def test_mapping_precise(self):
        m = self.ensemble.approximate()
        m.outputs[0].lower = 0
        m.outputs[0].upper = 0
        m.outputs[1].lower = 1
        m.outputs[1].upper = 1
        m.outputs[2].lower = 2
        m.outputs[2].upper = 2

        for dim in range(3):
            self.assertTrue(vote.mapping_precise(m))
            m.outputs[dim].upper += 1
            self.assertFalse(vote.mapping_precise(m))
            m.outputs[dim].lower += 1
    def add_outputs(self, m):
        self.outputs.add((m.outputs[0].lower, m.outputs[0].upper))

        if vote.mapping_precise(m):
            return vote.PASS
        else:
            return vote.UNSURE
 def increment_counter_to_3(self, m):
     self.assertTrue(vote.mapping_precise(m))
     self.count += 1
     if self.count < 3:
         return vote.PASS
     else:
         return vote.FAIL
    def mapping_cb(self, m):
        x = [m.inputs[dim] for dim in range(m.nb_inputs)]
        y = [m.outputs[dim] for dim in range(m.nb_outputs)]

        if vote.mapping_precise(m):
            testcase_cb(self, x, y)
            return vote.PASS
        else:
            return vote.UNSURE
def is_valid_probability(mapping):
    minval = min(
        [mapping.outputs[dim].lower for dim in range(mapping.nb_outputs)])

    maxval = max(
        [mapping.outputs[dim].upper for dim in range(mapping.nb_outputs)])

    if minval >= 0 and maxval <= 1:
        return vote.PASS
    elif vote.mapping_precise(mapping):
        return vote.FAIL
    else:
        return vote.UNSURE
Beispiel #6
0
def check_mapping(oracle_fn, itype, otype, m, epsilon=0):
    center = [
        m.inputs[dim].lower + (m.inputs[dim].upper - m.inputs[dim].lower) / 2
        for dim in range(m.nb_inputs)
    ]

    lo = np.array([
        itype(m.inputs[dim].lower)
        if itype(m.inputs[dim].lower) >= m.inputs[dim].lower else np.nextafter(
            m.inputs[dim].lower, np.inf, dtype=itype)
        for dim in range(m.nb_inputs)
    ])

    hi = np.array([
        itype(m.inputs[dim].upper)
        if itype(m.inputs[dim].upper) <= m.inputs[dim].upper else np.nextafter(
            m.inputs[dim].upper, -np.inf, dtype=itype)
        for dim in range(m.nb_inputs)
    ])

    X = np.array([lo + epsilon, center, hi - epsilon], dtype=itype)
    Y = oracle_fn(X)

    lo = [
        otype(m.outputs[dim].lower)
        if otype(m.outputs[dim].lower) >= m.outputs[dim].lower else
        np.nextafter(m.outputs[dim].lower, np.inf, dtype=otype)
        for dim in range(m.nb_outputs)
    ]

    hi = [
        otype(m.outputs[dim].upper)
        if otype(m.outputs[dim].upper) <= m.outputs[dim].upper else
        np.nextafter(m.outputs[dim].upper, -np.inf, dtype=otype)
        for dim in range(m.nb_outputs)
    ]

    for xvec, yvec in zip(X, Y):
        for dim in range(m.nb_outputs):
            if lo[dim] > yvec[dim] + epsilon:
                return vote.FAIL

            if hi[dim] < yvec[dim] - epsilon:
                return vote.FAIL

    if vote.mapping_precise(m):
        return vote.PASS
    else:
        return vote.UNSURE
 def increment_counter(self, m):
     self.assertTrue(vote.mapping_precise(m))
     self.count += 1
     return vote.PASS