diff options
author | Tal Einat <taleinat@gmail.com> | 2015-05-31 19:05:00 (GMT) |
---|---|---|
committer | Tal Einat <taleinat@gmail.com> | 2015-05-31 19:05:00 (GMT) |
commit | d5519ed7f4889060363673ec802177250299920e (patch) | |
tree | 90bf7cc72a340c9512bcf7b4d0837ac845347c6a /Lib | |
parent | 439c5fe3ae62741f01da7e78a9c198375e837857 (diff) | |
download | cpython-d5519ed7f4889060363673ec802177250299920e.zip cpython-d5519ed7f4889060363673ec802177250299920e.tar.gz cpython-d5519ed7f4889060363673ec802177250299920e.tar.bz2 |
Issue #19543: Implementation of isclose as per PEP 485
For details, see:
PEP 0485 -- A Function for testing approximate equality
Functions added: math.isclose() and cmath.isclose().
Original code by Chris Barker. Patch by Tal Einat.
Diffstat (limited to 'Lib')
-rw-r--r-- | Lib/test/test_cmath.py | 42 | ||||
-rw-r--r-- | Lib/test/test_math.py | 121 |
2 files changed, 163 insertions, 0 deletions
diff --git a/Lib/test/test_cmath.py b/Lib/test/test_cmath.py index 78ec85a..25ab7c1 100644 --- a/Lib/test/test_cmath.py +++ b/Lib/test/test_cmath.py @@ -1,5 +1,6 @@ from test.support import requires_IEEE_754 from test.test_math import parse_testfile, test_file +import test.test_math as test_math import unittest import cmath, math from cmath import phase, polar, rect, pi @@ -529,5 +530,46 @@ class CMathTests(unittest.TestCase): self.assertComplexIdentical(cmath.atanh(z), z) +class IsCloseTests(test_math.IsCloseTests): + isclose = cmath.isclose + + def test_reject_complex_tolerances(self): + with self.assertRaises(TypeError): + self.isclose(1j, 1j, rel_tol=1j) + + with self.assertRaises(TypeError): + self.isclose(1j, 1j, abs_tol=1j) + + with self.assertRaises(TypeError): + self.isclose(1j, 1j, rel_tol=1j, abs_tol=1j) + + def test_complex_values(self): + # test complex values that are close to within 12 decimal places + complex_examples = [(1.0+1.0j, 1.000000000001+1.0j), + (1.0+1.0j, 1.0+1.000000000001j), + (-1.0+1.0j, -1.000000000001+1.0j), + (1.0-1.0j, 1.0-0.999999999999j), + ] + + self.assertAllClose(complex_examples, rel_tol=1e-12) + self.assertAllNotClose(complex_examples, rel_tol=1e-13) + + def test_complex_near_zero(self): + # test values near zero that are near to within three decimal places + near_zero_examples = [(0.001j, 0), + (0.001, 0), + (0.001+0.001j, 0), + (-0.001+0.001j, 0), + (0.001-0.001j, 0), + (-0.001-0.001j, 0), + ] + + self.assertAllClose(near_zero_examples, abs_tol=1.5e-03) + self.assertAllNotClose(near_zero_examples, abs_tol=0.5e-03) + + self.assertIsClose(0.001-0.001j, 0.001+0.001j, abs_tol=2e-03) + self.assertIsNotClose(0.001-0.001j, 0.001+0.001j, abs_tol=1e-03) + + if __name__ == "__main__": unittest.main() diff --git a/Lib/test/test_math.py b/Lib/test/test_math.py index fcd78d5..6c7b99d 100644 --- a/Lib/test/test_math.py +++ b/Lib/test/test_math.py @@ -1166,10 +1166,131 @@ class MathTests(unittest.TestCase): '\n '.join(failures)) +class IsCloseTests(unittest.TestCase): + isclose = math.isclose # sublcasses should override this + + def assertIsClose(self, a, b, *args, **kwargs): + self.assertTrue(self.isclose(a, b, *args, **kwargs), + msg="%s and %s should be close!" % (a, b)) + + def assertIsNotClose(self, a, b, *args, **kwargs): + self.assertFalse(self.isclose(a, b, *args, **kwargs), + msg="%s and %s should not be close!" % (a, b)) + + def assertAllClose(self, examples, *args, **kwargs): + for a, b in examples: + self.assertIsClose(a, b, *args, **kwargs) + + def assertAllNotClose(self, examples, *args, **kwargs): + for a, b in examples: + self.assertIsNotClose(a, b, *args, **kwargs) + + def test_negative_tolerances(self): + # ValueError should be raised if either tolerance is less than zero + with self.assertRaises(ValueError): + self.assertIsClose(1, 1, rel_tol=-1e-100) + with self.assertRaises(ValueError): + self.assertIsClose(1, 1, rel_tol=1e-100, abs_tol=-1e10) + + def test_identical(self): + # identical values must test as close + identical_examples = [(2.0, 2.0), + (0.1e200, 0.1e200), + (1.123e-300, 1.123e-300), + (12345, 12345.0), + (0.0, -0.0), + (345678, 345678)] + self.assertAllClose(identical_examples, rel_tol=0.0, abs_tol=0.0) + + def test_eight_decimal_places(self): + # examples that are close to 1e-8, but not 1e-9 + eight_decimal_places_examples = [(1e8, 1e8 + 1), + (-1e-8, -1.000000009e-8), + (1.12345678, 1.12345679)] + self.assertAllClose(eight_decimal_places_examples, rel_tol=1e-8) + self.assertAllNotClose(eight_decimal_places_examples, rel_tol=1e-9) + + def test_near_zero(self): + # values close to zero + near_zero_examples = [(1e-9, 0.0), + (-1e-9, 0.0), + (-1e-150, 0.0)] + # these should not be close to any rel_tol + self.assertAllNotClose(near_zero_examples, rel_tol=0.9) + # these should be close to abs_tol=1e-8 + self.assertAllClose(near_zero_examples, abs_tol=1e-8) + + def test_identical_infinite(self): + # these are close regardless of tolerance -- i.e. they are equal + self.assertIsClose(INF, INF) + self.assertIsClose(INF, INF, abs_tol=0.0) + self.assertIsClose(NINF, NINF) + self.assertIsClose(NINF, NINF, abs_tol=0.0) + + def test_inf_ninf_nan(self): + # these should never be close (following IEEE 754 rules for equality) + not_close_examples = [(NAN, NAN), + (NAN, 1e-100), + (1e-100, NAN), + (INF, NAN), + (NAN, INF), + (INF, NINF), + (INF, 1.0), + (1.0, INF), + (INF, 1e308), + (1e308, INF)] + # use largest reasonable tolerance + self.assertAllNotClose(not_close_examples, abs_tol=0.999999999999999) + + def test_zero_tolerance(self): + # test with zero tolerance + zero_tolerance_close_examples = [(1.0, 1.0), + (-3.4, -3.4), + (-1e-300, -1e-300)] + self.assertAllClose(zero_tolerance_close_examples, rel_tol=0.0) + + zero_tolerance_not_close_examples = [(1.0, 1.000000000000001), + (0.99999999999999, 1.0), + (1.0e200, .999999999999999e200)] + self.assertAllNotClose(zero_tolerance_not_close_examples, rel_tol=0.0) + + def test_assymetry(self): + # test the assymetry example from PEP 485 + self.assertAllClose([(9, 10), (10, 9)], rel_tol=0.1) + + def test_integers(self): + # test with integer values + integer_examples = [(100000001, 100000000), + (123456789, 123456788)] + + self.assertAllClose(integer_examples, rel_tol=1e-8) + self.assertAllNotClose(integer_examples, rel_tol=1e-9) + + def test_decimals(self): + # test with Decimal values + from decimal import Decimal + + decimal_examples = [(Decimal('1.00000001'), Decimal('1.0')), + (Decimal('1.00000001e-20'), Decimal('1.0e-20')), + (Decimal('1.00000001e-100'), Decimal('1.0e-100'))] + self.assertAllClose(decimal_examples, rel_tol=1e-8) + self.assertAllNotClose(decimal_examples, rel_tol=1e-9) + + def test_fractions(self): + # test with Fraction values + from fractions import Fraction + + # could use some more examples here! + fraction_examples = [(Fraction(1, 100000000) + 1, Fraction(1))] + self.assertAllClose(fraction_examples, rel_tol=1e-8) + self.assertAllNotClose(fraction_examples, rel_tol=1e-9) + + def test_main(): from doctest import DocFileSuite suite = unittest.TestSuite() suite.addTest(unittest.makeSuite(MathTests)) + suite.addTest(unittest.makeSuite(IsCloseTests)) suite.addTest(DocFileSuite("ieee754.txt")) run_unittest(suite) |