class AddProperty(object):
    _instances = {}

    @classmethod
    def get_instance(cls, graph_tag='default'):
        if graph_tag not in cls._instances:
            cls._instances[graph_tag] = AddProperty(graph_tag)
        return cls._instances[graph_tag]

    def __init__(self, graph_tag):
        self.g = Graph(graph_tag)
        self.mock_data()

    def mock_data(self):
        # 创建一个 person 类型的顶点
        dsl = """
            g.addV('person')
        """

        ret = self.g.exec_dsl(dsl).result().next()
        print(ret)

    def run(self):
        # 给 person 类型的顶点添加 name 和 age 属性
        dsl = """
            g.V().hasLabel("person").
                property('name', name).
                property('age', age)
        """
        bindings = {"name": "stephen", "age": "25"}

        self.g.exec_dsl(dsl, bindings)
        Common.get_instance().show_graph()
Exemple #2
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class AddEdge(object):
    _instances = {}

    @classmethod
    def get_instance(cls, graph_tag='default'):
        if graph_tag not in cls._instances:
            cls._instances[graph_tag] = AddEdge(graph_tag)
        return cls._instances[graph_tag]

    def __init__(self, graph_tag):
        self.g = Graph(graph_tag)
        self.mock_data()

    def mock_data(self):
        # 创建两个 person 类型的顶点并设置 id 和 name
        dsl = """
            g.addV('person').
                property(id, uid_1).
                property('name', name_1).
              addV('person').
                property(id, uid_2).
                property('name', name_2)
        """
        bindings = {
            "uid_1": "1",
            "name_1": "marko",
            "uid_2": "2",
            "name_2": "stephen"
        }

        ret = self.g.exec_dsl(dsl, bindings).result().next()
        print(ret)

    def run(self):
        # 给两个 person 顶点添加 knows 类型的边
        dsl = """
            g.V(from_uid).addE('knows').to(V(to_uid)).
                property(id, edge_id)
        """
        bindings = {"from_uid": "1", "to_uid": "2", "edge_id": "1-knows-2"}

        ret = self.g.exec_dsl(dsl, bindings).result().next()
        print(ret)

        Common.get_instance().show_graph()
Exemple #3
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class And(object):
    _instances = {}

    @classmethod
    def get_instance(cls, graph_tag='default'):
        if graph_tag not in cls._instances:
            cls._instances[graph_tag] = And(graph_tag)
        return cls._instances[graph_tag]

    def __init__(self, graph_tag):
        self.g = Graph(graph_tag)
        self.mock_data()

    def mock_data(self):
        # 创建两个 person 类型的顶点
        dsl = """
            g.addV('person').
                property(id, uid_1).
                property('age', age_1).
              addV('person').
                property(id, uid_2).
                property('age', age_2)
        """
        bindings = {"uid_1": 1, "age_1": 20, "uid_2": 2, "age_2": 25}

        ret = self.g.exec_dsl(dsl, bindings).result().next()
        print(ret)

    def run(self):
        dsl = """
            g.V().has('age', inside(start_1, end_1)).
                and().
                has('age', outside(start_2, end_2)).
            values('age')
        """
        # (10, 30) 与 (-∞, 15) U (20, +∞) 的交集 => 25
        bindings = {'start_1': 10, 'end_1': 30, 'start_2': 15, 'end_2': 20}

        vertex_list = self.g.exec_dsl(dsl, bindings).result().next()
        print("ans: {}".format(vertex_list))

        Common.get_instance().show_graph()
Exemple #4
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class AddVertex(object):
    _instances = {}

    @classmethod
    def get_instance(cls, graph_tag='default'):
        if graph_tag not in cls._instances:
            cls._instances[graph_tag] = AddVertex(graph_tag)
        return cls._instances[graph_tag]

    def __init__(self, graph_tag):
        self.g = Graph(graph_tag)

    def run(self):
        """ 创建一个 person 类型的顶点并设置 id 和 name """
        dsl = "g.addV('person').property(id, uid).property('name', name)"
        bindings = {"name": "stephen", "uid": "1"}

        ret = self.g.exec_dsl(dsl, bindings).result().next()
        print(ret)

        Common.get_instance().show_graph()
Exemple #5
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class Common(object):
    _instances = {}
    WAITING_TIME = 1

    @classmethod
    def get_instance(cls, graph_tag='default'):
        if graph_tag not in cls._instances:
            cls._instances[graph_tag] = Common(graph_tag)
        return cls._instances[graph_tag]

    def __init__(self, graph_tag):
        self.g = Graph(graph_tag)

    def show_graph(self):
        time.sleep(Common.WAITING_TIME)

        vertex_list = self._get_vertex()
        edge_list = self._get_edge()

        data = {}
        if vertex_list:
            data["vertex"] = vertex_list
        if edge_list:
            data["edge"] = edge_list

        print(json.dumps(data, indent=4, sort_keys=True))
        print("-" * 50)

    def _get_vertex(self):
        dsl = "g.V().valueMap(true)"
        callback = self.g.exec_dsl(dsl)

        result = []
        for ret in callback.result():
            for vertex in ret:
                data = self._format_graph_fields(vertex)
                result.append(data)

        return result

    def _get_edge(self):
        dsl = "g.E().valueMap(true)"
        callback = self.g.exec_dsl(dsl)

        result = []
        for ret in callback.result():
            for edge in ret:
                data = self._format_graph_fields(edge)
                result.append(data)

        return result

    @staticmethod
    def _format_graph_fields(graph_data):
        format_data = {}
        for k, v in graph_data.items():
            format_data[str(k)] = v[0] if type(v) == list else v

        format_data['id'] = format_data['T.id']
        format_data['label'] = format_data['T.label']

        del format_data['T.id']
        del format_data['T.label']

        return format_data
Exemple #6
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class Aggregate(object):
    _instances = {}

    @classmethod
    def get_instance(cls, graph_tag='default'):
        if graph_tag not in cls._instances:
            cls._instances[graph_tag] = Aggregate(graph_tag)
        return cls._instances[graph_tag]

    def __init__(self, graph_tag):
        self.g = Graph(graph_tag)
        self.mock_data()

    def mock_data(self):
        # 创建两个 person 类型的顶点和两个 song 类型的顶点
        dsl = """
            g.addV('person').
                property(id, uid_1).
                property('name', name_1).
              addV('person').
                property(id, uid_2).
                property('name', name_2).
              addV('song').
                property(id, song_id_1).
                property('name', song_name_1).
              addV('song').
                property(id, song_id_2).
                property('name', song_name_2)
        """
        bindings = {
            "uid_1": "u1",
            "name_1": "marko",
            "uid_2": "u2",
            "name_2": "stephen",
            "song_id_1": "s1",
            "song_name_1": "song-A",
            "song_id_2": "s2",
            "song_name_2": "song-B"
        }

        ret = self.g.exec_dsl(dsl, bindings).result().next()
        print(ret)

        # 添加三条边: marko-like->song-A;stephen-like-song-A;stephen-like-song-B
        dsl = """
            g.V(uid_1).addE('like').to(V(song_id_1)).
                property(id, edge_id_1).
              V(uid_2).addE('like').to(V(song_id_1)).
                property(id, edge_id_2).
              V(uid_2).addE('like').to(V(song_id_2)).
                property(id, edge_id_3)
        """
        bindings = {
            "uid_1": "u1",
            "name_1": "marko",
            "uid_2": "u2",
            "name_2": "stephen",
            "song_id_1": "s1",
            "song_name_1": "song-A",
            "song_id_2": "s2",
            "song_name_2": "song-B",
            "edge_id_1": "u1-like-song-A",
            "edge_id_2": "u2-like-song-A",
            "edge_id_3": "u2-like-song-B"
        }

        ret = self.g.exec_dsl(dsl, bindings).result().next()
        print(ret)

    def run(self):
        # 找到与 marko 有共同兴趣的人还喜欢哪些 marko 没喜欢的歌曲
        dsl = """
            g.V(uid_1).out('like').aggregate('x').
                in('like').out('like').
                where(without('x')).
                values('name')
        """
        bindings = {"uid_1": "u1"}

        self.g.exec_dsl(dsl, bindings)
        Common.get_instance().show_graph()