def test_build_basic_network(self):
bn = NetworkExamples.construct_basic_network()
assert len(bn.get_nodes()) == 8
assert len(bn.get_node("Burglary").get_output_nodes()) == 3
assert len(bn.get_node("Alarm").get_output_nodes()) == 2
assert len(bn.get_node("Alarm").get_input_nodes()) == 2
assert len(bn.get_node("Util1").get_input_nodes()) == 2
assert len(bn.get_node("Burglary").get_values()) == 2
assert len(bn.get_node("Alarm").get_values()) == 2
assert len(bn.get_node("MaryCalls").get_values()) == 2
assert ValueFactory.create(True) in bn.get_node(
"Burglary").get_values()
assert bn.get_chance_node("Burglary").get_prob(
ValueFactory.create(True)) == pytest.approx(0.001, abs=0.0001)
assert bn.get_chance_node("Alarm").get_prob(
Assignment(["Burglary", "Earthquake"]),
ValueFactory.create(True)) == pytest.approx(0.95, abs=0.0001)
assert bn.get_chance_node("JohnCalls").get_prob(
Assignment("Alarm"),
ValueFactory.create(True)) == pytest.approx(0.9, abs=0.0001)
assert len(bn.get_action_node("Action").get_values()) == 3
assert bn.get_utility_node("Util2").get_utility(
Assignment(Assignment("Burglary"), "Action",
ValueFactory.create("DoNothing"))) == pytest.approx(
-10, abs=0.0001)
def test_table_expansion(self):
bn = NetworkExamples.construct_basic_network()
builder = CategoricalTableBuilder("HouseSize")
builder.add_row(ValueFactory.create("Small"), 0.7)
builder.add_row(ValueFactory.create("Big"), 0.2)
builder.add_row(ValueFactory.create("None"), 0.1)
node = ChanceNode("HouseSize", builder.build())
bn.add_node(node)
bn.get_node("Burglary").add_input_node(node)
assert bn.get_chance_node("Burglary").get_prob(
Assignment(["HouseSize", "Small"]),
ValueFactory.create(True)) == pytest.approx(0.001, abs=0.0001)
assert bn.get_chance_node("Burglary").get_prob(
Assignment(["HouseSize", "Big"]),
ValueFactory.create(True)) == pytest.approx(0.001, abs=0.0001)
bn.get_node("Alarm").add_input_node(node)
assert bn.get_chance_node("Alarm").get_prob(
Assignment(["Burglary", "Earthquake"]),
ValueFactory.create(True)) == pytest.approx(0.95, abs=0.0001)
assert bn.get_chance_node("Alarm").get_prob(
Assignment(Assignment(["Burglary", "Earthquake"]), "HouseSize",
ValueFactory.create("None")),
ValueFactory.create(True)) == pytest.approx(0.95, abs=0.0001)
def test_network1(self):
bn = NetworkExamples.construct_basic_network()
full_joint = NaiveInference.get_full_joint(bn, False)
assert full_joint[Assignment(
["JohnCalls", "MaryCalls", "Alarm", "!Burglary",
"!Earthquake"])] == pytest.approx(0.000628, abs=0.000001)
assert full_joint.get(
Assignment([
"!JohnCalls", "!MaryCalls", "!Alarm", "!Burglary",
"!Earthquake"
])) == pytest.approx(0.9367428, abs=0.000001)
naive = NaiveInference()
query = naive.query_prob(bn, ["Burglary"],
Assignment(["JohnCalls", "MaryCalls"]))
assert query.get_prob(Assignment("Burglary",
False)) == pytest.approx(0.71367,
abs=0.0001)
assert query.get_prob(Assignment("Burglary",
True)) == pytest.approx(0.286323,
abs=0.0001)
query2 = naive.query_prob(bn, ["Alarm", "Burglary"],
Assignment(["Alarm", "MaryCalls"]))
assert query2.get_prob(Assignment(["Alarm", "!Burglary"
])) == pytest.approx(0.623974,
abs=0.001)
def test_network1bis(self):
bn = NetworkExamples.construct_basic_network2()
full_joint = NaiveInference.get_full_joint(bn, False)
assert full_joint.get(
Assignment([
"JohnCalls", "MaryCalls", "Alarm", "!Burglary", "!Earthquake"
])) == pytest.approx(0.000453599, abs=0.000001)
assert full_joint.get(
Assignment([
"!JohnCalls", "!MaryCalls", "!Alarm", "!Burglary",
"!Earthquake"
])) == pytest.approx(0.6764828, abs=0.000001)
naive = NaiveInference()
query = naive.query_prob(bn, ["Burglary"],
Assignment(["JohnCalls", "MaryCalls"]))
assert query.get_prob(Assignment("Burglary",
False)) == pytest.approx(0.360657,
abs=0.0001)
assert query.get_prob(Assignment("Burglary",
True)) == pytest.approx(0.639343,
abs=0.0001)
query2 = naive.query_prob(bn, ["Alarm", "Burglary"],
Assignment(["Alarm", "MaryCalls"]))
assert query2.get_prob(Assignment(["Alarm", "!Burglary"
])) == pytest.approx(0.3577609,
abs=0.001)
def test_removal(self):
bn = NetworkExamples.construct_basic_network()
bn.remove_node("Earthquake")
assert len(bn.get_chance_node("Alarm").get_input_nodes()) == 1
bn.remove_node("Alarm")
assert len(bn.get_chance_node("MaryCalls").get_input_nodes()) == 0
assert len(bn.get_chance_node("Burglary").get_output_nodes()) == 2
assert len(bn.get_nodes()) == 6
bn = NetworkExamples.construct_basic_network()
e = bn.get_chance_node("Alarm")
e.remove_input_node("Earthquake")
assert len(bn.get_chance_node("Alarm").get_input_nodes()) == 1
assert len(bn.get_chance_node("Earthquake").get_output_nodes()) == 0
def test_switching(self):
old_factor = SwitchingAlgorithm.max_branching_factor
SwitchingAlgorithm.max_branching_factor = 4
network = NetworkExamples.construct_basic_network2()
distrib = SwitchingAlgorithm().query_prob(
network, ["Burglary"], Assignment(["JohnCalls", "MaryCalls"]))
assert isinstance(distrib, MultivariateTable)
builder = CategoricalTableBuilder("n1")
builder.add_row(ValueFactory.create("aha"), 1.0)
n1 = ChanceNode("n1", builder.build())
network.add_node(n1)
builder = CategoricalTableBuilder("n2")
builder.add_row(ValueFactory.create("oho"), 0.7)
n2 = ChanceNode("n2", builder.build())
network.add_node(n2)
builder = CategoricalTableBuilder("n3")
builder.add_row(ValueFactory.create("ihi"), 0.7)
n3 = ChanceNode("n3", builder.build())
network.add_node(n3)
network.get_node("Alarm").add_input_node(n1)
network.get_node("Alarm").add_input_node(n2)
network.get_node("Alarm").add_input_node(n3)
distrib = SwitchingAlgorithm().query_prob(
network, ["Burglary"], Assignment(["JohnCalls", "MaryCalls"]))
assert distrib.__class__ == EmpiricalDistribution
network.remove_node(n1.get_id())
network.remove_node(n2.get_id())
distrib = SwitchingAlgorithm().query_prob(
network, ["Burglary"], Assignment(["JohnCalls", "MaryCalls"]))
assert isinstance(distrib, MultivariateTable)
n1 = ChanceNode(
"n1",
ContinuousDistribution("n1", UniformDensityFunction(-2.0, 2.0)))
n2 = ChanceNode(
"n2",
ContinuousDistribution("n2", GaussianDensityFunction(-1.0, 3.0)))
network.add_node(n1)
network.add_node(n2)
network.get_node("Earthquake").add_input_node(n1)
network.get_node("Earthquake").add_input_node(n2)
distrib = SwitchingAlgorithm().query_prob(
network, ["Burglary"], Assignment(["JohnCalls", "MaryCalls"]))
assert isinstance(distrib, EmpiricalDistribution)
SwitchingAlgorithm.max_branching_factor = old_factor
def test_id_chance(self):
bn = NetworkExamples.construct_basic_network()
node = bn.get_node("Alarm")
node.set_id("Alarm2")
assert bn.has_node("Alarm2")
assert not bn.has_node("Alarm")
assert bn.has_chance_node("Alarm2")
assert not bn.has_chance_node("Alarm")
assert "Alarm2" in bn.get_node("Burglary").get_output_node_ids()
assert "Alarm" not in bn.get_node("Burglary").get_output_node_ids()
assert "Alarm2" in bn.get_node("MaryCalls").get_input_node_ids()
assert "Alarm" not in bn.get_node("MaryCalls").get_input_node_ids()
def test_cliques(self):
bn = NetworkExamples.construct_basic_network()
assert len(bn.get_cliques()) == 1
assert len(bn.get_cliques()[0]) == 8
bn.get_node("JohnCalls").remove_input_node("Alarm")
cliques = bn.get_cliques()
assert len(cliques) == 2
# 원래 테스트 케이스와 셋에 대한 정렬 순서가 달라 테스트케이스 그대로 활용 불가능.
# assert len(bn.get_cliques()[1]) == 7
# assert len(bn.get_cliques()[0]) == 1
result = dict()
for clique in cliques:
if len(clique) not in result:
result[len(clique)] = 0
result[len(clique)] += 1
assert result[7] == 1
del result[7]
assert result[1] == 1
del result[1]
assert len(result) == 0
bn.get_node("Alarm").remove_input_node("Burglary")
bn.get_node("Alarm").remove_input_node("Earthquake")
cliques = bn.get_cliques()
assert len(cliques) == 4
# 원래 테스트 케이스와 셋에 대한 정렬 순서가 달라 테스트케이스 그대로 활용 불가능.
# assert len(bn.get_cliques()[3]) == 2
# assert len(bn.get_cliques()[2]) == 4
# assert len(bn.get_cliques()[1]) == 1
# assert len(bn.get_cliques()[0]) == 1
result = dict()
for clique in cliques:
if len(clique) not in result:
result[len(clique)] = 0
result[len(clique)] += 1
assert result[1] == 2
del result[1]
assert result[2] == 1
del result[2]
assert result[4] == 1
del result[4]
assert len(result) == 0
def test_copy_id_change(self):
bn = NetworkExamples.construct_basic_network()
bn2 = copy(bn)
node = bn.get_node("Earthquake")
node.set_id("Earthquake2")
assert "Earthquake2" not in bn2.get_node("Alarm").get_input_node_ids()
assert "Earthquake2" not in bn2.get_node("Alarm").get_input_node_ids()
node2 = bn.get_node("Alarm")
node2.set_id("Alarm2")
assert "Alarm2" not in bn2.get_node("MaryCalls").get_input_node_ids()
assert "Alarm2" not in bn2.get_node("Burglary").get_output_node_ids()
assert "Alarm" in bn2.get_node("Burglary").get_output_node_ids()
assert "Alarm" in bn2.get_node("MaryCalls").get_input_node_ids()
def test_copy(self):
bn = NetworkExamples.construct_basic_network()
bn2 = copy(bn)
b = bn.get_chance_node("Burglary")
builder = CategoricalTableBuilder("Burglary")
builder.add_row(ValueFactory.create(True), 0.2)
builder.add_row(ValueFactory.create(False), 0.8)
b.set_distrib(builder.build())
value = bn.get_utility_node("Util1")
value.add_utility(
Assignment(Assignment("Burglary", True), "Action",
ValueFactory.create("DoNothing")), -20.0)
assert len(bn.get_node("Burglary").get_output_nodes()) == 3
assert len(bn2.get_node("Burglary").get_output_nodes()) == 3
assert len(bn.get_node("Alarm").get_output_nodes()) == 2
assert len(bn2.get_node("Alarm").get_output_nodes()) == 2
assert len(bn.get_node("Alarm").get_input_nodes()) == 2
assert len(bn2.get_node("Alarm").get_input_nodes()) == 2
assert len(bn.get_node("Util1").get_input_nodes()) == 2
assert len(bn2.get_node("Util1").get_input_nodes()) == 2
assert len(bn2.get_node("Burglary").get_values()) == 2
assert len(bn2.get_node("Alarm").get_values()) == 2
assert len(bn2.get_node("MaryCalls").get_values()) == 2
assert ValueFactory.create(True) in bn2.get_node(
"Burglary").get_values()
assert bn2.get_chance_node("Burglary").get_prob(
ValueFactory.create(True)) == pytest.approx(0.001, abs=0.0001)
assert bn2.get_chance_node("Alarm").get_prob(
Assignment(["Burglary", "Earthquake"]),
ValueFactory.create(True)) == pytest.approx(0.95, abs=0.0001)
assert bn2.get_chance_node("JohnCalls").get_prob(
Assignment("Alarm"),
ValueFactory.create(True)) == pytest.approx(0.9, abs=0.0001)
assert len(bn2.get_action_node("Action").get_values()) == 3
assert bn2.get_utility_node("Util2").get_utility(
Assignment(Assignment("Burglary"), "Action",
ValueFactory.create("DoNothing"))) == pytest.approx(
-10, abs=0.0001)
def test_structure(self):
bn = NetworkExamples.construct_basic_network()
assert len(bn.get_node("Burglary").get_descendant_ids()) == 5
assert "Alarm" in bn.get_node("Burglary").get_descendant_ids()
assert "MaryCalls" in bn.get_node("Burglary").get_descendant_ids()
assert len(bn.get_node("MaryCalls").get_ancestor_ids()) == 3
assert "Alarm" in bn.get_node("MaryCalls").get_ancestor_ids()
assert "Earthquake" in bn.get_node("MaryCalls").get_ancestor_ids()
assert len(bn.get_node("MaryCalls").get_descendant_ids()) == 0
assert len(bn.get_node("Util1").get_ancestor_ids()) == 2
assert "Action" in bn.get_node("Util1").get_ancestor_ids()
assert len(bn.get_node("Util1").get_descendant_ids()) == 0
assert len(bn.get_node("Action").get_ancestor_ids()) == 0
assert "Util1" in bn.get_node("Action").get_descendant_ids()
assert len(bn.get_node("Action").get_descendant_ids()) == 2
def test_network3bis(self):
iz = SamplingAlgorithm(5000, 300)
bn = NetworkExamples.construct_basic_network2()
query = iz.query_prob(bn, ["Burglary"],
Assignment(["JohnCalls", "MaryCalls"]))
assert query.get_prob(Assignment("Burglary",
False)) == pytest.approx(0.362607,
abs=0.06)
assert query.get_prob(Assignment("Burglary",
True)) == pytest.approx(0.637392,
abs=0.06)
query2 = iz.query_prob(bn, ["Alarm", "Burglary"],
Assignment(["Alarm", "MaryCalls"]))
assert query2.get_prob(Assignment(["Alarm", "!Burglary"
])) == pytest.approx(0.35970,
abs=0.05)
def test_network2(self):
ve = VariableElimination()
bn = NetworkExamples.construct_basic_network()
distrib = ve.query_prob(bn, ["Burglary"],
Assignment(["JohnCalls", "MaryCalls"]))
assert distrib.get_prob(Assignment("Burglary",
False)) == pytest.approx(0.713676,
abs=0.0001)
assert distrib.get_prob(Assignment("Burglary",
True)) == pytest.approx(0.286323,
abs=0.0001)
query2 = ve.query_prob(bn, ["Alarm", "Burglary"],
Assignment(["Alarm", "MaryCalls"]))
assert query2.get_prob(Assignment(["Alarm", "!Burglary"
])) == pytest.approx(0.623974,
abs=0.001)
def test_network2bis(self):
ve = VariableElimination()
bn = NetworkExamples.construct_basic_network2()
query = ve.query_prob(bn, ["Burglary"],
Assignment(["JohnCalls", "MaryCalls"]))
assert query.get_prob(Assignment("Burglary",
False)) == pytest.approx(0.360657,
abs=0.0001)
assert query.get_prob(Assignment("Burglary",
True)) == pytest.approx(0.63934,
abs=0.0001)
query2 = ve.query_prob(bn, ["Alarm", "Burglary"],
Assignment(["Alarm", "MaryCalls"]))
assert query2.get_prob(Assignment(["Alarm", "!Burglary"
])) == pytest.approx(0.3577609,
abs=0.001)
def test_sorted_nodes(self):
bn = NetworkExamples.construct_basic_network()
assert "Action" == bn.get_sorted_nodes()[7].get_id()
assert "Burglary" == bn.get_sorted_nodes()[6].get_id()
assert "Earthquake" == bn.get_sorted_nodes()[5].get_id()
assert "Alarm" == bn.get_sorted_nodes()[4].get_id()
assert "Util1" == bn.get_sorted_nodes()[3].get_id()
assert "Util2" == bn.get_sorted_nodes()[2].get_id()
assert "JohnCalls" == bn.get_sorted_nodes()[1].get_id()
assert "MaryCalls" == bn.get_sorted_nodes()[0].get_id()
d1 = ActionNode("a_m'")
d2 = ActionNode("a_m.obj'")
d3 = ActionNode("a_m.place'")
bn2 = BNetwork()
bn2.add_node(d1)
bn2.add_node(d2)
bn2.add_node(d3)
assert "a_m'" == bn2.get_sorted_nodes()[2].get_id()
assert "a_m.obj'" == bn2.get_sorted_nodes()[1].get_id()
assert "a_m.place'" == bn2.get_sorted_nodes()[0].get_id()
def test_network(self):
inference = InferenceChecks()
inference.include_naive(True)
bn = NetworkExamples.construct_basic_network2()
query_vars_powerset = self.generate_powerset(bn.get_chance_node_ids())
evidence_powerset = self.generate_evidence_powerset(bn)
nb_errors = 0
for query_vars in query_vars_powerset:
if len(query_vars) != 0:
for evidence in evidence_powerset:
if Random().random(
) < TestInferenceLargeScale.percent_comparisions / 100.0:
try:
inference.check_prob(bn, query_vars, evidence)
except:
nb_errors += 1
if nb_errors > 2:
assert False, "more than 2 sampling errors"
inference.show_performance()
def test_network_util(self):
network = NetworkExamples.construct_basic_network2()
ve = VariableElimination()
naive = NaiveInference()
iz = SamplingAlgorithm(4000, 300)
assert ve.query_util(
network, ["Action"],
Assignment([
Assignment("JohnCalls"),
Assignment("MaryCalls")
])).get_util(Assignment("Action",
"CallPolice")) == pytest.approx(-0.680,
abs=0.001)
assert naive.query_util(
network, ["Action"],
Assignment([
Assignment("JohnCalls"),
Assignment("MaryCalls")
])).get_util(Assignment("Action",
"CallPolice")) == pytest.approx(-0.680,
abs=0.001)
assert iz.query_util(
network, ["Action"],
Assignment([Assignment("JohnCalls"),
Assignment("MaryCalls")])).get_util(
Assignment("Action",
"CallPolice")) == pytest.approx(-0.680,
abs=0.5)
assert ve.query_util(
network, ["Action"],
Assignment([
Assignment("JohnCalls"),
Assignment("MaryCalls")
])).get_util(Assignment("Action",
"DoNothing")) == pytest.approx(-6.213,
abs=0.001)
assert naive.query_util(
network, ["Action"],
Assignment([
Assignment("JohnCalls"),
Assignment("MaryCalls")
])).get_util(Assignment("Action",
"DoNothing")) == pytest.approx(-6.213,
abs=0.001)
assert iz.query_util(
network, ["Action"],
Assignment([Assignment("JohnCalls"),
Assignment("MaryCalls")])).get_util(
Assignment("Action",
"DoNothing")) == pytest.approx(-6.213,
abs=1.5)
assert ve.query_util(
network, ["Burglary"],
Assignment([
Assignment("JohnCalls"),
Assignment("MaryCalls")
])).get_util(Assignment("!Burglary")) == pytest.approx(-0.1667,
abs=0.001)
assert naive.query_util(
network, ["Burglary"],
Assignment([
Assignment("JohnCalls"),
Assignment("MaryCalls")
])).get_util(Assignment("!Burglary")) == pytest.approx(-0.1667,
abs=0.001)
assert iz.query_util(
network, ["Burglary"],
Assignment([Assignment("JohnCalls"),
Assignment("MaryCalls")])).get_util(
Assignment("!Burglary")) == pytest.approx(-0.25,
abs=0.5)
assert ve.query_util(
network, ["Burglary"],
Assignment([Assignment("JohnCalls"),
Assignment("MaryCalls")])).get_util(
Assignment("Burglary")) == pytest.approx(-3.5,
abs=0.001)
assert naive.query_util(
network, ["Burglary"],
Assignment([Assignment("JohnCalls"),
Assignment("MaryCalls")])).get_util(
Assignment("Burglary")) == pytest.approx(-3.5,
abs=0.001)
assert iz.query_util(
network, ["Burglary"],
Assignment([Assignment("JohnCalls"),
Assignment("MaryCalls")])).get_util(
Assignment("Burglary")) == pytest.approx(-3.5,
abs=1.0)
class TestNetworkReduction:
network = NetworkExamples.construct_basic_network2()
ve = VariableElimination()
# change the variable name 'is' -> 'iz'
iz = SamplingAlgorithm(3000, 500)
naive = NaiveInference()
sw = SwitchingAlgorithm()
def test1(self):
reduced_net = TestNetworkReduction.ve.reduce(
TestNetworkReduction.network,
["Burglary", "Earthquake", "MaryCalls"])
reduced_net2 = TestNetworkReduction.naive.reduce(
TestNetworkReduction.network,
["Burglary", "Earthquake", "MaryCalls"])
reduced_net3 = TestNetworkReduction.iz.reduce(
TestNetworkReduction.network,
["Burglary", "Earthquake", "MaryCalls"])
reduced_net4 = TestNetworkReduction.sw.reduce(
TestNetworkReduction.network,
["Burglary", "Earthquake", "MaryCalls"])
assert len(reduced_net.get_nodes()) == 3
assert len(reduced_net2.get_nodes()) == 3
assert len(reduced_net3.get_nodes()) == 3
assert len(reduced_net4.get_nodes()) == 3
assert TestNetworkReduction.ve.query_prob(
TestNetworkReduction.network,
["MaryCalls"], Assignment("Burglary")).get_prob(
Assignment("MaryCalls")) == pytest.approx(
TestNetworkReduction.ve.query_prob(
reduced_net, ["MaryCalls"],
Assignment("Burglary")).get_prob(
Assignment("MaryCalls")),
abs=0.0001)
assert TestNetworkReduction.ve.query_prob(
TestNetworkReduction.network,
["MaryCalls"], Assignment("Burglary")).get_prob(
Assignment("MaryCalls")) == pytest.approx(
TestNetworkReduction.ve.query_prob(
reduced_net2, ["MaryCalls"],
Assignment("Burglary")).get_prob(
Assignment("MaryCalls")),
abs=0.0001)
assert TestNetworkReduction.ve.query_prob(
TestNetworkReduction.network,
["MaryCalls"], Assignment("Burglary")).get_prob(
Assignment("MaryCalls")) == pytest.approx(
TestNetworkReduction.iz.query_prob(
reduced_net3, ["MaryCalls"],
Assignment("Burglary")).get_prob(
Assignment("MaryCalls")),
abs=0.15)
assert TestNetworkReduction.ve.query_prob(
TestNetworkReduction.network,
["MaryCalls"], Assignment("Burglary")).get_prob(
Assignment("MaryCalls")) == pytest.approx(
TestNetworkReduction.iz.query_prob(
reduced_net4, ["MaryCalls"],
Assignment("Burglary")).get_prob(
Assignment("MaryCalls")),
abs=0.15)
assert TestNetworkReduction.ve.query_prob(
TestNetworkReduction.network, ["Earthquake"],
Assignment("!MaryCalls")).get_prob(
Assignment("Earthquake")) == pytest.approx(
TestNetworkReduction.ve.query_prob(
reduced_net, ["Earthquake"],
Assignment("!MaryCalls")).get_prob(
Assignment("Earthquake")),
abs=0.0001)
assert TestNetworkReduction.ve.query_prob(
TestNetworkReduction.network, ["Earthquake"],
Assignment("!MaryCalls")).get_prob(
Assignment("Earthquake")) == pytest.approx(
TestNetworkReduction.ve.query_prob(
reduced_net2, ["Earthquake"],
Assignment("!MaryCalls")).get_prob(
Assignment("Earthquake")),
abs=0.0001)
assert TestNetworkReduction.ve.query_prob(
TestNetworkReduction.network, ["Earthquake"],
Assignment("!MaryCalls")).get_prob(
Assignment("Earthquake")) == pytest.approx(
TestNetworkReduction.iz.query_prob(
reduced_net3, ["Earthquake"],
Assignment("!MaryCalls")).get_prob(
Assignment("Earthquake")),
abs=0.05)
assert TestNetworkReduction.ve.query_prob(
TestNetworkReduction.network, ["Earthquake"],
Assignment("!MaryCalls")).get_prob(
Assignment("Earthquake")) == pytest.approx(
TestNetworkReduction.iz.query_prob(
reduced_net4, ["Earthquake"],
Assignment("!MaryCalls")).get_prob(
Assignment("Earthquake")),
abs=0.05)
def test2(self):
reduced_net = TestNetworkReduction.ve.reduce(
TestNetworkReduction.network, ["Burglary", "MaryCalls"],
Assignment("!Earthquake"))
reduced_net2 = TestNetworkReduction.naive.reduce(
TestNetworkReduction.network, ["Burglary", "MaryCalls"],
Assignment("!Earthquake"))
reduced_net3 = TestNetworkReduction.iz.reduce(
TestNetworkReduction.network, ["Burglary", "MaryCalls"],
Assignment("!Earthquake"))
reduced_net4 = TestNetworkReduction.sw.reduce(
TestNetworkReduction.network, ["Burglary", "MaryCalls"],
Assignment("!Earthquake"))
assert len(reduced_net.get_nodes()) == 2
assert len(reduced_net2.get_nodes()) == 2
assert len(reduced_net3.get_nodes()) == 2
assert len(reduced_net4.get_nodes()) == 2
assert TestNetworkReduction.ve.query_prob(
TestNetworkReduction.network, ["MaryCalls"],
Assignment("!Earthquake")).get_prob(
Assignment("MaryCalls")) == pytest.approx(
TestNetworkReduction.ve.query_prob(
reduced_net,
["MaryCalls"]).get_prob(Assignment("MaryCalls")),
abs=0.0001)
assert TestNetworkReduction.ve.query_prob(
reduced_net,
["MaryCalls"]).get_prob(Assignment("MaryCalls")) == pytest.approx(
TestNetworkReduction.naive.query_prob(
reduced_net2,
["MaryCalls"]).get_prob(Assignment("MaryCalls")),
abs=0.0001)
assert TestNetworkReduction.ve.query_prob(
reduced_net,
["MaryCalls"]).get_prob(Assignment("MaryCalls")) == pytest.approx(
TestNetworkReduction.iz.query_prob(
reduced_net3,
["MaryCalls"]).get_prob(Assignment("MaryCalls")),
abs=0.05)
assert TestNetworkReduction.ve.query_prob(
reduced_net,
["MaryCalls"]).get_prob(Assignment("MaryCalls")) == pytest.approx(
TestNetworkReduction.iz.query_prob(
reduced_net4,
["MaryCalls"]).get_prob(Assignment("MaryCalls")),
abs=0.05)
assert TestNetworkReduction.ve.query_prob(
TestNetworkReduction.network, ["Burglary"],
Assignment(["!MaryCalls", "!Earthquake"
])).get_prob(Assignment("Burglary")) == pytest.approx(
TestNetworkReduction.ve.query_prob(
reduced_net, ["Burglary"],
Assignment("!MaryCalls")).get_prob(
Assignment("Burglary")),
abs=0.0001)
assert TestNetworkReduction.ve.query_prob(
TestNetworkReduction.network, ["Burglary"],
Assignment(["!MaryCalls", "!Earthquake"
])).get_prob(Assignment("Burglary")) == pytest.approx(
TestNetworkReduction.naive.query_prob(
reduced_net2, ["Burglary"],
Assignment("!MaryCalls")).get_prob(
Assignment("Burglary")),
abs=0.0001)
assert TestNetworkReduction.ve.query_prob(
reduced_net, ["Burglary"], Assignment("!MaryCalls")).get_prob(
Assignment("Burglary")) == pytest.approx(
TestNetworkReduction.iz.query_prob(
reduced_net3, ["Burglary"],
Assignment("!MaryCalls")).get_prob(
Assignment("Burglary")),
abs=0.05)
assert TestNetworkReduction.ve.query_prob(
reduced_net, ["Burglary"], Assignment("!MaryCalls")).get_prob(
Assignment("Burglary")) == pytest.approx(
TestNetworkReduction.iz.query_prob(
reduced_net4, ["Burglary"],
Assignment("!MaryCalls")).get_prob(
Assignment("Burglary")),
abs=0.05)
def test3(self):
reduced_net = TestNetworkReduction.ve.reduce(
TestNetworkReduction.network, ["Burglary", "Earthquake"],
Assignment("JohnCalls"))
reduced_net2 = TestNetworkReduction.naive.reduce(
TestNetworkReduction.network, ["Burglary", "Earthquake"],
Assignment("JohnCalls"))
reduced_net3 = TestNetworkReduction.iz.reduce(
TestNetworkReduction.network, ["Burglary", "Earthquake"],
Assignment("JohnCalls"))
reduced_net4 = TestNetworkReduction.sw.reduce(
TestNetworkReduction.network, ["Burglary", "Earthquake"],
Assignment("JohnCalls"))
assert len(reduced_net.get_nodes()) == 2
assert len(reduced_net2.get_nodes()) == 2
assert len(reduced_net3.get_nodes()) == 2
assert len(reduced_net4.get_nodes()) == 2
assert TestNetworkReduction.ve.query_prob(
TestNetworkReduction.network,
["Burglary"], Assignment("JohnCalls")).get_prob(
Assignment("Burglary")) == pytest.approx(
TestNetworkReduction.iz.query_prob(
reduced_net,
["Burglary"]).get_prob(Assignment("Burglary")),
abs=0.1)
assert TestNetworkReduction.ve.query_prob(
TestNetworkReduction.network,
["Burglary"], Assignment("JohnCalls")).get_prob(
Assignment("Burglary")) == pytest.approx(
TestNetworkReduction.naive.query_prob(
reduced_net2,
["Burglary"]).get_prob(Assignment("Burglary")),
abs=0.0001)
assert TestNetworkReduction.ve.query_prob(
reduced_net,
["Burglary"]).get_prob(Assignment("Burglary")) == pytest.approx(
TestNetworkReduction.naive.query_prob(
reduced_net3,
["Burglary"]).get_prob(Assignment("Burglary")),
abs=0.08)
assert TestNetworkReduction.ve.query_prob(
reduced_net2,
["Burglary"]).get_prob(Assignment("Burglary")) == pytest.approx(
TestNetworkReduction.naive.query_prob(
reduced_net4,
["Burglary"]).get_prob(Assignment("Burglary")),
abs=0.05)
assert TestNetworkReduction.ve.query_prob(
TestNetworkReduction.network, ["Earthquake"],
Assignment("JohnCalls")).get_prob(
Assignment("Earthquake")) == pytest.approx(
TestNetworkReduction.ve.query_prob(
reduced_net,
["Earthquake"]).get_prob(Assignment("Earthquake")),
abs=0.0001)
assert TestNetworkReduction.ve.query_prob(
reduced_net, ["Earthquake"]).get_prob(
Assignment("Earthquake")) == pytest.approx(
TestNetworkReduction.iz.query_prob(
reduced_net2,
["Earthquake"]).get_prob(Assignment("Earthquake")),
abs=0.07)
assert TestNetworkReduction.ve.query_prob(
TestNetworkReduction.network, ["Earthquake"],
Assignment("JohnCalls")).get_prob(
Assignment("Earthquake")) == pytest.approx(
TestNetworkReduction.naive.query_prob(
reduced_net3,
["Earthquake"]).get_prob(Assignment("Earthquake")),
abs=0.07)
assert TestNetworkReduction.ve.query_prob(
reduced_net, ["Earthquake"]).get_prob(
Assignment("Earthquake")) == pytest.approx(
TestNetworkReduction.naive.query_prob(
reduced_net4,
["Earthquake"]).get_prob(Assignment("Earthquake")),
abs=0.07)
def test5(self):
reduced_net = TestNetworkReduction.ve.reduce(
TestNetworkReduction.network, ["Burglary"],
Assignment(["JohnCalls", "MaryCalls"]))
reduced_net2 = TestNetworkReduction.iz.reduce(
TestNetworkReduction.network, ["Burglary"],
Assignment(["JohnCalls", "MaryCalls"]))
reduced_net.add_node(
copy(TestNetworkReduction.network.get_node("Action")))
reduced_net.add_node(
copy(TestNetworkReduction.network.get_node("Util1")))
reduced_net.add_node(
copy(TestNetworkReduction.network.get_node("Util2")))
reduced_net.get_node("Util1").add_input_node(
reduced_net.get_node("Burglary"))
reduced_net.get_node("Util1").add_input_node(
reduced_net.get_node("Action"))
reduced_net.get_node("Util2").add_input_node(
reduced_net.get_node("Burglary"))
reduced_net.get_node("Util2").add_input_node(
reduced_net.get_node("Action"))
table1 = TestNetworkReduction.ve.query_util(reduced_net, "Action")
table2 = TestNetworkReduction.ve.query_util(
TestNetworkReduction.network, ["Action"],
Assignment(["JohnCalls", "MaryCalls"]))
for a in table1.get_table().keys():
assert table1.get_util(a) == pytest.approx(table2.get_util(a),
abs=0.01)
reduced_net2.add_node(
copy(TestNetworkReduction.network.get_node("Action")))
reduced_net2.add_node(
copy(TestNetworkReduction.network.get_node("Util1")))
reduced_net2.add_node(
copy(TestNetworkReduction.network.get_node("Util2")))
reduced_net2.get_node("Util1").add_input_node(
reduced_net2.get_node("Burglary"))
reduced_net2.get_node("Util1").add_input_node(
reduced_net2.get_node("Action"))
reduced_net2.get_node("Util2").add_input_node(
reduced_net2.get_node("Burglary"))
reduced_net2.get_node("Util2").add_input_node(
reduced_net2.get_node("Action"))
table3 = TestNetworkReduction.ve.query_util(reduced_net2, ["Action"])
for a in table1.get_table().keys():
assert table1.get_util(a) == pytest.approx(table3.get_util(a),
abs=0.8)
def test6(self):
old = copy(TestNetworkReduction.network)
TestNetworkReduction.network.get_node("Alarm").remove_input_node(
"Earthquake")
TestNetworkReduction.network.get_node("Alarm").remove_input_node(
"Burglary")
TestNetworkReduction.network.get_chance_node("Alarm").set_distrib(
SingleValueDistribution("Alarm", "False"))
self.test1()
self.test2()
self.test3()
TestNetworkReduction.network = old
