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@@ -3,33 +3,53 @@ from .decode import BilinearDecoder |
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from .weights import init_glorot
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from .weights import init_glorot
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class NodeType(object):
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def __init__(self, name, count):
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self.name = name
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self.count = count
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class RelationType(object):
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def __init__(self, name, node_type_row, node_type_column,
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adjacency_matrix):
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self.name = name
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self.node_type_row = node_type_row
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self.node_type_column = node_type_column
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self.adjacency_matrix = adjacency_matrix
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class Data(object):
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class Data(object):
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def __init__(self):
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def __init__(self):
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self.node_types = []
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self.node_types = []
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self.relation_types = []
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self.decoder_types = defaultdict(lambda: BilinearDecoder)
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self.latent_node = []
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self.relation_types = defaultdict(list)
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# self.decoder_types = defaultdict(lambda: BilinearDecoder)
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# self.latent_node = []
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def add_node_type(self, name, count, latent_length):
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self.node_types.append(name)
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self.latent_node.append(init_glorot(count, latent_length))
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def add_node_type(self, name, count): # , latent_length):
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self.node_types.append(NodeType(name, count))
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# self.latent_node.append(init_glorot(count, latent_length))
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def add_relation(self, node_type_row, node_type_column, adjacency_matrix, name):
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def add_relation_type(self, name, node_type_row, node_type_column, adjacency_matrix):
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n = len(self.node_types)
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n = len(self.node_types)
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if node_type_row >= n or node_type_column >= n:
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if node_type_row >= n or node_type_column >= n:
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raise ValueError('Node type index out of bounds, add node type first')
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raise ValueError('Node type index out of bounds, add node type first')
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self.relation_types.append((node_type_row, node_type_column, adjacency_matrix, name))
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_ = self.decoder_types[(node_type_row, node_type_column)]
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key = (node_type_row, node_type_column)
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self.relation_types[key].append(RelationType(name, node_type_row, node_type_column, adjacency_matrix))
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# _ = self.decoder_types[(node_type_row, node_type_column)]
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def set_decoder_type(self, node_type_row, node_type_column, decoder_class):
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if (node_type_row, node_type_column) not in self.decoder_types:
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raise ValueError('Relation type not found, add relation first')
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self.decoder_types[(node_type_row, node_type_column)] = decoder_class
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#def set_decoder_type(self, node_type_row, node_type_column, decoder_class):
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# if (node_type_row, node_type_column) not in self.decoder_types:
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# raise ValueError('Relation type not found, add relation first')
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# self.decoder_types[(node_type_row, node_type_column)] = decoder_class
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def get_adjacency_matrices(self, node_type_row, node_type_column):
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def get_adjacency_matrices(self, node_type_row, node_type_column):
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rels = list(filter(lambda a: a[0] == node_type_row and a[1] == node_type_column), self.relation_types)
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if len(rels) == 0:
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# rels = list(filter(lambda a: a[0] == node_type_row and a[1] == node_type_column), self.relation_types)
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key = (node_type_row, node_type_column)
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if key not in self.relation_types:
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raise ValueError('Relation type not found')
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rels = self.relation_types[key]
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rels = list(map(lambda a: a.adjacency_matrix, rels))
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return rels
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def __repr__(self):
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def __repr__(self):
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@@ -40,19 +60,25 @@ class Data(object): |
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s += 'GNN Data with:\n'
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s += 'GNN Data with:\n'
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s += '- ' + str(n) + ' node type(s):\n'
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s += '- ' + str(n) + ' node type(s):\n'
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for nt in self.node_types:
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for nt in self.node_types:
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s += ' - ' + nt + '\n'
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s += ' - ' + nt.name + '\n'
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if len(self.relation_types) == 0:
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if len(self.relation_types) == 0:
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s += '- No relation types\n'
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s += '- No relation types\n'
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return s.strip()
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return s.strip()
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s += '- ' + str(len(self.relation_types)) + ' relation type(s):\n'
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n = sum(map(len, self.relation_types))
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s += '- ' + str(n) + ' relation type(s):\n'
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for i in range(n):
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for i in range(n):
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for j in range(n):
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for j in range(n):
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rels = list(filter(lambda a: a[0] == i and a[1] == j, self.relation_types))
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if len(rels) == 0:
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key = (i, j)
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if key not in self.relation_types:
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continue
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continue
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rels = self.relation_types[key]
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# rels = list(filter(lambda a: a[0] == i and a[1] == j, self.relation_types))
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#if len(rels) == 0:
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# continue
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# dir = '<->' if i == j else '->'
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# dir = '<->' if i == j else '->'
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dir = '--'
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dir = '--'
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s += ' - ' + self.node_types[i] + ' ' + dir + ' ' + self.node_types[j] + ' (' + self.decoder_types[(i, j)].__name__ + '):\n'
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s += ' - ' + self.node_types[i].name + ' ' + dir + ' ' + self.node_types[j].name + ':\n'
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#' (' + self.decoder_types[(i, j)].__name__ + '):\n'
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for r in rels:
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for r in rels:
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s += ' - ' + r[3] + '\n'
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s += ' - ' + r.name + '\n'
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return s.strip()
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return s.strip()
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