def test_separate_by_order(): u, v = Variables('u v') c, f = Constants('c f') strong_form = StrongForm(c*grad(div(u)) + div(v) - f + dot(c, grad(u))) order_dict = strong_form.separate_by_order() assert(order_dict[0] == -f) assert(order_dict[1] == div(v) + dot(c, grad(u))) assert(order_dict[2] == c*grad(div(u)))
def test_StrongForm(): a, b = Variables('a b') c = Constant('c') strong_form = StrongForm(c*a*b) assert(strong_form.a is a) strong_form.a.dim = 1 strong_form.b.dim = 1 assert(a.dim == 1) assert(b.dim == 1) strong_form.c = 1.0 assert(c.val == 1.0)
def test_extract_transport_coefficients(): u = Variable('u', rank=0) a, b, d = Coefficients('a b d', rank=0) b, e = Coefficients('b e', rank=1) c, = Coefficients('c', rank=2) eqn = Dt(a*u) + div(b*u + c*grad(u)) + d*u + dot(e, grad(u)) strong_form = StrongForm(eqn) coeffs = {'diffusion': c, 'reaction': d*u, 'hamiltonian': dot(e, grad(u)), 'potential': u, 'mass': Dt(a*u), 'advection': b*u, } sf_coeffs = strong_form.extract_transport_coefficients() assert(coeffs == sf_coeffs) eqn = d*u + dot(e, grad(u)) + Dt(a*u) + div(b*u) + div(c*grad(u)) strong_form = StrongForm(eqn) sf_coeffs = strong_form.extract_transport_coefficients() assert(coeffs == sf_coeffs)
def test_variables(): u = Variable('u') c = Constant('c') strong_form = StrongForm(c*u) assert(strong_form.variables() == set([u]))