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): self.assertEqual( nformat(1234, ".", grouping=3, thousand_sep=",", use_l10n=False), "1234" ) 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"), (0.00000000000099, 0, "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. (3.0, 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")