コード例 #1
0
    def init_input_output(self, input_sp_file_name, directed_import_count_list_name, directed_import_count_matrix_name,
                          directed_export_count_list_name, directed_export_count_matrix_name,
                          directed_import_weight_list_name, directed_import_weight_matrix_name,
                          directed_export_weight_list_name, directed_export_weight_matrix_name,
                          undirected_import_count_list_name, undirected_import_count_matrix_name,
                          undirected_export_count_list_name, undirected_export_count_matrix_name,
                          undirected_import_weight_list_name, undirected_import_weight_matrix_name,
                          undirected_export_weight_list_name, undirected_export_weight_matrix_name, header):
        self.source_sp_center = AISReader(input_sp_file_name, sp_index, sp_offset, label_index=sp_label_index)
        self.source_sp_center.start_fetch_data()

        self.directed_import_count_network.init_output_saver(directed_import_count_list_name,
                                                             directed_import_count_matrix_name, header, )
        self.directed_export_count_network.init_output_saver(directed_export_count_list_name,
                                                             directed_export_count_matrix_name, header, )
        self.directed_import_weight_network.init_output_saver(directed_import_weight_list_name,
                                                              directed_import_weight_matrix_name, header, )
        self.directed_export_weight_network.init_output_saver(directed_export_weight_list_name,
                                                              directed_export_weight_matrix_name, header, )

        self.undirected_import_count_network.init_output_saver(undirected_import_count_list_name,
                                                               undirected_import_count_matrix_name, header, )
        self.undirected_export_count_network.init_output_saver(undirected_export_count_list_name,
                                                               undirected_export_count_matrix_name, header, )
        self.undirected_import_weight_network.init_output_saver(undirected_import_weight_list_name,
                                                                undirected_import_weight_matrix_name, header, )
        self.undirected_export_weight_network.init_output_saver(undirected_export_weight_list_name,
                                                                undirected_export_weight_matrix_name, header, )
コード例 #2
0
    def init_input_output(
        self,
        input_sp_file_name,
        input_trajectory_file_name,
        output_sp_file_name,
        sp_header,
        output_rp_file_name,
        rp_header,
    ):
        # input
        self.source_sp_area = AISReader(
            input_sp_file_name,
            sp_index,
            sp_offset,
        )
        self.source_trajectory = AISReader(
            input_trajectory_file_name,
            trajectory_index,
            trajectory_offset,
        )

        self.source_sp_area.start_fetch_data()
        self.source_trajectory.start_fetch_data()

        self.target_route_point.init_output_saver(output_sp_file_name,
                                                  sp_header,
                                                  output_rp_file_name,
                                                  rp_header)
    def init_input_output(self, input_sp_file_name, input_trajectory_file_name, output_sp_file_name, output_sp_header,
                          output_trajectory_file_name, output_trajectory_header, output_trajectory_txt_name, ):
        # 打开输入输出
        self.source_sp_area = AISReader(input_sp_file_name, sp_index, sp_offset, sp_mark, )
        self.source_trajectory = AISReader(input_trajectory_file_name, trajectory_index, trajectory_offset, )

        self.source_sp_area.start_fetch_data()
        self.source_trajectory.start_fetch_data()

        self.target_sp_area.init_output_saver(output_sp_file_name, output_sp_header, )
        self.target_trajectory.init_output_saver(output_trajectory_file_name, output_trajectory_header,
                                                 output_trajectory_txt_name, output_trajectory_point_name,
                                                 output_trajectory_point_header)
コード例 #4
0
    def init_input_output(
        self,
        input_sp_file_name,
        input_rp_file_name,
        directed_info_file,
        directed_line_file,
        undirected_info_file,
        undirected_line_file,
        info_header,
    ):
        # input
        self.source_sp_center = AISReader(input_sp_file_name,
                                          sp_index,
                                          sp_offset,
                                          label_index=sp_label_index)
        self.source_rp_center = AISReader(input_rp_file_name,
                                          rp_index,
                                          rp_offset,
                                          label_index=rp_label_index)

        self.source_sp_center.start_fetch_data()
        self.source_rp_center.start_fetch_data()

        self.target_directed_trajectory.init_output_saver(
            directed_info_file,
            info_header,
            directed_line_file,
            None,
            None,
        )
        self.target_undirected_trajectory.init_output_saver(
            undirected_info_file,
            info_header,
            undirected_line_file,
            None,
            None,
        )
コード例 #5
0
class FlowNetworkService(object):

    def __init__(self):
        self.source_sp_center = None

        self.directed_import_count_network = FlowNetwork()
        self.directed_export_count_network = FlowNetwork()
        self.directed_import_weight_network = FlowNetwork()
        self.directed_export_weight_network = FlowNetwork()
        self.undirected_import_count_network = FlowNetwork()
        self.undirected_export_count_network = FlowNetwork()
        self.undirected_import_weight_network = FlowNetwork()
        self.undirected_export_weight_network = FlowNetwork()

        self.mark_dict = {}
        self.import_weight_matrix = None
        self.export_weight_matrix = None
        self.import_count_matrix = None
        self.export_count_matrix = None
        self.port_name_list = []

    def form_flow_network(self, input_sp_file_name, directed_import_count_list_name, directed_import_count_matrix_name,
                          directed_export_count_list_name, directed_export_count_matrix_name,
                          directed_import_weight_list_name, directed_import_weight_matrix_name,
                          directed_export_weight_list_name, directed_export_weight_matrix_name,
                          undirected_import_count_list_name, undirected_import_count_matrix_name,
                          undirected_export_count_list_name, undirected_export_count_matrix_name,
                          undirected_import_weight_list_name, undirected_import_weight_matrix_name,
                          undirected_export_weight_list_name, undirected_export_weight_matrix_name, header):
        self.init_input_output(input_sp_file_name, directed_import_count_list_name, directed_import_count_matrix_name,
                               directed_export_count_list_name, directed_export_count_matrix_name,
                               directed_import_weight_list_name, directed_import_weight_matrix_name,
                               directed_export_weight_list_name, directed_export_weight_matrix_name,
                               undirected_import_count_list_name, undirected_import_count_matrix_name,
                               undirected_export_count_list_name, undirected_export_count_matrix_name,
                               undirected_import_weight_list_name, undirected_import_weight_matrix_name,
                               undirected_export_weight_list_name, undirected_export_weight_matrix_name, header)
        self.form_flow_network_transaction()
        self.finish_deal()

    def init_input_output(self, input_sp_file_name, directed_import_count_list_name, directed_import_count_matrix_name,
                          directed_export_count_list_name, directed_export_count_matrix_name,
                          directed_import_weight_list_name, directed_import_weight_matrix_name,
                          directed_export_weight_list_name, directed_export_weight_matrix_name,
                          undirected_import_count_list_name, undirected_import_count_matrix_name,
                          undirected_export_count_list_name, undirected_export_count_matrix_name,
                          undirected_import_weight_list_name, undirected_import_weight_matrix_name,
                          undirected_export_weight_list_name, undirected_export_weight_matrix_name, header):
        self.source_sp_center = AISReader(input_sp_file_name, sp_index, sp_offset, label_index=sp_label_index)
        self.source_sp_center.start_fetch_data()

        self.directed_import_count_network.init_output_saver(directed_import_count_list_name,
                                                             directed_import_count_matrix_name, header, )
        self.directed_export_count_network.init_output_saver(directed_export_count_list_name,
                                                             directed_export_count_matrix_name, header, )
        self.directed_import_weight_network.init_output_saver(directed_import_weight_list_name,
                                                              directed_import_weight_matrix_name, header, )
        self.directed_export_weight_network.init_output_saver(directed_export_weight_list_name,
                                                              directed_export_weight_matrix_name, header, )

        self.undirected_import_count_network.init_output_saver(undirected_import_count_list_name,
                                                               undirected_import_count_matrix_name, header, )
        self.undirected_export_count_network.init_output_saver(undirected_export_count_list_name,
                                                               undirected_export_count_matrix_name, header, )
        self.undirected_import_weight_network.init_output_saver(undirected_import_weight_list_name,
                                                                undirected_import_weight_matrix_name, header, )
        self.undirected_export_weight_network.init_output_saver(undirected_export_weight_list_name,
                                                                undirected_export_weight_matrix_name, header, )

    def form_flow_network_transaction(self):
        self.init_matrix()

        self.fill_matrix()

        self.export_matrix()

    def init_matrix(self):
        self.mark_dict = {}

        self.mark_dict, offset = self.source_sp_center.fetch_unique_mark(self.mark_dict, 0)

        count = len(self.mark_dict.keys())

        self.import_weight_matrix = np.zeros((count, count))
        self.export_weight_matrix = np.zeros((count, count))
        self.import_count_matrix = np.zeros((count, count))
        self.export_count_matrix = np.zeros((count, count))

        self.get_port_name_list(count)

    def get_port_name_list(self, count):
        self.port_name_list = [0 for _ in range(count)]
        for key, value in self.mark_dict.items():
            self.port_name_list[value] = key

    def fill_matrix(self):
        while self.source_sp_center.has_next_data():
            print("deal the trajectory with index: {}".format(self.source_sp_center.index))
            port_list, _ = self.source_sp_center.fetch_data()
            self.fill_matrix_of_single_trajectory(port_list)

    def fill_matrix_of_single_trajectory(self, port_list):
        start_point, start_label = port_list[0]
        end_point, end_label = port_list[-1]

        # change_weight = calculate_change_dead_weight(start_point, end_point)
        change_weight = 1000
        if math.fabs(change_weight) > change_weight_threshold:
            start_index, end_index = self.mark_dict[start_label], self.mark_dict[end_label]
            if change_weight < 0:
                self.import_weight_matrix[start_index, end_index] += change_weight
                self.import_count_matrix[start_index, end_index] += 1
            else:
                self.export_weight_matrix[start_index, end_index] += -change_weight
                self.export_count_matrix[start_index, end_index] += 1

    def export_matrix(self):
        self.directed_import_count_network.export_info(self.import_count_matrix, self.port_name_list)
        self.directed_import_count_network.export_matrix(self.import_count_matrix, self.port_name_list)
        self.directed_export_count_network.export_info(self.export_count_matrix, self.port_name_list)
        self.directed_export_count_network.export_matrix(self.export_count_matrix, self.port_name_list)
        self.directed_import_weight_network.export_info(self.import_weight_matrix, self.port_name_list)
        self.directed_import_weight_network.export_matrix(self.import_weight_matrix, self.port_name_list)
        self.directed_export_weight_network.export_info(self.export_weight_matrix, self.port_name_list)
        self.directed_export_weight_network.export_matrix(self.export_weight_matrix, self.port_name_list)

        self.form_undirected_matrix()

        self.undirected_import_count_network.export_info(self.import_count_matrix, self.port_name_list)
        self.undirected_import_count_network.export_matrix(self.import_count_matrix, self.port_name_list)
        self.undirected_export_count_network.export_info(self.export_count_matrix, self.port_name_list)
        self.undirected_export_count_network.export_matrix(self.export_count_matrix, self.port_name_list)
        self.undirected_import_weight_network.export_info(self.import_weight_matrix, self.port_name_list)
        self.undirected_import_weight_network.export_matrix(self.import_weight_matrix, self.port_name_list)
        self.undirected_export_weight_network.export_info(self.export_weight_matrix, self.port_name_list)
        self.undirected_export_weight_network.export_matrix(self.export_weight_matrix, self.port_name_list)

    def finish_deal(self):
        self.source_sp_center.close()
        self.directed_import_count_network.close()
        self.directed_export_count_network.close()
        self.directed_import_weight_network.close()
        self.directed_export_weight_network.close()
        self.undirected_import_count_network.close()
        self.undirected_export_count_network.close()
        self.undirected_import_weight_network.close()
        self.undirected_export_weight_network.close()

    def form_undirected_matrix(self):
        height, width = self.import_weight_matrix.shape
        for i in range(height):
            for j in range(i, width):
                self.import_weight_matrix[i, j] += self.import_weight_matrix[j, i]
                self.import_weight_matrix[j, i] = 0
                self.import_count_matrix[i, j] += self.import_count_matrix[j, i]
                self.import_count_matrix[j, i] = 0
class AISPointMore(object):

    def __init__(self):
        self.target_sp_area = StillPointArea()
        self.target_trajectory = Trajectory()
        self.source_sp_area = None
        self.source_trajectory = None

    def join_trajectory(self, input_sp_file_name, input_trajectory_file_name, output_sp_file_name, output_sp_header,
                        output_trajectory_file_name, output_trajectory_header, output_trajectory_txt_name, ):
        self.init_input_output(input_sp_file_name, input_trajectory_file_name, output_sp_file_name, output_sp_header,
                               output_trajectory_file_name, output_trajectory_header, output_trajectory_txt_name, )
        self.deal_with_join_trajectory()
        self.finish_deal()

    def init_input_output(self, input_sp_file_name, input_trajectory_file_name, output_sp_file_name, output_sp_header,
                          output_trajectory_file_name, output_trajectory_header, output_trajectory_txt_name, ):
        # 打开输入输出
        self.source_sp_area = AISReader(input_sp_file_name, sp_index, sp_offset, sp_mark, )
        self.source_trajectory = AISReader(input_trajectory_file_name, trajectory_index, trajectory_offset, )

        self.source_sp_area.start_fetch_data()
        self.source_trajectory.start_fetch_data()

        self.target_sp_area.init_output_saver(output_sp_file_name, output_sp_header, )
        self.target_trajectory.init_output_saver(output_trajectory_file_name, output_trajectory_header,
                                                 output_trajectory_txt_name, output_trajectory_point_name,
                                                 output_trajectory_point_header)

    def deal_with_join_trajectory(self):
        print("deal the ship with mmsi: {}".format(self.source_sp_area.ais_point.mmsi))
        while self.source_sp_area.has_next_data() and self.source_trajectory.has_next_data():
            compare = self.source_trajectory.index - self.source_sp_area.index
            if compare < 0:
                print("!!!!!!!!!!!!!!!it would not happened in right situation")
                trajectory, _ = self.source_trajectory.fetch_data()
            elif compare > 0:
                self.deal_with_last_point()
                print("deal the ship with mmsi: {}".format(self.source_sp_area.ais_point.mmsi))
            else:
                self.deal_the_same_ship()

        while self.source_sp_area.has_next_data():
            self.deal_with_last_point()

    def deal_with_last_point(self):
        sp_area, is_suitable = self.source_sp_area.fetch_data()
        if is_suitable:
            self.target_trajectory.export_temp_trajectory_point(sp_area[0], self.target_sp_area.index - 1)
            self.target_sp_area.temp_still_point_set = sp_area
            self.target_sp_area.export_temp_still_point_set()

        self.target_sp_area.init_value()
        self.target_trajectory.init_value()

    def deal_the_same_ship(self):
        sp_area, is_suitable = self.source_sp_area.fetch_data()
        trajectory, _ = self.source_trajectory.fetch_data()
        self.target_trajectory.point_set = [sp_area[-1]] + trajectory
        self.target_sp_area.temp_still_point_set = sp_area
        if is_suitable:
            self.target_trajectory.export_temp_trajectory_point(sp_area[0], self.target_sp_area.index - 1)
            self.target_sp_area.export_temp_still_point_set()
            self.target_trajectory.is_ship_beginning = False
        else:
            self.target_trajectory.update_temp_trajectory_point(self.target_sp_area)

    def finish_deal(self):
        self.source_sp_area.close()
        self.source_trajectory.close()
コード例 #7
0
class TrajectoryService(object):
    def __init__(self):
        self.source_sp_center = None
        self.source_rp_center = None

        self.target_directed_trajectory = Trajectory()
        self.target_undirected_trajectory = Trajectory()

        self.mark_dict = {}
        self.position_array = None
        self.line_matrix = None
        self.port_name_list = None

    def form_trajectory(
        self,
        input_sp_file_name,
        input_rp_file_name,
        directed_info_file,
        directed_line_file,
        undirected_info_file,
        undirected_line_file,
        info_header,
    ):
        self.init_input_output(
            input_sp_file_name,
            input_rp_file_name,
            directed_info_file,
            directed_line_file,
            undirected_info_file,
            undirected_line_file,
            info_header,
        )
        self.form_trajectory_transaction()
        self.finish_deal()

    def init_input_output(
        self,
        input_sp_file_name,
        input_rp_file_name,
        directed_info_file,
        directed_line_file,
        undirected_info_file,
        undirected_line_file,
        info_header,
    ):
        # input
        self.source_sp_center = AISReader(input_sp_file_name,
                                          sp_index,
                                          sp_offset,
                                          label_index=sp_label_index)
        self.source_rp_center = AISReader(input_rp_file_name,
                                          rp_index,
                                          rp_offset,
                                          label_index=rp_label_index)

        self.source_sp_center.start_fetch_data()
        self.source_rp_center.start_fetch_data()

        self.target_directed_trajectory.init_output_saver(
            directed_info_file,
            info_header,
            directed_line_file,
            None,
            None,
        )
        self.target_undirected_trajectory.init_output_saver(
            undirected_info_file,
            info_header,
            undirected_line_file,
            None,
            None,
        )

    def form_trajectory_transaction(self):
        self.init_matrix()

        self.fill_matrix()

        self.export_matrix()

    def init_matrix(self):
        self.mark_dict = {}

        self.mark_dict, offset = self.source_sp_center.fetch_unique_mark(
            self.mark_dict, 0)
        self.mark_dict, _ = self.source_rp_center.fetch_unique_mark(
            self.mark_dict, offset)

        count = len(self.mark_dict.keys())

        self.position_array = np.zeros((count, 3))
        self.line_matrix = np.zeros((count, count))

        self.get_port_name_list(count)

    def fill_matrix(self):
        while self.source_sp_center.has_next_data(
        ) and self.source_rp_center.has_next_data():
            print("deal the trajectory with index: {}".format(
                self.source_sp_center.index))
            compare = self.source_rp_center.index - self.source_sp_center.index
            if compare < 0:
                print(
                    "!!!!!!!!!!!!!!!it would not happened in right situation")
                self.source_rp_center.fetch_data()
            elif compare > 0:
                self.connect_sp_point()
            else:
                self.connect_sp_rp_point()

        while self.source_sp_center.has_next_data():
            print("deal the trajectory with index: {}".format(
                self.source_sp_center.index))
            self.connect_sp_point()

        self.average_position_array()

    def connect_sp_point(self):
        port_list, _ = self.source_sp_center.fetch_data()
        self.update_matrix_by_point_list(port_list)

    def connect_sp_rp_point(self):
        port_list, _ = self.source_sp_center.fetch_data()
        route_list, _ = self.source_rp_center.fetch_data()

        self.update_matrix_by_point_list([port_list[0]] + route_list +
                                         [port_list[-1]])

    def update_matrix_by_point_list(self, point_list):
        for i in range(len(point_list) - 1):
            self.update_line_matrix(point_list[i], point_list[i + 1])
            self.update_position_array(point_list[i])

        self.update_position_array(point_list[-1])

    def update_line_matrix(self, start_info, end_info):
        start_label, end_label = start_info[1], end_info[1]
        start_index, end_index = self.mark_dict[start_label], self.mark_dict[
            end_label]
        self.line_matrix[start_index, end_index] += 1

    def update_position_array(self, row_info):
        ship_point, label = row_info
        index = self.mark_dict[label]
        self.position_array[index, 0] += ship_point.ship_position.X
        self.position_array[index, 1] += ship_point.ship_position.Y
        self.position_array[index, 2] += 1

    def average_position_array(self):
        for i in range(len(self.position_array)):
            self.position_array[i][0] /= self.position_array[i][2]
            self.position_array[i][1] /= self.position_array[i][2]

    def export_matrix(self):
        self.export_directed_trajectory()

        self.export_undirected_matrix()

    def export_directed_trajectory(self):
        height, width = self.line_matrix.shape
        for i in range(height):
            for j in range(width):
                self.export_single_line(i, j, self.target_directed_trajectory)

    def finish_deal(self):
        self.source_rp_center.close()
        self.source_sp_center.close()

    def export_undirected_matrix(self):
        height, width = self.line_matrix.shape
        for i in range(height):
            for j in range(i, width):
                self.line_matrix[i, j] += self.line_matrix[j, i]
                self.line_matrix[j, i] = 0
                self.export_single_line(i, j,
                                        self.target_undirected_trajectory)

    def export_single_line(self, i, j, target_trajectory):
        if i != j and self.line_matrix[i, j] > line_count_threshold:
            target_trajectory.line_file.write("{} 0\n".format(
                target_trajectory.index))
            longitude, latitude, _ = self.position_array[i]
            target_trajectory.line_file.write(
                "0 {} {} 1.#QNAN 1.#QNAN\n".format(i, longitude, latitude))
            longitude, latitude, _ = self.position_array[j]
            target_trajectory.line_file.write(
                "1 {} {} 1.#QNAN 1.#QNAN\n".format(i, longitude, latitude))

            target_trajectory.info_saver.writerow([
                target_trajectory.index, self.port_name_list[i],
                self.port_name_list[j], self.line_matrix[i, j]
            ])

            target_trajectory.index += 1

    def get_port_name_list(self, count):
        self.port_name_list = [0 for _ in range(count)]
        for key, value in self.mark_dict.items():
            self.port_name_list[value] = key
コード例 #8
0
class RoutePointService(object):
    def __init__(self):
        self.target_route_point = RoutePoint()
        self.ais_state = Const.MOVING

        self.before_point, self.middle_point, self.after_point = [
            None, None, None
        ]

        self.source_sp_area = None
        self.source_trajectory = None

    def extract_route_point(
        self,
        input_sp_file_name,
        input_trajectory_file_name,
        output_sp_file_name,
        sp_header,
        output_rp_file_name,
        rp_header,
        port_service,
    ):
        self.init_input_output(
            input_sp_file_name,
            input_trajectory_file_name,
            output_sp_file_name,
            sp_header,
            output_rp_file_name,
            rp_header,
        )
        self.deal_with_trajectory_construction(port_service)
        self.finish_deal()

    def init_input_output(
        self,
        input_sp_file_name,
        input_trajectory_file_name,
        output_sp_file_name,
        sp_header,
        output_rp_file_name,
        rp_header,
    ):
        # input
        self.source_sp_area = AISReader(
            input_sp_file_name,
            sp_index,
            sp_offset,
        )
        self.source_trajectory = AISReader(
            input_trajectory_file_name,
            trajectory_index,
            trajectory_offset,
        )

        self.source_sp_area.start_fetch_data()
        self.source_trajectory.start_fetch_data()

        self.target_route_point.init_output_saver(output_sp_file_name,
                                                  sp_header,
                                                  output_rp_file_name,
                                                  rp_header)

    def deal_with_trajectory_construction(self, port_service):
        print("deal the ship with mmsi: {}".format(
            self.source_sp_area.ais_point.mmsi))
        while self.source_sp_area.has_next_data(
        ) and self.source_trajectory.has_next_data():
            compare = self.source_trajectory.index - self.source_sp_area.index
            if compare < 0:
                print(
                    "!!!!!!!!!!!!!!!it would not happened in right situation")
                trajectory, _ = self.source_trajectory.fetch_data()
            elif compare > 0:
                self.deal_with_last_point(port_service)
                print("deal the ship with mmsi: {}".format(
                    self.source_sp_area.ais_point.mmsi))
            else:
                self.deal_with_same_ship(port_service)

        while self.source_sp_area.has_next_data():
            self.deal_with_last_point(port_service)

    def deal_with_last_point(self, port_service):
        sp_area, _ = self.source_sp_area.fetch_data()
        if self.target_route_point.export_sp_center(
                sp_area, port_service, port_search_distance_threshold):
            self.fetch_route_point_and_export()

        self.target_route_point.temp_trajectory_set = []
        self.target_route_point.temp_still_point_info = []

    def deal_with_same_ship(self, port_service):
        sp_area, _ = self.source_sp_area.fetch_data()
        trajectory_set, _ = self.source_trajectory.fetch_data()
        if self.target_route_point.export_sp_center(
                sp_area, port_service, port_search_distance_threshold):
            self.fetch_route_point_and_export()
            self.target_route_point.temp_trajectory_set = trajectory_set
        else:
            self.target_route_point.temp_trajectory_set = []

    # region fetch route point
    def fetch_route_point_and_export(self, ):
        trajectory_set = self.target_route_point.fetch_temp_trajectory_set()
        self.target_route_point.route_index = 0
        self.target_route_point.route_point_set = []
        for i in range(1, len(trajectory_set) - 1):
            self.before_point, self.middle_point, self.after_point = trajectory_set[
                i - 1:i + 2]
            speed_change = self.get_speed_change()
            heading_change = self.get_heading_change()

            if self.enter_route_process(speed_change, heading_change):
                self.deal_with_situation_of_enter(
                    speed_change,
                    heading_change,
                )
            elif self.out_route_process(speed_change):
                self.deal_with_situation_of_quit()
            else:
                self.deal_with_default_situation(
                    speed_change,
                    heading_change,
                )

    def get_speed_change(self):
        after_speed = self.after_point.calculate_avg_speed_to_item(
            self.middle_point)
        middle_speed = self.middle_point.calculate_avg_speed_to_item(
            self.before_point)
        return after_speed - middle_speed

    def get_heading_change(self, ):
        after_heading = self.after_point.calculate_heading_to_item(
            self.middle_point)
        middle_point = self.before_point.calculate_heading_to_item(
            self.before_point)
        return math.fabs(after_heading - middle_point)

    def enter_route_process(self, speed_change, heading_change):
        return 0 - speed_change > rp_speed_threshold and heading_change > rp_heading_threshold

    def deal_with_situation_of_enter(
        self,
        speed_change,
        heading_change,
    ):
        if self.ais_state == Const.MOVING:
            self.deal_moving_to_route_situation(
                speed_change,
                heading_change,
            )
        else:
            self.deal_route_situation(
                speed_change,
                heading_change,
            )

    def out_route_process(self, speed_change):
        return speed_change > rp_speed_threshold

    def deal_with_situation_of_quit(self):
        if self.ais_state == Const.ROUTE:
            self.deal_route_to_moving_situation()
        else:
            self.deal_moving_situation()

    def deal_with_default_situation(
        self,
        speed_change,
        heading_change,
    ):
        if self.ais_state == Const.ROUTE:
            self.deal_route_situation(
                speed_change,
                heading_change,
            )
        else:
            self.deal_moving_situation()

    def deal_moving_to_route_situation(
        self,
        speed_change,
        heading_change,
    ):
        self.target_route_point.route_point_set = [[
            self.middle_point, speed_change /
            math.fabs(self.after_point.utc - self.middle_point.utc),
            heading_change
        ]]
        self.ais_state = Const.ROUTE

    def deal_route_situation(
        self,
        speed_change,
        heading_change,
    ):
        self.target_route_point.route_point_set.append([
            self.middle_point, speed_change /
            math.fabs(self.after_point.utc - self.middle_point.utc),
            heading_change
        ])

    def deal_route_to_moving_situation(self):
        self.target_route_point.export_route_center(rp_point_threshold,
                                                    rp_acceleration_threshold,
                                                    rp_avg_heading_threshold)
        self.ais_state = Const.MOVING

    def deal_moving_situation(self):
        pass

    # endregion

    def finish_deal(self):
        self.source_sp_area.close()
        self.source_trajectory.close()

        self.target_route_point.close()