コード例 #1
0
    def add_node(self, name, id, operator):
        if id in self.nodes:
            return

        self.nodes_no += 1
        self.nodes.append(id)
        new_node = Node(name, id, operator)

        self.graph[id] = new_node
コード例 #2
0
        def clonegraph(node: Node) -> Node:
            if not node:
                return None
            if node in map:
                return map[node]

            val = node.val
            newNode = Node(val)
            map[node] = newNode
            for neighbor in node.neighbors:
                newNode.neighbors.append(clonegraph(neighbor))

            return newNode
コード例 #3
0
ファイル: GraphSolver.py プロジェクト: MrMaynard/flood-it
 def _add_children(self, board, node):
     self._lut[node.coordinates] = node
     x = node.coordinates[0]
     y = node.coordinates[1]
     for check in [(0, 1), (0, -1), (1, 0), (-1, 0)]:
         temp_x = x + check[0]
         temp_y = y + check[1]
         if temp_x >= 0 and temp_x < board._board.shape[0]:
             if temp_y >= 0 and temp_y < board._board.shape[1]:
                 if (temp_x, temp_y) not in self._lut:
                     temp = Node(board._board[temp_x][temp_y],
                                 (temp_x, temp_y))
                     self._add_children(board, temp)
                 else:
                     temp = self._lut[(temp_x, temp_y)]
                 if (temp_x, temp_y) not in map(lambda x: x[0], node.links) and \
                         node.coordinates not in map(lambda x: x[0], temp.links):
                     if temp.value == node.value:
                         node.links.append((temp.coordinates, 0.0000001))
                         temp.links.append((node.coordinates, 0.0000001))
                     else:
                         node.links.append((temp.coordinates, 1))
                         temp.links.append((node.coordinates, 1))
コード例 #4
0
 def remove_node(self, node: Node):
     node.remove_from_neighbors()
     del self._nodes_by_key[node.get_key()]
     self._nodes.remove(node)
コード例 #5
0
 def add_node(self, node_properties: Dict, key: str = None, node_color: str = 'black', node_type: str = '') -> Node:
     node = Node(node_properties, key, node_color=node_color, node_type=node_type)
     self._nodes.append(node)
     self._nodes_by_key[key] = node
     return node
コード例 #6
0
ファイル: DefaultGraphBuilder.py プロジェクト: GViveen/IR2020
    def build(self,
              graph,
              cursor,
              embeddings,
              index_utils,
              docid,
              use_entities,
              nr_terms=0,
              term_tfidf=0.0,
              term_position=0.0,
              text_distance=0.0,
              term_embedding=0.0):
        # Retrieve named entities from database.
        if use_entities:
            entities = db_utils.get_entities_from_docid(
                cursor, docid, 'entity_ids')

            # Create nodes for named entities
            # [['Washington Redskins', '[30]', '1', 'ORG']]
            for entity in entities:
                ent_name = entity[0]
                try:
                    ent_positions = json.loads(entity[1])
                except:
                    print(f'issue with enitity: {entity[1]}')
                    continue
                ent_tf = int(entity[2])
                ent_type = entity[3]

                graph.add_node(Node(ent_name, ent_type, ent_positions, ent_tf))

        # Retrieve top n tfidf terms from database.
        if nr_terms > 0.0:
            terms = db_utils.get_entities_from_docid(cursor, docid,
                                                     'tfidf_terms')[:nr_terms]

            # Create nodes for tfidf terms
            for term in terms[:
                              nr_terms]:  # [['Washington Redskins', '[30]', '1', 'ORG']]
                term_name = term[0]
                term_positions = json.loads(term[1])
                term_tf = int(term[2])
                graph.add_node(Node(term_name, 'term', term_positions,
                                    term_tf))

        # Determine node weighs
        N = graph.nr_nodes()
        n_stat = index_utils.stats()['documents']
        for node_name, node in graph.nodes.items():
            weight = 0.0
            if term_tfidf > 0:
                tf = tf_func(node, N)

                if node.node_type == 'term':
                    df = index_utils.get_term_counts(
                        utils.clean_NE_term(node_name),
                        analyzer=None)[0] + 1e-5
                    weight += utils.tfidf(tf, df, n_stat)
                else:
                    weight += tf

            if term_position > 0:
                weight += term_position * \
                    position_in_text(node, docid, index_utils)

            node.weight = weight

        # Enity weights differ in magnitide from terms, since they are tf only (normalize both individually).
        equalize_term_and_entities(graph)

        embeddings_not_found = 0
        # Initialize edges + weights
        for node_key in graph.nodes.keys():
            for other_node_key in graph.nodes.keys():
                if node_key == other_node_key:
                    continue

                weight = 0.0
                if text_distance > 0:
                    distance = closest_distance(graph.nodes[node_key],
                                                graph.nodes[other_node_key])
                    weight += text_distance * distance_in_text(distance)

                if term_embedding > 0:
                    weight += term_embedding * edge_embedding_weight(
                        graph.nodes[node_key], graph.nodes[other_node_key],
                        embeddings, embeddings_not_found)

                if weight > 0.0:
                    graph.add_edge(node_key, other_node_key, weight)
コード例 #7
0
ファイル: GraphSolver.py プロジェクト: MrMaynard/flood-it
 def _build_graph(self, board):
     self._root = Node(board.get(0, 0), (0, 0))
     self._lut[(0, 0)] = self._root
     self._add_children(board, self._root)