From 10882a064e2c85a73e0aa006409e6f49b11b6f97 Mon Sep 17 00:00:00 2001 From: Théo de la Hogue Date: Wed, 21 Sep 2022 15:24:11 +0200 Subject: Updating empty scene handling. Removing visual scan processing. --- src/argaze/utils/tobii_segment_aruco_aoi_export.py | 156 ++++----------------- 1 file changed, 26 insertions(+), 130 deletions(-) (limited to 'src') diff --git a/src/argaze/utils/tobii_segment_aruco_aoi_export.py b/src/argaze/utils/tobii_segment_aruco_aoi_export.py index a3a31d0..b1fe4ed 100644 --- a/src/argaze/utils/tobii_segment_aruco_aoi_export.py +++ b/src/argaze/utils/tobii_segment_aruco_aoi_export.py @@ -18,8 +18,7 @@ def main(): """ Track ArUco markers into Tobii Glasses Pro 2 segment video file. For each loaded AOI scene .obj file, position the scene virtually relatively to each detected ArUco markers and project the scene into camera frame. - Then, detect if Tobii gaze point is inside any AOI. - Export AOIs video and data. + Export AOIs video and data as a aruco_aoi.csv, aruco_aoi.mp4 files """ # Manage arguments @@ -71,9 +70,8 @@ def main(): os.makedirs(destination_path) print(f'{destination_path} folder created') - vs_data_filepath = f'{destination_path}/visual_scan.csv' - vs_visu_filepath = f'{destination_path}/visual_scan_marker_%d.jpg' - vs_video_filepath = f'{destination_path}/visual_scan.mp4' + vs_data_filepath = f'{destination_path}/aruco_aoi.csv' + vs_video_filepath = f'{destination_path}/aruco_aoi.mp4' # Load a tobii segment tobii_segment = TobiiEntities.TobiiSegment(args.segment_path, int(args.time_range[0] * 1e6), int(args.time_range[1] * 1e6) if args.time_range[1] != None else None) @@ -89,12 +87,6 @@ def main(): for name in tobii_segment_data.keys(): print(f'\t{name}: {len(tobii_segment_data[name])} data') - # Access to timestamped gaze positions data buffer - tobii_ts_gaze_positions = tobii_segment_data['GazePosition'] - - # Access to timestamped gaze 3D positions 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'] @@ -111,7 +103,7 @@ def main(): else: - raise ValueError('.json camera calibration filepath required. Use -c option.') + raise UserWarning('.json camera calibration filepath required. Use -c option.') # Create aruco tracker aruco_tracker = ArUcoTracker.ArUcoTracker(args.marker_dictionary, args.marker_size, aruco_camera) @@ -139,53 +131,14 @@ def main(): print(f'AOI in {os.path.basename(aoi_scene_filepath)} scene related to marker #{marker_id}:') for aoi in aoi3D_scenes[marker_id].keys(): - # If a 'Visualisation_Plan' AOI exist - # TODO: document this deep feature !!! - if aoi == 'Visualisation_Plan': - - print(f'\tVisualisation_Plan detected: a visual scan picture will be output for this marker.') - - # Create a visual scan visualisation frame - visu_width, visu_height = 1920, 1080 - scene_width, scene_height, __ = aoi3D_scenes[marker_id].size() - - aoi2D_visu_frames[marker_id] = numpy.full((visu_height, visu_width, 3), 255, dtype=numpy.uint8) - - if args.time_range != (0., None): - cv.putText(aoi2D_visu_frames[marker_id], f'Segment time range: {int(args.time_range[0] * 1000)} - {int(args.time_range[1] * 1000)} ms', (20, 40), cv.FONT_HERSHEY_SIMPLEX, 1, (0, 0, 0), 1, cv.LINE_AA) - - # Project 3D scene onto the visualisation plan - aoi3D_scene_rotation = numpy.array([[-numpy.pi, 0.0, 0.0]]) - aoi3D_scene_translation = aoi3D_scenes[marker_id].center()*[-1, 1, 0] + [0, 0, scene_height] - - # Edit a projection matrix for the reference frame - K0 = numpy.array([[visu_height, 0.0, visu_width/2], [0.0, visu_height, visu_height/2], [0.0, 0.0, 1.0]]) - - aoi2D_visu_scenes[marker_id] = aoi3D_scenes[marker_id].project(aoi3D_scene_translation, aoi3D_scene_rotation, K0) - - for name, aoi in aoi2D_visu_scenes[marker_id].items(): - if name != 'Visualisation_Plan': - aoi.draw(aoi2D_visu_frames[marker_id], (0, 0, 0)) - - else: - - print(f'\t{aoi}') + print(f'\t{aoi}') def aoi3D_scene_selector(marker_id): return aoi3D_scenes.get(marker_id, None) - def aoi2D_visu_scene_selector(marker_id): - return aoi2D_visu_scenes.get(marker_id, None) - - def aoi2D_visu_frame_selector(marker_id): - return aoi2D_visu_frames.get(marker_id, None) - # Create timestamped buffer to store AOIs scene in time ts_aois_scenes = AOIFeatures.TimeStampedAOIScenes() - # Create timestamped buffer to store gaze positions in time - ts_gaze_positions = GazeFeatures.TimeStampedGazePositions() - # !!! the parameters below are specific to the TobiiGlassesPro2 !!! # Reference : https://www.biorxiv.org/content/10.1101/299925v1 tobii_accuracy = 1.42 # degree @@ -234,37 +187,10 @@ def main(): # When head is moving, ArUco tracking could return bad pose estimation and so bad AOI scene projection if head_moving: - raise AOIFeatures.AOISceneMissing('Head is moving') - - # 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 == 1: - raise GazeFeatures.GazePositionMissing('Unvalid gaze position') - - gaze_position_pixel = GazeFeatures.GazePosition( (int(nearest_gaze_position.value[0] * visu_frame.width), int(nearest_gaze_position.value[1] * visu_frame.height)) ) - - # Draw gaze position - cv.circle(visu_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) - # Ignore frame when gaze position 3D is not valid - if nearest_gaze_position_3d.validity == 1: - raise GazeFeatures.GazePositionMissing('Unvalid gaze position 3D') - - 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] - - gaze_position_pixel.accuracy = round(visu_frame.width * float(gaze_accuracy_mm) / float(tobii_camera_hfov_mm)) - - # Draw gaze accuracy - cv.circle(visu_frame.matrix, gaze_position_pixel, gaze_position_pixel.accuracy, (0, 255, 255), 1) - - # Store gaze position in millisecond for further visual scan processing - ts_gaze_positions[round(video_ts_ms)] = gaze_position_pixel + ts_aois_scenes[round(video_ts_ms)] = AOIFeatures.EmptyAOIScene() + + raise UserWarning('Head is moving') # Hide frame left and right borders before tracking to ignore markers outside focus area cv.rectangle(video_frame.matrix, (0, 0), (int(video_frame.width/6), int(video_frame.height)), (0, 0, 0), -1) @@ -276,7 +202,10 @@ def main(): # When no marker is detected, no AOI scene projection can't be done if aruco_tracker.get_markers_number() == 0: - raise AOIFeatures.AOISceneMissing('No marker detected') + + ts_aois_scenes[round(video_ts_ms)] = AOIFeatures.EmptyAOIScene() + + raise UserWarning('No marker detected') # Store aoi 2D video for further scene merging aoi2D_dict = {} @@ -294,7 +223,7 @@ def main(): aoi3D_camera = aoi3D_scene.transform(aruco_tracker.get_marker_translation(i), aruco_tracker.get_marker_rotation(i)) # Get aoi inside vision cone field - cone_vision_height_cm = nearest_gaze_position_3d.value[2]/10 # cm + cone_vision_height_cm = 200 # cm cone_vision_radius_cm = numpy.tan(numpy.deg2rad(tobii_visual_hfov / 2)) * cone_vision_height_cm aoi3D_inside, aoi3D_outside = aoi3D_camera.vision_cone(cone_vision_radius_cm, cone_vision_height_cm) @@ -314,51 +243,28 @@ def main(): aoi2D_dict[name].append(aoi.clockwise()) - # Select 2D visu scene if there is one for the detected marker - aoi2D_visu_scene = aoi2D_visu_scene_selector(marker_id) - aoi2D_visu_frame = aoi2D_visu_frame_selector(marker_id) - - if aoi2D_visu_scene == None: - continue - - look_at = aoi2D_video_scene['Visualisation_Plan'].look_at(gaze_position_pixel) - - visu_gaze_pixel = aoi2D_visu_scene['Visualisation_Plan'].looked_pixel(look_at) - cv.circle(aoi2D_visu_frame, visu_gaze_pixel, 4, (0, 0, 255), -1) - # Merge all 2D aoi into a single 2D scene aoi2D_merged_scene = AOI2DScene.AOI2DScene() for name, aoi_array in aoi2D_dict.items(): aoi2D_merged_scene[name] = numpy.sum(aoi_array, axis=0) / len(aoi_array) - aoi2D_merged_scene.draw(visu_frame.matrix, gaze_position_pixel, exclude=['Visualisation_Plan']) + aoi2D_merged_scene.draw(visu_frame.matrix, (0, 0)) - # When the merged scene is empty - if len(aoi2D_merged_scene.keys()) == 0: - raise AOIFeatures.AOISceneMissing('Scene is empty') - # Store 2D merged scene at this time in millisecond ts_aois_scenes[round(video_ts_ms)] = aoi2D_merged_scene - # Raised when gaze data is missing - except GazeFeatures.GazePositionMissing as e: - - # Store missing gaze data exception - ts_gaze_positions[round(video_ts_ms)] = e - - cv.rectangle(visu_frame.matrix, (0, 50), (550, 100), (127, 127, 127), -1) - cv.putText(visu_frame.matrix, str(e), (20, 80), cv.FONT_HERSHEY_SIMPLEX, 1, (0, 255, 255), 1, cv.LINE_AA) + # Warn user when the merged scene is empty + if len(aoi2D_merged_scene.keys()) == 0: - # Raised when aoi scene is missing - except AOIFeatures.AOISceneMissing as e: + raise UserWarning('Scene is empty') - # Store missing scene exception - ts_aois_scenes[round(video_ts_ms)] = e + # Write warning + except UserWarning as w: cv.rectangle(visu_frame.matrix, (0, 50), (550, 100), (127, 127, 127), -1) - cv.putText(visu_frame.matrix, str(e), (20, 80), cv.FONT_HERSHEY_SIMPLEX, 1, (0, 255, 255), 1, cv.LINE_AA) + cv.putText(visu_frame.matrix, str(w), (20, 80), cv.FONT_HERSHEY_SIMPLEX, 1, (0, 255, 255), 1, cv.LINE_AA) - # Raised when buffer is empty + # Raised when timestamped buffer is empty except ValueError: pass @@ -413,22 +319,12 @@ def main(): for marker_id, rejected_count in rejected_counts.items(): print(f'Markers {marker_id} has been rejected in {rejected_count} / {try_count} frames ({round(100 * rejected_count / try_count, 2)} %)') - # Build visual scan based on a pointer position - visual_scan = GazeFeatures.PointerBasedVisualScan(ts_aois_scenes, ts_gaze_positions) - print(f'{len(visual_scan.steps())} visual scan steps found') - - # Export visual scan data - visual_scan.export_as_csv(vs_data_filepath) - print(f'Visual scan data saved into {vs_data_filepath}') - - # Export each visual scan picture - for marker_id, aoi2D_visu_frame in aoi2D_visu_frames.items(): - cv.imwrite(vs_visu_filepath % marker_id, visu_frame.matrix) - print(f'Visual scan picture for marker {marker_id} saved into {vs_visu_filepath % marker_id}') - - # Notify when the visual scan video has been exported - print(f'Visual scan video saved into {vs_video_filepath}') + # Export aruco aoi data + ts_aois_scenes.export_as_csv(vs_data_filepath, exclude=['dimension']) + print(f'Aruco AOI data saved into {vs_data_filepath}') + # Notify when the aruco aoi video has been exported + print(f'Aruco AOI video saved into {vs_video_filepath}') if __name__ == '__main__': -- cgit v1.1