sequences. As a rule of thumb, a .ratio() value over 0.6 means the
sequences are close matches:
- >>> print(round(s.ratio(), 3))
- 0.866
+ >>> print(round(s.ratio(), 2))
+ 0.87
>>>
If you're only interested in where the sequences match,
def load_tests(loader, tests, pattern):
from doctest import DocTestSuite
- tests.addTest(DocTestSuite(builtins))
+ if sys.float_repr_style == 'short':
+ tests.addTest(DocTestSuite(builtins))
return tests
if __name__ == "__main__":
def test_defaults_keyword(self):
"""bpo-23835 fix for ConfigParser"""
- cf = self.newconfig(defaults={1: 2.4})
- self.assertEqual(cf[self.default_section]['1'], '2.4')
- self.assertAlmostEqual(cf[self.default_section].getfloat('1'), 2.4)
- cf = self.newconfig(defaults={"A": 5.2})
- self.assertEqual(cf[self.default_section]['a'], '5.2')
- self.assertAlmostEqual(cf[self.default_section].getfloat('a'), 5.2)
+ cf = self.newconfig(defaults={1: 2.5})
+ self.assertEqual(cf[self.default_section]['1'], '2.5')
+ self.assertAlmostEqual(cf[self.default_section].getfloat('1'), 2.5)
+ cf = self.newconfig(defaults={"A": 5.25})
+ self.assertEqual(cf[self.default_section]['a'], '5.25')
+ self.assertAlmostEqual(cf[self.default_section].getfloat('a'), 5.25)
class ConfigParserTestCaseNoInterpolation(BasicTestCase, unittest.TestCase):
+import sys
import unittest
import test.support
from ctypes import (CDLL, PyDLL, ArgumentError,
self.assertRegex(repr(c_ulonglong.from_param(20000)), r"^<cparam '[LIQ]' \(20000\)>$")
self.assertEqual(repr(c_float.from_param(1.5)), "<cparam 'f' (1.5)>")
self.assertEqual(repr(c_double.from_param(1.5)), "<cparam 'd' (1.5)>")
- self.assertEqual(repr(c_double.from_param(1e300)), "<cparam 'd' (1e+300)>")
+ if sys.float_repr_style == 'short':
+ self.assertEqual(repr(c_double.from_param(1e300)), "<cparam 'd' (1e+300)>")
self.assertRegex(repr(c_longdouble.from_param(1.5)), r"^<cparam ('d' \(1.5\)|'g' at 0x[A-Fa-f0-9]+)>$")
self.assertRegex(repr(c_char_p.from_param(b'hihi')), r"^<cparam 'z' \(0x[A-Fa-f0-9]+\)>$")
self.assertRegex(repr(c_wchar_p.from_param('hihi')), r"^<cparam 'Z' \(0x[A-Fa-f0-9]+\)>$")
optionflags=doctest.ELLIPSIS|doctest.NORMALIZE_WHITESPACE,
))
howto_tests = os.path.join(REPO_ROOT, 'Doc/howto/enum.rst')
- if os.path.exists(howto_tests):
+ if os.path.exists(howto_tests) and sys.float_repr_style == 'short':
tests.addTests(doctest.DocFileSuite(
howto_tests,
module_relative=False,
self.assertRaises(ValueError, format, x, '.6,n')
@support.requires_IEEE_754
+ @unittest.skipUnless(sys.float_repr_style == 'short',
+ "applies only when using short float repr style")
def test_format_testfile(self):
with open(format_testfile, encoding="utf-8") as testfile:
for line in testfile:
testcommon(b"%s", memoryview(b"abc"), b"abc")
# %a will give the equivalent of
# repr(some_obj).encode('ascii', 'backslashreplace')
- testcommon(b"%a", 3.14, b"3.14")
+ testcommon(b"%a", 3.25, b"3.25")
testcommon(b"%a", b"ghi", b"b'ghi'")
testcommon(b"%a", "jkl", b"'jkl'")
testcommon(b"%a", "\u0544", b"'\\u0544'")
# %r is an alias for %a
- testcommon(b"%r", 3.14, b"3.14")
+ testcommon(b"%r", 3.25, b"3.25")
testcommon(b"%r", b"ghi", b"b'ghi'")
testcommon(b"%r", "jkl", b"'jkl'")
testcommon(b"%r", "\u0544", b"'\\u0544'")
self.assertEqual(format("abc", "\u2007<5"), "abc\u2007\u2007")
self.assertEqual(format(123, "\u2007<5"), "123\u2007\u2007")
- self.assertEqual(format(12.3, "\u2007<6"), "12.3\u2007\u2007")
+ self.assertEqual(format(12.5, "\u2007<6"), "12.5\u2007\u2007")
self.assertEqual(format(0j, "\u2007<4"), "0j\u2007\u2007")
self.assertEqual(format(1+2j, "\u2007<8"), "(1+2j)\u2007\u2007")
self.assertEqual(format("abc", "\u2007>5"), "\u2007\u2007abc")
self.assertEqual(format(123, "\u2007>5"), "\u2007\u2007123")
- self.assertEqual(format(12.3, "\u2007>6"), "\u2007\u200712.3")
+ self.assertEqual(format(12.5, "\u2007>6"), "\u2007\u200712.5")
self.assertEqual(format(1+2j, "\u2007>8"), "\u2007\u2007(1+2j)")
self.assertEqual(format(0j, "\u2007>4"), "\u2007\u20070j")
self.assertEqual(format("abc", "\u2007^5"), "\u2007abc\u2007")
self.assertEqual(format(123, "\u2007^5"), "\u2007123\u2007")
- self.assertEqual(format(12.3, "\u2007^6"), "\u200712.3\u2007")
+ self.assertEqual(format(12.5, "\u2007^6"), "\u200712.5\u2007")
self.assertEqual(format(1+2j, "\u2007^8"), "\u2007(1+2j)\u2007")
self.assertEqual(format(0j, "\u2007^4"), "\u20070j\u2007")
def test_conversions(self):
self.assertEqual(f'{3.14:10.10}', ' 3.14')
- self.assertEqual(f'{3.14!s:10.10}', '3.14 ')
- self.assertEqual(f'{3.14!r:10.10}', '3.14 ')
- self.assertEqual(f'{3.14!a:10.10}', '3.14 ')
+ self.assertEqual(f'{1.25!s:10.10}', '1.25 ')
+ self.assertEqual(f'{1.25!r:10.10}', '1.25 ')
+ self.assertEqual(f'{1.25!a:10.10}', '1.25 ')
self.assertEqual(f'{"a"}', 'a')
self.assertEqual(f'{"a"!r}', "'a'")
# Conversions can have trailing whitespace after them since it
# does not provide any significance
self.assertEqual(f"{3!s }", "3")
- self.assertEqual(f'{3.14!s :10.10}', '3.14 ')
+ self.assertEqual(f'{1.25!s :10.10}', '1.25 ')
# Not a conversion.
self.assertEqual(f'{"a!r"}', "a!r")
(r'" \"foo\" "', f'{t.string}" \\"foo\\" "{t.reset}'),
('"α"', f'{t.string}"\\u03b1"{t.reset}'),
('123', f'{t.number}123{t.reset}'),
- ('-1.2345e+23', f'{t.number}-1.2345e+23{t.reset}'),
+ ('-1.25e+23', f'{t.number}-1.25e+23{t.reset}'),
(r'{"\\": ""}',
f'''\
{ob}
self.parser.add_option(
"-p", "--prob",
help="blow up with probability PROB [default: %default]")
- self.parser.set_defaults(prob=0.43)
+ self.parser.set_defaults(prob=0.25)
expected_help = self.help_prefix + \
- " -p PROB, --prob=PROB blow up with probability PROB [default: 0.43]\n"
+ " -p PROB, --prob=PROB blow up with probability PROB [default: 0.25]\n"
self.assertHelp(self.parser, expected_help)
def test_alt_expand(self):
self.assertEqual(format('x = %d!', 1234), 'x = 1234!')
self.assertEqual(format('x = %x!', 1234), 'x = 4d2!')
self.assertEqual(format('x = %f!', 1234), 'x = 1234.000000!')
- self.assertEqual(format('x = %s!', 1234.5678901), 'x = 1234.5678901!')
- self.assertEqual(format('x = %f!', 1234.5678901), 'x = 1234.567890!')
- self.assertEqual(format('x = %d!', 1234.5678901), 'x = 1234!')
+ self.assertEqual(format('x = %s!', 1234.0000625), 'x = 1234.0000625!')
+ self.assertEqual(format('x = %f!', 1234.0000625), 'x = 1234.000063!')
+ self.assertEqual(format('x = %d!', 1234.0000625), 'x = 1234!')
self.assertEqual(format('x = %s%% %%%%', 1234), 'x = 1234% %%')
self.assertEqual(format('x = %s!', '%% %s'), 'x = %% %s!')
self.assertEqual(format('x = %s, y = %d', 12, 34), 'x = 12, y = 34')
return super().__new__(Temperature, celsius_degrees)
def __repr__(self):
kelvin_degrees = self + 273.15
- return f"{kelvin_degrees}°K"
+ return f"{kelvin_degrees:.2f}°K"
self.assertEqual(pprint.pformat(Temperature(1000)), '1273.15°K')
def test_sorted_dict(self):
'object': {
1: 'two',
b'three': [
- (4.5, 6.7),
+ (4.5, 6.25),
[set((8, 9)), frozenset((10, 11))],
],
},
'tests': (
(dict(indent=None), '''\
- {1: 'two', b'three': [(4.5, 6.7), [{8, 9}, frozenset({10, 11})]]}'''),
+ {1: 'two', b'three': [(4.5, 6.25), [{8, 9}, frozenset({10, 11})]]}'''),
(dict(indent=False), '''\
{
1: 'two',
b'three': [
(
4.5,
- 6.7,
+ 6.25,
),
[
{
b'three': [
(
4.5,
- 6.7,
+ 6.25,
),
[
{
b'three': [
(
4.5,
- 6.7,
+ 6.25,
),
[
{
b'three': [
(
4.5,
- 6.7,
+ 6.25,
),
[
{
b'three': [
(
4.5,
- 6.7,
+ 6.25,
),
[
{
b'three': [
(
4.5,
- 6.7,
+ 6.25,
),
[
{
-->b'three': [
-->-->(
-->-->-->4.5,
- -->-->-->6.7,
+ -->-->-->6.25,
-->-->),
-->-->[
-->-->-->{
....b'three': [
........(
............4.5,
- ............6.7,
+ ............6.25,
........),
........[
............{
def load_tests(loader, tests, ignore):
"""Used for doctest/unittest integration."""
tests.addTests(doctest.DocTestSuite())
- tests.addTests(doctest.DocTestSuite(statistics))
+ if sys.float_repr_style == 'short':
+ tests.addTests(doctest.DocTestSuite(statistics))
return tests
self.assertEqual('{0:\x00^6}'.format(3), '\x00\x003\x00\x00\x00')
self.assertEqual('{0:<6}'.format(3), '3 ')
- self.assertEqual('{0:\x00<6}'.format(3.14), '3.14\x00\x00')
- self.assertEqual('{0:\x01<6}'.format(3.14), '3.14\x01\x01')
- self.assertEqual('{0:\x00^6}'.format(3.14), '\x003.14\x00')
- self.assertEqual('{0:^6}'.format(3.14), ' 3.14 ')
+ self.assertEqual('{0:\x00<6}'.format(3.25), '3.25\x00\x00')
+ self.assertEqual('{0:\x01<6}'.format(3.25), '3.25\x01\x01')
+ self.assertEqual('{0:\x00^6}'.format(3.25), '\x003.25\x00')
+ self.assertEqual('{0:^6}'.format(3.25), ' 3.25 ')
self.assertEqual('{0:\x00<12}'.format(3+2.0j), '(3+2j)\x00\x00\x00\x00\x00\x00')
self.assertEqual('{0:\x01<12}'.format(3+2.0j), '(3+2j)\x01\x01\x01\x01\x01\x01')
# and a number after the decimal. This is tricky, because
# a totally empty format specifier means something else.
# So, just use a sign flag
- test(1e200, '+g', '+1e+200')
- test(1e200, '+', '+1e+200')
+ test(1.25e200, '+g', '+1.25e+200')
+ test(1.25e200, '+', '+1.25e+200')
test(1.1e200, '+g', '+1.1e+200')
test(1.1e200, '+', '+1.1e+200')
projects / thirdparty / Python / cpython.git / commitdiff
