def test_print_unit_base(): with warnings.catch_warnings(): warnings.filterwarnings("ignore", category=SymPyDeprecationWarning) A = Quantity("A", current, 1) Js = Quantity("Js", action, 1) mksa = UnitSystem((m, kg, s, A), (Js,)) assert mksa.print_unit_base(Js) == m**2*kg*s**-1/1000
def test_print_unit_base(): A = Quantity("A") A.set_global_relative_scale_factor(S.One, ampere) Js = Quantity("Js") Js.set_global_relative_scale_factor(S.One, joule * second) mksa = UnitSystem((m, kg, s, A), (Js, )) with warns_deprecated_sympy(): assert mksa.print_unit_base(Js) == m**2 * kg * s**-1 / 1000
def test_print_unit_base(): A = Quantity("A") A.set_dimension(current) A.set_scale_factor(S.One) Js = Quantity("Js") Js.set_dimension(action) Js.set_scale_factor(S.One) mksa = UnitSystem((m, kg, s, A), (Js, )) with warns_deprecated_sympy(): assert mksa.print_unit_base(Js) == m**2 * kg * s**-1
def test_print_unit_base(): A = Quantity("A") A.set_dimension(current) A.set_scale_factor(S.One) Js = Quantity("Js") Js.set_dimension(action) Js.set_scale_factor(S.One) mksa = UnitSystem((m, kg, s, A), (Js,)) with warns_deprecated_sympy(): assert mksa.print_unit_base(Js) == m**2*kg*s**-1
def test_print_unit_base(): with warnings.catch_warnings(): warnings.filterwarnings("ignore", category=SymPyDeprecationWarning) A = Quantity("A") A.set_dimension(current) A.set_scale_factor(S.One) Js = Quantity("Js") Js.set_dimension(action) Js.set_scale_factor(S.One) mksa = UnitSystem((m, kg, s, A), (Js,)) assert mksa.print_unit_base(Js) == m**2*kg*s**-1/1000
def test_print_unit_base(): A = Quantity("A", current, 1) Js = Quantity("Js", action, 1) mksa = UnitSystem((m, kg, s, A), (Js,)) assert mksa.print_unit_base(Js) == m**2*kg*s**-1/1000