Exemplo n.º 1
0
 def test_variable_independence(self):
     model = Model()
     x = Variable('x', lb=0, ub=20)
     self.assertNotEqual(id(x), id(self.model.variables['x']))
     y = Variable('y', lb=0, ub=10)
     constr = Constraint(1. * x + y, lb=3, name="constr1")
     model.add(constr)
     self.assertNotEqual(id(self.model.variables['x']),
                         id(model.variables['x']))
     self.assertNotEqual(id(self.model.variables['y']),
                         id(model.variables['y']))
     self.assertNotEqual(self.model.variables['y'].problem, model)
     self.assertNotEqual(self.model.variables['x'].problem, model)
     x.lb = -10
     self.assertNotEqual(self.model.variables['x'].lb,
                         model.variables['x'].lb)
    def test_parse_linear_expression(self):
        x, y, z = self.vars[:3]
        offset = 3
        expr = 1 * x + 2 * y - 3 * z + offset
        target = {x: 1, y: 2, z: -3}

        offset_const, linear_terms_const, quad_terms_const = parse_optimization_expression(
            Constraint(expr, lb=0))
        offset_obj, linear_terms_obj, quad_terms_obj = parse_optimization_expression(
            Objective(expr), linear=False)

        self.assertEqual(offset_const, 0)
        self.assertEqual(offset_obj, offset)
        _compare_term_dicts(self, linear_terms_const, target)
        _compare_term_dicts(self, linear_terms_obj, target)
        self.assertEqual(quad_terms_const, {})
        self.assertEqual(quad_terms_obj, {})
Exemplo n.º 3
0
    def test_parse_quadratic_expression(self):
        x, y, z = self.vars[:3]

        offset = 4
        expr = 2 * x**2 + 3 * x * y - 4 * z**2 + offset
        target = {frozenset([x]): 2, frozenset([z]): -4, frozenset([x, y]): 3}

        offset_const, linear_terms_const, quad_terms_const = parse_optimization_expression(
            Constraint(expr, lb=0), linear=False)
        offset_obj, linear_terms_obj, quad_terms_obj = parse_optimization_expression(
            Objective(expr), quadratic=True)

        self.assertEqual(offset_const, 0)
        self.assertEqual(offset_obj, offset)
        self.assertEqual(linear_terms_const, {})
        self.assertEqual(linear_terms_obj, {})
        self.assertEqual(quad_terms_const, target)
        self.assertEqual(quad_terms_obj, target)
Exemplo n.º 4
0
    def test_parse_non_expanded_quadratic_expression(self):
        x, y, z = self.vars[:3]

        expr = (x + y)**2 - (z - 2)**2
        target = {
            frozenset([x]): 1,
            frozenset([y]): 1,
            frozenset([x, y]): 2,
            frozenset([z]): -1
        }
        linear_target = {z: 4}

        linear_terms_const, quad_terms_const = parse_optimization_expression(
            Constraint(expr, lb=0), quadratic=True)
        linear_terms_obj, quad_terms_obj = parse_optimization_expression(
            Objective(expr), linear=False)

        self.assertEqual(linear_terms_const, linear_target)
        self.assertEqual(linear_terms_obj, linear_target)
        self.assertEqual(quad_terms_const, target)
        self.assertEqual(quad_terms_obj, target)
Exemplo n.º 5
0
    def test_parse_non_expanded_quadratic_expression(self):
        x, y, z = self.vars[:3]

        offset = 5
        expr = (x + y)**2 - (z - 2)**2 + offset
        target = {frozenset([x]): 1, frozenset([y]): 1, frozenset([x, y]): 2, frozenset([z]): -1}
        linear_target = {z: 4}

        offset_const, linear_terms_const, quad_terms_const = parse_optimization_expression(Constraint(expr, lb=0), quadratic=True)
        offset_obj, linear_terms_obj, quad_terms_obj = parse_optimization_expression(Objective(expr), linear=False)

        self.assertEqual(offset_const, -4)
        self.assertEqual(offset_obj, -4 + offset)
        _compare_term_dicts(self, linear_terms_const, linear_target)
        _compare_term_dicts(self, linear_terms_obj, linear_target)
        _compare_term_dicts(self, quad_terms_const, target)
        _compare_term_dicts(self, quad_terms_obj, target)
Exemplo n.º 6
0
 def test_canonicalization_with_lb_and_ub(self):
     constraint = Constraint(-20 + self.x + 3, ub=666, lb=-666)
     self.assertEqual(constraint.lb, -649)
     self.assertEqual(constraint.ub, 683)
     self.assertEqual(constraint.expression, self.x)
Exemplo n.º 7
0
 def test_canonicalization_with_lb(self):
     constraint = Constraint(-20 + self.x + 3, lb=-666)
     self.assertEqual(constraint.lb, -649)
     self.assertEqual(constraint.ub, None)
     self.assertEqual(constraint.expression, self.x)