Ejemplo n.º 1
0
def give_zones_handler(robo_id):
    """
        Service for giving cleaning zones to smallvot amd distrivuting IDs to new smallvots
        :param robo_id: ID of the small rovot requesting a clean Task
        :return: fields for a clean Task
        """
    latestTask = Task(3)
    latestTask.workerID = robo_id.workerID
    start = Pose()
    start.position.x = 30
    # ['isActive', 'isComplete', 'workerID', 'type', 'zone', 'startingPoint']
    return [True, False, latestTask.workerID, "clean", 123, start]
Ejemplo n.º 2
0
def basic_test_with_camera():
    emptyRobotList = []
    taskID = 0
    CM = CleaningManager(emptyRobotList)
    timer = 0
    print("Getting Frames...")
    while timer < 500:
        CM.mapManager.mapMaker.update_map_async()
        if CM.mapManager.mapMaker.get_frame() == sl.ERROR_CODE.SUCCESS:
            # When grab() = SUCCESS, a new image, depth and pose is available.
            # Spatial mapping automatically ingests the new data to build the mesh.
            timer += 1
    CM.mapManager.update_OG()
    timer = 0
    cleaningTask1 = Task(Zone([Pose(), Pose(), Pose(), Pose()], taskID))
    CM.cleaningTasks.append(cleaningTask1)
    CM.mapManager.get_visible_zones()
    while 1:
        if CM.mapManager.mapMaker.get_frame() == sl.ERROR_CODE.SUCCESS:
            timer += 1

        if timer == 50:
            "updating OG..."
            CM.mapManager.mapMaker.update_pose_z()
            CM.mapManager.mapMaker.update_map_async()
            CM.mapManager.update_OG()
            CM.robotManager.director.publish_og()
            timer = 0

        if len(CM.cleaningTasks) < 1:
            taskID = taskID + 1
            corners = CM.mapManager.get_corners_from_center(
                CM.mapManager.get_center_from_zone_index(taskID))
            tl = Pose()
            tl.position.x = corners[0][0]
            tl.position.y = corners[0][1]
            tr = Pose()
            tr.position.x = corners[1][0]
            tr.position.y = corners[1][1]
            br = Pose()
            br.position.x = corners[2][0]
            br.position.y = corners[2][1]
            bl = Pose()
            bl.position.x = corners[3][0]
            bl.position.y = corners[3][1]
            cleaningTask = Task(Zone([tl, tr, br, bl], taskID))
            #cleaningTask = Task(Zone([Pose(), Pose(), Pose(), Pose()], taskID))
            CM.cleaningTasks.append(cleaningTask)
            print("added new cleaning task with ID:")
            print(taskID)
        time.sleep(.5)
Ejemplo n.º 3
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def basic_test():
    emptyRobotList = []
    taskID = 0
    CM = CleaningManager(emptyRobotList)
    cleaningTask1 = Task(Zone([Pose(), Pose(), Pose(), Pose()], taskID))
    CM.cleaningTasks.append(cleaningTask1)
    while 1:
        if len(CM.cleaningTasks) < 1:
            taskID = taskID + 1
            cleaningTask = Task(Zone([Pose(), Pose(), Pose(), Pose()], taskID))
            CM.cleaningTasks.append(cleaningTask)
            print("added new cleaning task with ID:")
            print(taskID)
        time.sleep(.5)
Ejemplo n.º 4
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 def give_cleaning_task(self, robot_request):
     if len(self.cleaningManager.cleaningTasks) > 0:
         print("giving cleaning task")
         task = self.cleaningManager.cleaningTasks.pop()
         self.cleaningManager.completed_tasks.append(task)
         print("task is " + str(task.zone.id))
         print("tasks remaining: " +
               str(len(self.cleaningManager.cleaningTasks)))
         task.workerID = robot_request.workerID
         return task.to_service_format()
     else:
         print("no cleaning Task")
         task = Task()
         task.make_safe_task(robot_request.workerID)
         return task.to_service_format()
Ejemplo n.º 5
0
 def __init__(self):
     self.robotList = []
     self.Tasks = []
     self.latestTask = Task(0)
     self.ros_node()
     rospy.sleep(8)
     self.order_avoid(2, 360)
     self.order_dump(1, 123)
     self.order_dump(2, 456)
Ejemplo n.º 6
0
 def give_avoid_status(self, robot_request):
     task = Task()
     if self.robotManager.should_robot_avoid(robot_request.workerID):
         if DEBUG:
             print("sending avoid task to robot with ID:")
             print(robot_request.workerID)
         task.make_avoid_task(Pose(), robot_request.workerID)
         return task.to_service_format()
     else:
         if DEBUG:
             print("sending safe task to robot with ID:")
             print(robot_request.workerID)
         task.make_safe_task(robot_request.workerID)
         return task.to_service_format()
Ejemplo n.º 7
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 def create_cleaning_tasks(self):
     for zone in self.mapManager.zones:
         exists = False
         for task in self.cleaningTasks:
             if task.zone.id == zone.id:
                 exists = True
                 break
         for task in self.completed_tasks:
             if task.zone.id == zone.id:
                 exists = True
                 break
         if not exists:
             self.cleaningTasks.append(Task(zone=zone))
    def test_extract_paragraphs_when_no_pdf_file(self):
        tenant = "test_extract_paragraphs_when_no_pdf_file"

        shutil.rmtree(f"{DOCKER_VOLUME_PATH}/to_extract/{tenant}",
                      ignore_errors=True)

        os.makedirs(f"{DOCKER_VOLUME_PATH}/to_extract/{tenant}")
        task = Task(tenant=tenant,
                    task="segmentation",
                    params=Params(filename="no_file"))

        extraction_data = extract_paragraphs(task)

        self.assertIsNone(extraction_data)
Ejemplo n.º 9
0
    def give_zones_handler(self, robo_id):
        """
        Service for giving cleaning zones to smallvot amd distrivuting IDs to new smallvots
        :param robo_id: ID of the small rovot requesting a clean Task
        :return: fields for a clean Task
        """
        self.latestTask = Task(3)

        if robo_id.workerID is -1:
            self.Tasks.append("Robot")
            self.latestTask.workerID = len(self.Tasks)
        else:
            self.latestTask.workerID = robo_id.workerID
            # [isActive, isComplete, WorkerID, Zone, Task type]
        return [True, False, self.latestTask.workerID, 123, "clean"]
Ejemplo n.º 10
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 def parse_task(self, taskResponse):
     """
     Takes a service response and combines all the fields into a Task
     :param taskResponse: response received from a service
     :return: a Task
     """
     zone = Zone(taskResponse.zoneCorners, taskResponse.zoneID)
     task = Task(zone, taskResponse.type)
     task.isActive = taskResponse.isActive
     task.isComplete = taskResponse.isComplete
     task.workerID = taskResponse.workerID
     task.start_point = taskResponse.startingPoint
     return task
Ejemplo n.º 11
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    def process(self, id, message, rc, ts):
        try:
            task = Task(**message)
        except ValidationError:
            self.logger.error(f"Not a valid message: {message}")
            return True

        self.logger.info(f"Valid message: {message}")

        try:
            extraction_data = extract_paragraphs(task)

            if not extraction_data:
                extraction_message = ExtractionMessage(
                    tenant=task.tenant,
                    task=task.task,
                    params=task.params,
                    success=False,
                    error_message="Error getting the xml from the pdf",
                )

                self.results_queue.sendMessage().message(extraction_message.dict()).execute()
                self.logger.error(extraction_message.json())
                return True

            results_url = f"{self.config.service_url}/get_paragraphs/{task.tenant}/{task.params.filename}"
            file_results_url = f"{self.config.service_url}/get_xml/{task.tenant}/{task.params.filename}"
            extraction_message = ExtractionMessage(
                tenant=extraction_data.tenant,
                task=task.task,
                params=task.params,
                success=True,
                data_url=results_url,
                file_url=file_results_url,
            )

            self.pdf_paragraph_db.paragraphs.insert_one(extraction_data.dict())
            self.logger.info(extraction_message.json())
            self.results_queue.sendMessage(delay=3).message(extraction_message.dict()).execute()
            return True
        except Exception:
            self.logger.error("error", exc_info=1)
            return True
    def test_extract_paragraphs(self):
        # setup
        tenant = "tenant_async"
        pdf_file_name = "test.pdf"
        xml_file_name = "test.xml"
        shutil.rmtree(f"{DOCKER_VOLUME_PATH}/to_extract/{tenant}",
                      ignore_errors=True)
        shutil.rmtree(f"{DOCKER_VOLUME_PATH}/xml/{tenant}", ignore_errors=True)
        os.makedirs(f"{DOCKER_VOLUME_PATH}/to_extract/{tenant}")
        print(f"{ROOT_FOLDER}/extract_pdf_paragraph/test_files/test.pdf")
        shutil.copyfile(
            f"{ROOT_FOLDER}/src/test_files/test.pdf",
            f"{DOCKER_VOLUME_PATH}/to_extract/{tenant}/{pdf_file_name}",
        )

        # act
        task = Task(tenant=tenant,
                    task="segmentation",
                    params=Params(filename=pdf_file_name))
        extraction_data = extract_paragraphs(task)

        # assert
        self.assertIsNotNone(extraction_data)
        self.assertEqual(tenant, extraction_data.tenant)
        self.assertEqual(pdf_file_name, extraction_data.file_name)
        self.assertEqual(612, extraction_data.page_width)
        self.assertEqual(792, extraction_data.page_height)
        self.assertLess(15, len(extraction_data.paragraphs))
        self.assertEqual("A/INF/76/1", extraction_data.paragraphs[0].text)
        self.assertEqual({1, 2},
                         {x.page_number
                          for x in extraction_data.paragraphs})
        self.assertTrue(
            os.path.exists(
                f"{DOCKER_VOLUME_PATH}/xml/{tenant}/{xml_file_name}"))
        self.assertFalse(
            os.path.exists(
                f"{DOCKER_VOLUME_PATH}/to_extract/{tenant}/{pdf_file_name}"))

        shutil.rmtree(f"{DOCKER_VOLUME_PATH}/xml/{tenant}", ignore_errors=True)
    def test_extract_paragraphs_when_pdf_error(self):
        mongo_client = pymongo.MongoClient("mongodb://localhost:27017")
        tenant = "tenant_async"
        pdf_file_name = "test.pdf"

        shutil.rmtree(f"{DOCKER_VOLUME_PATH}/to_extract/{tenant}",
                      ignore_errors=True)
        shutil.rmtree(f"{DOCKER_VOLUME_PATH}/failed_pdf/{tenant}",
                      ignore_errors=True)
        shutil.rmtree(f"{DOCKER_VOLUME_PATH}/xml/{tenant}", ignore_errors=True)

        os.makedirs(f"{DOCKER_VOLUME_PATH}/to_extract/{tenant}")
        shutil.copyfile(
            f"{ROOT_FOLDER}/README.md",
            f"{DOCKER_VOLUME_PATH}/to_extract/{tenant}/{pdf_file_name}",
        )

        task = Task(tenant=tenant,
                    task="segmentation",
                    params=Params(filename=pdf_file_name))

        extract_paragraphs(task)

        self.assertIsNone(mongo_client.pdf_paragraph.paragraphs.find_one())
        self.assertFalse(
            os.path.exists(
                f"{DOCKER_VOLUME_PATH}/to_extract/{tenant}/{pdf_file_name}"))
        self.assertFalse(
            os.path.exists(
                f"{DOCKER_VOLUME_PATH}/xml/{tenant}/{pdf_file_name}"))
        self.assertTrue(
            os.path.exists(
                f"{DOCKER_VOLUME_PATH}/failed_pdf/{tenant}/{pdf_file_name}"))

        shutil.rmtree(f"{DOCKER_VOLUME_PATH}/to_extract/{tenant}",
                      ignore_errors=True)
        shutil.rmtree(f"{DOCKER_VOLUME_PATH}/failed_pdf/{tenant}",
                      ignore_errors=True)
        shutil.rmtree(f"{DOCKER_VOLUME_PATH}/xml/{tenant}", ignore_errors=True)
Ejemplo n.º 14
0
 def play_possum(self, workerID):
     task = Task()
     pass
Ejemplo n.º 15
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 def avoid_to_direction(self, direction, workerID):
     task = Task()
     pass
Ejemplo n.º 16
0
    def go_back_to_zone(self, workerID):
        task = Task()
        robot = self.robotManager.get_robot(workerID)
        zone = robot.task.zone

        pass