def test_incorrect_spacing(self): fl = ScalarFormatterLocator(unit=u.m) fl.spacing = 0.032 * u.m with pytest.warns(UserWarning, match=r'Spacing is not a multiple of base spacing'): fl.format = 'x.xx' assert_almost_equal(fl.spacing.to_value(u.m), 0.03)
def test_values(self): fl = ScalarFormatterLocator(values=[0.1, 1., 14.] * u.m, unit=u.m) assert fl.values.value.tolist() == [0.1, 1., 14.] assert fl.number is None assert fl.spacing is None values, spacing = fl.locator(34.3, 55.4) assert_almost_equal(values.value, [0.1, 1., 14.])
def test_number(self): fl = ScalarFormatterLocator(number=7, unit=u.m) assert fl.values is None assert fl.number == 7 assert fl.spacing is None values, spacing = fl.locator(34.3, 55.4) assert_almost_equal(values.value, np.linspace(36., 54., 10)) values, spacing = fl.locator(34.3, 36.1) assert_almost_equal(values.value, np.linspace(34.4, 36, 9)) fl.format = 'x' values, spacing = fl.locator(34.3, 36.1) assert_almost_equal(values.value, [35., 36.])
def test_too_many_options(self): with pytest.raises(ValueError) as exc: ScalarFormatterLocator(values=[1., 2.] * u.m, number=5) assert exc.value.args[0] == "At most one of values/number/spacing can be specifed" with pytest.raises(ValueError) as exc: ScalarFormatterLocator(values=[1., 2.] * u.m, spacing=5. * u.m) assert exc.value.args[0] == "At most one of values/number/spacing can be specifed" with pytest.raises(ValueError) as exc: ScalarFormatterLocator(number=5, spacing=5. * u.m) assert exc.value.args[0] == "At most one of values/number/spacing can be specifed" with pytest.raises(ValueError) as exc: ScalarFormatterLocator(values=[1., 2.] * u.m, number=5, spacing=5. * u.m) assert exc.value.args[0] == "At most one of values/number/spacing can be specifed"
def test_values_unit(self): # Make sure that the intrinsic unit and format unit are correctly # taken into account when using the locator fl = ScalarFormatterLocator(unit=u.cm, format_unit=u.m) assert_quantity_allclose(fl.locator(850, 2150)[0], [1000., 1200., 1400., 1600., 1800., 2000.] * u.cm) fl = ScalarFormatterLocator(unit=u.cm, format_unit=u.m) fl.format = 'x.x' assert_quantity_allclose(fl.locator(1, 19)[0], [10] * u.cm)
def test_spacing(self): fl = ScalarFormatterLocator(spacing=3. * u.m) assert fl.values is None assert fl.number is None assert fl.spacing == 3. * u.m values, spacing = fl.locator(34.3, 55.4) assert_almost_equal(values.value, [36., 39., 42., 45., 48., 51., 54.]) fl.spacing = 0.5 * u.m values, spacing = fl.locator(34.3, 36.1) assert_almost_equal(values.value, [34.5, 35., 35.5, 36.]) with pytest.warns(UserWarning, match=r'Spacing is too small'): fl.format = 'x' values, spacing = fl.locator(34.3, 36.1) assert_almost_equal(values.value, [35., 36.])
def test_minor_locator(self): fl = ScalarFormatterLocator(unit=u.m) values, spacing = fl.locator(34.3, 55.4) minor_values = fl.minor_locator(spacing, 5, 34.3, 55.4) assert_almost_equal(minor_values.value, [36., 37., 38., 39., 41., 42., 43., 44., 46., 47., 48., 49., 51., 52., 53., 54.]) print('minor_values: ' + str(minor_values)) minor_values = fl.minor_locator(spacing, 2, 34.3, 55.4) assert_almost_equal(minor_values.value, [37.5, 42.5, 47.5, 52.5]) fl.values = [0.1, 1., 14.] * u.m values, spacing = fl.locator(34.3, 36.1) minor_values = fl.minor_locator(spacing, 2, 34.3, 55.4) assert_almost_equal(minor_values.value, [])
def test_spacing(self): fl = ScalarFormatterLocator(spacing=3. * u.m) assert fl.values is None assert fl.number is None assert fl.spacing == 3. * u.m values, spacing = fl.locator(34.3, 55.4) assert_almost_equal(values.value, [36., 39., 42., 45., 48., 51., 54.]) fl.spacing = 0.5 * u.m values, spacing = fl.locator(34.3, 36.1) assert_almost_equal(values.value, [34.5, 35., 35.5, 36.]) with pytest.warns(UserWarning, match='Spacing is too small'): fl.format = 'x' values, spacing = fl.locator(34.3, 36.1) assert_almost_equal(values.value, [35., 36.])
def test_base_spacing(self, format, base_spacing): fl = ScalarFormatterLocator(number=5, format=format, unit=u.m) assert fl.base_spacing == base_spacing
def test_invalid_formats(self, format): fl = ScalarFormatterLocator(number=5, unit=u.m) with pytest.raises(ValueError) as exc: fl.format = format assert exc.value.args[0] == "Invalid format: " + format
def test_format_unit(self, format, string): fl = ScalarFormatterLocator(number=5, format=format, unit=u.m) fl.format_unit = u.cm assert fl.formatter([15.392231] * u.m, None)[0] == string
def test_no_options(self): fl = ScalarFormatterLocator(unit=u.m) assert fl.values is None assert fl.number == 5 assert fl.spacing is None
def test_incorrect_spacing(self): fl = ScalarFormatterLocator(unit=u.m) fl.spacing = 0.032 * u.m with pytest.warns(UserWarning, match='Spacing is not a multiple of base spacing'): fl.format = 'x.xx' assert_almost_equal(fl.spacing.to_value(u.m), 0.03)