diff options
Diffstat (limited to 'src')
-rw-r--r-- | src/argaze/utils/tobii_segment_display.py | 84 |
1 files changed, 65 insertions, 19 deletions
diff --git a/src/argaze/utils/tobii_segment_display.py b/src/argaze/utils/tobii_segment_display.py index 86d0057..a106e7b 100644 --- a/src/argaze/utils/tobii_segment_display.py +++ b/src/argaze/utils/tobii_segment_display.py @@ -12,14 +12,13 @@ import cv2 as cv def main(): """ - Replay Tobii segment video + Display Tobii segment video and data """ # manage arguments parser = argparse.ArgumentParser(description=main.__doc__.split('-')[0]) parser.add_argument('-s', '--segment_path', metavar='SEGMENT_PATH', type=str, default=None, help='segment path') parser.add_argument('-r', '--time_range', metavar=('START_TIME', 'END_TIME'), nargs=2, type=float, default=(0., None), help='start and end time (in second)') - parser.add_argument('-w', '--window', metavar='DISPLAY', type=bool, default=True, help='enable window display', action=argparse.BooleanOptionalAction) args = parser.parse_args() if args.segment_path != None: @@ -41,12 +40,22 @@ def main(): # Access to timestamped gaze position data buffer tobii_ts_gaze_positions = tobii_segment_data['GazePosition'] - # Access to timestamped pupil diameter data buffer - tobii_ts_pupil_diameter = tobii_segment_data['PupilDiameter'] + # Access to timestamped gaze position 3d data buffer + tobii_ts_gaze_positions_3d = tobii_segment_data['GazePosition3D'] + + # Access to timestamped head rotations data buffer + tobii_ts_head_rotations = tobii_segment_data['Gyroscope'] # Access to timestamped events data buffer tobii_ts_events = tobii_segment_data['Event'] + # !!! the parameters below are specific to the TobiiGlassesPro2 !!! + # Reference : https://www.biorxiv.org/content/10.1101/299925v1 + tobii_accuracy = 1.42 # degree + tobii_precision = 0.34 # degree + tobii_camera_hfov = 82 # degree + tobii_visual_hfov = 160 # degree + # Video and data replay loop try: @@ -58,40 +67,77 @@ def main(): video_ts_ms = video_ts / 1e3 - # Write segment timing - cv.putText(video_frame.matrix, f'Segment time: {int(video_ts_ms)} ms', (20, 40), cv.FONT_HERSHEY_SIMPLEX, 1, (255, 255, 255), 1, cv.LINE_AA) + try: + + # Get nearest head rotation before video timestamp and remove all head rotations before + _, nearest_head_rotation = tobii_ts_head_rotations.pop_first_until(video_ts) + + # Calculate head movement considering only head yaw and pitch + head_movement = numpy.array(nearest_head_rotation.value) + head_movement_px = head_movement.astype(int) + head_movement_norm = numpy.linalg.norm(head_movement[0:2]) + + # Draw movement vector + cv.line(video_frame.matrix, (int(video_frame.width/2), int(video_frame.height/2)), (int(video_frame.width/2) + head_movement_px[1], int(video_frame.height/2) - head_movement_px[0]), (150, 150, 150), 3) + + # Wait for head rotation + except ValueError: + pass try: - # Get closest gaze position before video timestamp and remove all gaze positions before - closest_gaze_ts, closest_gaze_position = tobii_ts_gaze_positions.pop_first_until(video_ts) + # Get nearest gaze position before video timestamp and remove all gaze positions before + _, nearest_gaze_position = tobii_ts_gaze_positions.pop_first_until(video_ts) + + # Ignore frame when gaze position is not valid + if nearest_gaze_position.validity == 0: + + gaze_position_pixel = GazeFeatures.GazePosition( (int(nearest_gaze_position.value[0] * video_frame.width), int(nearest_gaze_position.value[1] * video_frame.height)) ) + + # Draw gaze position + cv.circle(video_frame.matrix, gaze_position_pixel, 2, (0, 255, 255), -1) + + # Get nearest gaze position 3D before video timestamp and remove all gaze positions before + _, nearest_gaze_position_3d = tobii_ts_gaze_positions_3d.pop_first_until(video_ts) - # Get closest pupil diameter before video timestamp and remove all pupil diameters before - closest_pupil_ts, closest_pupil_diameter = tobii_ts_pupil_diameter.pop_first_until(video_ts) + # Ignore frame when gaze position 3D is not valid + if nearest_gaze_position_3d.validity == 0: + + gaze_accuracy_mm = numpy.tan(numpy.deg2rad(tobii_accuracy)) * nearest_gaze_position_3d.value[2] + tobii_camera_hfov_mm = numpy.tan(numpy.deg2rad(tobii_camera_hfov / 2)) * nearest_gaze_position_3d.value[2] - # Draw gaze position - gaze_position = (int(closest_gaze_position.value[0] * video_frame.width), int(closest_gaze_position.value[1] * video_frame.height)) - pupil_diameter = int((10 - closest_pupil_diameter.value) / 2) + gaze_position_pixel.accuracy = round(video_frame.width * float(gaze_accuracy_mm) / float(tobii_camera_hfov_mm)) - cv.circle(video_frame.matrix, gaze_position, 10, (0, 255, 255), pupil_diameter) + # Draw gaze accuracy + cv.circle(video_frame.matrix, gaze_position_pixel, gaze_position_pixel.accuracy, (0, 255, 255), 1) # Wait for gaze position except ValueError: - continue + pass try: - # Get closest event before video timestamp and remove all gaze positions before - closest_event_ts, closest_event = tobii_ts_events.pop_first_until(video_ts) + # Get nearest event before video timestamp and remove all gaze positions before + nearest_event_ts, nearest_event = tobii_ts_events.pop_first_until(video_ts) - print(closest_event_ts / 1e3, closest_event) + #print(nearest_event_ts / 1e3, nearest_event) # Write events - cv.putText(video_frame.matrix, str(closest_event), (20, 140), cv.FONT_HERSHEY_SIMPLEX, 1, (255, 255, 255), 1, cv.LINE_AA) + cv.rectangle(video_frame.matrix, (0, 0), (550, 50), (63, 63, 63), -1) + cv.putText(video_frame.matrix, str(nearest_event), (20, 140), cv.FONT_HERSHEY_SIMPLEX, 1, (255, 255, 255), 1, cv.LINE_AA) + # Wait for events except ValueError: pass + # Draw center + cv.line(video_frame.matrix, (int(video_frame.width/2) - 50, int(video_frame.height/2)), (int(video_frame.width/2) + 50, int(video_frame.height/2)), (255, 150, 150), 1) + cv.line(video_frame.matrix, (int(video_frame.width/2), int(video_frame.height/2) - 50), (int(video_frame.width/2), int(video_frame.height/2) + 50), (255, 150, 150), 1) + + # Write segment timing + cv.rectangle(video_frame.matrix, (0, 0), (550, 50), (63, 63, 63), -1) + cv.putText(video_frame.matrix, f'Segment time: {int(video_ts_ms)} ms', (20, 40), cv.FONT_HERSHEY_SIMPLEX, 1, (255, 255, 255), 1, cv.LINE_AA) + if args.window: # Close window using 'Esc' key |