/usr/lib/python2.7/dist-packages/pint/testsuite/test_issues.py is in python-pint 0.6-1ubuntu1.
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from __future__ import division, unicode_literals, print_function, absolute_import
import math
from pint import UnitRegistry
from pint.unit import UnitsContainer
from pint.util import ParserHelper
from pint.compat import np, unittest, long_type
from pint.testsuite import QuantityTestCase, helpers
class TestIssues(QuantityTestCase):
FORCE_NDARRAY = False
def setup(self):
self.ureg.autoconvert_offset_to_baseunit = False
@unittest.expectedFailure
def test_issue25(self):
x = ParserHelper.from_string('10 %')
self.assertEqual(x, ParserHelper(10, {'%': 1}))
x = ParserHelper.from_string('10 ‰')
self.assertEqual(x, ParserHelper(10, {'‰': 1}))
ureg = UnitRegistry()
ureg.define('percent = [fraction]; offset: 0 = %')
ureg.define('permille = percent / 10 = ‰')
x = ureg.parse_expression('10 %')
self.assertEqual(x, ureg.Quantity(10, {'%': 1}))
y = ureg.parse_expression('10 ‰')
self.assertEqual(y, ureg.Quantity(10, {'‰': 1}))
self.assertEqual(x.to('‰'), ureg.Quantity(1, {'‰': 1}))
def test_issue29(self):
ureg = UnitRegistry()
ureg.define('molar = mole / liter = M')
t = 4 * ureg('mM')
self.assertEqual(t.magnitude, 4)
self.assertEqual(t.units, UnitsContainer(millimolar=1))
self.assertEqual(t.to('mole / liter'), 4e-3 * ureg('M'))
def test_issue52(self):
u1 = UnitRegistry()
u2 = UnitRegistry()
q1 = u1.meter
q2 = u2.meter
import operator as op
for fun in (op.add, op.iadd,
op.sub, op.isub,
op.mul, op.imul,
op.floordiv, op.ifloordiv,
op.truediv, op.itruediv):
self.assertRaises(ValueError, fun, q1, q2)
def test_issue54(self):
ureg = UnitRegistry()
self.assertEqual((ureg.km/ureg.m + 1).magnitude, 1001)
def test_issue54_related(self):
ureg = UnitRegistry()
self.assertEqual(ureg.km/ureg.m, 1000)
self.assertEqual(1000, ureg.km/ureg.m)
self.assertLess(900, ureg.km/ureg.m)
self.assertGreater(1100, ureg.km/ureg.m)
def test_issue61(self):
ureg = UnitRegistry()
Q_ = ureg.Quantity
for value in ({}, {'a': 3}, None):
self.assertRaises(TypeError, Q_, value)
self.assertRaises(TypeError, Q_, value, 'meter')
self.assertRaises(ValueError, Q_, '', 'meter')
self.assertRaises(ValueError, Q_, '')
@helpers.requires_not_numpy()
def test_issue61_notNP(self):
ureg = UnitRegistry()
Q_ = ureg.Quantity
for value in ([1, 2, 3], (1, 2, 3)):
self.assertRaises(TypeError, Q_, value)
self.assertRaises(TypeError, Q_, value, 'meter')
def test_issue66(self):
ureg = UnitRegistry()
self.assertEqual(ureg.get_dimensionality(UnitsContainer({'[temperature]': 1})),
UnitsContainer({'[temperature]': 1}))
self.assertEqual(ureg.get_dimensionality(ureg.kelvin.units),
UnitsContainer({'[temperature]': 1}))
self.assertEqual(ureg.get_dimensionality(ureg.degC.units),
UnitsContainer({'[temperature]': 1}))
def test_issue66b(self):
ureg = UnitRegistry()
self.assertEqual(ureg.get_base_units(ureg.kelvin.units),
(1.0, UnitsContainer({'kelvin': 1})))
self.assertEqual(ureg.get_base_units(ureg.degC.units),
(1.0, UnitsContainer({'kelvin': 1})))
def test_issue69(self):
ureg = UnitRegistry()
q = ureg('m').to(ureg('in'))
self.assertEqual(q, ureg('m').to('in'))
@helpers.requires_uncertainties()
def test_issue77(self):
ureg = UnitRegistry()
acc = (5.0 * ureg('m/s/s')).plus_minus(0.25)
tim = (37.0 * ureg('s')).plus_minus(0.16)
dis = acc * tim ** 2 / 2
self.assertEqual(dis.value, acc.value * tim.value ** 2 / 2)
def test_issue85(self):
ureg = UnitRegistry()
T = 4. * ureg.kelvin
m = 1. * ureg.amu
va = 2. * ureg.k * T / m
try:
va.to_base_units()
except:
self.assertTrue(False, 'Error while trying to get base units for {}'.format(va))
boltmk = 1.3806488e-23*ureg.J/ureg.K
vb = 2. * boltmk * T / m
self.assertQuantityAlmostEqual(va.to_base_units(), vb.to_base_units())
def test_issue86(self):
ureg = self.ureg
ureg.autoconvert_offset_to_baseunit = True
def parts(q):
return q.magnitude, q.units
q1 = 10. * ureg.degC
q2 = 10. * ureg.kelvin
k1 = q1.to_base_units()
q3 = 3. * ureg.meter
q1m, q1u = parts(q1)
q2m, q2u = parts(q2)
q3m, q3u = parts(q3)
k1m, k1u = parts(k1)
self.assertEqual(parts(q2 * q3), (q2m * q3m, q2u * q3u))
self.assertEqual(parts(q2 / q3), (q2m / q3m, q2u / q3u))
self.assertEqual(parts(q3 * q2), (q3m * q2m, q3u * q2u))
self.assertEqual(parts(q3 / q2), (q3m / q2m, q3u / q2u))
self.assertEqual(parts(q2 ** 1), (q2m ** 1, q2u ** 1))
self.assertEqual(parts(q2 ** -1), (q2m ** -1, q2u ** -1))
self.assertEqual(parts(q2 ** 2), (q2m ** 2, q2u ** 2))
self.assertEqual(parts(q2 ** -2), (q2m ** -2, q2u ** -2))
self.assertEqual(parts(q1 * q3), (k1m * q3m, k1u * q3u))
self.assertEqual(parts(q1 / q3), (k1m / q3m, k1u / q3u))
self.assertEqual(parts(q3 * q1), (q3m * k1m, q3u * k1u))
self.assertEqual(parts(q3 / q1), (q3m / k1m, q3u / k1u))
self.assertEqual(parts(q1 ** -1), (k1m ** -1, k1u ** -1))
self.assertEqual(parts(q1 ** 2), (k1m ** 2, k1u ** 2))
self.assertEqual(parts(q1 ** -2), (k1m ** -2, k1u ** -2))
def test_issues86b(self):
ureg = self.ureg
T1 = 200. * ureg.degC
T2 = T1.to(ureg.kelvin)
m = 132.9054519 * ureg.amu
v1 = 2 * ureg.k * T1 / m
v2 = 2 * ureg.k * T2 / m
self.assertQuantityAlmostEqual(v1, v2)
self.assertQuantityAlmostEqual(v1, v2.to_base_units())
self.assertQuantityAlmostEqual(v1.to_base_units(), v2)
self.assertQuantityAlmostEqual(v1.to_base_units(), v2.to_base_units())
@unittest.expectedFailure
def test_issue86c(self):
ureg = self.ureg
ureg.autoconvert_offset_to_baseunit = True
T = ureg.degC
T = 100. * T
self.assertQuantityAlmostEqual(ureg.k*2*T, ureg.k*(2*T))
def test_issue93(self):
ureg = UnitRegistry()
self.assertIsInstance(ureg.meter.magnitude, int)
x = 5 * ureg.meter
self.assertIsInstance(x.magnitude, int)
y = 0.1 * ureg.meter
self.assertIsInstance(y.magnitude, float)
z = 5 * ureg.meter
self.assertIsInstance(z.magnitude, int)
z += y
self.assertIsInstance(z.magnitude, float)
self.assertQuantityAlmostEqual(x + y, 5.1 * ureg.meter)
self.assertQuantityAlmostEqual(z, 5.1 * ureg.meter)
def _test_issueXX(self):
ureg = UnitRegistry()
try:
ureg.convert(1, ureg.degC, ureg.kelvin * ureg.meter / ureg.nanometer)
except:
self.assertTrue(False,
'Error while trying to convert {} to {}'.format(ureg.degC, ureg.kelvin * ureg.meter / ureg.nanometer))
def test_issue121(self):
sh = (2, 1)
ureg = UnitRegistry()
z, v = 0, 2.
self.assertEqual(z + v * ureg.meter, v * ureg.meter)
self.assertEqual(z - v * ureg.meter, -v * ureg.meter)
self.assertEqual(v * ureg.meter + z, v * ureg.meter)
self.assertEqual(v * ureg.meter - z, v * ureg.meter)
self.assertEqual(sum([v * ureg.meter, v * ureg.meter]), 2 * v * ureg.meter)
def test_issue105(self):
ureg = UnitRegistry()
func = ureg.parse_unit_name
val = list(func('meter'))
self.assertEqual(list(func('METER')), [])
self.assertEqual(val, list(func('METER', False)))
for func in (ureg.get_name, ureg.parse_expression):
val = func('meter')
self.assertRaises(ValueError, func, 'METER')
self.assertEqual(val, func('METER', False))
def test_issue104(self):
ureg = UnitRegistry()
x = [ureg('1 meter'), ureg('1 meter'), ureg('1 meter')]
y = [ureg('1 meter')] * 3
def summer(values):
if not values:
return 0
total = values[0]
for v in values[1:]:
total += v
return total
self.assertQuantityAlmostEqual(summer(x), ureg.Quantity(3, 'meter'))
self.assertQuantityAlmostEqual(x[0], ureg.Quantity(1, 'meter'))
self.assertQuantityAlmostEqual(summer(y), ureg.Quantity(3, 'meter'))
self.assertQuantityAlmostEqual(y[0], ureg.Quantity(1, 'meter'))
def test_issue170(self):
Q_ = UnitRegistry().Quantity
q = Q_('1 kHz')/Q_('100 Hz')
iq = int(q)
self.assertEqual(iq, 10)
self.assertIsInstance(iq, int)
@helpers.requires_python2()
def test_issue170b(self):
Q_ = UnitRegistry().Quantity
q = Q_('1 kHz')/Q_('100 Hz')
iq = long(q)
self.assertEqual(iq, long(10))
self.assertIsInstance(iq, long)
@helpers.requires_numpy()
class TestIssuesNP(QuantityTestCase):
FORCE_NDARRAY = False
@unittest.expectedFailure
def test_issue37(self):
x = np.ma.masked_array([1, 2, 3], mask=[True, True, False])
ureg = UnitRegistry()
q = ureg.meter * x
self.assertIsInstance(q, ureg.Quantity)
np.testing.assert_array_equal(q.magnitude, x)
self.assertEqual(q.units, ureg.meter.units)
q = x * ureg.meter
self.assertIsInstance(q, ureg.Quantity)
np.testing.assert_array_equal(q.magnitude, x)
self.assertEqual(q.units, ureg.meter.units)
m = np.ma.masked_array(2 * np.ones(3,3))
qq = q * m
self.assertIsInstance(qq, ureg.Quantity)
np.testing.assert_array_equal(qq.magnitude, x * m)
self.assertEqual(qq.units, ureg.meter.units)
qq = m * q
self.assertIsInstance(qq, ureg.Quantity)
np.testing.assert_array_equal(qq.magnitude, x * m)
self.assertEqual(qq.units, ureg.meter.units)
@unittest.expectedFailure
def test_issue39(self):
x = np.matrix([[1, 2, 3], [1, 2, 3], [1, 2, 3]])
ureg = UnitRegistry()
q = ureg.meter * x
self.assertIsInstance(q, ureg.Quantity)
np.testing.assert_array_equal(q.magnitude, x)
self.assertEqual(q.units, ureg.meter.units)
q = x * ureg.meter
self.assertIsInstance(q, ureg.Quantity)
np.testing.assert_array_equal(q.magnitude, x)
self.assertEqual(q.units, ureg.meter.units)
m = np.matrix(2 * np.ones(3,3))
qq = q * m
self.assertIsInstance(qq, ureg.Quantity)
np.testing.assert_array_equal(qq.magnitude, x * m)
self.assertEqual(qq.units, ureg.meter.units)
qq = m * q
self.assertIsInstance(qq, ureg.Quantity)
np.testing.assert_array_equal(qq.magnitude, x * m)
self.assertEqual(qq.units, ureg.meter.units)
def test_issue44(self):
ureg = UnitRegistry()
x = 4. * ureg.dimensionless
np.sqrt(x)
self.assertQuantityAlmostEqual(np.sqrt([4.] * ureg.dimensionless), [2.] * ureg.dimensionless)
self.assertQuantityAlmostEqual(np.sqrt(4. * ureg.dimensionless), 2. * ureg.dimensionless)
def test_issue45(self):
import math
ureg = UnitRegistry()
self.assertAlmostEqual(math.sqrt(4 * ureg.m/ureg.cm), math.sqrt(4 * 100))
self.assertAlmostEqual(float(ureg.V / ureg.mV), 1000.)
def test_issue45b(self):
ureg = UnitRegistry()
self.assertAlmostEqual(np.sin([np.pi/2] * ureg.m / ureg.m ), np.sin([np.pi/2] * ureg.dimensionless))
self.assertAlmostEqual(np.sin([np.pi/2] * ureg.cm / ureg.m ), np.sin([np.pi/2] * ureg.dimensionless * 0.01))
def test_issue50(self):
ureg = UnitRegistry()
Q_ = ureg.Quantity
self.assertEqual(Q_(100), 100 * ureg.dimensionless)
self.assertEqual(Q_('100'), 100 * ureg.dimensionless)
def test_issue62(self):
ureg = UnitRegistry()
m = ureg('m**0.5')
self.assertEqual(str(m.units), 'meter ** 0.5')
def test_issue74(self):
ureg = UnitRegistry()
v1 = np.asarray([1., 2., 3.])
v2 = np.asarray([3., 2., 1.])
q1 = v1 * ureg.ms
q2 = v2 * ureg.ms
np.testing.assert_array_equal(q1 < q2, v1 < v2)
np.testing.assert_array_equal(q1 > q2, v1 > v2)
np.testing.assert_array_equal(q1 <= q2, v1 <= v2)
np.testing.assert_array_equal(q1 >= q2, v1 >= v2)
q2s = np.asarray([0.003, 0.002, 0.001]) * ureg.s
v2s = q2s.to('ms').magnitude
np.testing.assert_array_equal(q1 < q2s, v1 < v2s)
np.testing.assert_array_equal(q1 > q2s, v1 > v2s)
np.testing.assert_array_equal(q1 <= q2s, v1 <= v2s)
np.testing.assert_array_equal(q1 >= q2s, v1 >= v2s)
def test_issue75(self):
ureg = UnitRegistry()
v1 = np.asarray([1., 2., 3.])
v2 = np.asarray([3., 2., 1.])
q1 = v1 * ureg.ms
q2 = v2 * ureg.ms
np.testing.assert_array_equal(q1 == q2, v1 == v2)
np.testing.assert_array_equal(q1 != q2, v1 != v2)
q2s = np.asarray([0.003, 0.002, 0.001]) * ureg.s
v2s = q2s.to('ms').magnitude
np.testing.assert_array_equal(q1 == q2s, v1 == v2s)
np.testing.assert_array_equal(q1 != q2s, v1 != v2s)
def test_issue93(self):
ureg = UnitRegistry()
self.assertIsInstance(ureg.meter.magnitude, int)
x = 5 * ureg.meter
self.assertIsInstance(x.magnitude, int)
y = 0.1 * ureg.meter
self.assertIsInstance(y.magnitude, float)
z = 5 * ureg.meter
self.assertIsInstance(z.magnitude, int)
z += y
self.assertIsInstance(z.magnitude, float)
self.assertQuantityAlmostEqual(x + y, 5.1 * ureg.meter)
self.assertQuantityAlmostEqual(z, 5.1 * ureg.meter)
@helpers.requires_numpy_previous_than('1.10')
def test_issue94(self):
ureg = UnitRegistry()
v1 = np.array([5, 5]) * ureg.meter
v2 = 0.1 * ureg.meter
v3 = np.array([5, 5]) * ureg.meter
v3 += v2
np.testing.assert_array_equal((v1 + v2).magnitude, np.array([5.1, 5.1]))
np.testing.assert_array_equal(v3.magnitude, np.array([5, 5]))
@helpers.requires_numpy18()
def test_issue121(self):
sh = (2, 1)
ureg = UnitRegistry()
z, v = 0, 2.
self.assertEqual(z + v * ureg.meter, v * ureg.meter)
self.assertEqual(z - v * ureg.meter, -v * ureg.meter)
self.assertEqual(v * ureg.meter + z, v * ureg.meter)
self.assertEqual(v * ureg.meter - z, v * ureg.meter)
self.assertEqual(sum([v * ureg.meter, v * ureg.meter]), 2 * v * ureg.meter)
z, v = np.zeros(sh), 2. * np.ones(sh)
self.assertQuantityEqual(z + v * ureg.meter, v * ureg.meter)
self.assertQuantityEqual(z - v * ureg.meter, -v * ureg.meter)
self.assertQuantityEqual(v * ureg.meter + z, v * ureg.meter)
self.assertQuantityEqual(v * ureg.meter - z, v * ureg.meter)
z, v = np.zeros((3, 1)), 2. * np.ones(sh)
for x, y in ((z, v),
(z, v * ureg.meter),
(v * ureg.meter, z)
):
try:
w = x + y
self.assertTrue(False, "ValueError not raised")
except ValueError:
pass
try:
w = x - y
self.assertTrue(False, "ValueError not raised")
except ValueError:
pass
def test_issue127(self):
q = [1., 2., 3., 4.] * self.ureg.meter
q[0] = np.nan
self.assertNotEqual(q[0], 1.)
self.assertTrue(math.isnan(q[0].magnitude))
q[1] = float('NaN')
self.assertNotEqual(q[1], 2.)
self.assertTrue(math.isnan(q[1].magnitude))
def test_issue171_real_imag(self):
qr = [1., 2., 3., 4.] * self.ureg.meter
qi = [4., 3., 2., 1.] * self.ureg.meter
q = qr + 1j * qi
self.assertQuantityEqual(q.real, qr)
self.assertQuantityEqual(q.imag, qi)
def test_issue171_T(self):
a = np.asarray([[1., 2., 3., 4.],[4., 3., 2., 1.]])
q1 = a * self.ureg.meter
q2 = a.T * self.ureg.meter
self.assertQuantityEqual(q1.T, q2)
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