex(314, 0), 314.0+0j)
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self.assertAlmostEqual(complex(314, 0), 314.0+0j)
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self.assertAlmostEqual(complex(0j, 3.14j), -3.14+0j)
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self.assertAlmostEqual(complex(0.0, 3.14j), -3.14+0j)
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self.assertAlmostEqual(complex(0j, 3.14), 3.14j)
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self.assertAlmostEqual(complex(0.0, 3.14), 3.14j)
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self.assertAlmostEqual(complex("1"), 1+0j)
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self.assertAlmostEqual(complex("1j"), 1j)
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self.assertAlmostEqual(complex(), 0)
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self.assertAlmostEqual(complex("-1"), -1)
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self.assertAlmostEqual(complex("+1"), +1)
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self.assertAlmostEqual(complex("(1+2j)"), 1+2j)
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self.assertAlmostEqual(complex("(1.3+2.2j)"), 1.3+2.2j)
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class complex2(complex): pass
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self.assertAlmostEqual(complex(complex2(1+1j)), 1+1j)
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self.assertAlmostEqual(complex(real=17, imag=23), 17+23j)
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self.assertAlmostEqual(complex(real=17+23j), 17+23j)
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self.assertAlmostEqual(complex(real=17+23j, imag=23), 17+46j)
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self.assertAlmostEqual(complex(real=1+2j, imag=3+4j), -3+5j)
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# check that the sign of a zero in the real or imaginary part
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# is preserved when constructing from two floats. (These checks
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# are harmless on systems without support for signed zeros.)
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def split_zeros(x):
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"""Function that produces different results for 0. and -0."""
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return atan2(x, -1.)
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self.assertEqual(split_zeros(complex(1., 0.).imag), split_zeros(0.))
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self.assertEqual(split_zeros(complex(1., -0.).imag), split_zeros(-0.))
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self.assertEqual(split_zeros(complex(0., 1.).real), split_zeros(0.))
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self.assertEqual(split_zeros(complex(-0., 1.).real), split_zeros(-0.))
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c = 3.14 + 1j
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self.assert_(complex(c) is c)
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del c
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self.assertRaises(TypeError, complex, "1", "1")
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self.assertRaises(TypeError, complex, 1, "1")
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self.assertEqual(complex(" 3.14+J "), 3.14+1j)
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# SF bug 543840: complex(string) accepts strings with \0
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# Fixed in 2.3.
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self.assertRaises(ValueError, complex, '1+1j\0j')
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self.assertRaises(TypeError, int, 5+3j)
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self.assertRaises(TypeError, int, 5+3j)
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self.assertRaises(TypeError, float, 5+3j)
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self.assertRaises(ValueError, complex, "")
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self.assertRaises(TypeError, complex, None)
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self.assertRaises(ValueError, complex, "\0")
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self.assertRaises(ValueError, complex, "3\09")
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self.assertRaises(TypeError, complex, "1", "2")
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self.assertRaises(TypeError, complex, "1", 42)
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self.assertRaises(TypeError, complex, 1, "2")
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self.assertRaises(ValueError, complex, "1+")
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self.assertRaises(ValueError, complex, "1+1j+1j")
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self.assertRaises(ValueError, complex, "--")
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self.assertRaises(ValueError, complex, "(1+2j")
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self.assertRaises(ValueError, complex, "1+2j)")
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self.assertRaises(ValueError, complex, "1+(2j)")
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self.assertRaises(ValueError, complex, "(1+2j)123")
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self.assertRaises(ValueError, complex, "1"*500)
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self.assertRaises(ValueError, complex, "x")
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class EvilExc(Exception):
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pass
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class evilcomplex:
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def __complex__(self):
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raise EvilExc
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self.assertRaises(EvilExc, complex, evilcomplex())
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class float2:
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def __init__(self, value):
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self.value = value
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def __float__(self):
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return self.value
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self.assertAlmostEqual(complex(float2(42.)), 42)
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self.assertAlmostEqual(complex(real=float2(17.), imag=float2(23.)), 17+23j)
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self.assertRaises(TypeError, complex, float2(None))
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class complex0(complex):
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"""Test usage of __complex__() when inheriting from 'complex'"""
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def __complex__(self):
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return 42j
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class complex1(complex):
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"""Test usage of __complex__() with a __new__() method"""
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def __new__(self, value=0j):
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return complex.__new__(self, 2*value)
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def __complex__(self):
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return self
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class complex2(complex):
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"""Make sure that __complex__() calls fail if anything other than a
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complex is returned"""
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def __complex__(self):
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return None
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self.assertAlmostEqual(complex(complex0(1j)), 42j)
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self.assertAlmostEqual(complex(complex1(1j)), 2j)
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self.assertRaises(TypeError, complex, complex2(1j))
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def test_hash(self):
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for x in range(-30, 30):
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self.assertEqual(hash(x), hash(complex(x, 0)))
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x /= 3.0 # now check against floating point
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self.assertEqual(hash(x), hash(complex(x, 0.)))
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def test_abs(self):
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nums = [complex(x/3., y/7.) for x in range(-9,9) for y in range(-9,9)]
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for num in nums:
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self.assertAlmostEqual((num.real**2 + num.imag**2) ** 0.5, abs(num))
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def test_repr(self):
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self.assertEqual(repr(1+6j), '(1+6j)')
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self.assertEqual(repr(1-6j), '(1-6j)')
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self.assertNotEqual(repr(-(1+0j)), '(-1+-0j)')
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self.assertEqual(1-6j,complex(repr(1-6j)))
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self.assertEqual(1+6j,complex(repr(1+6j)))
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self.assertEqual(-6j,complex(repr(-6j)))
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self.assertEqual(6j,complex(repr(6j)))
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self.assertEqual(repr(complex(1., INF)), "(1+inf*j)")
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self.assertEqual(repr(complex(1., -INF)), "(1-inf*j)")
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self.assertEqual(repr(complex(INF, 1)), "(inf+1j)")
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self.assertEqual(repr(complex(-INF, INF)), "(-inf+inf*j)")
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self.assertEqual(repr(complex(NAN, 1)), "(nan+1j)")
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self.assertEqual(repr(complex(1, NAN)), "(1+nan*j)")
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self.assertEqual(repr(complex(NAN, NAN)), "(nan+nan*j)")
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self.assertEqual(repr(complex(0, INF)), "inf*j")
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self.assertEqual(repr(complex(0, -INF)), "-inf*j")
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self.assertEqual(repr(complex(0, NAN)), "nan*j")
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def test_neg(self):
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self.assertEqual(-(1+6j), -1-6j)
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def test_file(self):
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a = 3.33+4.43j
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b = 5.1+2.3j
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fo = None
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try:
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fo = open(support.TESTFN, "w")
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print(a, b, file=fo)
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fo.close()
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fo = open(support.TESTFN, "r")
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self.assertEqual(fo.read(), ("%s %s\n" % (a, b)))
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finally:
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if (fo is not None) and (not fo.closed):
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fo.close()
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try:
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os.remove(support.TESTFN)
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except (OSError, IOError):
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pass
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def test_getnewargs(self):
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self.assertEqual((1+2j).__getnewargs__(), (1.0, 2.0))
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self.assertEqual((1-2j).__getnewargs__(), (1.0, -2.0))
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self.assertEqual((2j).__getnewargs__(), (0.0, 2.0))
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self.assertEqual((-0j).__getnewargs__(), (0.0, -0.0))
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self.assertEqual(complex(0, INF).__getnewargs__(), (0.0, INF))
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self.assertEqual(complex(INF, 0).__getnewargs__(), (INF, 0.0))
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if float.__getformat__("double").startswith("IEEE"):
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def test_plus_minus_0j(self):
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# test that -0j and 0j literals are not identified
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z1, z2 = 0j, -0j
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self.assertEquals(atan2(z1.imag, -1.), atan2(0., -1.))
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self.assertEquals(atan2(z2.imag, -1.), atan2(-0., -1.))
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def test_main():
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support.run_unittest(ComplexTest)
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|
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if __name__ == "__main__":
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test_main()
|