def test_lcim(): assert lcim([S.Half, S(2), S(3)]) == 6 assert lcim([pi / 2, pi / 4, pi]) == pi assert lcim([2 * pi, pi / 2]) == 2 * pi assert lcim([S.One, 2 * pi]) is None assert lcim([S(2) + 2 * E, E / 3 + Rational(1, 3), S.One + E]) == S(2) + 2 * E
def test_lcim(): from sympy import pi assert lcim([S(1) / 2, S(2), S(3)]) == 6 assert lcim([pi / 2, pi / 4, pi]) == pi assert lcim([2 * pi, pi / 2]) == 2 * pi assert lcim([S(1), 2 * pi]) is None assert lcim([S(2) + 2 * E, E / 3 + S(1) / 3, S(1) + E]) == S(2) + 2 * E
def test_lcim(): from sympy import pi assert lcim([S(1)/2, S(2), S(3)]) == 6 assert lcim([pi/2, pi/4, pi]) == pi assert lcim([2*pi, pi/2]) == 2*pi assert lcim([S(1), 2*pi]) is None assert lcim([S(2) + 2*E, E/3 + S(1)/3, S(1) + E]) == S(2) + 2*E