示例#1
0
class Graph:
    """
        https://www.w3.org/TR/WD-rdf-syntax-971002/
        https://github.com/cayleygraph/cayley/blob/master/docs/GizmoAPI.md
    """
    def __init__(self, graph_name, cog_dir):
        '''
        :param graph_name:
        :param cog_dir:
        list of
        '''
        self.config = cfg
        self.cog = Cog(db_path=cog_dir, config=cfg)
        self.graph_name = graph_name
        self.cog_dir = cog_dir
        self.all_predicates = self.cog.list_tables()
        self.last_visited_vertices = None
        self.cog.create_namespace(self.graph_name)
        #self.cog.create_or_load_table(self.config.GRAPH_NODE_SET_TABLE_NAME, self.graph_name)

    def load_edgelist(self, edgelist_file_path, graph_name, predicate="none"):
        self.cog.load_edgelist(edgelist_file_path, graph_name, predicate)
        self.all_predicates = self.cog.list_tables()

    def load_triples(self, graph_data_path, graph_name):
        '''
        Loads a list of triples
        :param graph_data_path:
        :param graph_name:
        :return:
        '''
        self.cog.load_triples(graph_data_path, graph_name)
        self.all_predicates = self.cog.list_tables()

    def put(self, vertex1, predicate, vertex2):
        #self.cog.create_or_load_table(predicate, self.graph_name)
        self.cog.use_namespace(self.graph_name).use_table(predicate)
        self.cog.put_node(vertex1, predicate, vertex2)
        self.all_predicates = self.cog.list_tables()
        return self

    def list_predicate_tables(self, cog_dir, graph_name):
        p = set(())
        path = "/".join([cog_dir, graph_name])
        if not os.path.exists(path): return p
        files = [f for f in listdir(path) if isfile(join(path, f))]
        for f in files:
            p.add(f.split("-")[0])
        return p

    def v(self, vertex=None):
        #TODO: need to check if node exists
        if vertex:
            self.last_visited_vertices = [Vertex(vertex)]
        else:
            self.last_visited_vertices = []
            self.cog.use_namespace(self.graph_name).use_table(
                self.config.GRAPH_NODE_SET_TABLE_NAME)
            for r in self.cog.scanner():
                self.last_visited_vertices.append(Vertex(r))
        return self

    def out(self, predicates=None):
        '''
        List of string predicates
        :param predicates:
        :return:
        '''
        if predicates:
            assert type(predicates) == list
        self.__hop("out", predicates)
        return self

    def inc(self, predicates=None):
        self.__hop("in", predicates)
        return self

    def __hop(self, direction, predicates=None, tag=NOTAG):
        self.cog.use_namespace(self.graph_name)
        predicates = self.all_predicates if not predicates else predicates
        #print "hopping from vertices: " + str(map(lambda x : x.id, self.last_visited_vertices))
        #print "direction: " + str(direction) + " predicates: "+str(self.all_predicates)
        traverse_vertex = []
        for predicate in predicates:
            for v in self.last_visited_vertices:
                if direction == "out":
                    record = self.cog.use_table(predicate).get(out_nodes(v.id))
                else:
                    record = self.cog.use_table(predicate).get(in_nodes(v.id))
                #print "==? " + str(direction)+ " <> " + str(predicate) + " ::: " + str(v.id) + " ==> " + str(record)
                if record:
                    for v_adjacent in ast.literal_eval(record[1][1]):
                        v_adjacent_obj = Vertex(v_adjacent)
                        v_adjacent_obj.tags.update(v.tags)
                        traverse_vertex.append(v_adjacent_obj)
        self.last_visited_vertices = traverse_vertex

    def tag(self, tag_name):
        '''
        Saves nodes with a tag name and returned in the result set.
        Primarily used to capture nodes while navigating the graph.
        :param tag_name:
        :return:
        '''
        for v in self.last_visited_vertices:
            v.tags[tag_name] = v.id
        return self

    def count(self):
        return len(self.last_visited_vertices)

    def all(self):
        """
        returns all the nodes in the result.
        https://github.com/cayleygraph/cayley/blob/master/docs/GizmoAPI.md
        :return:
        """
        result = []
        for v in self.last_visited_vertices:
            #print "all:: tag: " + v + " vertex:"+ str(self.last_visited_vertices[v])
            item = {"id": v.id}
            item.update(v.tags)
            result.append(item)
        return {"result": result}
示例#2
0
文件: torque.py 项目: humaohai/cog
class Graph:
    """
    Creates a graph object.
    """
    def __init__(self, graph_name, cog_home="cog_home", cog_path_prefix=None):
        '''
        :param graph_name:
        :param cog_home: Home directory name, for most use cases use the default
        :param cog_path_prefix: sets the root directory location for Cog db. Default: '/tmp' set in cog.Config. Change this to current directory when running in an IPython environment.
        '''
        self.config = cfg
        self.config.COG_HOME = cog_home
        if cog_path_prefix:
            self.config.COG_PATH_PREFIX = cog_path_prefix
        self.graph_name = graph_name

        dictConfig(self.config.logging_config)
        self.logger = logging.getLogger("torque")
        #self.logger.setLevel(logging.DEBUG)
        self.logger.debug("Torque init : graph: " + graph_name +
                          " predicates: ")

        self.cog = Cog()
        self.cog.create_namespace(self.graph_name)
        self.all_predicates = self.cog.list_tables()
        self.views_dir = self.config.cog_views_dir()
        if not os.path.exists(self.views_dir):
            os.mkdir(self.views_dir)
        self.logger.debug("predicates: " + str(self.all_predicates))

        self.last_visited_vertices = None

    def load_edgelist(self, edgelist_file_path, graph_name, predicate="none"):
        self.cog.load_edgelist(edgelist_file_path, graph_name, predicate)
        self.all_predicates = self.cog.list_tables()

    def load_triples(self, graph_data_path, graph_name=None):
        '''
        Loads a list of triples
        :param graph_data_path:
        :param graph_name:
        :return:
        '''
        graph_name = self.graph_name if graph_name is None else graph_name
        self.cog.load_triples(graph_data_path, graph_name)
        self.all_predicates = self.cog.list_tables()

    def load_csv(self, csv_path, id_column_name, graph_name=None):
        """
        Loads CSV to a graph. One column must be designated as ID column.
        :param csv_path:
        :param id_column_name:
        :param graph_name:
        :return:
        """
        if id_column_name is None:
            raise Exception("id_column_name must not be None")
        graph_name = self.graph_name if graph_name is None else graph_name
        self.cog.load_csv(csv_path, id_column_name, graph_name)
        self.all_predicates = self.cog.list_tables()

    def close(self):
        self.logger.info("closing graph: " + self.graph_name)
        self.cog.close()

    def put(self, vertex1, predicate, vertex2):
        self.cog.use_namespace(self.graph_name).use_table(predicate)
        self.cog.put_node(vertex1, predicate, vertex2)
        self.all_predicates = self.cog.list_tables()
        return self

    def v(self, vertex=None):
        if vertex is not None:
            self.last_visited_vertices = [Vertex(vertex)]
        else:
            self.last_visited_vertices = []
            self.cog.use_namespace(self.graph_name).use_table(
                self.config.GRAPH_NODE_SET_TABLE_NAME)
            for r in self.cog.scanner():
                self.last_visited_vertices.append(Vertex(r.key))
        return self

    def out(self, predicates=None):
        '''
        Traverse forward through edges.
        :param predicates: A string or a List of strings.
        :return:
        '''
        if predicates is not None:
            if not isinstance(predicates, list):
                predicates = [predicates]
            predicates = list(map(hash_predicate, predicates))
        else:
            predicates = self.all_predicates

        self.logger.debug("OUT: predicates: " + str(predicates))
        self.__hop("out", predicates)
        return self

    def inc(self, predicates=None):
        '''
        Traverse backward through edges.
        :param predicates:
        :return:
        '''
        if predicates is not None:
            if not isinstance(predicates, list):
                predicates = [predicates]
            predicates = list(map(hash_predicate, predicates))
        else:
            predicates = self.all_predicates

        self.__hop("in", predicates)
        return self

    def __adjacent_vertices(self, vertex, predicates, direction='out'):
        self.cog.use_namespace(self.graph_name)
        adjacent_vertices = []
        for predicate in predicates:
            if direction == 'out':
                out_record = self.cog.use_table(predicate).get(
                    out_nodes(vertex.id))
                if not out_record.is_empty():
                    for v_adj in out_record.value:
                        adjacent_vertices.append(
                            Vertex(v_adj).set_edge(predicate))
            elif direction == 'in':
                in_record = self.cog.use_table(predicate).get(
                    in_nodes(vertex.id))
                if not in_record.is_empty():
                    for v_adj in in_record.value:
                        adjacent_vertices.append(
                            Vertex(v_adj).set_edge(predicate))

        return adjacent_vertices

    def has(self, predicates, vertex):
        """
        Filters all outgoing edges from a vertex that matches a list of predicates.
        :param predicates:
        :param vertex:
        :return:
        """

        if predicates is not None:
            if not isinstance(predicates, list):
                predicates = [predicates]
            predicates = list(map(hash_predicate, predicates))

        has_vertices = []
        for lv in self.last_visited_vertices:
            adj_vertices = self.__adjacent_vertices(lv, predicates)
            # print(lv.id + " -> " + str([x.id for x in adj_vertices]))
            for av in adj_vertices:
                if av.id == vertex:
                    has_vertices.append(lv)

        self.last_visited_vertices = has_vertices
        return self

    def hasr(self, predicates, vertex):
        """
        'Has' in reverse. Filters all incoming edges from a vertex that matches a list of predicates.
        :param predicates:
        :param vertex:
        :return:
        """

        if predicates is not None:
            if not isinstance(predicates, list):
                predicates = [predicates]
            predicates = list(map(hash_predicate, predicates))

        has_vertices = []
        for lv in self.last_visited_vertices:
            adj_vertices = self.__adjacent_vertices(lv, predicates, 'in')
            # print(lv.id + " -> " + str([x.id for x in adj_vertices]))
            for av in adj_vertices:
                if av.id == vertex:
                    has_vertices.append(lv)

        self.last_visited_vertices = has_vertices
        return self

    def scan(self, limit=10, scan_type='v'):
        '''
        Scans vertices or edges in a graph.
        :param limit:
        :param scan_type:
        :return:
        '''
        assert type(
            scan_type
        ) is str, "Scan type must be either 'v' for vertices or 'e' for edges."
        if scan_type == 'e':
            self.cog.use_namespace(self.graph_name).use_table(
                self.config.GRAPH_EDGE_SET_TABLE_NAME)
        else:
            self.cog.use_namespace(self.graph_name).use_table(
                self.config.GRAPH_NODE_SET_TABLE_NAME)
        result = []
        for i, r in enumerate(self.cog.scanner()):
            if i < limit:
                if scan_type == 'v':
                    v = Vertex(r.key)
                else:
                    v = Vertex(r.value)
                result.append({"id": v.id})
            else:
                break
        return {"result": result}

    def __hop(self, direction, predicates=None, tag=NOTAG):
        self.logger.debug("__hop : direction: " + str(direction) +
                          " predicates: " + str(predicates) + " graph name: " +
                          self.graph_name)
        self.cog.use_namespace(self.graph_name)
        self.logger.debug("hopping from vertices: " +
                          str(map(lambda x: x.id, self.last_visited_vertices)))
        self.logger.debug("direction: " + str(direction) + " predicates: " +
                          str(self.all_predicates))
        traverse_vertex = []
        for predicate in predicates:
            self.logger.debug("__hop predicate: " + predicate + " of " +
                              str(predicates))
            for v in self.last_visited_vertices:
                if direction == "out":
                    record = self.cog.use_table(predicate).get(out_nodes(v.id))
                else:
                    record = self.cog.use_table(predicate).get(in_nodes(v.id))
                if not record.is_empty():
                    for v_adjacent in record.value:
                        v_adjacent_obj = Vertex(v_adjacent).set_edge(predicate)
                        v_adjacent_obj.tags.update(v.tags)
                        traverse_vertex.append(v_adjacent_obj)
        self.last_visited_vertices = traverse_vertex

    def tag(self, tag_name):
        '''
        Saves vertices with a tag name. Used to capture vertices while traversing a graph.
        :param tag_name:
        :return:
        '''
        for v in self.last_visited_vertices:
            v.tags[tag_name] = v.id
        return self

    def count(self):
        return len(self.last_visited_vertices)

    def all(self, options=None):
        """
        Returns all the vertices that are resultant of the graph query. Options 'e' would include the edges that were traversed.
        https://github.com/cayleygraph/cayley/blob/master/docs/GizmoAPI.md
        :return:
        """
        result = []
        show_edge = True if options is not None and 'e' in options else False
        for v in self.last_visited_vertices:
            item = {"id": v.id}
            if show_edge and v.edges:
                item['edges'] = [
                    self.cog.use_namespace(self.graph_name).use_table(
                        self.config.GRAPH_EDGE_SET_TABLE_NAME).get(edge).value
                    for edge in v.edges
                ]
            # item['edge'] = self.cog.use_namespace(self.graph_name).use_table(self.config.GRAPH_EDGE_SET_TABLE_NAME).get(item['edge']).value
            item.update(v.tags)

            result.append(item)
        res = {"result": result}
        return res

    def view(
            self,
            view_name,
            js_src="https://cdnjs.cloudflare.com/ajax/libs/vis/4.21.0/vis.min.js"
    ):
        """
            Returns html view of the resulting graph from a query.
            :return:
        """
        assert view_name is not None, "a view name is required to create a view, it can be any string."
        result = self.all()
        view_html = script_part1 + graph_lib_src.format(
            js_src=js_src) + graph_template.format(
                plot_data_insert=json.dumps(result['result'])) + script_part2
        view = self.views_dir + "/{view_name}.html".format(view_name=view_name)
        view = View(view, view_html)
        view.persist()
        return view

    def getv(self, view_name):
        view = self.views_dir + "/{view_name}.html".format(view_name=view_name)
        assert os.path.isfile(
            view), "view not found, create a view by calling .view()"
        with open(view, 'r') as f:
            view_html = f.read()
        view = View(view, view_html)
        return view

    def lsv(self):
        return [f.split(".")[0] for f in listdir(self.views_dir)]