Exemplo n.º 1
0
    def __create_phase_lines(self, session):
        """
        Create lines for the different phases in the session. Green ones for the start of a phase and red ones for the
        end.

        :param session: The session this phase lines should represent.
        :type session: Session
        """
        config = helper.get_config(session.session_num)
        if config is None:
            return

        # Get all the times of all phases and creates a line for each one.
        for start, end in config.phase_timestamps.itervalues():
            start = helper.csvtime_to_float(session.date,
                                            start) - session.start_time
            end = helper.csvtime_to_float(session.date,
                                          end) - session.start_time

            for time, color in [(start, global_values.COLOR_PHASE_GREEN),
                                (end, global_values.COLOR_PHASE_RED)]:
                pos_x = (time / self.__duration) * self.__time_slider.width
                line_node = avg.LineNode(color=color,
                                         pos1=(pos_x, 25),
                                         pos2=(pos_x, 48),
                                         strokewidth=2,
                                         opacity=0.8,
                                         active=True,
                                         parent=self.__time_bar)
                self.__phase_lines[time] = line_node
Exemplo n.º 2
0
 def device_entry_from_csv(csv_record, date):
     timestamp = csvtime_to_float(date, csv_record[0])
     uid = int(csv_record[1])
     pos_screen = list(eval(csv_record[2]))
     pos_space = list(eval(csv_record[3]))
     orientation = list(eval(csv_record[4]))
     device_entry = plots.DeviceEntry(uid, pos_screen, pos_space,
                                      orientation, timestamp)
     return device_entry
Exemplo n.º 3
0
 def head_data_from_csv(csv_record, date):
     timestamp = csvtime_to_float(date, csv_record[0])
     userid = eval(csv_record[1])
     pos = list(eval(csv_record[2]))
     # pos is in Meters, origin is lower left corner of the wall.
     # In the CSV file:
     #   If facing the wall, x points left, y up, z into the wall
     # In the DB:
     #   If facing the wall, x points right, y up, z away from the wall
     pos[0] = -pos[0]
     pos[2] = -pos[2]
     # Rotation is yaw, pitch, roll, origin is facing wall.
     rotation = eval(csv_record[3])
     head_data = plots.HeadData(userid, pos, rotation, timestamp)
     return head_data
Exemplo n.º 4
0
def import_device_touches(session):
    print "Importing device touch data:"

    print "  Reading csv"
    with open(session.data_dir + "/" + session.device_touch_filename) as f:
        reader = csv.reader(f)
        csv_data = list(reader)
        csv_data.pop(0)
    print "  Processing"
    db_list = []
    last_time = 0
    for data in csv_data:
        print data
        timestamp = csvtime_to_float(session.date, data[0])
        userid = int(data[1])
        pos = list(eval(data[2]))
        t_type = data[3]
        if userid is None:
            continue
        touch = [
            session.session_num, session.level_num, userid, pos[0], pos[1],
            timestamp, t_type
        ]
        if timestamp > last_time + 0.1:
            # New touch
            db_list.append(touch)  # prepare for upload
        else:
            # Touch continuation
            touch[6] += timestamp - last_time
            db_list[-1] = touch
        last_time = touch[3]

    print "  Writing database"
    con = sqlite3.connect("db")
    cur = con.cursor()
    cur.executemany(
        "INSERT INTO device_touch (session, level, user, x, y, time, type) VALUES (?,?,?,?,?,?,?);",
        db_list)
    con.commit()
    con.close()
    def _read_csv_file(self, csv_path):
        """
        Reads the csv file and saves it in an extra dict with enums.

        :param csv_path: The path to the csv file for the tasks.
        :type csv_path: str
        """
        with open(csv_path, 'r') as f:
            next(f)
            for line in f:
                # Split the string in its different columns.
                line = line.split(", ")
                # Add the last column back together because it could contain ,
                line[2] = ", ".join(line[2:])
                timestamp = csvtime_to_float(line[0], line[1])

                if "aid line" in line[2]:
                    created = "created" in line[2]
                    self.__task_data[
                        timestamp] = TaskTypes.AidLineCreated if created else TaskTypes.AidLineDeleted
                elif "lens" in line[2] and "Filter" not in line[2]:
                    created = "created" in line[2]
                    self.__task_data[
                        timestamp] = TaskTypes.LensCreated if created else TaskTypes.LensDeleted
                elif "Filter" in line[2]:
                    deactivated = "deactivated" in line[2]
                    self.__task_data[
                        timestamp] = TaskTypes.FilterDeactivated if deactivated else TaskTypes.FilterActivated
                elif "phase" in line[2]:
                    self.__task_data[timestamp] = TaskTypes.PhaseChanged
                elif "block" in line[2] and "Started" in line[2]:
                    self.__task_data[timestamp] = TaskTypes.BlockStarted
                elif "Checked/Unchecked" in line[2]:
                    self.__task_data[timestamp] = TaskTypes.TaskChecked
                elif "tip was granted" in line[2]:
                    self.__task_data[timestamp] = TaskTypes.TipGranted
                elif "reset" in line[2]:
                    self.__task_data[timestamp] = TaskTypes.Reseted
Exemplo n.º 6
0
    def __init__(self, session_num, level_num, data_dir, optitrack_filename,
                 touch_filename, device_touch_filename, device_filename,
                 video_filenames, date, video_start_times, video_time_offset,
                 session_time_offset, num_users, user_pitch_offsets):
        self.session_num = session_num
        self.level_num = level_num
        self.data_dir = data_dir
        self.optitrack_filename = optitrack_filename
        self.touch_filename = touch_filename
        self.device_touch_filename = device_touch_filename
        self.device_filename = device_filename
        self.video_filenames = video_filenames
        self.date = date
        self.num_users = num_users
        self.__session_time_offset = session_time_offset
        # user_pitch_offsets: The recorded pitch data is incorrect by a constant if the subjects didn't wear the
        # helmet correctly.
        self.user_pitch_offsets = user_pitch_offsets

        self.video_start_times = []
        for video_start_time in video_start_times:
            self.video_start_times.append(
                csvtime_to_float(date, video_start_time) + video_time_offset)
    distance_contents.append(content)

# Look at each session.
for session_id in session_ids:
    session = create_session(session_id)
    session.load_from_db()

    config = get_config(session_id)
    users = session.users

    phase_durations = OrderedDict()
    # Look at each phase.
    for c, (phase,
            phase_timestamp) in enumerate(config.phase_timestamps.iteritems()):
        # Calculate the duration and add it to the dict.
        start = csvtime_to_float(session.date,
                                 phase_timestamp[0]) - session.start_time
        end = csvtime_to_float(session.date,
                               phase_timestamp[1]) - session.start_time
        phase_durations[phase] = end - start

        # Save the user distances for further use.
        user_session_distances[c][session_id] = OrderedDict([
            (uid, [pos[1] for pos in users[uid].getHeadXZPosns(start, end)])
            for uid in user_ids
        ])

        # Get all values to calculate the statistics.
        touches = {uid: users[uid].getTouches(start, end) for uid in user_ids}
        user_positions = {
            uid: users[uid].getHeadXZPosns(start, end)
            for uid in user_ids