from numpy.testing import assert_equal, assert_allclose import scipy.constants as sc def test_convert_temperature(): assert_equal(sc.convert_temperature(32, 'f', 'Celsius'), 0) assert_equal(sc.convert_temperature([0, 0], 'celsius', 'Kelvin'), [273.15, 273.15]) assert_equal(sc.convert_temperature([0, 0], 'kelvin', 'c'), [-273.15, -273.15]) assert_equal(sc.convert_temperature([32, 32], 'f', 'k'), [273.15, 273.15]) assert_equal(sc.convert_temperature([273.15, 273.15], 'kelvin', 'F'), [32, 32]) assert_equal(sc.convert_temperature([0, 0], 'C', 'fahrenheit'), [32, 32]) assert_allclose(sc.convert_temperature([0, 0], 'c', 'r'), [491.67, 491.67], rtol=0., atol=1e-13) assert_allclose(sc.convert_temperature([491.67, 491.67], 'Rankine', 'C'), [0., 0.], rtol=0., atol=1e-13) assert_allclose(sc.convert_temperature([491.67, 491.67], 'r', 'F'), [32., 32.], rtol=0., atol=1e-13) assert_allclose(sc.convert_temperature([32, 32], 'fahrenheit', 'R'), [491.67, 491.67], rtol=0., atol=1e-13) assert_allclose(sc.convert_temperature([273.15, 273.15], 'K', 'R'), [491.67, 491.67], rtol=0., atol=1e-13) assert_allclose(sc.convert_temperature([491.67, 0.], 'rankine', 'kelvin'), [273.15, 0.], rtol=0., atol=1e-13) def test_lambda_to_nu(): assert_equal(sc.lambda2nu(sc.speed_of_light), 1) def test_nu_to_lambda(): assert_equal(sc.nu2lambda(1), sc.speed_of_light)