from __future__ import division, print_function, absolute_import
from scipy.constants import constants, codata, find, value
from numpy.testing import (assert_equal, assert_,
assert_almost_equal)
def test_find():
keys = find('weak mixing', disp=False)
assert_equal(keys, ['weak mixing angle'])
keys = find('qwertyuiop', disp=False)
assert_equal(keys, [])
keys = find('natural unit', disp=False)
assert_equal(keys, sorted(['natural unit of velocity',
'natural unit of action',
'natural unit of action in eV s',
'natural unit of mass',
'natural unit of energy',
'natural unit of energy in MeV',
'natural unit of mom.um',
'natural unit of mom.um in MeV/c',
'natural unit of length',
'natural unit of time']))
def test_basic_table_parse():
c = 'speed of light in vacuum'
assert_equal(codata.value(c), constants.c)
assert_equal(codata.value(c), constants.speed_of_light)
def test_basic_lookup():
assert_equal('%d %s' % (codata.c, codata.unit('speed of light in vacuum')),
'299792458 m s^-1')
def test_find_all():
assert_(len(codata.find(disp=False)) > 300)
def test_find_single():
assert_equal(codata.find('Wien freq', disp=False)[0],
'Wien frequency displacement law constant')
def test_2002_vs_2006():
assert_almost_equal(codata.value('magn. flux quantum'),
codata.value('mag. flux quantum'))
def test_exact_values():
# Check that updating stored values with exact ones worked.
for key in codata.exact_values:
assert_((codata.exact_values[key][0] - value(key)) / value(key) == 0)