def test__currency__init__defaults():
"""Confirms defaults of __init__."""
test_currency = currency.Currency({})
assert test_currency.international is False
assert isinstance(test_currency.locale, str)
assert isinstance(test_currency.conventions, dict)
def test__currency__assign_currency_conventions__str():
"""Confirms value when string currency_locale provided."""
test_currency = currency.Currency('en_us')
conventions = test_currency._assign_currency_conventions('en_us')
assert test_currency.locale == 'en_us'
assert conventions == currency.CURRENCY['en_us']
def test__currency__format_currency__output__symbol_precedes_positive_value():
"""Tests currency symbol is applied preceding a positive value."""
# Setup custom conventions for testing
conventions = {'currency_symbol': '$', 'p_cs_precedes': True}
test_currency = currency.Currency(conventions)
assert test_currency.format_currency('1.00') == '$1.00'
def test__currency__format_currency___output__symbol_follows_negative_value():
"""Tests currency symbol is applied following a negative value."""
# Setup custom conventions for testing
conventions = {'currency_symbol': '$', 'n_cs_precedes': False}
test_currency = currency.Currency(conventions)
assert test_currency.format_currency('-1.00') == '1.00$'
def test__currency__group_whole_num__one_grouping():
"""Confirms output with a grouping of 1."""
conventions = {'mon_grouping': 1, 'mon_thousands_sep': '*'}
test_currency = currency.Currency(conventions)
grouped_whole = test_currency._group_whole_num('123456')
assert grouped_whole == '1*2*3*4*5*6'
def test__currency__group_whole_num__zero_grouping():
"""Confirms output with a zero grouping."""
conventions = {'mon_grouping': 0, 'mon_thousands_sep': '*'}
test_currency = currency.Currency(conventions)
grouped_whole = test_currency._group_whole_num('123456')
assert grouped_whole == '123456'
def test__currency__format_currency__output__symbol_international():
"""Tests that international currency symbol works properly."""
# Setup custom conventions for testing
conventions = {'int_curr_symbol': 'ABC'}
test_currency = currency.Currency(conventions)
assert test_currency.format_currency('1.00',
international=True) == 'ABC1.00'
def test__currency__format_value__fractional_without_frac_digits():
"""Tests formatting with a whole number and no frac_digits."""
conventions = {'frac_digits': 0, 'mon_decimal_point': '*'}
test_currency = currency.Currency(conventions)
test_currency.international = False
formatted_value = test_currency._format_value('1', '2')
assert formatted_value == '12'
def test__currency__determine_frac_digits__international():
"""Confirms expected international value is returned."""
conventions = {'frac_digits': 1, 'int_frac_digits': 2}
test_currency = currency.Currency(conventions)
test_currency.international = True
frac_digits = test_currency._determine_frac_digits()
assert frac_digits == 2
def test__currency__split_value__frac_digits_whole_number():
"""Confirms output for no frac_digits and whole number provided."""
conventions = {'frac_digits': 1}
test_currency = currency.Currency(conventions)
test_currency.international = False
whole, frac = test_currency._split_value(Decimal('4'))
assert whole == '4'
assert frac == '0'
def test__currency__group_whole_num__three_grouping():
"""Confirms output with a grouping of 1."""
conventions = {'mon_grouping': 3, 'mon_thousands_sep': '*'}
test_currency = currency.Currency(conventions)
assert test_currency._group_whole_num('12') == '12'
assert test_currency._group_whole_num('123') == '123'
assert test_currency._group_whole_num('1234') == '1*234'
assert test_currency._group_whole_num('12345') == '12*345'
assert test_currency._group_whole_num('123456') == '123*456'
def test__currency__split_value__frac_digits_with_frac_round_up():
"""Confirms output for frac_digits and decimal provided."""
conventions = {'frac_digits': 1}
test_currency = currency.Currency(conventions)
test_currency.international = False
whole, frac = test_currency._split_value(Decimal('4.36'))
assert whole == '4'
assert frac == '4'
def test__currency__format_currency__output__grouping_separator():
"""Tests that the grouping separator is properly applied."""
# Setup custom conventions for testing
conventions = {
'mon_grouping': 3,
'mon_thousands_sep': '*',
}
test_currency = currency.Currency(conventions)
assert test_currency.format_currency('1000000.00') == '1*000*000.00'
def test__currency__format_currency__output__non_decimal_handling():
"""Tests that using a non-decimal currency will give correct result."""
# Setup custom conventions for testing
conventions = {'frac_digits': 0}
test_currency = currency.Currency(conventions)
assert test_currency.format_currency(10) == '10'
assert test_currency.format_currency('10') == '10'
assert test_currency.format_currency('-100') == '100'
assert test_currency.format_currency(-100) == '100'
def test__currency__format_currency__output__rounding_decimal():
"""Tests that rounding works as expected with decimal values."""
test_currency = currency.Currency({})
assert test_currency.format_currency(Decimal('0.506')) == '0.51'
assert test_currency.format_currency(Decimal('0.505')) == '0.51'
assert test_currency.format_currency(Decimal('0.5049')) == '0.50'
assert test_currency.format_currency(Decimal('0.005')) == '0.01'
assert test_currency.format_currency(Decimal('0.0049')) == '0.00'
assert test_currency.format_currency(Decimal('-0.0049')) == '0.00'
assert test_currency.format_currency(Decimal('-0.005')) == '0.01'
def test__currency__assign_currency_conventions__dict():
"""Tests handling when dictionary is provided as currency_locale."""
conventions = {
'currency_symbol': 1,
'int_curr_symbol': 2,
'p_cs_precedes': 3,
'n_cs_precedes': 4,
'p_sep_by_space': 5,
'n_sep_by_space': 6,
'mon_decimal_point': 7,
'mon_thousands_sep': 8,
'mon_grouping': 9,
'frac_digits': 10,
'int_frac_digits': 11,
'positive_sign': 12,
'negative_sign': 13,
'p_sign_posn': 14,
'n_sign_posn': 15,
}
test_currency = currency.Currency(conventions)
output_conventions = test_currency._assign_currency_conventions(
conventions)
assert test_currency.locale == 'custom'
assert 'currency_symbol' in output_conventions
assert 'int_curr_symbol' in output_conventions
assert 'p_cs_precedes' in output_conventions
assert 'n_cs_precedes' in output_conventions
assert 'p_sep_by_space' in output_conventions
assert 'n_sep_by_space' in output_conventions
assert 'mon_decimal_point' in output_conventions
assert 'mon_thousands_sep' in output_conventions
assert 'mon_grouping' in output_conventions
assert 'frac_digits' in output_conventions
assert 'int_frac_digits' in output_conventions
assert 'positive_sign' in output_conventions
assert 'negative_sign' in output_conventions
assert 'p_sign_posn' in output_conventions
assert 'n_sign_posn' in output_conventions
assert output_conventions['currency_symbol'] == 1
assert output_conventions['int_curr_symbol'] == 2
assert output_conventions['p_cs_precedes'] == 3
assert output_conventions['n_cs_precedes'] == 4
assert output_conventions['p_sep_by_space'] == 5
assert output_conventions['n_sep_by_space'] == 6
assert output_conventions['mon_decimal_point'] == 7
assert output_conventions['mon_thousands_sep'] == 8
assert output_conventions['mon_grouping'] == 9
assert output_conventions['frac_digits'] == 10
assert output_conventions['int_frac_digits'] == 11
assert output_conventions['positive_sign'] == 12
assert output_conventions['negative_sign'] == 13
assert output_conventions['p_sign_posn'] == 14
assert output_conventions['n_sign_posn'] == 15
def test__currency__format_currency__output__frac_digit_rounding():
"""Tests that digits are rounded as expected when truncated."""
# Setup custom conventions for testing
conventions = {'frac_digits': 0}
test_currency = currency.Currency(conventions)
assert test_currency.format_currency('0.6') == '1'
assert test_currency.format_currency('0.5') == '1'
assert test_currency.format_currency('0.49') == '0'
assert test_currency.format_currency('-0.49') == '0'
assert test_currency.format_currency('-1.005') == '1'
assert test_currency.format_currency('-1.5') == '2'
def test__currency__format_currency__output__sign_position_2_negative_preceding_cs(
):
"""Tests sign position 2, negative value, and preceding symbol."""
# Setup custom conventions for testing
conventions = {
'currency_symbol': '$',
'negative_sign': '-',
'n_sign_posn': 2,
}
test_currency = currency.Currency(conventions)
assert test_currency.format_currency('-1.00') == '$1.00-'
def test__currency__format_currency__output__symbol_follows_with_space_negative(
):
"""Tests currency symbol is applied following negative value with space."""
# Setup custom conventions for testing
conventions = {
'currency_symbol': '$',
'n_cs_precedes': False,
'n_sep_by_space': True,
}
test_currency = currency.Currency(conventions)
assert test_currency.format_currency('-1.00') == '1.00 $'
def test__currency__format_currency__output__sign_position_1_positive_preceding_cs(
):
"""Tests sign position 1, positive value, and preceding symbol."""
# Setup custom conventions for testing
conventions = {
'currency_symbol': '$',
'positive_sign': '+',
'p_sign_posn': 1,
}
test_currency = currency.Currency(conventions)
assert test_currency.format_currency('1.00') == '+$1.00'
def test__currency__format_currency__output__sign_position_2_positive_following_cs(
):
"""Tests sign position 2, positive value, and following symbol."""
# Setup custom conventions for testing
conventions = {
'currency_symbol': '$',
'p_cs_precedes': False,
'positive_sign': '+',
'p_sign_posn': 2,
}
test_currency = currency.Currency(conventions)
assert test_currency.format_currency('1.00') == '1.00$+'
def test__currency__format_currency__output__sign_position_1_negative_following_cs(
):
"""Tests sign position 1, negative value, and following symbol."""
# Setup custom conventions for testing
conventions = {
'currency_symbol': '$',
'n_cs_precedes': False,
'negative_sign': '-',
'n_sign_posn': 1,
}
test_currency = currency.Currency(conventions)
assert test_currency.format_currency('-1.00') == '-1.00$'
def test__currency__format_currency__output__grouping_by_1():
"""Tests that grouping works properly for groups of 1."""
# Setup custom conventions for testing
conventions = {
'mon_grouping': 1,
'mon_thousands_sep': ',',
}
test_currency = currency.Currency(conventions)
assert test_currency.format_currency('1.00') == '1.00'
assert test_currency.format_currency('10.00') == '1,0.00'
assert test_currency.format_currency('100.00') == '1,0,0.00'
assert test_currency.format_currency('1000.00') == '1,0,0,0.00'
def test__currency__add_symbols__precedes__position_4():
"""Tests currency symbol precedes and sign position 4."""
conventions = {
'currency_symbol': '!',
'p_cs_precedes': True,
'p_sep_by_space': True,
'positive_sign': '@',
'p_sign_posn': 4,
}
test_currency = currency.Currency(conventions)
test_currency.international = False
formatted_currency = test_currency.add_symbols('1.1', False)
assert formatted_currency == '! 1.1@'
def test__currency__add_symbols__follows__position_other():
"""Tests currency symbol follows & fallback sign position."""
conventions = {
'currency_symbol': '!',
'p_cs_precedes': False,
'p_sep_by_space': True,
'positive_sign': '@',
'p_sign_posn': 5,
}
test_currency = currency.Currency(conventions)
test_currency.international = False
formatted_currency = test_currency.add_symbols('1.1', False)
assert formatted_currency == '@1.1 !'
def test__currency__determine_symbol_details__negative_not_sep_by_space():
"""Confirms proper output when n_sep_by_space is false."""
conventions = {
'currency_symbol': 1,
'int_curr_symbol': 2,
'p_cs_precedes': 3,
'n_cs_precedes': 4,
'p_sep_by_space': False,
'n_sep_by_space': False,
'positive_sign': 7,
'negative_sign': 8,
'p_sign_posn': 9,
'n_sign_posn': 10,
}
test_currency = currency.Currency(conventions)
test_currency.international = False
details = test_currency._determine_symbol_details(True)
assert details['separated'] == ''
def test__currency__assign_currency_conventions__dict_defaults():
"""Confirms default values when dictionary provided."""
test_currency = currency.Currency({})
conventions = test_currency._assign_currency_conventions({})
assert conventions['currency_symbol'] == ''
assert conventions['int_curr_symbol'] == ''
assert conventions['p_cs_precedes'] is True
assert conventions['n_cs_precedes'] is True
assert conventions['p_sep_by_space'] is False
assert conventions['n_sep_by_space'] is False
assert conventions['mon_decimal_point'] == '.'
assert conventions['mon_thousands_sep'] == ''
assert conventions['mon_grouping'] == 3
assert conventions['frac_digits'] == 2
assert conventions['int_frac_digits'] == 2
assert conventions['positive_sign'] == ''
assert conventions['negative_sign'] == ''
assert conventions['p_sign_posn'] == ''
assert conventions['n_sign_posn'] == ''
def test__currency__determine_symbol_details__international_negative():
"""Confirms output for locale negative value."""
conventions = {
'currency_symbol': 1,
'int_curr_symbol': 2,
'p_cs_precedes': 3,
'n_cs_precedes': 4,
'p_sep_by_space': True,
'n_sep_by_space': True,
'positive_sign': 5,
'negative_sign': 6,
'p_sign_posn': 7,
'n_sign_posn': 8,
}
test_currency = currency.Currency(conventions)
test_currency.international = True
details = test_currency._determine_symbol_details(True)
assert details['symbol'] == 2
assert details['precedes'] == 4
assert details['separated'] == ' '
assert details['sign'] == 6
assert details['sign_position'] == 8
