Beispiel #1
0
def monitor():
    # data
    dataSet = {
        'a': [(0, 100.0), (1, -1.0), (2, -2.0)],
        'b': [(0, 20.0), (1, 2.0), (2, -10.0)]
    }

    for i in range(0, 7):

        bound = 10**i
        bound_str = str(bound)

        spec_python = rtamt.STLDiscreteTimeSpecification(
            language=rtamt.Language.PYTHON)
        spec_python.name = 'PythonMonitor'
        spec_python.declare_var('a', 'float')
        spec_python.declare_var('b', 'float')
        spec_python.declare_var('c', 'float')
        spec_python.spec = 'c = always[0:' + bound_str + '](a + b >= - 2)'

        spec_cpp = rtamt.STLDiscreteTimeSpecification(
            language=rtamt.Language.CPP)
        spec_cpp.name = 'CPPMonitor'
        spec_cpp.declare_var('a', 'float')
        spec_cpp.declare_var('b', 'float')
        spec_cpp.declare_var('c', 'float')
        spec_cpp.spec = 'c = always[0:' + bound_str + '](a + b >= - 2)'

        try:
            spec_python.parse()
            spec_cpp.parse()
        except rtamt.STLParseException as err:
            print('STL Parse Exception: {}'.format(err))
            sys.exit()

        # # eval
        aTraj = dataSet['a']
        bTraj = dataSet['b']
        for i in range(len(dataSet['a'])):
            aData = aTraj[i]
            bData = bTraj[i]
            start_python = time.time()
            spec_python.update(aData[0], [('a', aData[1]), ('b', bData[1])])
            end_python = time.time()
            start_cpp = time.time()
            spec_cpp.update(aData[0], [('a', aData[1]), ('b', bData[1])])
            end_cpp = time.time()

            time_python = end_python - start_python
            time_cpp = end_cpp - start_cpp

            print('Bound {0} - Python time {1} - CPP time {2}'.format(
                bound, time_python, time_cpp))
Beispiel #2
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def monitor():
    # data
    dataSet = {
        'a': [(0, 100.0), (1, -1.0), (2, -2.0)],
        'b': [(0, 20.0), (1, 2.0), (2, -10.0)]
    }

    # # stl
    spec = rtamt.STLDiscreteTimeSpecification(1)
    spec.name = 'HandMadeMonitor'
    spec.declare_var('a', 'float')
    spec.declare_var('b', 'float')
    spec.declare_var('c', 'float')
    spec.spec = 'c = (a>=2) unless[1,2] (b>=-2)'

    try:
        spec.parse()
        spec.pastify()
    except rtamt.STLParseException as err:
        print('STL Parse Exception: {}'.format(err))
        sys.exit()

    # # eval
    aTraj = dataSet['a']
    bTraj = dataSet['b']
    for i in range(len(dataSet['a'])):
        aData = aTraj[i]
        bData = bTraj[i]
        rob = spec.update(aData[0], [('a', aData[1]), ('b', bData[1])])
        print('time=' + str(aData[0]) + ' rob=' + str(rob))
Beispiel #3
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    def test_example(self):
        spec = rtamt.STLDiscreteTimeSpecification(0)
        spec.name = 'STL Example specification'

        self.assertEqual(spec.name, 'STL Example specification',
                         'Spec name assertion')

        spec.declare_var('req', 'float')
        spec.declare_var('gnt', 'float')
        spec.declare_var('out', 'float')

        spec.spec = 'out = req'

        self.assertEqual(spec.spec, 'out = req', 'Spec assertion')
        self.assertEqual(spec.sampling_tolerance, 0.1,
                         'Spec sampling tolerance assertion')

        try:
            spec.parse()
            computed = spec.update(0, [['req', 2.2], ['gnt', 1]])
            self.assertEqual(2.2, computed, 'First computation')

            computed = spec.update(1.2, [['req', 4.2], ['gnt', -3.7]])
            self.assertEqual(4.2, computed, 'First computation')
            self.assertEqual(1, spec.sampling_violation_counter,
                             'Violation counter')
        except rtamt.STLParseException as err:
            print('STL Parse Exception: {}'.format(err))
    def test_default_unit_default_sampling_unit_greater_tolerance_ok_samples(self):
        spec = rtamt.STLDiscreteTimeSpecification()
        spec.name = 'STL Example specification'

        self.assertEqual(spec.name, 'STL Example specification', 'Spec name assertion')

        spec.declare_var('req', 'float')
        spec.declare_var('gnt', 'float')
        spec.declare_var('out', 'float')

        spec.set_sampling_period(1, 's', 0.5)

        spec.spec = 'out = rise(req)'

        try:
            spec.parse();
            spec.update(0, [['req', 2.2], ['gnt', 1]])
            spec.update(1.11, [['req', 2.2], ['gnt', 1]])
            spec.update(1.99, [['req', 2.2], ['gnt', 1]])
            spec.update(3.38, [['req', 2.2], ['gnt', 1]])
            spec.update(4.39, [['req', 2.2], ['gnt', 1]])

            self.assertEqual(0, spec.sampling_violation_counter, 'Violation counter')
        except rtamt.STLParseException as err:
            print('STL Parse Exception: {}'.format(err))
def monitor():
    # Load traces
    data = read_csv('example1.csv')

    spec = rtamt.STLDiscreteTimeSpecification()
    spec.name = 'Example 1'
    spec.declare_const('threshold', 'float', '3')
    spec.declare_const('T', 'float', '5')
    spec.declare_var('req', 'float')
    spec.declare_var('gnt', 'float')
    spec.declare_var('response', 'float')
    spec.declare_var('out', 'float')
    spec.set_var_io_type('req', 'input')
    spec.set_var_io_type('gnt', 'output')
    spec.add_sub_spec('response = eventually[0:T s](gnt >= threshold)')
    spec.spec = 'out = ((req >= threshold) implies response)'
    try:
        spec.parse()
        spec.pastify()
    except rtamt.STLParseException as err:
        print('STL Parse Exception: {}'.format(err))
        sys.exit()

    for i in range(len(data[' gnt'])):
        out_rob = spec.update(i, [('req', data[' req'][i][1]),
                                  ('gnt', data[' gnt'][i][1])])
        response_rob = spec.get_value('response')
        print(
            'time: {0}, response robustness: {1}, out robustness: {2}'.format(
                i, response_rob, out_rob))
Beispiel #6
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def monitor():
    # data
    dataSet = {
         'a': [(0, 100.0), (1, -1.0), (2, -2.0)],
         'b': [(0, 20.0), (1, 2.0), (2, -10.0)]
    }

    # # stl
    spec = rtamt.STLDiscreteTimeSpecification(language=rtamt.Language.PYTHON)
    spec.name = 'HandMadeMonitor'
    spec.declare_var('a', 'float')
    spec.declare_var('b', 'float')
    spec.declare_const('c', 'float', '5.2')
    spec.declare_const('d', 'float', '2')
    spec.spec = 'a + b >= once[0, d s] c'

    try:
        spec.parse()
    except rtamt.STLParseException as err:
        print('STL Parse Exception: {}'.format(err))
        sys.exit()

    # # eval
    aTraj = dataSet['a']
    bTraj = dataSet['b']
    for i in range(len(dataSet['a'])):
        aData = aTraj[i]
        bData = bTraj[i]
        rob = spec.update(aData[0], [('a', aData[1]), ('b', bData[1])])
        print('time='+str(aData[0])+' rob='+str(rob))
Beispiel #7
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    def test_eventually_with_pastify(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = eventually(req)'

        spec.parse()

        self.assertRaises(rtamt.LTLPastifyException, spec.pastify)
Beispiel #8
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    def test_always_0_1_without_pastify(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = always[0,1](req)'

        spec.parse()

        self.assertRaises(rtamt.STLNotImplementedException, spec.update, 0, [('req', self.left1)])
Beispiel #9
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    def test_until_0_1_without_pastify(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('gnt', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = req until[0,1] gnt'

        spec.parse()

        self.assertRaises(rtamt.STLNotImplementedException, spec.update, 0, [('req', self.left1), ('gnt', self.right1)])
    def test_constant_1(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('out', 'float')
        spec.spec = 'out = 5'

        spec.parse();
        out = spec.evaluate(self.dataset)
        expected = [[0, 5], [1, 5], [2, 5], [3, 5], [4, 5]]

        self.assertListEqual(out, expected, "constant")
Beispiel #11
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    def test_always_with_pastify(self):
        spec = rtamt.STLDiscreteTimeSpecification()
        spec.declare_var('req', 'float')
        spec.declare_var('gnt', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = req until gnt'

        spec.parse()

        self.assertRaises(rtamt.LTLPastifyException, spec.pastify)
    def test_next(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = next req'

        spec.parse();
        out = spec.evaluate(self.dataset)
        expected = [[0, -1], [1, -2], [2, 5], [3, -1], [4, float("inf")]]

        self.assertListEqual(out, expected, "next")
    def test_previous(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = prev req'

        spec.parse();
        out = spec.evaluate(self.dataset)
        expected = [[0, float("inf")], [1, 100], [2, -1], [3, -2], [4, 5]]

        self.assertListEqual(out, expected, "previous")
    def test_always(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = always req'

        spec.parse();
        out = spec.evaluate(self.dataset)
        expected = [[0, -2], [1, -2], [2, -2], [3, -1], [4, -1]]

        self.assertListEqual(out, expected, "always")
    def test_sqrt(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = sqrt(abs(req))'

        spec.parse();
        out = spec.evaluate(self.dataset)
        expected = [[0, math.sqrt(100)], [1, math.sqrt(1)], [2, math.sqrt(2)], [3, math.sqrt(5)], [4, math.sqrt(1)]]

        self.assertListEqual(out, expected, "abs")
    def test_abs(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = abs(req)'

        spec.parse();
        out = spec.evaluate(self.dataset)
        expected = [[0, 100], [1, 1], [2, 2], [3, 5], [4, 1]]

        self.assertListEqual(out, expected, "abs")
Beispiel #17
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    def test_constant(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('out', 'float')
        spec.spec = 'out = 5'

        spec.parse();
        out1 = spec.update(0, [])
        out2 = spec.update(1, [])

        self.assertEqual(out1, 5, "input 1")
        self.assertEqual(out2, 5, "input 2")
    def test_historically_1_2(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = historically[1,2] req'

        spec.parse();
        out = spec.evaluate(self.dataset)
        expected = [[0, float("inf")], [1, 100], [2, -1], [3, -2], [4, -2]]

        self.assertListEqual(out, expected, "historically[1,2]")
    def test_pow(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = pow(2.2,req)'

        spec.parse();
        out = spec.evaluate(self.dataset)
        expected = [[0, math.pow(2.2, 100)], [1, math.pow(2.2, -1)], [2, math.pow(2.2, -2)], [3, math.pow(2.2, 5)], [4, math.pow(2.2, -1)]]

        self.assertListEqual(out, expected, "pow")
    def test_once_0_1(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = once[0,1] req'

        spec.parse();
        out = spec.evaluate(self.dataset)
        expected = [[0, 100], [1, 100], [2, -1], [3, 5], [4, 5]]

        self.assertListEqual(out, expected, "once[0,1]")
    def test_eventually(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = eventually req'

        spec.parse();
        out = spec.evaluate(self.dataset)
        expected = [[0, 100], [1, 5], [2, 5], [3, 5], [4, -1]]

        self.assertListEqual(out, expected, "eventually")
    def test_addition(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('gnt', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = req + gnt'

        spec.parse();
        out = spec.evaluate(self.dataset)
        expected = [[0, 120], [1, -3], [2, 8], [3, 9], [4, -2]]

        self.assertListEqual(out, expected, "addition")
    def test_iff(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('gnt', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = req iff gnt'

        spec.parse();
        out = spec.evaluate(self.dataset)
        expected = [[0, -80], [1, -1], [2, -12], [3, -1], [4, 0]]

        self.assertListEqual(out, expected, "iff")
    def test_division(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('gnt', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = req / gnt'

        spec.parse();
        out = spec.evaluate(self.dataset)
        expected = [[0, 100/20], [1, -1/-2], [2, -2/10], [3, 5/4], [4, -1/-1]]

        self.assertListEqual(out, expected, "division")
    def test_multiplication(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('gnt', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = req * gnt'

        spec.parse();
        out = spec.evaluate(self.dataset)
        expected = [[0, 2000], [1, 2], [2, -20], [3, 20], [4, 1]]

        self.assertListEqual(out, expected, "multiplication")
    def test_predicate_neq(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('gnt', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = req !== gnt'

        spec.parse();
        out = spec.evaluate(self.dataset)
        expected = [[0, 80], [1, 1], [2, 12], [3, 1], [4, 0]]

        self.assertListEqual(out, expected, "neq")
    def test_until_0_1(self):
        spec = rtamt.STLDiscreteTimeSpecification();
        spec.declare_var('req', 'float')
        spec.declare_var('gnt', 'float')
        spec.declare_var('out', 'float')
        spec.spec = 'out = req until[0,1] gnt'

        spec.parse();
        out = spec.evaluate(self.dataset)
        expected = [[0, 20], [1, -1], [2, 10], [3, 4], [4, -1]]

        self.assertListEqual(out, expected, "until")
Beispiel #28
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    def test_interval_style(self):
        spec_comma = rtamt.STLDiscreteTimeSpecification()
        spec_comma.name = 'STL Comma Style'

        spec_column = rtamt.STLDiscreteTimeSpecification()
        spec_column.name = 'STL Column Style'

        spec_comma.declare_var('req', 'float')
        spec_comma.declare_var('gnt', 'float')
        spec_comma.declare_var('out', 'float')

        spec_column.declare_var('req', 'float')
        spec_column.declare_var('gnt', 'float')
        spec_column.declare_var('out', 'float')

        spec_comma.spec = 'out = once[0,2] (req<=2 and gnt>=3)'
        spec_column.spec = 'out = once[0:2] (req<=2 and gnt>=3)'

        try:
            spec_comma.parse();
            spec_column.parse();
            
            computed_comma = spec_comma.update(0, [['req', 2.2], ['gnt', 1]])
            computed_column = spec_column.update(0, [['req', 2.2], ['gnt', 1]])
            self.assertEqual(computed_comma, computed_column, 'First computation')

            computed_comma = spec_comma.update(1, [['req', 1.2], ['gnt', 3.1]])
            computed_column = spec_column.update(1, [['req', 1.2], ['gnt', 3.1]])
            self.assertEqual(computed_comma, computed_column, 'Second computation')

            computed_comma = spec_comma.update(2, [['req', 3.3], ['gnt', 1.4]])
            computed_column = spec_column.update(2, [['req', 3.3], ['gnt', 1.4]])
            self.assertEqual(computed_comma, computed_column, 'Second computation')

            computed_comma = spec_comma.update(3, [['req', 4.3], ['gnt', 4.4]])
            computed_column = spec_column.update(3, [['req', 4.3], ['gnt', 4.4]])
            self.assertEqual(computed_comma, computed_column, 'Second computation')

        except rtamt.STLParseException as err:
            print('STL Parse Exception: {}'.format(err))
Beispiel #29
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    def test_output_vacuity(self):
        spec = rtamt.STLDiscreteTimeSpecification(
            semantics=rtamt.Semantics.OUTPUT_VACUITY)
        spec.declare_var('req', 'float')
        spec.declare_var('gnt', 'float')
        spec.declare_var('out', 'float')
        spec.set_var_io_type('req', 'output')
        spec.set_var_io_type('gnt', 'input')
        spec.spec = 'out = (req >= 3) implies (gnt >= 0)'

        spec.parse()

        out = spec.evaluate(self.dataset)
        expected = [[0, 0], [1, 4], [2, 5], [3, 0], [4, 4]]

        self.assertListEqual(out, expected, "output vacuity")
Beispiel #30
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    def test_input_robustness(self):
        spec = rtamt.STLDiscreteTimeSpecification(
            semantics=rtamt.Semantics.INPUT_ROBUSTNESS)
        spec.declare_var('req', 'float')
        spec.declare_var('gnt', 'float')
        spec.declare_var('out', 'float')
        spec.set_var_io_type('req', 'output')
        spec.set_var_io_type('gnt', 'input')
        spec.spec = 'out = (req >= 3) implies (gnt >= 0)'

        spec.parse()

        out = spec.evaluate(self.dataset)
        expected = [[0, 20], [1, float("inf")], [2, float("inf")], [3, 4],
                    [4, float("inf")]]

        self.assertListEqual(out, expected, "input robustness")