def setUp(self): ImageData.items = dict() # not shuffled image data access self.not_shuffled = ImageData(path="", n=3) self.not_shuffled.get_image_pairs("mock_room") self.not_shuffled.get_image_pairs("other_mock_room") self.not_shuffled.get_image_pairs("another_mock_room") # shuffled image data access self.shuffled = ImageData(path="", n=3, shuffle=True, seed=24) self.shuffled.get_image_pairs("shuffled_mock_room")
def __init__(self, token, user, host, port): """This bot allows two players that are shown two different or equal pictures to discuss about what they see and decide whether there are differences. :param token: A uuid; a string following the same pattern as `0c45b30f-d049-43d1-b80d-e3c3a3ca22a0` :type token: str :param user: ID of a `User` object that was created with the token. :type user: int :param uri: Full URL including protocol and hostname, followed by the assigned port if any. :type uri: str :param images_per_room: Each room is mapped to a list of pairs with two image urls. Each participant is presented exactly one image per pair and round. :type images_per_room: dict :param timers_per_room: Each room is mapped to an instance of RoomTimers. :type timers_per_room: dict :param players_per_room: Each room is mapped to a list of users. Each user is represented as a dict with the keys 'name', 'id', 'msg_n' and 'status'. :type players_per_room: dict :param last_message_from: Each room is mapped to the user that has answered last. A user is represented as a dict with the keys 'name' and 'id'. :type last_message_from: dict :param waiting_timer: Only one user can be in the waiting room at a time because the concierge bot would move them once there are two. If this single user waits for a prolonged time their receive an AMT token for waiting. :type waiting_timer: Timer """ self.token = token self.user = user self.uri = host if port is not None: self.uri += f":{port}" self.uri += "/slurk/api" self.images_per_room = ImageData(DATA_PATH, N, SHUFFLE, SEED) self.timers_per_room = dict() self.players_per_room = dict() self.last_message_from = dict() self.waiting_timer = None self.received_waiting_token = set() LOG.info(f"Running dito bot on {self.uri} with token {self.token}") # register all event handlers self.register_callbacks()
def test_shuffled_reproducible(self): self.other_shuffled = ImageData(path="", n=3, shuffle=True, seed=24) self.other_shuffled.get_image_pairs("other_shuffled_mock_room") self.assertEqual(self.shuffled["shuffled_mock_room"], self.other_shuffled["other_shuffled_mock_room"])
class TestImageData(unittest.TestCase): @file_mock def setUp(self): ImageData.items = dict() # not shuffled image data access self.not_shuffled = ImageData(path="", n=3) self.not_shuffled.get_image_pairs("mock_room") self.not_shuffled.get_image_pairs("other_mock_room") self.not_shuffled.get_image_pairs("another_mock_room") # shuffled image data access self.shuffled = ImageData(path="", n=3, shuffle=True, seed=24) self.shuffled.get_image_pairs("shuffled_mock_room") def test_not_shuffled_correct_order(self): expected_first_sample = [('0', '0'), ('1', '1'), ('2', '2')] expected_second_sample = [('3', '3'), ('4', '4'), ('5', '5')] actual_first_sample = self.not_shuffled["mock_room"] actual_second_sample = self.not_shuffled["other_mock_room"] self.assertEqual(actual_first_sample, expected_first_sample) self.assertEqual(actual_second_sample, expected_second_sample) def test_not_shuffled_sum_of_sample_sizes_exceeds_file_lines(self): # algorithm should start again from the beginning of the file expected = [('0', '0'), ('1', '1'), ('2', '2')] actual = self.not_shuffled["another_mock_room"] self.assertEqual(actual, expected) def test_shuffled_no_duplicates(self): expected = 3 actual = len(set(self.shuffled["shuffled_mock_room"])) self.assertEqual(actual, expected) @file_mock def test_shuffled_reproducible(self): self.other_shuffled = ImageData(path="", n=3, shuffle=True, seed=24) self.other_shuffled.get_image_pairs("other_shuffled_mock_room") self.assertEqual(self.shuffled["shuffled_mock_room"], self.other_shuffled["other_shuffled_mock_room"]) @file_mock def test_shuffled_uniform_distribution(self): observations = dict() # create 200 rooms of size 3 (=600 data points) for i in range(200): self.shuffled.get_image_pairs(str(i)) for item, _ in self.shuffled[str(i)]: if item not in observations: observations[item] = 0 observations[item] += 1 # null hypothesis -> the sample is uniformly distributed likelihood_under_H0 = stats.chisquare(list(observations.values())).pvalue self.assertGreater(likelihood_under_H0, 0.50)
class DiToBot: sio = socketio.Client(logger=True) """The ID of the task the bot is involved in.""" task_id = None """The ID of the room where users for this task are waiting.""" waiting_room = None def __init__(self, token, user, host, port): """This bot allows two players that are shown two different or equal pictures to discuss about what they see and decide whether there are differences. :param token: A uuid; a string following the same pattern as `0c45b30f-d049-43d1-b80d-e3c3a3ca22a0` :type token: str :param user: ID of a `User` object that was created with the token. :type user: int :param uri: Full URL including protocol and hostname, followed by the assigned port if any. :type uri: str :param images_per_room: Each room is mapped to a list of pairs with two image urls. Each participant is presented exactly one image per pair and round. :type images_per_room: dict :param timers_per_room: Each room is mapped to an instance of RoomTimers. :type timers_per_room: dict :param players_per_room: Each room is mapped to a list of users. Each user is represented as a dict with the keys 'name', 'id', 'msg_n' and 'status'. :type players_per_room: dict :param last_message_from: Each room is mapped to the user that has answered last. A user is represented as a dict with the keys 'name' and 'id'. :type last_message_from: dict :param waiting_timer: Only one user can be in the waiting room at a time because the concierge bot would move them once there are two. If this single user waits for a prolonged time their receive an AMT token for waiting. :type waiting_timer: Timer """ self.token = token self.user = user self.uri = host if port is not None: self.uri += f":{port}" self.uri += "/slurk/api" self.images_per_room = ImageData(DATA_PATH, N, SHUFFLE, SEED) self.timers_per_room = dict() self.players_per_room = dict() self.last_message_from = dict() self.waiting_timer = None self.received_waiting_token = set() LOG.info(f"Running dito bot on {self.uri} with token {self.token}") # register all event handlers self.register_callbacks() def run(self): # establish a connection to the server self.sio.connect( self.uri, headers={ "Authorization": f"Bearer {self.token}", "user": self.user }, namespaces="/", ) # wait until the connection with the server ends self.sio.wait() def register_callbacks(self): @self.sio.event def new_task_room(data): """Triggered after a new task room is created. An example scenario would be that the concierge bot emitted a room_created event once enough users for a task have entered the waiting room. """ room_id = data["room"] task_id = data["task"] LOG.debug(f"A new task room was created with id: {data['task']}") LOG.debug(f"This bot is looking for task id: {self.task_id}") if task_id is not None and task_id == self.task_id: for usr in data['users']: self.received_waiting_token.discard(usr['id']) # create image items for this room LOG.debug("Create data for the new task room...") self.images_per_room.get_image_pairs(room_id) self.players_per_room[room_id] = [] for usr in data["users"]: self.players_per_room[room_id].append({ **usr, "msg_n": 0, "status": "joined" }) self.last_message_from[room_id] = None # register ready timer for this room self.timers_per_room[room_id] = RoomTimers() self.timers_per_room[room_id].ready_timer = Timer( TIME_READY * 60, self.sio.emit, args=[ "text", { "message": "Are you ready? " "Please type **/ready** to begin the game.", "room": room_id, "html": True } ]) self.timers_per_room[room_id].ready_timer.start() response = requests.post( f"{self.uri}/users/{self.user}/rooms/{room_id}", headers={"Authorization": f"Bearer {self.token}"}) if not response.ok: LOG.error( f"Could not let dito bot join room: {response.status_code}" ) response.raise_for_status() LOG.debug("Sending dito bot to new room was successful.") @self.sio.event def joined_room(data): """Triggered once after the bot joins a room.""" room_id = data["room"] if room_id in self.images_per_room: # read out task greeting for line in TASK_GREETING: self.sio.emit("text", { "message": line, "room": room_id, "html": True }) sleep(.5) # ask players to send \ready response = requests.patch( f"{self.uri}/rooms/{room_id}/text/instr_title", json={"text": line}, headers={"Authorization": f"Bearer {self.token}"}) if not response.ok: LOG.error( f"Could not set task instruction title: {response.status_code}" ) response.raise_for_status() @self.sio.event def status(data): """Triggered if a user enters or leaves a room.""" # check whether the user is eligible to join this task task = requests.get( f"{self.uri}/users/{data['user']['id']}/task", headers={"Authorization": f"Bearer {self.token}"}) if not task.ok: LOG.error( f"Could not set task instruction title: {task.status_code}" ) task.raise_for_status() if not task.json() or task.json()["id"] != int(self.task_id): return room_id = data["room"] # someone joined waiting room if room_id == self.waiting_room: if self.waiting_timer is not None: LOG.debug("Waiting Timer stopped.") self.waiting_timer.cancel() if data["type"] == "join": LOG.debug("Waiting Timer restarted.") self.waiting_timer = Timer( TIME_WAITING * 60, self._no_partner, args=[room_id, data["user"]["id"]]) self.waiting_timer.start() # some joined a task room elif room_id in self.images_per_room: curr_usr, other_usr = self.players_per_room[room_id] if curr_usr["id"] != data["user"]["id"]: curr_usr, other_usr = other_usr, curr_usr if data["type"] == "join": # inform game partner about the rejoin event self.sio.emit( "text", { "message": f"{curr_usr['name']} has joined the game. ", "room": room_id, "receiver_id": other_usr["id"] }) elif data["type"] == "leave": # send a message to the user that was left alone self.sio.emit( "text", { "message": f"{curr_usr['name']} has left the game. " "Please wait a bit, your partner may rejoin.", "room": room_id, "receiver_id": other_usr["id"] }) @self.sio.event def text_message(data): """Triggered once a text message is sent (no leading /). Count user text messages. If encountering something that looks like a command then pass it on to be parsed as such. """ LOG.debug(f"Received a message from {data['user']['name']}.") room_id = data["room"] user_id = data["user"]["id"] # filter irrelevant messages if room_id not in self.images_per_room or user_id == self.user: return # if the message is part of the main discussion count it for usr in self.players_per_room[room_id]: if usr["id"] == user_id and usr["status"] == "ready": usr["msg_n"] += 1 # reset the answer timer if the message was an answer if user_id != self.last_message_from[room_id]: LOG.debug(f"{data['user']['name']} awaits an answer.") if self.last_message_from[room_id] is not None: self.timers_per_room[room_id].last_answer_timer.cancel() self.timers_per_room[room_id].last_answer_timer = Timer( TIME_ANSWER * 60, self._noreply, args=[room_id, user_id]) self.timers_per_room[room_id].last_answer_timer.start() # save the person that last left a message self.last_message_from[room_id] = user_id @self.sio.event def command(data): """Parse user commands.""" LOG.debug( f"Received a command from {data['user']['name']}: {data['command']}" ) room_id = data["room"] user_id = data["user"]["id"] if room_id in self.images_per_room: if data["command"] == "difference": self.sio.emit( "text", { "message": "You need to provide a difference description!", "room": room_id, "receiver_id": user_id }) elif data["command"].startswith("difference"): self._command_difference(room_id, user_id) elif data["command"].startswith("ready"): self._command_ready(room_id, user_id) elif data["command"] in {"noreply", "no reply"}: self.sio.emit( "text", { "message": "Please wait some more for an answer.", "room": room_id, "receiver_id": user_id }) else: self.sio.emit( "text", { "message": "Sorry, but I do not understand this command.", "room": room_id, "receiver_id": user_id }) def _command_ready(self, room_id, user_id): """Must be sent to begin a conversation.""" # identify the user that has not sent this event curr_usr, other_usr = self.players_per_room[room_id] if curr_usr["id"] != user_id: curr_usr, other_usr = other_usr, curr_usr # only one user has sent /ready repetitively if curr_usr["status"] in {"ready", "done"}: sleep(.5) self.sio.emit( "text", { "message": "You have already typed /ready.", "receiver_id": curr_usr["id"], "room": room_id }) return curr_usr["status"] = "ready" self.timers_per_room[room_id].ready_timer.cancel() # a first ready command was sent if other_usr["status"] == "joined": sleep(.5) # give the user feedback that his command arrived self.sio.emit( "text", { "message": "Now, waiting for your partner to type /ready.", "receiver_id": curr_usr["id"], "room": room_id }) # give the other user time before reminding him self.timers_per_room[room_id].ready_timer = Timer( (TIME_READY / 2) * 60, self.sio.emit, args=[ "text", { "message": "Your partner is ready. Please, type /ready!", "room": room_id, "receiver_id": other_usr["id"] } ]) self.timers_per_room[room_id].ready_timer.start() # the other player was already ready else: # both users are ready and the game begins self.sio.emit("text", { "message": "Woo-Hoo! The game will begin now.", "room": room_id }) self.show_item(room_id) # kindly ask the users to come to an end after a certain time self.timers_per_room[room_id].game_timer = Timer( TIME_GAME * 60, self.sio.emit, args=[ "text", { "message": "You both seem to be having a discussion " "for a long time. Could you reach an " "agreement and provide an answer?", "room": room_id } ]) self.timers_per_room[room_id].game_timer.start() def _command_difference(self, room_id, user_id): """Must be sent to end a game round.""" # identify the user that has not sent this event curr_usr, other_usr = self.players_per_room[room_id] if curr_usr["id"] != user_id: curr_usr, other_usr = other_usr, curr_usr # one can't be done before both were ready if "joined" in {curr_usr["status"], other_usr["status"]}: self.sio.emit( "text", { "message": "The game has not started yet.", "receiver_id": curr_usr["id"], "room": room_id }) # we expect at least 3 messages of each player elif curr_usr["msg_n"] < 3 or other_usr["msg_n"] < 3: self.sio.emit( "text", { "message": "Are you sure? Please discuss some more!", "receiver_id": curr_usr["id"], "room": room_id }) # this user has already recently typed /difference elif curr_usr["status"] == "done": sleep(.5) self.sio.emit( "text", { "message": "You have already typed **/difference**.", "receiver_id": curr_usr["id"], "room": room_id, "html": True }) else: curr_usr["status"] = "done" # only one user thinks they are done if other_usr["status"] != "done": # await for the other user to agree self.timers_per_room[room_id].done_timer = Timer( TIME_DONE * 60, self._not_done, args=[room_id, user_id]) self.timers_per_room[room_id].done_timer.start() self.sio.emit( "text", { "message": "Let's wait for your partner " "to also type **/difference**.", "receiver_id": curr_usr["id"], "room": room_id, "html": True }) self.sio.emit( "text", { "message": "Your partner thinks that you " "have found the difference. " "Type **/difference** and a **brief description** if you agree.", "receiver_id": other_usr["id"], "room": room_id, "html": True }) # both users think they are done with the game else: self.timers_per_room[room_id].done_timer.cancel() self.images_per_room[room_id].pop(0) # was this the last game round? if not self.images_per_room[room_id]: self.sio.emit( "text", { "message": "The game is over! Thank you for participating!", "room": room_id }) sleep(1) self.confirmation_code(room_id, "success") sleep(1) self.close_game(room_id) else: self.sio.emit( "text", { "message": "Ok, let's get both of you the next image. " f"{len(self.images_per_room[room_id])} to go!", "room": room_id }) # reset attributes for the new round for usr in self.players_per_room[room_id]: usr["status"] = "ready" usr["msg_n"] = 0 self.timers_per_room[room_id].game_timer.cancel() self.timers_per_room[room_id].game_timer = Timer( TIME_GAME * 60, self.sio.emit, args=[ "text", { "message": "You both seem to be having a discussion " "for a long time. Could you reach an " "agreement and provide an answer?", "room": room_id } ]) self.timers_per_room[room_id].game_timer.start() self.show_item(room_id) def _not_done(self, room_id, user_id): """One of the two players was not done.""" for usr in self.players_per_room[room_id]: if usr["id"] == user_id: usr["status"] = "ready" self.sio.emit( "text", { "message": "Your partner seems to still want to discuss some more. " "Send /difference again once you two are really finished.", "receiver_id": user_id, "room": room_id }) def show_item(self, room_id): """Update the image and task description of the players.""" LOG.debug("Update the image and task description of the players.") # guarantee fixed user order - necessary for update due to rejoin users = sorted(self.players_per_room[room_id], key=lambda x: x["id"]) if self.images_per_room[room_id]: images = self.images_per_room[room_id][0] # show a different image to each user for usr, img in zip(users, images): response = requests.patch( f"{self.uri}/rooms/{room_id}/attribute/id/current-image", json={ "attribute": "src", "value": img, "receiver_id": usr["id"] }, headers={"Authorization": f"Bearer {self.token}"}) if not response.ok: LOG.error(f"Could not set image: {response.status_code}") response.raise_for_status() # the task for both users is the same - no special receiver response = requests.patch( f"{self.uri}/rooms/{room_id}/text/instr_title", json={"text": TASK_TITLE}, headers={"Authorization": f"Bearer {self.token}"}) if not response.ok: LOG.error( f"Could not set task instruction title: {response.status_code}" ) response.raise_for_status() response = requests.patch( f"{self.uri}/rooms/{room_id}/text/instr", json={"text": TASK_DESCR}, headers={"Authorization": f"Bearer {self.token}"}) if not response.ok: LOG.error( f"Could not set task instruction: {response.status_code}") response.raise_for_status() def _no_partner(self, room_id, user_id): """Handle the situation that a participant waits in vain.""" if user_id not in self.received_waiting_token: self.sio.emit( "text", { "message": "Unfortunately we could not find a partner for you!", "room": room_id, "receiver_id": user_id }) # create token and send it to user self.confirmation_code(room_id, "no_partner", receiver_id=user_id) sleep(5) self.sio.emit( "text", { "message": "You may also wait some more :)", "room": room_id, "receiver_id": user_id }) # no need to cancel # the running out of this timer triggered this event self.waiting_timer = Timer(TIME_WAITING * 60, self._no_partner, args=[room_id, user_id]) self.waiting_timer.start() self.received_waiting_token.add(user_id) else: self.sio.emit( "text", { "message": "You won't be remunerated for further waiting time.", "room": room_id, "receiver_id": user_id }) sleep(2) self.sio.emit( "text", { "message": "Please check back at another time of the day.", "room": room_id, "receiver_id": user_id }) def _noreply(self, room_id, user_id): """One participant did not receive an answer for a while.""" curr_usr, other_usr = self.players_per_room[room_id] if curr_usr["id"] != user_id: curr_usr, other_usr = other_usr, curr_usr self.sio.emit( "text", { "message": "The game ended because you were gone for too long!", "room": room_id, "receiver_id": other_usr["id"] }) self.sio.emit( "text", { "message": "Your partner seems to be away for a long time!", "room": room_id, "receiver_id": curr_usr["id"] }) # create token and send it to user self.confirmation_code(room_id, "no_reply", receiver_id=curr_usr["id"]) self.close_game(room_id) def confirmation_code(self, room_id, status, receiver_id=None): """Generate AMT token that will be sent to each player.""" kwargs = dict() # either only for one user or for both if receiver_id is not None: kwargs["receiver_id"] = receiver_id amt_token = ''.join( random.choices(string.ascii_uppercase + string.digits, k=6)) # post AMT token to logs response = requests.post( f"{self.uri}/logs", json={ "event": "confirmation_log", "room_id": room_id, "data": { "status_txt": status, "amt_token": amt_token }, **kwargs }, headers={"Authorization": f"Bearer {self.token}"}) if not response.ok: LOG.error( f"Could not post AMT token to logs: {response.status_code}") response.raise_for_status() self.sio.emit( "text", { "message": "Please enter the following token into the field on " "the HIT webpage, and close this browser window. ", "room": room_id, **kwargs }) self.sio.emit( "text", { "message": f"Here is your token: {amt_token}", "room": room_id, **kwargs }) return amt_token def close_game(self, room_id): """Erase any data structures no longer necessary.""" self.sio.emit( "text", { "message": "You will be moved out of this room " f"in {TIME_CLOSE*2*60}-{TIME_CLOSE*3*60}s.", "room": room_id }) sleep(2) self.sio.emit( "text", { "message": "Make sure to save your token before that.", "room": room_id }) self.room_to_read_only(room_id) # disable all timers for timer_id in { "ready_timer", "game_timer", "done_timer", "last_answer_timer" }: timer = getattr(self.timers_per_room[room_id], timer_id) if timer is not None: timer.cancel() # send users back to the waiting room sleep(TIME_CLOSE * 60) for usr in self.players_per_room[room_id]: sleep(TIME_CLOSE * 60) self.rename_users(usr["id"]) response = requests.post( f"{self.uri}/users/{usr['id']}/rooms/{self.waiting_room}", headers={"Authorization": f"Bearer {self.token}"}) if not response.ok: LOG.error( f"Could not let user join waiting room: {response.status_code}" ) response.raise_for_status() LOG.debug("Sending user to waiting room was successful.") response = requests.delete( f"{self.uri}/users/{usr['id']}/rooms/{room_id}", headers={ "If-Match": response.headers["ETag"], "Authorization": f"Bearer {self.token}" }) if not response.ok: LOG.error( f"Could not remove user from task room: {response.status_code}" ) response.raise_for_status() LOG.debug("Removing user from task room was successful.") # remove any task room specific objects self.images_per_room.pop(room_id) self.timers_per_room.pop(room_id) self.players_per_room.pop(room_id) self.last_message_from.pop(room_id) def room_to_read_only(self, room_id): """Set room to read only.""" response = requests.patch( f"{self.uri}/rooms/{room_id}/attribute/id/text", json={ "attribute": "readonly", "value": "True" }, headers={"Authorization": f"Bearer {self.token}"}) if not response.ok: LOG.error( f"Could not set room to read_only: {response.status_code}") response.raise_for_status() response = requests.patch( f"{self.uri}/rooms/{room_id}/attribute/id/text", json={ "attribute": "placeholder", "value": "This room is read-only" }, headers={"Authorization": f"Bearer {self.token}"}) if not response.ok: LOG.error( f"Could not set room to read_only: {response.status_code}") response.raise_for_status() def rename_users(self, user_id): """Give all users in a room a new random name.""" names_f = os.path.join(ROOT, "data", "names.txt") with open(names_f, 'r', encoding="utf-8") as f: names = [line.rstrip() for line in f] new_name = random.choice(names) response = requests.get( f"{self.uri}/users/{user_id}", headers={"Authorization": f"Bearer {self.token}"}) if not response.ok: LOG.error(f"Could not get user: {response.status_code}") response.raise_for_status() response = requests.patch(f"{self.uri}/users/{user_id}", json={"name": new_name}, headers={ "If-Match": response.headers["ETag"], "Authorization": f"Bearer {self.token}" }) if not response.ok: LOG.error(f"Could not rename user: {response.status_code}") response.raise_for_status() LOG.debug(f"Successfuly renamed user to '{new_name}'.")