Python is_equal Exemples

Exemple #1

    def test_blockdiag(self):
        # Test blockdiag with DM
        correct_res = DM([[1, 1, 0, 0, 0], [1, 1, 0, 0, 0], [0, 0, 1, 1, 1],
                          [0, 0, 1, 1, 1], [0, 0, 1, 1, 1]])

        a = DM.ones(2, 2)
        b = DM.ones(3, 3)
        res = blockdiag(a, b)
        self.assertTrue(is_equal(res, correct_res))

        # MX and DM mix
        a = MX.sym('a', 2, 2)
        b = DM.ones(1, 1)
        correct_res = MX.zeros(3, 3)
        correct_res[:2, :2] = a
        correct_res[2:, 2:] = b

        res = blockdiag(a, b)
        self.assertTrue(is_equal(res, correct_res, 30))

        # SX and DM mix
        a = SX.sym('a', 2, 2)
        b = DM.ones(1, 1)
        correct_res = SX.zeros(3, 3)
        correct_res[:2, :2] = a
        correct_res[2:, 2:] = b

        res = blockdiag(a, b)
        self.assertTrue(is_equal(res, correct_res, 30))

        # SX and MX
        a = SX.sym('a', 2, 2)
        b = MX.sym('b', 2, 2)
        self.assertRaises(ValueError, blockdiag, a, b)

Exemple #2

Fichier : test_system_model.py Projet : marcoaaguiar/yaocptool

    def test_t_setter(self):
        new_t = SX.sym("t")
        self.ode_model.t = new_t
        self.dae_model.t = new_t

        self.assertTrue(is_equal(self.ode_model.t, new_t))
        self.assertTrue(is_equal(self.dae_model.t, new_t))

Exemple #3

Fichier : test_system_model.py Projet : marcoaaguiar/yaocptool

    def test_get_variables_by_names(self):
        model = self.dae_model.get_copy()

        # Variable does not exist
        self.assertEqual(model.get_variables_by_names("other_var"), [])

        # Multiple vars
        self.assertGreater(len(model.get_variables_by_names("x")), 0)
        res = model.get_variables_by_names("x")
        for ind in range(model.n_x):
            self.assertTrue(is_equal(res[ind], model.x[ind]))

        # Some var that exists and is unique
        res = model.get_variables_by_names("x_1")
        self.assertEqual(len(res), 1)
        self.assertTrue(is_equal(model.x[1], res[0]))

        # find var with var_type
        model2 = self.dae_model.get_copy()
        p_with_name_starting_with_x = model2.create_parameter("x_ref")
        res = model2.get_variables_by_names("x", var_type="p")
        self.assertEqual(len(res), 1)
        self.assertTrue(is_equal(p_with_name_starting_with_x, res[0]))

        # find var with list of names
        res = model.get_variables_by_names(["x_1", "u_2"])
        self.assertEqual(len(res), 2)
        self.assertTrue(is_equal(model.x[1], res[0]))
        self.assertTrue(is_equal(model.u[2], res[1]))

Exemple #4

Fichier : test_system_model.py Projet : marcoaaguiar/yaocptool

    def test_tau_setter(self):
        new_tau = SX.sym("tau")
        self.ode_model.tau = new_tau
        self.dae_model.tau = new_tau

        self.assertTrue(is_equal(self.ode_model.tau, new_tau))
        self.assertTrue(is_equal(self.dae_model.tau, new_tau))

Exemple #5

Fichier : test_convert_to_casadi.py Projet : tinosulzer/PyBaMM

    def test_concatenations(self):
        y = np.linspace(0, 1, 10)[:, np.newaxis]
        a = pybamm.Vector(y)
        b = pybamm.Scalar(16)
        c = pybamm.Scalar(3)
        conc = pybamm.NumpyConcatenation(a, b, c)
        self.assertTrue(
            casadi.is_equal(conc.to_casadi(), casadi.SX(conc.evaluate())))

        # Domain concatenation
        mesh = get_mesh_for_testing()
        a_dom = ["negative electrode"]
        b_dom = ["positive electrode"]
        a = 2 * pybamm.Vector(np.ones_like(mesh[a_dom[0]][0].nodes),
                              domain=a_dom)
        b = pybamm.Vector(np.ones_like(mesh[b_dom[0]][0].nodes), domain=b_dom)
        conc = pybamm.DomainConcatenation([b, a], mesh)
        self.assertTrue(
            casadi.is_equal(conc.to_casadi(), casadi.SX(conc.evaluate())))

        # 2d
        disc = get_1p1d_discretisation_for_testing()
        a = pybamm.Variable("a", domain=a_dom)
        b = pybamm.Variable("b", domain=b_dom)
        conc = pybamm.Concatenation(a, b)
        disc.set_variable_slices([conc])
        expr = disc.process_symbol(conc)
        y = casadi.SX.sym("y", expr.size)
        x = expr.to_casadi(None, y)
        f = casadi.Function("f", [x], [x])
        y_eval = np.linspace(0, 1, expr.size)
        self.assertTrue(
            casadi.is_equal(f(y_eval), casadi.SX(expr.evaluate(y=y_eval))))

Exemple #6

Fichier : test_abstract_optimization_problem.py Projet : marcoaaguiar/yaocptool

 def test_include_variable_with_bounds(self):
     lb = -DM(range(1, 4))
     ub = DM(range(5, 8))
     aop = AbstractOptimizationProblem()
     x = MX.sym('x', 3)
     aop.include_variable(x, lb=lb, ub=ub)
     self.assertTrue(is_equal(aop.x_lb, lb))
     self.assertTrue(is_equal(aop.x_ub, ub))

Exemple #7

Fichier : test_abstract_optimization_problem.py Projet : marcoaaguiar/yaocptool

 def test_include_equality_scalar_bound(self):
     rhs = 2
     aop = AbstractOptimizationProblem()
     x = aop.create_variable('x', 2)
     g = 2 * x
     aop.include_equality(g, rhs=rhs)
     self.assertTrue(is_equal(aop.g_lb, repmat(rhs, 2)))
     self.assertTrue(is_equal(aop.g_ub, repmat(rhs, 2)))

Exemple #8

Fichier : test_abstract_optimization_problem.py Projet : marcoaaguiar/yaocptool

 def test_include_equality(self):
     aop = AbstractOptimizationProblem()
     x = aop.create_variable('x', 2)
     g = x[0] - x[1]
     aop.include_equality(g)
     self.assertTrue(is_equal(aop.g, g))
     self.assertTrue(is_equal(aop.g_lb, 0))
     self.assertTrue(is_equal(aop.g_ub, 0))

Exemple #9

Fichier : ocp.py Projet : marcoaaguiar/yaocptool

 def has_delta_u(self):
     has_element_diff_from_inf = False
     for i in range(self.model.n_u):
         has_element_diff_from_inf = (not is_equal(
             self.delta_u_max[i], inf)) or has_element_diff_from_inf
         has_element_diff_from_inf = (not is_equal(
             self.delta_u_min[i], -inf)) or has_element_diff_from_inf
     return has_element_diff_from_inf

Exemple #10

Fichier : test_abstract_optimization_problem.py Projet : marcoaaguiar/yaocptool

 def test_include_equality_with_bounds(self):
     rhs = 2
     aop = AbstractOptimizationProblem()
     x = aop.create_variable('x', 2)
     g = x[0] - x[1]
     aop.include_equality(g, rhs=rhs)
     self.assertTrue(is_equal(aop.g, g))
     self.assertTrue(is_equal(aop.g_lb, rhs))
     self.assertTrue(is_equal(aop.g_ub, rhs))

Exemple #11

Fichier : test_abstract_optimization_problem.py Projet : marcoaaguiar/yaocptool

 def test_include_inequality_scalar_bound(self):
     lb = 1
     ub = 4
     aop = AbstractOptimizationProblem()
     x = aop.create_variable('x', 2)
     g = 2 * x
     aop.include_inequality(g, lb=lb, ub=ub)
     self.assertTrue(is_equal(aop.g_lb, repmat(lb, 2)))
     self.assertTrue(is_equal(aop.g_ub, repmat(ub, 2)))

Exemple #12

Fichier : test_abstract_optimization_problem.py Projet : marcoaaguiar/yaocptool

 def test_include_parameter_twice(self):
     # Test to avoid override
     aop = AbstractOptimizationProblem()
     p1 = MX.sym('p1', 3)
     p2 = MX.sym('p2', 5)
     aop.include_parameter(p1)
     aop.include_parameter(p2)
     self.assertTrue(is_equal(aop.p[:p1.numel()], p1))
     self.assertTrue(is_equal(aop.p[p1.numel():], p2))

Exemple #13

    def test_find_variables_in_vector_by_name(self):

        # Only search for one variable
        correct_var = self.x_vector[2]
        correct_var_name = correct_var.name()

        result = find_variables_in_vector_by_name(correct_var_name,
                                                  self.x_vector)
        self.assertEqual(len(result), 1)
        self.assertTrue(is_equal(result[-1], correct_var))

        # Only search for multiple variables
        correct_var = self.x_vector[[2, 4]]
        correct_var_name = [
            correct_var[ind].name() for ind in range(correct_var.numel())
        ]

        result = find_variables_in_vector_by_name(correct_var_name,
                                                  self.x_vector)
        self.assertEqual(len(result), 2)
        for ind in range(correct_var.numel()):
            self.assertTrue(is_equal(result[ind], correct_var[ind]))

        # Search for name using regex
        correct_var = self.x_vector[[3, 4]]
        correct_var_name = 'foo'

        result = find_variables_in_vector_by_name(correct_var_name,
                                                  self.x_vector)
        self.assertEqual(len(result), 2)
        for ind in range(correct_var.numel()):
            self.assertTrue(is_equal(result[ind], correct_var[ind]))

        # Search for name using exact
        correct_var = self.x_vector[3]
        correct_var_name = correct_var.name()

        result = find_variables_in_vector_by_name(correct_var_name,
                                                  self.x_vector,
                                                  exact=True)
        self.assertEqual(len(result), 1)
        self.assertTrue(is_equal(result[-1], correct_var))

        # Search for variable that does not exists with exact
        result = find_variables_in_vector_by_name('wrong',
                                                  self.x_vector,
                                                  exact=True)
        self.assertEqual(len(result), 0)
        self.assertEqual(result, [])

        # Search for variable that does not exists with regex
        result = find_variables_in_vector_by_name('wrong',
                                                  self.x_vector,
                                                  exact=True)
        self.assertEqual(len(result), 0)
        self.assertEqual(result, [])

Exemple #14

Fichier : test_abstract_optimization_problem.py Projet : marcoaaguiar/yaocptool

    def test_include_variable_twice(self):
        # Test to avoid override
        aop = AbstractOptimizationProblem()
        x = MX.sym('x', 3)
        y = MX.sym('y', 5)
        aop.include_variable(x)
        aop.include_variable(y)

        self.assertTrue(is_equal(aop.x[:x.numel()], x))
        self.assertTrue(is_equal(aop.x[x.numel():], y))

Exemple #15

Fichier : test_abstract_optimization_problem.py Projet : marcoaaguiar/yaocptool

    def test_include_equality_w_external_variable_in_expr(self):
        theta = MX.sym('theta')

        aop = AbstractOptimizationProblem()
        x = aop.create_variable('x', 2)
        g = theta * x[0] - x[1]
        aop.include_equality(g)
        self.assertTrue(is_equal(aop.g, g))
        self.assertTrue(is_equal(aop.g_lb, 0))
        self.assertTrue(is_equal(aop.g_ub, 0))

Exemple #16

Fichier : test_abstract_optimization_problem.py Projet : marcoaaguiar/yaocptool

 def test_include_inequality_with_bounds(self):
     lb = 2
     ub = 3
     aop = AbstractOptimizationProblem()
     x = aop.create_variable('x', 2)
     g = x[0] - x[1]
     aop.include_inequality(g, lb=lb, ub=ub)
     self.assertTrue(is_equal(aop.g, g))
     self.assertTrue(is_equal(aop.g_lb, lb))
     self.assertTrue(is_equal(aop.g_ub, ub))

Exemple #17

Fichier : test_abstract_optimization_problem.py Projet : marcoaaguiar/yaocptool

 def test_include_inequality_w_external_variable_in_bound(self):
     theta = MX.sym('theta')
     lb = -theta
     ub = theta
     aop = AbstractOptimizationProblem()
     x = aop.create_variable('x', 2)
     g = x[0] - x[1]
     aop.include_inequality(g, lb=lb, ub=ub)
     self.assertTrue(is_equal(aop.g, g))
     self.assertTrue(is_equal(aop.g_lb, lb))
     self.assertTrue(is_equal(aop.g_ub, ub))

Exemple #18

Fichier : test_system_model.py Projet : marcoaaguiar/yaocptool

    def test_lamb_sym(self):
        self.assertEqual(self.ode_model.lamb_sym.numel(), 0)
        self.assertEqual(self.dae_model.lamb_sym.numel(), 0)

        # with adjoints
        ode_lamb = self.ode_model.create_state("lamb", self.ode_model.n_x)
        self.ode_model.has_adjoint_variables = True

        dae_lamb = self.dae_model.create_state("lamb", self.dae_model.n_x)
        self.dae_model.has_adjoint_variables = True

        self.assertTrue(is_equal(self.ode_model.lamb_sym, ode_lamb))
        self.assertTrue(is_equal(self.dae_model.lamb_sym, dae_lamb))

Exemple #19

Fichier : test_system_model.py Projet : marcoaaguiar/yaocptool

def test_include_equations_list(empty_model):
    x = empty_model.create_state('x', 2)
    u = empty_model.create_control('u')
    y = empty_model.create_algebraic_variable('y', 3)

    # test for list input
    ode = [-x - y[:1] + u]
    alg = [2 * x[0] - y[0] + u, 2 * x[1] - y[1] + u, 2 * x[0] - y[2] + u]

    empty_model.include_equations(ode=ode, alg=alg)

    assert is_equal(empty_model.ode, vertcat(*ode), 20)
    assert is_equal(empty_model.alg, vertcat(*alg), 20)

Exemple #20

Fichier : test_system_model.py Projet : marcoaaguiar/yaocptool

    def test_x_sys_sym(self):
        self.assertTrue(is_equal(self.ode_model.x_sys_sym, self.ode_model.x))

        # with adjoints
        ode_x = self.ode_model.x[:]
        dae_x = self.dae_model.x[:]
        self.ode_model.create_state("lamb", self.ode_model.n_x)
        self.ode_model.has_adjoint_variables = True

        self.dae_model.create_state("lamb", self.dae_model.n_x)
        self.dae_model.has_adjoint_variables = True

        self.assertTrue(is_equal(self.ode_model.x_sys_sym, ode_x))
        self.assertTrue(is_equal(self.dae_model.x_sys_sym, dae_x))

Exemple #21

Fichier : generator.py Projet : johnsjob/pymola

    def exitIfStatement(self, tree):
        logger.debug('exitIfStatement')

        # We assume an equal number of statements per branch.
        # Furthermore, we assume that every branch assigns to the same variables.
        assert (len(tree.statements) % (len(tree.conditions) + 1) == 0)

        statements_per_condition = int(
            len(tree.statements) / (len(tree.conditions) + 1))

        all_assignments = []
        for statement_index in range(statements_per_condition):
            assignments = self.get_mx(tree.statements[-(statement_index + 1)])
            for assignment in assignments:
                src = assignment.right
                for cond_index in range(len(tree.conditions)):
                    cond = self.get_mx(tree.conditions[-(cond_index + 1)])
                    src1 = None
                    for i in range(statements_per_condition):
                        other_assignments = self.get_mx(
                            tree.statements[-statements_per_condition *
                                            (cond_index + 1) - (i + 1)])
                        for j in range(len(other_assignments)):
                            if ca.is_equal(assignment.left,
                                           other_assignments[j].left):
                                src1 = other_assignments[j].right
                                break
                        if src1 is not None:
                            break
                    src = ca.if_else(cond, src1, src, True)
                all_assignments.append(Assignment(assignment.left, src))

        self.src[tree] = all_assignments

Exemple #22

    def test_substitute_variable_p(self):
        # Make system
        x = SX.sym('x')
        y = SX.sym('y')
        p = SX.sym('p')
        t = SX.sym('t')
        tau = SX.sym('tau')

        ode = -2 * x + y * p
        alg = y - x - p

        sys = DAESystem(x=x, y=y, ode=ode, alg=alg, tau=tau, t=t, p=p)

        # Test
        new_p = SX.sym('new_p')

        sys.substitute_variable(p, new_p)

        res = {
            'ode': -2 * x + y * new_p,
            'alg': y - x - new_p,
            'x': x,
            'y': y,
            'p': new_p,
            't': t,
            'tau': tau
        }
        for key in res:
            self.assertTrue(is_equal(res[key], sys.__dict__[key], 10))

Exemple #23

Fichier : test_abstract_optimization_problem.py Projet : marcoaaguiar/yaocptool

    def test_set_objective(self):
        aop = AbstractOptimizationProblem()
        x = aop.create_variable('x', 2)
        f = x[0]**2 + x[1]**2
        aop.set_objective(f)

        self.assertTrue(is_equal(aop.f, f))

Exemple #24

Fichier : test_system_model.py Projet : marcoaaguiar/yaocptool

def test_include_equations_der(empty_model):
    x = empty_model.create_state('x')
    u = empty_model.create_control('u')

    empty_model.include_equations(der(x) == -x + u)

    assert empty_model.ode.numel() == 1
    assert is_equal(empty_model.ode, -x + u, 20)

Exemple #25

    def test_join(self):
        # Make system 1
        x = SX.sym('x')
        y = SX.sym('y')
        p = SX.sym('p')
        t = SX.sym('t')
        tau = SX.sym('tau')

        ode = -2 * x + y * p * tau
        alg = y - x - p * t

        sys = DAESystem(x=x, y=y, ode=ode, alg=alg, tau=tau, t=t, p=p)

        # Make system 2
        x2 = SX.sym('x2')
        y2 = SX.sym('y2')
        p2 = SX.sym('p2')
        t2 = SX.sym('t2')
        tau2 = SX.sym('tau2')

        ode2 = -2 * x2 + y2 * p2 * tau2
        alg2 = y2 - x2 - p2 * t2

        sys2 = DAESystem(x=x2, y=y2, ode=ode2, alg=alg2, tau=tau2, t=t2, p=p2)

        # Test
        res_sys = copy.copy(sys)
        res_sys.join(sys2)

        # check if variables and equations were passed
        for key in ['x', 'y', 'ode', 'alg', 'p']:
            self.assertTrue(
                is_equal(res_sys.__dict__[key][0], sys.__dict__[key], 30))
            self.assertTrue(
                is_equal(
                    res_sys.__dict__[key][1],
                    substitute(sys2.__dict__[key], vertcat(sys2.tau, sys2.t),
                               vertcat(sys.tau, sys.t)), 30))

        # check if t and tau was passed (it shouldn't)
        self.assertFalse(is_equal(res_sys.t, sys2.t))
        self.assertFalse(is_equal(res_sys.tau, sys2.tau))

        # if the joined equation still depends on sys2 time varibles
        self.assertFalse(res_sys.depends_on(sys2.t))
        self.assertFalse(res_sys.depends_on(sys2.tau))

Exemple #26

    def test_convert_from_tau_to_time(self):
        # Make system
        x = SX.sym('x', 2)
        y = SX.sym('y', 1)
        p = SX.sym('p')
        t = SX.sym('t')
        tau = SX.sym('tau')

        ode = tau
        alg = 1 - tau

        sys = DAESystem(x=x, y=y, ode=ode, alg=alg, tau=tau, t=t, p=p)

        # Test
        res = {'ode': t / 5, 'alg': (1 - t / 5)}
        sys.convert_from_tau_to_time(0, 5)
        self.assertTrue(is_equal(res['ode'], sys.ode, 10))
        self.assertTrue(is_equal(res['alg'], sys.alg, 10))

Exemple #27

    def test_convert_expr_from_tau_to_time(self):
        t = SX.sym('t')
        tau = SX.sym('tau')
        expr = tau
        t_0 = 5
        t_f = 15

        correct_res = (t - t_0) / (t_f - t_0)
        res = convert_expr_from_tau_to_time(expr, t, tau, t_0, t_f)
        self.assertTrue(is_equal(res, correct_res, 10))

Exemple #28

    def test_create_constant_theta(self):
        constant = 3
        dimension = 4
        finite_elements = 5

        # test normal use
        res_dict = dict(
            zip(range(finite_elements),
                [constant * DM.ones(dimension, 1)] * finite_elements))
        theta = create_constant_theta(constant, dimension, finite_elements)
        for el in range(finite_elements):
            self.assertTrue(is_equal(theta[el], res_dict[el]))

        # Test 0 dimension
        res_dict = dict(
            zip(range(finite_elements),
                [constant * DM.ones(0, 1)] * finite_elements))
        theta = create_constant_theta(constant, 0, finite_elements)
        for el in range(finite_elements):
            self.assertTrue(is_equal(theta[el], res_dict[el]))

Exemple #29

Fichier : test_system_model.py Projet : marcoaaguiar/yaocptool

def test_include_equations_ode_multi_dim(empty_model):
    x = empty_model.create_state("x", 2)
    u = empty_model.create_control("u", 2)

    a = DM([[-1, -2], [5, -1]])
    b = DM([[1, 0], [0, 1]])
    ode = (mtimes(a, x) + mtimes(b, u))
    empty_model.include_equations(ode=ode)

    assert empty_model.ode.shape == (2, 1)
    assert is_equal(empty_model.ode, ode)

Exemple #30

Fichier : test_system_model.py Projet : marcoaaguiar/yaocptool

    def test_get_variable_by_name(self):
        model = self.dae_model.get_copy()

        # Variable does not exist:
        self.assertRaises(ValueError, model.get_variable_by_name, "other_var")

        # Multiple vars
        self.assertRaises(ValueError, model.get_variable_by_name, "x")

        # Some var that exists and is unique
        var = model.get_variable_by_name("x_1")
        self.assertTrue(is_equal(model.x[1], var))