Ejemplos de mk_observable_vars en Python

Ejemplo n.º 1

Archivo: testDiagnosability.py Proyecto: xgillard/pynusmv

 def test_mk_observable_vars(self):
     enc = master_be_fsm().encoding
     
     # if a non existing var name is passed, an exception is thrown
     with self.assertRaises(ValueError):
             diagnosability.mk_observable_vars(["a"])
             
     observable = diagnosability.mk_observable_vars(["status"])
     self.assertEqual(observable, [enc.by_name["status.1"], enc.by_name["status.0"]])

Ejemplo n.º 2

Archivo: testDiagnosability.py Proyecto: xgillard/pynusmv

 def test_verify_exactly(self):
     theta = Node.from_ptr(parse_simple_expression("TRUE"))
     theta = bmcutils.make_nnf_boolean_wff(theta)
     
     sigma_12= Node.from_ptr(parse_ltl_spec("TRUE"))
     sigma_12= bmcutils.make_nnf_boolean_wff(sigma_12).to_node()
     
     obs_names = ["mouse"]
     obs_vars  = diagnosability.mk_observable_vars(obs_names)
     f1 = Node.from_ptr(parse_simple_expression("status = active"))
     f2 = Node.from_ptr(parse_simple_expression("status = inactive"))
     
     for i in range(5):
         res = diagnosability.verify_for_size_exactly_k(obs_names, obs_vars, (f1, f2), i, theta, sigma_12, sigma_12)
         self.assertEqual("No Violation", res)
     
     f1 = Node.from_ptr(parse_simple_expression("status = active"))
     f2 = Node.from_ptr(parse_simple_expression("status = highlight"))
     
     res = diagnosability.verify_for_size_exactly_k(obs_names, obs_vars, (f1, f2), 0, theta, sigma_12, sigma_12)
     self.assertEqual("No Violation", res)
     
     res = diagnosability.verify_for_size_exactly_k(obs_names, obs_vars, (f1, f2), 1, theta, sigma_12, sigma_12)
     self.assertTrue(res.startswith("############### DIAGNOSABILITY VIOLATION"))
     
     res = diagnosability.verify_for_size_exactly_k(obs_names, obs_vars, (f1, f2), 2, theta, sigma_12, sigma_12)
     self.assertTrue(res.startswith("############### DIAGNOSABILITY VIOLATION"))
     
     res = diagnosability.verify_for_size_exactly_k(obs_names, obs_vars, (f1, f2), 3, theta, sigma_12, sigma_12)
     self.assertTrue(res.startswith("############### DIAGNOSABILITY VIOLATION"))

Ejemplo n.º 3

Archivo: testDiagnosability.py Proyecto: xgillard/pynusmv

 def test_generate_sat_problem(self):
     theta = Node.from_ptr(parse_simple_expression("TRUE"))
     theta = bmcutils.make_nnf_boolean_wff(theta)
     
     sigma_12= Node.from_ptr(parse_ltl_spec("TRUE"))
     sigma_12= bmcutils.make_nnf_boolean_wff(sigma_12).to_node()
     
     observable = diagnosability.mk_observable_vars(["mouse"])
     f1 = Node.from_ptr(parse_simple_expression("status = active"))
     f2 = Node.from_ptr(parse_simple_expression("status = inactive"))
      
     for i in range(5):
         problem = diagnosability.generate_sat_problem(observable, (f1, f2), i, theta, sigma_12, sigma_12)
         solver  = SatSolverFactory.create()
         cnf     = problem.to_cnf()
         solver += cnf
         solver.polarity(cnf, Polarity.POSITIVE)
         self.assertEqual(SatSolverResult.UNSATISFIABLE, solver.solve())
          
     f1 = Node.from_ptr(parse_simple_expression("status = active"))
     f2 = Node.from_ptr(parse_simple_expression("status = highlight"))
      
     for i in range(1, 4): 
         # length zero has no input => only an initial state and the 
         # diagnosability condition is not checked
         problem = diagnosability.generate_sat_problem(observable, (f1, f2), i, theta, sigma_12, sigma_12)
         solver  = SatSolverFactory.create()
         cnf     = problem.to_cnf()
         solver += cnf
         solver.polarity(cnf, Polarity.POSITIVE)
         self.assertEqual(SatSolverResult.SATISFIABLE, solver.solve())

Ejemplo n.º 4

Archivo: testDiagnosability.py Proyecto: xgillard/pynusmv

 def test_constraint_same_observations(self):
     observable = diagnosability.mk_observable_vars(["mouse"])
     constraint = diagnosability.constraint_same_observations(observable, 0, 5, 5)
     model      = bmcutils.BmcModel()
     
     manual     = Be.true(model._fsm.encoding.manager)
     for i in range(6): # because we want to go from 0 through 5
         for v in model._fsm.encoding.input_variables:
             v_1 = v.at_time[i].boolean_expression
             v_2 = v.at_time[5+i].boolean_expression
             manual &= v_1.iff(v_2)
     
     self.assertEqual(manual, constraint)