def test_double_calculation(self):
deriver = FluidSolver(add_assumptions=('Tv equals T', ), **self.vars2)
Tv = deriver.calculate('Tv')
rho = deriver.calculate('rho')
assert (rho == 1 / Rd).all()
assert isinstance(rho, np.ndarray)
assert isinstance(Tv, np.ndarray)
def test_depth_2_calculation(self):
deriver = FluidSolver(assumptions=FluidSolver.default_assumptions +
('Tv equals T', ),
**self.vars2)
rho = deriver.calculate('rho')
assert (rho == 1 / Rd).all()
assert isinstance(rho, np.ndarray)
def test_simple_calculation(self):
deriver = FluidSolver(**self.vars1)
rho = deriver.calculate('rho')
assert (rho == 1 / Rd).all()
assert isinstance(rho, np.ndarray)
def test_creation_with_vars(self):
FluidSolver(**self.vars1)
def test_creation_with_vars_and_method(self):
FluidSolver(assumptions=('Tv equals T', ), **self.vars1)
def test_creation_undefined_method(self):
FluidSolver(assumptions=('moocow', ))
def test_creation_undefined_method_with_defined_method(self):
FluidSolver(assumptions=(
'hydrostatic',
'moocow',
))
def test_creation_incompatible_methods(self):
FluidSolver(assumptions=(
'Goff-Gratch',
'Wexler',
))
def test_creation_compatible_methods(self):
FluidSolver(assumptions=(
'hydrostatic',
'Tv equals T',
))
def test_creation_one_method(self):
FluidSolver(assumptions=('hydrostatic', ))
def test_is_instance_of_BaseSolver(self):
deriv = FluidSolver()
assert isinstance(deriv, BaseSolver)
def test_creation_no_arguments(self):
FluidSolver()
