import pytest
import copy
import finoex
@pytest.mark.parametrize(('params', 'kwargs', 'expected_value', 'expected_unit'), [
[[1.0, u'dm'], {}, 1.0, u'dm'],
[[-4.0], {'unit': u'cm'}, -4.0, u'cm'],
[[], {'value': 2.3, 'unit': u'cm'}, 2.3, u'cm'],
])
def test_init(params, kwargs, expected_value, expected_unit):
f = finoex.Distance(*params, **kwargs)
assert type(f.value) == type(expected_value)
assert type(f.unit) == type(expected_unit)
assert f.value == expected_value
assert f.unit == expected_unit
@pytest.mark.parametrize(('params', 'kwargs'), [
[[], {}],
[[None], {}],
[[None, u'kg'], {}],
[[1, 'cm'], {}],
[[], {'unit': u'cm'}],
[[1], {'unit': 'cm'}],
[[1, u'cm'], {}],
[[1], {'unit': u'cm'}],
[[(-1, 3), u'cm'], {}],
[[], {'value': (3, -1), 'unit': u'cm'}],
[[1.2], {'value': 2.3, 'unit': u'cm'}],
])
def test_init_fail(params, kwargs):
with pytest.raises(Exception):
finoex.Distance(*params, **kwargs)
@pytest.mark.parametrize(('factor_a', 'factor_b', 'product'), [
[finoex.Distance(5.0, u'cm'), -0.5, finoex.Distance(-2.5, u'cm')],
[finoex.Distance(1.0, u'kg'), 10, finoex.Distance(10.0, u'kg')],
])
def test_scalar_figure_mul(factor_a, factor_b, product):
factor_a_copy = copy.deepcopy(factor_a)
factor_b_copy = copy.deepcopy(factor_b)
assert (factor_a * factor_b) == product
assert factor_a_copy == factor_a
assert factor_b_copy == factor_b
@pytest.mark.parametrize(('factor_a', 'factor_b'), [
[finoex.Distance(5.0, u'cm'), finoex.Distance(2.0, u'cm')],
[finoex.Distance(5.0, u'cm'), '23'],
])
def test_figure_mul_fail(factor_a, factor_b):
with pytest.raises(Exception):
(factor_a * factor_b)
@pytest.mark.parametrize(('dist', 'expected_metres'), [
[finoex.Distance(12.3, 'm'), 12.3],
[finoex.Distance(12.3, 'km'), 12300],
])
def test_metres(dist, expected_metres):
metres = dist.metres
assert 'm' == metres.unit
assert expected_metres == metres.value