def test_specification_ex2(self):
     with open('./../examples/ex2.monitor', 'r') as m:
         for line in m:
             data = json.loads(line)
             print("Topics: %s" % data['topics'])
             self.topics = data['topics']
             print("Specification: %s" % data['specification'])
             lexer = SpecificationLexer(InputStream(data['specification']))
             parser = SpecificationParser(CommonTokenStream(lexer))
             ast = AST().visit(parser.specification())
             self.formula = ast.accept(Rewriter())
             print("Formula: %s" % self.formula)
     monitor = Monitor(formula=self.formula, topics=self.topics)
     with open('./../examples/ex2.trace', 'r') as trace:
         for event in trace:
             event = json.loads(event)
             monitor.step(timestamp=event.pop('timestamp', None),
                          state=event)
             if len(monitor.boolean_verdicts) != 0:
                 print("Boolean verdicts for time-point %d:" % monitor.now)
                 for boolean_verdict in sorted(monitor.boolean_verdicts):
                     print("(%d,%d):%s" %
                           (boolean_verdict[0][0], boolean_verdict[0][1],
                            boolean_verdict[1]))
             if len(monitor.equivalence_verdicts) != 0:
                 print("Equivalence verdicts for time-point %d:" %
                       monitor.now)
                 for equivalence_verdict in sorted(
                         monitor.equivalence_verdicts):
                     print("(%d,%d) = (%d,%d)" %
                           (equivalence_verdict[0][0][0],
                            equivalence_verdict[0][0][1],
                            equivalence_verdict[1][0][0],
                            equivalence_verdict[1][0][1]))
     self.assertEqual(BExp.FalseConstant(), monitor.previous[-1])
 def test_eventually_bounded(self):
     lexer = SpecificationLexer(InputStream("eventually[0,1] a"))
     stream = CommonTokenStream(lexer)
     parser = SpecificationParser(stream)
     ast = AST().visit(parser.specification())
     specification = ast.accept(Rewriter())
     self.assertEqual(specification, Until(Boolean(True), Atomic("a"), 0,
                                           1))
 def test_always(self):
     lexer = SpecificationLexer(InputStream("always a"))
     stream = CommonTokenStream(lexer)
     parser = SpecificationParser(stream)
     ast = AST().visit(parser.specification())
     specification = ast.accept(Rewriter())
     self.assertEqual(
         specification,
         Negation(Until(Boolean(True), Negation(Atomic("a")), 0, math.inf)))
Ejemplo n.º 4
0
 def add_monitor(self, specification, topics):
     print("Topics: %s" % topics)
     print("Specification: %s" % specification)
     lexer = SpecificationLexer(InputStream(specification))
     parser = SpecificationParser(CommonTokenStream(lexer))
     ast = AST().visit(parser.specification())
     formula = ast.accept(Rewriter())
     print("Formula: %s" % formula)
     self.monitors[Monitor(formula=formula,
                           topics=topics)] = self.horizon(formula)
     for topic in topics:
         self.subscribe(topic)
 def test_combination(self):
     lexer = SpecificationLexer(
         InputStream("always(E implies eventually[0, 10] R)"))
     stream = CommonTokenStream(lexer)
     parser = SpecificationParser(stream)
     ast = AST().visit(parser.specification())
     specification = ast.accept(Rewriter())
     self.assertEqual(
         specification,
         Negation(
             Until(
                 Boolean(True),
                 Negation(
                     Disjunction(Negation(Atomic("E")),
                                 Until(Boolean(True), Atomic("R"), 0, 10))),
                 0, math.inf)))
 def test_since_bounded(self):
     lexer = SpecificationLexer(InputStream("a since[0,1] b"))
     stream = CommonTokenStream(lexer)
     parser = SpecificationParser(stream)
     ast = AST().visit(parser.specification())
     self.assertEqual(ast, Since(Atomic("a"), Atomic("b"), 0, 1))
 def test_until_bounded(self):
     lexer = SpecificationLexer(InputStream("a until[0,4] b"))
     stream = CommonTokenStream(lexer)
     parser = SpecificationParser(stream)
     ast = AST().visit(parser.specification())
     self.assertEqual(ast, Until(Atomic("a"), Atomic("b"), 0, 4))
 def test_implication(self):
     lexer = SpecificationLexer(InputStream("a implies b"))
     stream = CommonTokenStream(lexer)
     parser = SpecificationParser(stream)
     ast = AST().visit(parser.specification())
     self.assertEqual(ast, Implication(Atomic("a"), Atomic("b")))