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from decimal import Decimal
from sys import float_info
from django.test import SimpleTestCase
from django.utils.numberformat import format as nformat
class TestNumberFormat(SimpleTestCase):
def test_format_number(self):
self.assertEqual(nformat(1234, '.'), '1234')
self.assertEqual(nformat(1234.2, '.'), '1234.2')
self.assertEqual(nformat(1234, '.', decimal_pos=2), '1234.00')
self.assertEqual(nformat(1234, '.', grouping=2, thousand_sep=','), '1234')
self.assertEqual(nformat(1234, '.', grouping=2, thousand_sep=',', force_grouping=True), '12,34')
self.assertEqual(nformat(-1234.33, '.', decimal_pos=1), '-1234.3')
# The use_l10n parameter can force thousand grouping behavior.
with self.settings(USE_THOUSAND_SEPARATOR=True, USE_L10N=True):
self.assertEqual(nformat(1234, '.', grouping=3, thousand_sep=',', use_l10n=False), '1234')
with self.settings(USE_THOUSAND_SEPARATOR=True, USE_L10N=False):
self.assertEqual(nformat(1234, '.', grouping=3, thousand_sep=',', use_l10n=True), '1,234')
def test_format_string(self):
self.assertEqual(nformat('1234', '.'), '1234')
self.assertEqual(nformat('1234.2', '.'), '1234.2')
self.assertEqual(nformat('1234', '.', decimal_pos=2), '1234.00')
self.assertEqual(nformat('1234', '.', grouping=2, thousand_sep=','), '1234')
self.assertEqual(nformat('1234', '.', grouping=2, thousand_sep=',', force_grouping=True), '12,34')
self.assertEqual(nformat('-1234.33', '.', decimal_pos=1), '-1234.3')
self.assertEqual(nformat('10000', '.', grouping=3, thousand_sep='comma', force_grouping=True), '10comma000')
def test_large_number(self):
most_max = (
'{}179769313486231570814527423731704356798070567525844996'
'598917476803157260780028538760589558632766878171540458953'
'514382464234321326889464182768467546703537516986049910576'
'551282076245490090389328944075868508455133942304583236903'
'222948165808559332123348274797826204144723168738177180919'
'29988125040402618412485836{}'
)
most_max2 = (
'{}35953862697246314162905484746340871359614113505168999'
'31978349536063145215600570775211791172655337563430809179'
'07028764928468642653778928365536935093407075033972099821'
'15310256415249098018077865788815173701691026788460916647'
'38064458963316171186642466965495956524082894463374763543'
'61838599762500808052368249716736'
)
int_max = int(float_info.max)
self.assertEqual(nformat(int_max, '.'), most_max.format('', '8'))
self.assertEqual(nformat(int_max + 1, '.'), most_max.format('', '9'))
self.assertEqual(nformat(int_max * 2, '.'), most_max2.format(''))
self.assertEqual(nformat(0 - int_max, '.'), most_max.format('-', '8'))
self.assertEqual(nformat(-1 - int_max, '.'), most_max.format('-', '9'))
self.assertEqual(nformat(-2 * int_max, '.'), most_max2.format('-'))
def test_float_numbers(self):
tests = [
(9e-10, 10, '0.0000000009'),
(9e-19, 2, '0.00'),
(.00000000000099, 0, '0'),
(.00000000000099, 13, '0.0000000000009'),
(1e16, None, '10000000000000000'),
(1e16, 2, '10000000000000000.00'),
# A float without a fractional part (3.) results in a ".0" when no
# decimal_pos is given. Contrast that with the Decimal('3.') case
# in test_decimal_numbers which doesn't return a fractional part.
(3., None, '3.0'),
]
for value, decimal_pos, expected_value in tests:
with self.subTest(value=value, decimal_pos=decimal_pos):
self.assertEqual(nformat(value, '.', decimal_pos), expected_value)
# Thousand grouping behavior.
self.assertEqual(
nformat(1e16, '.', thousand_sep=',', grouping=3, force_grouping=True),
'10,000,000,000,000,000',
)
self.assertEqual(
nformat(1e16, '.', decimal_pos=2, thousand_sep=',', grouping=3, force_grouping=True),
'10,000,000,000,000,000.00',
)
def test_decimal_numbers(self):
self.assertEqual(nformat(Decimal('1234'), '.'), '1234')
self.assertEqual(nformat(Decimal('1234.2'), '.'), '1234.2')
self.assertEqual(nformat(Decimal('1234'), '.', decimal_pos=2), '1234.00')
self.assertEqual(nformat(Decimal('1234'), '.', grouping=2, thousand_sep=','), '1234')
self.assertEqual(nformat(Decimal('1234'), '.', grouping=2, thousand_sep=',', force_grouping=True), '12,34')
self.assertEqual(nformat(Decimal('-1234.33'), '.', decimal_pos=1), '-1234.3')
self.assertEqual(nformat(Decimal('0.00000001'), '.', decimal_pos=8), '0.00000001')
self.assertEqual(nformat(Decimal('9e-19'), '.', decimal_pos=2), '0.00')
self.assertEqual(nformat(Decimal('.00000000000099'), '.', decimal_pos=0), '0')
self.assertEqual(
nformat(Decimal('1e16'), '.', thousand_sep=',', grouping=3, force_grouping=True),
'10,000,000,000,000,000'
)
self.assertEqual(
nformat(Decimal('1e16'), '.', decimal_pos=2, thousand_sep=',', grouping=3, force_grouping=True),
'10,000,000,000,000,000.00'
)
self.assertEqual(nformat(Decimal('3.'), '.'), '3')
self.assertEqual(nformat(Decimal('3.0'), '.'), '3.0')
# Very large & small numbers.
tests = [
('9e9999', None, '9e+9999'),
('9e9999', 3, '9.000e+9999'),
('9e201', None, '9e+201'),
('9e200', None, '9e+200'),
('1.2345e999', 2, '1.23e+999'),
('9e-999', None, '9e-999'),
('1e-7', 8, '0.00000010'),
('1e-8', 8, '0.00000001'),
('1e-9', 8, '0.00000000'),
('1e-10', 8, '0.00000000'),
('1e-11', 8, '0.00000000'),
('1' + ('0' * 300), 3, '1.000e+300'),
('0.{}1234'.format('0' * 299), 3, '0.000'),
]
for value, decimal_pos, expected_value in tests:
with self.subTest(value=value):
self.assertEqual(nformat(Decimal(value), '.', decimal_pos), expected_value)
def test_decimal_subclass(self):
class EuroDecimal(Decimal):
"""
Wrapper for Decimal which prefixes each amount with the € symbol.
"""
def __format__(self, specifier, **kwargs):
amount = super().__format__(specifier, **kwargs)
return '€ {}'.format(amount)
price = EuroDecimal('1.23')
self.assertEqual(nformat(price, ','), '€ 1,23')
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