Esempio n. 1
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def basic_network(only_structure=False):
    """
    create basic network to test the APIs
    """
    
    Net = BayesNet("continuous")
    network_struct =  {
        "node1": { 
            "states": ["dim1"],
        },
        "node2" : { 
            "states": ["dim1","dim2"],
        },
        "node3" : { 
            "states": ["dim1","dim2","dim3"],
        },
        "node4" : { 
            "states": ["dim1","dim2","dim3"],
        },
        "node5" : { 
            "states": ["dim1"],
        },
    }

    Net.create_network(network_struct)
    return Net
Esempio n. 2
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def basic_network(only_structure=False):
    """
    create basic network to test the APIs
    """

    Net = BayesNet("continuous")
    network_struct = {
        "node1": {
            "states": ["dim1"],
        },
        "node2": {
            "states": ["dim1", "dim2"],
        },
        "node3": {
            "states": ["dim1", "dim2", "dim3"],
        },
        "node4": {
            "states": ["dim1", "dim2", "dim3"],
        },
        "node5": {
            "states": ["dim1"],
        },
    }

    Net.create_network(network_struct)
    return Net
Esempio n. 3
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def basic_network(only_structure=False):
    """
    Returns a basic valid network to test the APIs
    """
    
    structure = {
        "node1" : {
            "state1" : 0.3,
            "state2" : 0.7,
        },
        "node2" : {
            "state1" : 0.7,
            "state2" : 0.3,
        },
    }
    
    if only_structure:
        return structure

    Net = BayesNet()

    # defining a valid network structure:
    
    Net.create_network(structure)
    return Net
Esempio n. 4
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def basic_network(only_structure=False):
    """
    Returns a basic valid network to test the APIs
    """

    structure = {
        "node1": {
            "state1": 0.3,
            "state2": 0.7,
        },
        "node2": {
            "state1": 0.7,
            "state2": 0.3,
        },
    }

    if only_structure:
        return structure

    Net = BayesNet()

    # defining a valid network structure:

    Net.create_network(structure)
    return Net
Esempio n. 5
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class TestCreateNetwork(unittest.TestCase):
    """
    Test cases for network creation
    """
    
    def setUp(self):
        self.Net = BayesNet("continuous")
        self.valid_structure =  {
            "node1": { 
                "states": ["dim1"],
            },
            "node2" : { 
                "states": ["dim1","dim2"],
            },
            "node3" : { 
                "states": ["dim1","dim2","dim3"],
            },
            "node4" : { 
                "states": ["dim1","dim2","dim3"],
            },
        }
        
    
    def test_valid_network(self):
        """
        create network from a valid structure
        """
        
        self.assertEquals(None,self.Net.create_network(self.valid_structure))
        
        
    
    def test_invalid_network(self):
        """
Esempio n. 6
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class TestCreateNetwork(unittest.TestCase):
    """
    Test cases for network creation
    """
    def setUp(self):
        self.Net = BayesNet("continuous")
        self.valid_structure = {
            "node1": {
                "states": ["dim1"],
            },
            "node2": {
                "states": ["dim1", "dim2"],
            },
            "node3": {
                "states": ["dim1", "dim2", "dim3"],
            },
            "node4": {
                "states": ["dim1", "dim2", "dim3"],
            },
        }

    def test_valid_network(self):
        """
        create network from a valid structure
        """

        self.assertEquals(None, self.Net.create_network(self.valid_structure))

    def test_invalid_network(self):
        """
Esempio n. 7
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class TestCreateNetwork(unittest.TestCase):
    """
    Test cases for creating a Network
    """
    def setUp(self):
        self.Net = BayesNet()

        # defining a valid network structure:
        self.valid_structure = {
            "node1": {
                "state1": 0.3,
                "state2": 0.7,
            },
            "node2": {
                "state1": 0.7,
                "state2": 0.3,
            },
        }
        self.invalid_structure = {
            "node1": {
                "state1": 0.3,
                "state2": "invalid probability",
            },
        }

    def test_valid(self):
        """
        test if a valid network returns None
        """

        # successfully creating a network should return None
        self.assertEquals(None, self.Net.create_network(self.valid_structure))

    def test_invalid(self):
        """
Esempio n. 8
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 def setUp(self):
     self.Net = BayesNet("continuous")
     self.valid_structure = {
         "node1": {
             "states": ["dim1"],
         },
         "node2": {
             "states": ["dim1", "dim2"],
         },
         "node3": {
             "states": ["dim1", "dim2", "dim3"],
         },
         "node4": {
             "states": ["dim1", "dim2", "dim3"],
         },
     }
Esempio n. 9
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    def setUp(self):
        self.Net = BayesNet()
        network_structure = {
            "node1": {
                "state1": 0.3,
                "state2": 0.7,
            },
            "node2": {
                "state1": 0.7,
                "state2": 0.3,
            },
            "node3": {
                "state1": 0.5,
                "state2": 0.5
            },
        }

        self.Net.create_network(network_structure)
Esempio n. 10
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    def setUp(self):
        self.Net = BayesNet()

        # defining a valid network structure:
        self.valid_structure = {
            "node1": {
                "state1": 0.3,
                "state2": 0.7,
            },
            "node2": {
                "state1": 0.7,
                "state2": 0.3,
            },
        }
        self.invalid_structure = {
            "node1": {
                "state1": 0.3,
                "state2": "invalid probability",
            },
        }
Esempio n. 11
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 def setUp(self):
     self.Net = BayesNet("continuous")
     self.valid_structure =  {
         "node1": { 
             "states": ["dim1"],
         },
         "node2" : { 
             "states": ["dim1","dim2"],
         },
         "node3" : { 
             "states": ["dim1","dim2","dim3"],
         },
         "node4" : { 
             "states": ["dim1","dim2","dim3"],
         },
     }
Esempio n. 12
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 def setUp(self):
     self.Net = BayesNet()
     network_structure = {
         "node1" : {
             "state1" : 0.3,
             "state2" : 0.7,
         },
         "node2" : {
             "state1" : 0.7,
             "state2" : 0.3,
         },
         "node3" : {
             "state1" : 0.5,
             "state2" : 0.5
         },
     }    
     
     self.Net.create_network(network_structure)
Esempio n. 13
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 def setUp(self):
     self.Net = BayesNet()
     
     # defining a valid network structure:
     self.valid_structure = {
         "node1" : {
             "state1" : 0.3,
             "state2" : 0.7,
         },
         "node2" : {
             "state1" : 0.7,
             "state2" : 0.3,
         },
     }
     self.invalid_structure = {
         "node1" : {
             "state1" : 0.3,
             "state2" : "invalid probability",
         },
     }
Esempio n. 14
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class TestCreateNetwork(unittest.TestCase):
    """
    Test cases for creating a Network
    """
    
    def setUp(self):
        self.Net = BayesNet()
        
        # defining a valid network structure:
        self.valid_structure = {
            "node1" : {
                "state1" : 0.3,
                "state2" : 0.7,
            },
            "node2" : {
                "state1" : 0.7,
                "state2" : 0.3,
            },
        }
        self.invalid_structure = {
            "node1" : {
                "state1" : 0.3,
                "state2" : "invalid probability",
            },
        }

    
    
    def test_valid(self):
        """
        test if a valid network returns None
        """
        
        # successfully creating a network should return None
        self.assertEquals(None,self.Net.create_network(self.valid_structure))
        
        
        
    def test_invalid(self):
        """
Esempio n. 15
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class TestMPE(unittest.TestCase):
    """
    Test cases for Most Probable Explanation(MPE)
    """
    
    def setUp(self):
        self.Net = BayesNet()
        network_structure = {
            "node1" : {
                "state1" : 0.3,
                "state2" : 0.7,
            },
            "node2" : {
                "state1" : 0.7,
                "state2" : 0.3,
            },
            "node3" : {
                "state1" : 0.5,
                "state2" : 0.5
            },
        }    
        
        self.Net.create_network(network_structure)
        
        
        
    def test_MPE_connected(self):
        """
        testing Net.getMPE(NodeName1,NodeName2) between parent and child node(i.e. connected nodes)
        """

        self.Net.createEdge("node1",["node2","node3"])
        node1 = self.Net.getNode("node1")
        node2 = self.Net.getNode("node2")
        node3 = self.Net.getNode("node3")
        
        self.Net.setProbability(node2,["state1", 'state1'],0.3)
        self.Net.setProbability(node2,["state1", 'state2'],0.1)
        self.Net.setProbability(node2,["state2", 'state1'],0.7)
        self.Net.setProbability(node2,["state2", 'state2'],0.9)
        self.Net.setProbability(node3,["state1", 'state1'],0.4)
        self.Net.setProbability(node3,["state1", 'state2'],0.0)
        self.Net.setProbability(node3,["state2", 'state1'],0.6)
        self.Net.setProbability(node3,["state2", 'state2'],1.0)
        
        expected_outcome = {'node1': 'state2', 'node2': 'state2'}
        
        mpe = self.Net.getMPE("node1","node2")
        self.assertDictEqual(expected_outcome,mpe)

        
    def test_MPE_disconnected(self):
        """
        testing Net.getMPE(NodeName1,NodeName2) between disconnected nodes
        """
        
        self.Net.createEdge(["node1","node2"],"node3")
        node1 = self.Net.getNode("node1")
        node2 = self.Net.getNode("node2")
        node3 = self.Net.getNode("node3")

        self.Net.setProbability(node3,["state1", 'state1','state1'],0.3)
        self.Net.setProbability(node3,["state1", 'state1','state2'],0.1)
        self.Net.setProbability(node3,["state1", 'state2','state1'],0.5)
        self.Net.setProbability(node3,["state1", 'state2','state2'],0.7)
        self.Net.setProbability(node3,["state2", 'state1','state1'],0.7)
        self.Net.setProbability(node3,["state2", 'state1','state2'],0.9)
        self.Net.setProbability(node3,["state2", 'state2','state1'],0.5)
        self.Net.setProbability(node3,["state2", 'state2','state2'],0.3)
        
        expected_outcome = {'node1': 'state2', 'node2': 'state1'}
        mpe = self.Net.getMPE("node1","node2")
        self.assertDictEqual(expected_outcome,mpe)
Esempio n. 16
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class TestJPD(unittest.TestCase):
    """
    Test cases for Joint Probability Distribution
    """
    
    def setUp(self):
        self.Net = BayesNet()
        network_structure = {
            "node1" : {
                "state1" : 0.3,
                "state2" : 0.7,
            },
            "node2" : {
                "state1" : 0.7,
                "state2" : 0.3,
            },
            "node3" : {
                "state1" : 0.5,
                "state2" : 0.5
            },
        }    
        
        self.Net.create_network(network_structure)
        

        
    def test_JPD_connected(self):
        """
        testing Net.getJPD(NodeName1,NodeName2) between parent and child node(i.e. connected nodes)
        """

        self.Net.createEdge("node1",["node2","node3"])
        node1 = self.Net.getNode("node1")
        node2 = self.Net.getNode("node2")
        node3 = self.Net.getNode("node3")
        
        self.Net.setProbability(node2,["state1", 'state1'],0.3)
        self.Net.setProbability(node2,["state1", 'state2'],0.1)
        self.Net.setProbability(node2,["state2", 'state1'],0.7)
        self.Net.setProbability(node2,["state2", 'state2'],0.9)
        self.Net.setProbability(node3,["state1", 'state1'],0.4)
        self.Net.setProbability(node3,["state1", 'state2'],0.0)
        self.Net.setProbability(node3,["state2", 'state1'],0.6)
        self.Net.setProbability(node3,["state2", 'state2'],1.0)
        
        jpd = self.Net.getJPD("node1","node2")
        self.assertAlmostEqual(0.07000000029802322,jpd[(('node2', 'state2'), ('node1', 'state1'))])
        self.assertAlmostEqual(0.09000000357627869,jpd[(('node2', 'state1'), ('node1', 'state1'))])
        self.assertAlmostEqual(0.21000000834465027,jpd[(('node2', 'state1'), ('node1', 'state2'))])
        self.assertAlmostEqual(0.6299999952316284,jpd[(('node2', 'state2'), ('node1', 'state2'))])
        
        
    def test_JPD_disconnected(self):
        """
        testing Net.getJPD(NodeName1,NodeName2) between disconnected nodes
        """
        
        self.Net.createEdge(["node1","node2"],"node3")
        node1 = self.Net.getNode("node1")
        node2 = self.Net.getNode("node2")
        node3 = self.Net.getNode("node3")

        self.Net.setProbability(node3,["state1", 'state1','state1'],0.3)
        self.Net.setProbability(node3,["state1", 'state1','state2'],0.1)
        self.Net.setProbability(node3,["state1", 'state2','state1'],0.5)
        self.Net.setProbability(node3,["state1", 'state2','state2'],0.7)
        self.Net.setProbability(node3,["state2", 'state1','state1'],0.7)
        self.Net.setProbability(node3,["state2", 'state1','state2'],0.9)
        self.Net.setProbability(node3,["state2", 'state2','state1'],0.5)
        self.Net.setProbability(node3,["state2", 'state2','state2'],0.3)
        
        jpd = self.Net.getJPD("node1","node2")
        self.assertAlmostEqual(0.4899999797344208,jpd[(('node2', 'state2'), ('node1', 'state1'))])
        self.assertAlmostEqual(0.21000000834465027,jpd[(('node2', 'state1'), ('node1', 'state1'))])
        self.assertAlmostEqual(0.09000001102685928,jpd[(('node2', 'state1'), ('node1', 'state2'))])
        self.assertAlmostEqual(0.21000000834465027,jpd[(('node2', 'state2'), ('node1', 'state2'))])
Esempio n. 17
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class TestMPE(unittest.TestCase):
    """
    Test cases for Most Probable Explanation(MPE)
    """
    def setUp(self):
        self.Net = BayesNet()
        network_structure = {
            "node1": {
                "state1": 0.3,
                "state2": 0.7,
            },
            "node2": {
                "state1": 0.7,
                "state2": 0.3,
            },
            "node3": {
                "state1": 0.5,
                "state2": 0.5
            },
        }

        self.Net.create_network(network_structure)

    def test_MPE_connected(self):
        """
        testing Net.getMPE(NodeName1,NodeName2) between parent and child node(i.e. connected nodes)
        """

        self.Net.createEdge("node1", ["node2", "node3"])
        node1 = self.Net.getNode("node1")
        node2 = self.Net.getNode("node2")
        node3 = self.Net.getNode("node3")

        self.Net.setProbability(node2, ["state1", 'state1'], 0.3)
        self.Net.setProbability(node2, ["state1", 'state2'], 0.1)
        self.Net.setProbability(node2, ["state2", 'state1'], 0.7)
        self.Net.setProbability(node2, ["state2", 'state2'], 0.9)
        self.Net.setProbability(node3, ["state1", 'state1'], 0.4)
        self.Net.setProbability(node3, ["state1", 'state2'], 0.0)
        self.Net.setProbability(node3, ["state2", 'state1'], 0.6)
        self.Net.setProbability(node3, ["state2", 'state2'], 1.0)

        expected_outcome = {'node1': 'state2', 'node2': 'state2'}

        mpe = self.Net.getMPE("node1", "node2")
        self.assertDictEqual(expected_outcome, mpe)

    def test_MPE_disconnected(self):
        """
        testing Net.getMPE(NodeName1,NodeName2) between disconnected nodes
        """

        self.Net.createEdge(["node1", "node2"], "node3")
        node1 = self.Net.getNode("node1")
        node2 = self.Net.getNode("node2")
        node3 = self.Net.getNode("node3")

        self.Net.setProbability(node3, ["state1", 'state1', 'state1'], 0.3)
        self.Net.setProbability(node3, ["state1", 'state1', 'state2'], 0.1)
        self.Net.setProbability(node3, ["state1", 'state2', 'state1'], 0.5)
        self.Net.setProbability(node3, ["state1", 'state2', 'state2'], 0.7)
        self.Net.setProbability(node3, ["state2", 'state1', 'state1'], 0.7)
        self.Net.setProbability(node3, ["state2", 'state1', 'state2'], 0.9)
        self.Net.setProbability(node3, ["state2", 'state2', 'state1'], 0.5)
        self.Net.setProbability(node3, ["state2", 'state2', 'state2'], 0.3)

        expected_outcome = {'node1': 'state2', 'node2': 'state1'}
        mpe = self.Net.getMPE("node1", "node2")
        self.assertDictEqual(expected_outcome, mpe)
Esempio n. 18
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class TestJPD(unittest.TestCase):
    """
    Test cases for Joint Probability Distribution
    """
    def setUp(self):
        self.Net = BayesNet()
        network_structure = {
            "node1": {
                "state1": 0.3,
                "state2": 0.7,
            },
            "node2": {
                "state1": 0.7,
                "state2": 0.3,
            },
            "node3": {
                "state1": 0.5,
                "state2": 0.5
            },
        }

        self.Net.create_network(network_structure)

    def test_JPD_connected(self):
        """
        testing Net.getJPD(NodeName1,NodeName2) between parent and child node(i.e. connected nodes)
        """

        self.Net.createEdge("node1", ["node2", "node3"])
        node1 = self.Net.getNode("node1")
        node2 = self.Net.getNode("node2")
        node3 = self.Net.getNode("node3")

        self.Net.setProbability(node2, ["state1", 'state1'], 0.3)
        self.Net.setProbability(node2, ["state1", 'state2'], 0.1)
        self.Net.setProbability(node2, ["state2", 'state1'], 0.7)
        self.Net.setProbability(node2, ["state2", 'state2'], 0.9)
        self.Net.setProbability(node3, ["state1", 'state1'], 0.4)
        self.Net.setProbability(node3, ["state1", 'state2'], 0.0)
        self.Net.setProbability(node3, ["state2", 'state1'], 0.6)
        self.Net.setProbability(node3, ["state2", 'state2'], 1.0)

        jpd = self.Net.getJPD("node1", "node2")
        self.assertAlmostEqual(0.07000000029802322,
                               jpd[(('node2', 'state2'), ('node1', 'state1'))])
        self.assertAlmostEqual(0.09000000357627869,
                               jpd[(('node2', 'state1'), ('node1', 'state1'))])
        self.assertAlmostEqual(0.21000000834465027,
                               jpd[(('node2', 'state1'), ('node1', 'state2'))])
        self.assertAlmostEqual(0.6299999952316284,
                               jpd[(('node2', 'state2'), ('node1', 'state2'))])

    def test_JPD_disconnected(self):
        """
        testing Net.getJPD(NodeName1,NodeName2) between disconnected nodes
        """

        self.Net.createEdge(["node1", "node2"], "node3")
        node1 = self.Net.getNode("node1")
        node2 = self.Net.getNode("node2")
        node3 = self.Net.getNode("node3")

        self.Net.setProbability(node3, ["state1", 'state1', 'state1'], 0.3)
        self.Net.setProbability(node3, ["state1", 'state1', 'state2'], 0.1)
        self.Net.setProbability(node3, ["state1", 'state2', 'state1'], 0.5)
        self.Net.setProbability(node3, ["state1", 'state2', 'state2'], 0.7)
        self.Net.setProbability(node3, ["state2", 'state1', 'state1'], 0.7)
        self.Net.setProbability(node3, ["state2", 'state1', 'state2'], 0.9)
        self.Net.setProbability(node3, ["state2", 'state2', 'state1'], 0.5)
        self.Net.setProbability(node3, ["state2", 'state2', 'state2'], 0.3)

        jpd = self.Net.getJPD("node1", "node2")
        self.assertAlmostEqual(0.4899999797344208,
                               jpd[(('node2', 'state2'), ('node1', 'state1'))])
        self.assertAlmostEqual(0.21000000834465027,
                               jpd[(('node2', 'state1'), ('node1', 'state1'))])
        self.assertAlmostEqual(0.09000001102685928,
                               jpd[(('node2', 'state1'), ('node1', 'state2'))])
        self.assertAlmostEqual(0.21000000834465027,
                               jpd[(('node2', 'state2'), ('node1', 'state2'))])