def restart_server(self):
try:
self.restart = False
FSSystem.run_command("/etc/init.d/fabscanpi-server restart",
blocking=True)
except Exception as e:
self._logger.error(e)
def avr_flash(self, fname):
FSSystem.run_command("wc -l {0}".format(fname))
status = FSSystem.run_command(
"sudo avrdude-autoreset -D -V -U flash:w:{0}:i -b {1} -carduino -pm328p -P{2}"
.format(fname, self.flash_baudrate, self._port))
if status != 0:
self._logger.error("Failed to flash firmware")
return status == 0
def start(self):
#self._hardwarecontroller.stop_camera_stream()
tools = FSSystem()
tools.delete_folder(self.config.folders.scans + 'calibration')
self._hardwarecontroller.turntable.enable_motors()
self._hardwarecontroller.led.on(self.calibration_brightness[0],
self.calibration_brightness[1],
self.calibration_brightness[2])
#self.settings.camera.contrast = 30
#self.settings.camera.saturation = 20
#self.settings.camera.brightness = 50
self.reset_calibration_values()
self.settings.threshold = 30
self._starttime = self.get_time_stamp()
message = {"message": "START_CALIBRATION", "level": "info"}
self._eventmanager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE,
message)
try:
self._hardwarecontroller.start_camera_stream(mode="calibration")
self._do_calibration(self._capture_camera_calibration,
self._calculate_camera_calibration)
self._do_calibration(self._capture_scanner_calibration,
self._calculate_scanner_calibration)
if self._stop:
self._logger.debug("Calibration canceled...")
# send information to client that calibration is finished
message = {"message": "STOPPED_CALIBRATION", "level": "info"}
self._eventmanager.broadcast_client_message(
FSEvents.ON_INFO_MESSAGE, message)
self._stop = False
else:
event = FSEvent()
event.command = 'CALIBRATION_COMPLETE'
self._eventmanager.publish(FSEvents.COMMAND, event)
# send information to client that calibration is finished
message = {"message": "FINISHED_CALIBRATION", "level": "info"}
self.config.save()
self._eventmanager.broadcast_client_message(
FSEvents.ON_INFO_MESSAGE, message)
self._hardwarecontroller.stop_camera_stream()
self._hardwarecontroller.led.off()
self._hardwarecontroller.turntable.disable_motors()
self.reset_calibration_values()
return
except StandardError as e:
self._logger.error(e)
def do_upgrade():
try:
rc_update = FSSystem.run_command("sudo apt-get update")
rc_upgrade = FSSystem.run_command("sudo apt-get install -y -o Dpkg::Options::='--force-confnew' fabscanpi-server")
return (rc_update == 0 and rc_upgrade == 0)
except Exception, e:
logging.error(e)
return 1
def avr_flash(self, fname):
FSSystem.run_command("wc -l " + str(fname))
status = FSSystem.run_command(
"sudo avrdude-autoreset -D -V -U flash:w:" + str(fname) +
":i -b " + str(self.flash_baudrate) + " -carduino -pm328p -P" +
str(self._port))
if status != 0:
self._logger.error("Failed to flash firmware")
return status == 0
def __init__(self, config, settings, eventmanager, imageprocessor,
hardwarecontroller, calibration):
super(FSScanProcessorInterface,
self).__init__(self, config, settings, eventmanager,
imageprocessor, hardwarecontroller, calibration)
#asyncio.set_event_loop(asyncio.new_event_loop())
self.settings = settings
self.config = config
self._logger = logging.getLogger(__name__)
self.eventmanager = eventmanager.instance
self.calibration = calibration
self._worker_pool = None
self.hardwareController = hardwarecontroller
self.image_processor = imageprocessor
self._prefix = None
self._resolution = 16
self._number_of_pictures = 0
self._total = 1
self._progress = 1
self._is_color_scan = True
self.point_clouds = []
self.both_cloud = []
self.current_position = 0
self._stop_scan = False
self._current_laser_position = 1
self._starttime = 0
self._additional_worker_number = 1
self.texture_lock_event = threading.Event()
self.texture_lock_event.set()
self.utils = FSSystem()
self._scan_brightness = self.settings.file.camera.brightness
self._scan_contrast = self.settings.file.camera.contrast
self._scan_saturation = self.settings.file.camera.saturation
self._logger.info("Laser Scan Processor initilized.")
# prevent deadlocks when opencv tbb is not available
cv_build_info = cv2.getBuildInformation()
# fallback to one worker.
if not "TBB" in cv_build_info:
self._logger.warning(
"OpenCV does not support TBB. Falling back to single processing."
)
self.config.file.process_numbers = 1
def __init__(self, config, settings, eventmanager, imageprocessor,
hardwarecontroller, calibration):
super(FSScanProcessorInterface,
self).__init__(self, config, settings, eventmanager,
imageprocessor, hardwarecontroller, calibration)
self.settings = settings
self.config = config
self._logger = logging.getLogger(__name__)
self.eventmanager = eventmanager.instance
self.calibration = calibration
self.hardwareController = hardwarecontroller
self.image_processor = imageprocessor
self._prefix = None
self._resolution = 16
self._number_of_pictures = 0
self._total = 0
self._laser_positions = 1
self._progress = 0
self._is_color_scan = True
self.point_cloud = None
self.image_task_q = multiprocessing.Queue(self.config.process_numbers *
2)
self.current_position = 0
self._stop_scan = False
self._current_laser_position = 1
self._starttime = 0
self.utils = FSSystem()
self.semaphore = multiprocessing.BoundedSemaphore()
self.event_q = self.eventmanager.get_event_q()
self._worker_pool = None
self._scan_brightness = self.settings.camera.brightness
self._scan_contrast = self.settings.camera.contrast
self._scan_saturation = self.settings.camera.saturation
self.eventmanager.subscribe(FSEvents.ON_IMAGE_PROCESSED,
self.image_processed)
self._logger.info("Laser Scan Processor initilized..." + str(self))
def run(self):
self._logger.info("Process started...")
data = {"message": "MESHING_STARTED", "level": "info"}
self.eventManager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE,
data)
basedir = os.path.dirname(os.path.dirname(__file__))
mlx_script_path = basedir + "/mlx/" + self.filter
input = self.config.file.folders.scans + str(self.scan_id) + "/" + str(
self.file)
output = self.config.file.folders.scans + str(
self.scan_id) + "/mesh_" + str(self.file[:-3]) + "_" + str(
self.filter).split(".")[0] + "." + self.format
self._logger.info(output)
pointcloud_size = self.get_poitcloud_value_by_line(
pointcloud_file=input, lookup="element vertex")
self.prepare_down_sampling(str(mlx_script_path), pointcloud_size)
return_code = FSSystem.run_command("xvfb-run meshlabserver -i " +
input + " -o " + output + " -s " +
str(mlx_script_path) + " -om vc vn")
self._logger.debug("Process return code: " + str(return_code))
if return_code is 0:
message = {
"message": "MESHING_DONE",
"scan_id": self.scan_id,
"level": "success"
}
else:
message = {
"message": "MESHING_FAILED",
"scan_id": self.scan_id,
"level": "error"
}
self.eventManager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE,
message)
self._logger.info("Process finished.")
def avr_device_is_available(self):
status = FSSystem.run_command("sudo avrdude-autoreset -p m328p -b "+str(self.flash_baudrate)+" -carduino -P"+str(self._port))
return status == 0
class FSScanProcessor(FSScanProcessorInterface):
def __init__(self, config, settings, eventmanager, imageprocessor,
hardwarecontroller, calibration):
super(FSScanProcessorInterface,
self).__init__(self, config, settings, eventmanager,
imageprocessor, hardwarecontroller, calibration)
self.settings = settings
self.config = config
self._logger = logging.getLogger(__name__)
self.eventmanager = eventmanager.instance
self.calibration = calibration
self.hardwareController = hardwarecontroller
self.image_processor = imageprocessor
self._prefix = None
self._resolution = 16
self._number_of_pictures = 0
self._total = 0
self._laser_positions = 1
self._progress = 0
self._is_color_scan = True
self.point_cloud = None
self.image_task_q = multiprocessing.Queue(self.config.process_numbers *
2)
self.current_position = 0
self._stop_scan = False
self._current_laser_position = 1
self._starttime = 0
self.utils = FSSystem()
self.semaphore = multiprocessing.BoundedSemaphore()
self.event_q = self.eventmanager.get_event_q()
self._worker_pool = None
self._scan_brightness = self.settings.camera.brightness
self._scan_contrast = self.settings.camera.contrast
self._scan_saturation = self.settings.camera.saturation
self.eventmanager.subscribe(FSEvents.ON_IMAGE_PROCESSED,
self.image_processed)
self._logger.info("Laser Scan Processor initilized..." + str(self))
def on_receive(self, event):
if event[FSEvents.COMMAND] == FSScanProcessorCommand.START:
self.start_scan()
if event[FSEvents.COMMAND] == FSScanProcessorCommand.STOP:
self.stop_scan()
if event[FSEvents.COMMAND] == FSScanProcessorCommand.SETTINGS_MODE_ON:
self.settings_mode_on()
if event[FSEvents.COMMAND] == FSScanProcessorCommand.SETTINGS_MODE_OFF:
self.settings_mode_off()
if event[
FSEvents.
COMMAND] == FSScanProcessorCommand._SCAN_NEXT_TEXTURE_POSITION:
self.scan_next_texture_position()
if event[FSEvents.
COMMAND] == FSScanProcessorCommand._SCAN_NEXT_OBJECT_POSITION:
self.scan_next_object_position()
if event[FSEvents.
COMMAND] == FSScanProcessorCommand.NOTIFY_HARDWARE_STATE:
self.send_hardware_state_notification()
if event[FSEvents.COMMAND] == FSScanProcessorCommand.UPDATE_SETTINGS:
self.update_settings(event['SETTINGS'])
if event[FSEvents.COMMAND] == FSScanProcessorCommand.UPDATE_CONFIG:
self.update_settings(event['CONFIG'])
if event[FSEvents.COMMAND] == FSScanProcessorCommand.GET_HARDWARE_INFO:
return self.hardwareController.get_firmware_version()
if event[FSEvents.
COMMAND] == FSScanProcessorCommand.GET_ADJUSTMENT_STREAM:
return self.create_adjustment_stream()
if event[FSEvents.COMMAND] == FSScanProcessorCommand.GET_LASER_STREAM:
return self.create_laser_stream()
if event[
FSEvents.COMMAND] == FSScanProcessorCommand.GET_TEXTURE_STREAM:
return self.create_texture_stream()
if event[FSEvents.
COMMAND] == FSScanProcessorCommand.GET_CALIBRATION_STREAM:
return self.create_calibration_stream()
if event[FSEvents.COMMAND] == FSScanProcessorCommand.START_CALIBRATION:
return self.start_calibration()
if event[FSEvents.COMMAND] == FSScanProcessorCommand.STOP_CALIBRATION:
return self.stop_calibration()
if event[FSEvents.
COMMAND] == FSScanProcessorCommand.NOTIFY_IF_NOT_CALIBRATED:
return self.notify_if_is_not_calibrated()
if event[
FSEvents.
COMMAND] == FSScanProcessorCommand.CALL_HARDWARE_TEST_FUNCTION:
device = event['DEVICE_TEST']
self.hardwareController.call_test_function(device)
def call_hardware_test_function(self, function):
self.hardwareController.call_test_function(function)
def notify_if_is_not_calibrated(self):
self._logger.debug(self.config.calibration.camera_matrix)
is_calibrated = not (self.config.calibration.laser_planes[0]['normal']
== [])
self._logger.debug("FabScan is calibrated: " + str(is_calibrated))
if not is_calibrated:
message = {"message": "SCANNER_NOT_CALIBRATED", "level": "warn"}
self.eventmanager.broadcast_client_message(
FSEvents.ON_INFO_MESSAGE, message)
def create_texture_stream(self):
try:
image = self.hardwareController.get_picture()
#image = self.image_processor.get_texture_stream_frame(image)
return image
except Exception as e:
#self._logger.error(e)
pass
def create_adjustment_stream(self):
try:
image = self.hardwareController.get_picture()
image = self.image_processor.get_adjustment_stream_frame(image)
return image
except Exception as e:
pass
def create_calibration_stream(self):
try:
image = self.hardwareController.get_picture()
image = self.image_processor.get_calibration_stream_frame(image)
return image
except Exception as e:
# images are dropped this cateched exception.. no error hanlder needed here.
pass
def create_laser_stream(self):
try:
image = self.hardwareController.get_picture()
return image
except Exception as e:
# images are dropped this cateched exception.. no error hanlder needed here.
pass
def update_settings(self, settings):
try:
self.settings.update(settings)
#FIXME: Only change Color Settings when values changed.
self.hardwareController.led.on(self.settings.led.red,
self.settings.led.green,
self.settings.led.blue)
except Exception as e:
# images are dropped this cateched exception.. no error hanlder needed here.
pass
def update_config(self, config):
try:
self.config.update(config)
except Exception as e:
pass
def start_calibration(self):
self.hardwareController.settings_mode_off()
time.sleep(0.5)
self.calibration.start()
def stop_calibration(self):
self.calibration.stop()
def send_hardware_state_notification(self):
self._logger.debug("Checking Hardware connections")
if not self.hardwareController.arduino_is_connected():
message = {"message": "NO_SERIAL_CONNECTION", "level": "error"}
self.eventmanager.broadcast_client_message(
FSEvents.ON_INFO_MESSAGE, message)
if not self.hardwareController.camera_is_connected():
message = {"message": "NO_CAMERA_CONNECTION", "level": "error"}
self.eventmanager.broadcast_client_message(
FSEvents.ON_INFO_MESSAGE, message)
def settings_mode_on(self):
self._logger.debug("FSScanProcessor:settings_mode_on")
#message = {
# "message": "SETTINGS_MODE_ON",
# "level": "info"
#}
#self.eventmanager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE, message)
self.hardwareController.settings_mode_on()
def settings_mode_off(self):
#message = {
# "message": "SETTINGS_MODE_OFF",
# "level": "info"
#}
#self.eventmanager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE, message)
self.hardwareController.settings_mode_off()
def start_scan(self):
self.settings_mode_off()
self._logger.info("Scan started")
self._stop_scan = False
if self._worker_pool is None:
self._worker_pool = FSImageWorkerPool(self.image_task_q,
self.event_q)
self.hardwareController.turntable.enable_motors()
self.hardwareController.start_camera_stream(mode="default")
time.sleep(1.5)
self._resolution = int(self.settings.resolution)
self._laser_positions = int(self.settings.laser_positions)
self._is_color_scan = bool(self.settings.color)
self._number_of_pictures = old_div(self.config.turntable.steps,
int(self.settings.resolution))
self.current_position = 0
self._starttime = self.get_time_stamp()
# TODO: rename prefix to scan_id
self._prefix = datetime.fromtimestamp(
time.time()).strftime('%Y%m%d-%H%M%S')
self.point_cloud = FSPointCloud(color=self._is_color_scan)
if not (self.config.calibration.laser_planes[0]['normal']
== []) and self.actor_ref.is_alive():
if self._is_color_scan:
self._total = self._number_of_pictures * 2 * self.config.laser.numbers
self.actor_ref.tell({
FSEvents.COMMAND:
FSScanProcessorCommand._SCAN_NEXT_TEXTURE_POSITION
})
else:
self._total = self._number_of_pictures * self.config.laser.numbers
self.actor_ref.tell({
FSEvents.COMMAND:
FSScanProcessorCommand._SCAN_NEXT_OBJECT_POSITION
})
else:
self._logger.debug("FabScan is not calibrated scan canceled")
message = {"message": "SCANNER_NOT_CALIBRATED", "level": "warn"}
self.eventmanager.broadcast_client_message(
FSEvents.ON_INFO_MESSAGE, message)
event = FSEvent()
event.command = 'STOP'
self.eventmanager.publish(FSEvents.COMMAND, event)
def init_texture_scan(self):
message = {"message": "SCANNING_TEXTURE", "level": "info"}
self.eventmanager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE,
message)
self._worker_pool.create(self.config.process_numbers)
self._scan_brightness = self.settings.camera.brightness
self._scan_contrast = self.settings.camera.contrast
self._scan_saturation = self.settings.camera.saturation
#self.settings.camera.brightness = 50
#self.settings.camera.contrast = 0
#self.settings.camera.saturation = 0
self.hardwareController.led.on(self.config.texture_illumination,
self.config.texture_illumination,
self.config.texture_illumination)
self.hardwareController.camera.device.flush_stream()
def finish_texture_scan(self):
self._logger.info("Finishing texture scan.")
self.current_position = 0
self.hardwareController.camera.device.flush_stream()
self.hardwareController.led.off()
self.settings.camera.brightness = self._scan_brightness
self.settings.camera.contrast = self._scan_contrast
self.settings.camera.saturation = self._scan_saturation
def scan_next_texture_position(self):
if not self._stop_scan:
if self.current_position <= self._number_of_pictures and self.actor_ref.is_alive(
):
if self.current_position == 0:
self.init_texture_scan()
color_image = self.hardwareController.scan_at_position(
self._resolution, color=True)
task = ImageTask(color_image,
self._prefix,
self.current_position,
self._number_of_pictures,
task_type="PROCESS_COLOR_IMAGE")
self.image_task_q.put(task, True)
#self._logger.debug("Color Progress %i of %i : " % (self.current_position, self._number_of_pictures))
self.current_position += 1
if self.actor_ref.is_alive():
self.actor_ref.tell({
FSEvents.COMMAND:
FSScanProcessorCommand._SCAN_NEXT_TEXTURE_POSITION
})
else:
while not self.image_task_q.empty():
# wait until texture scan stream is ready.
time.sleep(0.1)
self.finish_texture_scan()
if self.actor_ref.is_alive():
self.actor_ref.tell({
FSEvents.COMMAND:
FSScanProcessorCommand._SCAN_NEXT_OBJECT_POSITION
})
def init_object_scan(self):
self._logger.info("Started object scan initialisation")
message = {"message": "SCANNING_OBJECT", "level": "info"}
self.eventmanager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE,
message)
self.current_position = 0
self._laser_positions = self.settings.laser_positions
# wait for ending of texture stream
self.hardwareController.led.on(self.settings.led.red,
self.settings.led.green,
self.settings.led.blue)
self.hardwareController.laser.on()
self.hardwareController.camera.device.flush_stream()
time.sleep(2)
if not self._worker_pool.workers_active():
self._worker_pool.create(self.config.process_numbers)
def finish_object_scan(self):
self._logger.info("Finishing object scan.")
self._worker_pool.kill()
def scan_next_object_position(self):
if not self._stop_scan:
if self.current_position <= self._number_of_pictures and self.actor_ref.is_alive(
):
if self.current_position == 0:
self.init_object_scan()
laser_image = self.hardwareController.scan_at_position(
self._resolution)
task = ImageTask(laser_image, self._prefix,
self.current_position,
self._number_of_pictures)
self.image_task_q.put(task)
self._logger.debug(
"Laser Progress: %i of %i at laser position %i" %
(self.current_position, self._number_of_pictures,
self._current_laser_position))
self.current_position += 1
if self.actor_ref.is_alive():
self.actor_ref.tell({
FSEvents.COMMAND:
FSScanProcessorCommand._SCAN_NEXT_OBJECT_POSITION
})
else:
self.finish_object_scan()
def on_laser_detection_failed(self):
self._logger.info("Send laser detection failed message to frontend")
message = {"message": "NO_LASER_FOUND", "level": "warn"}
self.eventmanager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE,
message)
self.settings_mode_on()
# on stop pykka actor
def on_stop(self):
self._worker_pool.clear_task_queue()
self._worker_pool.kill()
self.hardwareController.stop_camera_stream()
self.hardwareController.turntable.stop_turning()
self.hardwareController.led.off()
self.hardwareController.laser.off(0)
self.hardwareController.laser.off(1)
def stop_scan(self):
self._stop_scan = True
self._worker_pool.kill()
self._starttime = 0
self.utils.delete_scan(self._prefix)
self.reset_scanner_state()
self._logger.info("Scan stoped")
self.hardwareController.stop_camera_stream()
message = {"message": "SCAN_CANCELED", "level": "info"}
self.eventmanager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE,
message)
def image_processed(self, eventmanager, event):
points = []
scan_state = 'texture_scan'
if event['image_type'] == 'depth':
scan_state = 'object_scan'
point_cloud = list(
zip(event['point_cloud'][0], event['point_cloud'][1],
event['point_cloud'][2], event['texture'][0],
event['texture'][1], event['texture'][2]))
self.append_points(point_cloud)
for index, point in enumerate(point_cloud):
new_point = dict()
new_point['x'] = str(point[0])
new_point['y'] = str(point[2])
new_point['z'] = str(point[1])
new_point['r'] = str(point[5])
new_point['g'] = str(point[4])
new_point['b'] = str(point[3])
points.append(new_point)
self.semaphore.acquire()
self._progress += 1
self.semaphore.release()
message = {
"points": points,
"progress": self._progress,
"resolution": self._total,
"starttime": self._starttime,
"timestamp": self.get_time_stamp(),
"state": scan_state
}
self.eventmanager.broadcast_client_message(FSEvents.ON_NEW_PROGRESS,
message)
if self._progress == self._total:
while not self.image_task_q.empty():
#wait until the last image is processed and send to the client.
time.sleep(0.1)
self.scan_complete()
def scan_complete(self):
end_time = self.get_time_stamp()
duration = old_div(int(end_time - self._starttime), 1000)
self._logger.debug("Time Total: %i sec." % (duration, ))
self._starttime = 0
self._logger.info(
"Scan complete writing pointcloud files with %i points." %
(self.point_cloud.get_size(), ))
self.point_cloud.saveAsFile(self._prefix)
settings_filename = self.config.folders.scans + self._prefix + "/" + self._prefix + ".fab"
self.settings.saveAsFile(settings_filename)
message = {
"message": "SAVING_POINT_CLOUD",
"scan_id": self._prefix,
"level": "info"
}
self.eventmanager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE,
message)
self.utils.delete_image_folders(self._prefix)
self.reset_scanner_state()
event = FSEvent()
event.command = 'COMPLETE'
self.eventmanager.publish(FSEvents.COMMAND, event)
message = {
"message": "SCAN_COMPLETE",
"scan_id": self._prefix,
"level": "success"
}
self.eventmanager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE,
message)
self.hardwareController.stop_camera_stream()
def append_points(self, point_cloud_set):
if self.point_cloud:
self.point_cloud.append_points(point_cloud_set)
#self.point_cloud.append_texture(texture_set)
def get_resolution(self):
return self.settings.resolution
def get_number_of_pictures(self):
return self._number_of_pictures
def get_folder_name(self):
return self._prefix
def reset_scanner_state(self):
self._logger.info("Reseting scanner states ... ")
self.hardwareController.camera.device.flush_stream()
self.hardwareController.laser.off()
self.hardwareController.led.off()
self.hardwareController.turntable.disable_motors()
self._progress = 0
self.current_position = 0
self._number_of_pictures = 0
self._total = 0
self._starttime = 0
self.point_cloud = None
def get_time_stamp(self):
return old_div(int(datetime.now().strftime("%s%f")), 1000)
class FSScanProcessor(FSScanProcessorInterface):
def __init__(self, config, settings, eventmanager, imageprocessor,
hardwarecontroller, calibration):
super(FSScanProcessorInterface,
self).__init__(self, config, settings, eventmanager,
imageprocessor, hardwarecontroller, calibration)
#asyncio.set_event_loop(asyncio.new_event_loop())
self.settings = settings
self.config = config
self._logger = logging.getLogger(__name__)
self.eventmanager = eventmanager.instance
self.calibration = calibration
self._worker_pool = None
self.hardwareController = hardwarecontroller
self.image_processor = imageprocessor
self._prefix = None
self._resolution = 16
self._number_of_pictures = 0
self._total = 1
self._progress = 1
self._is_color_scan = True
self.point_clouds = []
self.both_cloud = []
self.current_position = 0
self._stop_scan = False
self._current_laser_position = 1
self._starttime = 0
self._additional_worker_number = 1
self.texture_lock_event = threading.Event()
self.texture_lock_event.set()
self.utils = FSSystem()
self._scan_brightness = self.settings.file.camera.brightness
self._scan_contrast = self.settings.file.camera.contrast
self._scan_saturation = self.settings.file.camera.saturation
self._logger.info("Laser Scan Processor initilized.")
# prevent deadlocks when opencv tbb is not available
cv_build_info = cv2.getBuildInformation()
# fallback to one worker.
if not "TBB" in cv_build_info:
self._logger.warning(
"OpenCV does not support TBB. Falling back to single processing."
)
self.config.file.process_numbers = 1
def on_receive(self, event):
if event[FSEvents.COMMAND] == FSScanProcessorCommand.START:
self.start_scan()
if event[FSEvents.COMMAND] == FSScanProcessorCommand.STOP:
self.stop_scan()
if event[FSEvents.COMMAND] == FSScanProcessorCommand.SETTINGS_MODE_ON:
self.settings_mode_on()
if event[FSEvents.COMMAND] == FSScanProcessorCommand.SETTINGS_MODE_OFF:
self.settings_mode_off()
if event[
FSEvents.
COMMAND] == FSScanProcessorCommand._SCAN_NEXT_TEXTURE_POSITION:
self.scan_next_texture_position()
if event[FSEvents.
COMMAND] == FSScanProcessorCommand._SCAN_NEXT_OBJECT_POSITION:
self.scan_next_object_position()
if event[FSEvents.
COMMAND] == FSScanProcessorCommand.NOTIFY_HARDWARE_STATE:
self.send_hardware_state_notification()
if event[FSEvents.COMMAND] == FSScanProcessorCommand.UPDATE_SETTINGS:
self.update_settings(event['SETTINGS'])
if event[FSEvents.COMMAND] == FSScanProcessorCommand.UPDATE_CONFIG:
self.update_settings(event['CONFIG'])
if event[FSEvents.COMMAND] == FSScanProcessorCommand.GET_HARDWARE_INFO:
return self.hardwareController.get_firmware_version()
if event[FSEvents.
COMMAND] == FSScanProcessorCommand.GET_ADJUSTMENT_STREAM:
return self.create_adjustment_stream()
if event[FSEvents.COMMAND] == FSScanProcessorCommand.GET_LASER_STREAM:
return self.create_laser_stream()
if event[
FSEvents.COMMAND] == FSScanProcessorCommand.GET_TEXTURE_STREAM:
return self.create_texture_stream()
if event[FSEvents.
COMMAND] == FSScanProcessorCommand.GET_SETTINGS_STREAM:
return self.create_settings_stream()
if event[FSEvents.
COMMAND] == FSScanProcessorCommand.GET_CALIBRATION_STREAM:
return self.create_calibration_stream()
if event[FSEvents.COMMAND] == FSScanProcessorCommand.START_CALIBRATION:
return self.start_calibration()
if event[FSEvents.COMMAND] == FSScanProcessorCommand.STOP_CALIBRATION:
return self.stop_calibration()
if event[FSEvents.
COMMAND] == FSScanProcessorCommand.NOTIFY_IF_NOT_CALIBRATED:
return self.notify_if_is_not_calibrated()
if event[
FSEvents.
COMMAND] == FSScanProcessorCommand.CALL_HARDWARE_TEST_FUNCTION:
device = event['DEVICE_TEST']
self.hardwareController.call_test_function(device)
if event[FSEvents.COMMAND] == FSScanProcessorCommand.CONFIG_MODE_ON:
self.config_mode_on()
if event[FSEvents.COMMAND] == FSScanProcessorCommand.CONFIG_MODE_OFF:
self.config_mode_off()
if event[FSEvents.COMMAND] == FSScanProcessorCommand.IMAGE_PROCESSED:
self.image_processed(event['RESULT'])
def config_mode_on(self):
self.hardwareController.start_camera_stream('alignment')
def config_mode_off(self):
self.hardwareController.stop_camera_stream()
for i in range(self.config.file.laser.numbers):
self.hardwareController.laser.off(i)
self.hardwareController.led.off()
self.hardwareController.turntable.stop_turning()
def call_hardware_test_function(self, function):
self.hardwareController.call_test_function(function)
def scanner_is_calibrated(self):
correct_plane_number = len(self.config.file.calibration.laser_planes
) == self.config.file.laser.numbers
distance_is_set = True
for i in range(self.config.file.laser.numbers - 1):
plane = self.config.file.calibration.laser_planes[i]
if (plane['distance'] is None) or (plane['distance'] == 0):
distance_is_set = False
break
is_calibrated = correct_plane_number and distance_is_set
return is_calibrated
def notify_if_is_not_calibrated(self):
try:
self._logger.debug(self.config.file.calibration.camera_matrix)
is_calibrated = self.scanner_is_calibrated()
self._logger.debug(
"FabScan is calibrated: {0}".format(is_calibrated))
if not is_calibrated:
message = {
"message": "SCANNER_NOT_CALIBRATED",
"level": "warn"
}
self._logger.debug("Clients informaed")
event = FSEvent()
event.command = "STOP"
self.eventmanager.publish(FSEvents.COMMAND, event)
self.eventmanager.broadcast_client_message(
FSEvents.ON_INFO_MESSAGE, message)
return
except Exception as e:
self._logger.exception(e)
def create_texture_stream(self):
try:
image = self.hardwareController.get_picture()
image = self.image_processor.get_texture_stream_frame(image)
return image
except Exception as e:
#self._logger.error(e)
pass
def create_settings_stream(self):
try:
image = self.hardwareController.get_picture()
image = self.image_processor.get_settings_stream_frame(image)
return image
except Exception as e:
#self._logger.error(e)
pass
def create_adjustment_stream(self):
try:
image = self.hardwareController.get_picture()
image = self.image_processor.get_adjustment_stream_frame(image)
return image
except Exception as e:
pass
def create_calibration_stream(self):
try:
image = self.hardwareController.get_picture()
image = self.image_processor.get_calibration_stream_frame(image)
return image
except Exception as e:
# images are dropped this cateched exception.. no error hanlder needed here.
pass
def create_laser_stream(self):
try:
image = self.hardwareController.get_picture()
return image
except Exception as e:
#self._logger.error("Error while grabbing laser Frame: " + str(e))
# images are dropped this cateched exception.. no error hanlder needed here.
pass
def update_settings(self, settings):
try:
self.settings.update(settings)
#FIXME: Only change Color Settings when values changed.
self.hardwareController.led.on(self.settings.file.led.red,
self.settings.file.led.green,
self.settings.file.led.blue)
except Exception as e:
self._logger.exception("Updating Settings failed: {0}".format(e))
pass
def update_config(self, config):
try:
self.config.file.update(config)
except Exception as e:
pass
def start_calibration(self):
self.hardwareController.settings_mode_off()
self.calibration.start()
def stop_calibration(self):
self.calibration.stop()
def send_hardware_state_notification(self):
self._logger.debug("Checking Hardware connections")
if not self.hardwareController.arduino_is_connected():
message = {"message": "NO_SERIAL_CONNECTION", "level": "error"}
self.eventmanager.broadcast_client_message(
FSEvents.ON_INFO_MESSAGE, message)
if not self.hardwareController.camera_is_connected():
message = {"message": "NO_CAMERA_CONNECTION", "level": "error"}
self.eventmanager.broadcast_client_message(
FSEvents.ON_INFO_MESSAGE, message)
def settings_mode_on(self):
self.hardwareController.settings_mode_on()
def settings_mode_off(self):
self.hardwareController.settings_mode_off()
## general start sequence
def start_scan(self):
self.settings_mode_off()
self._logger.info("Scan started")
self._stop_scan = False
self.hardwareController.turntable.enable_motors()
for i in range(int(self.config.file.laser.numbers)):
self.hardwareController.laser.off(i)
self._resolution = int(self.settings.file.resolution)
self._is_color_scan = bool(self.settings.file.color)
self._number_of_pictures = int(self.config.file.turntable.steps //
self._resolution)
self.current_position = 0
self._starttime = self.get_time_stamp()
# TODO: rename prefix to scan_id
self._prefix = datetime.fromtimestamp(
time.time()).strftime('%Y%m%d-%H%M%S')
# initialize pointcloud actors...
self.point_clouds = []
#self.point_clouds = [FSPointCloud(config=self.config, color=self._is_color_scan) for _ in range(self.config.file.laser.numbers)]
for laser_index in range(self.config.file.laser.numbers):
self.point_clouds.append(
FSPointCloud(config=self.config,
color=self._is_color_scan,
filename=self._prefix,
postfix=laser_index,
binary=False))
if self.config.file.laser.numbers > 1:
self.both_cloud = FSPointCloud(config=self.config,
color=self._is_color_scan,
filename=self._prefix,
postfix='both',
binary=False)
if self.scanner_is_calibrated() and self.actor_ref.is_alive():
if self._is_color_scan:
self._total = (
self._number_of_pictures *
self.config.file.laser.numbers) + self._number_of_pictures
self.actor_ref.tell({
FSEvents.COMMAND:
FSScanProcessorCommand._SCAN_NEXT_TEXTURE_POSITION
})
else:
self._total = self._number_of_pictures * self.config.file.laser.numbers
self.actor_ref.tell({
FSEvents.COMMAND:
FSScanProcessorCommand._SCAN_NEXT_OBJECT_POSITION
})
else:
self._logger.debug("FabScan is not calibrated scan canceled")
self.actor_ref.tell({
FSEvents.COMMAND:
FSScanProcessorCommand.NOTIFY_IF_NOT_CALIBRATED
})
## texture callbacks
def init_texture_scan(self):
message = {"message": "SCANNING_TEXTURE", "level": "info"}
if self._worker_pool is None or not self._worker_pool.is_alive():
self._worker_pool = FSImageWorkerPool.start(
scanprocessor=self.actor_ref)
if self._worker_pool.is_alive():
self._logger.debug("Adding some workers to Pool.")
self._worker_pool.tell({
FSEvents.COMMAND:
FSSWorkerPoolCommand.CREATE,
'NUMBER_OF_WORKERS':
self._additional_worker_number
})
self.eventmanager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE,
message)
self._scan_brightness = self.settings.file.camera.brightness
self._scan_contrast = self.settings.file.camera.contrast
self._scan_saturation = self.settings.file.camera.saturation
self.hardwareController.led.on(self.config.file.texture_illumination,
self.config.file.texture_illumination,
self.config.file.texture_illumination)
self.hardwareController.start_camera_stream(mode="default")
# wait until camera is settled
time.sleep(1)
self.hardwareController.camera.device.flush_stream()
def scan_next_texture_position(self):
if not self._stop_scan:
try:
if self.current_position < self._number_of_pictures and self.actor_ref.is_alive(
):
flush = False
if self.current_position == 0:
flush = True
self.init_texture_scan()
color_image = self.hardwareController.get_picture(
flush=flush)
color_image = self.image_processor.decode_image(
color_image)
self.hardwareController.move_to_next_position(
steps=self._resolution, speed=800)
task = ImageTask(color_image,
self._prefix,
self.current_position,
self._number_of_pictures,
task_type="PROCESS_COLOR_IMAGE")
self._worker_pool.tell({
FSEvents.COMMAND:
FSSWorkerPoolCommand.ADD_TASK,
'TASK':
task
})
color_image = None
self.current_position += 1
if self.actor_ref.is_alive():
time.sleep(0.1)
#self.self.texture_lock_event.clear()
self.actor_ref.tell({
FSEvents.COMMAND:
FSScanProcessorCommand._SCAN_NEXT_TEXTURE_POSITION
})
else:
self._logger.error("Worker Pool died.")
self.stop_scan()
else:
self.finish_texture_scan()
if self.actor_ref.is_alive():
self.actor_ref.tell({
FSEvents.COMMAND:
FSScanProcessorCommand._SCAN_NEXT_OBJECT_POSITION
})
else:
self._logger.error("Worker Pool died.")
self.stop_scan()
except Exception as e:
self._logger.exception("Scan Processor Error: {0}".format(e))
def finish_texture_scan(self):
self._logger.info("Finishing texture scan.")
self.current_position = 0
self.hardwareController.led.off()
self.settings.file.camera.brightness = self._scan_brightness
self.settings.file.camera.contrast = self._scan_contrast
self.settings.file.camera.saturation = self._scan_saturation
## object scan callbacks
def init_object_scan(self):
self.hardwareController.start_camera_stream()
if self._worker_pool is None or not self._worker_pool.is_alive():
self._worker_pool = FSImageWorkerPool.start(
scanprocessor=self.actor_ref)
self._logger.info("Started object scan initialisation")
if self._is_color_scan:
self._additional_worker_number = 3
else:
self._additional_worker_number = 4
self._logger.debug("Adding some workers to pool.")
self._worker_pool.tell({
FSEvents.COMMAND:
FSSWorkerPoolCommand.CREATE,
'NUMBER_OF_WORKERS':
self._additional_worker_number
})
message = {"message": "SCANNING_OBJECT", "level": "info"}
self.eventmanager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE,
message)
self.current_position = 0
if self.config.file.laser.interleaved == "False":
self.hardwareController.led.off()
self.hardwareController.camera.device.flush_stream()
def scan_next_object_position(self):
if not self._stop_scan:
if self.current_position <= self._number_of_pictures and self.actor_ref.is_alive(
):
if self.current_position == 0:
self.init_object_scan()
self._logger.debug('Start creating Task.')
for laser_index in range(self.config.file.laser.numbers):
laser_image = self.hardwareController.get_image_at_position(
index=laser_index)
task = ImageTask(laser_image,
self._prefix,
self.current_position,
self._number_of_pictures,
index=laser_index)
self._worker_pool.tell({
FSEvents.COMMAND:
FSSWorkerPoolCommand.ADD_TASK,
'TASK':
task
})
self.current_position += 1
self.hardwareController.move_to_next_position(
steps=self._resolution, speed=800)
self._logger.debug('New Image Task created.')
if self.actor_ref.is_alive():
self.actor_ref.tell({
FSEvents.COMMAND:
FSScanProcessorCommand._SCAN_NEXT_OBJECT_POSITION
})
else:
self._logger.error("Worker Pool died.")
self.stop_scan()
self._logger.debug('End creating Task.')
def on_laser_detection_failed(self):
self._logger.info("Send laser detection failed message to frontend")
message = {"message": "NO_LASER_FOUND", "level": "warn"}
self.eventmanager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE,
message)
self.settings_mode_on()
# pykka actor stop event
def on_stop(self):
self.stop_scan()
self.hardwareController.destroy_camera_device()
self.finishFiles()
self.hardwareController.turntable.stop_turning()
self.hardwareController.led.off()
for laser_index in range(self.config.file.laser.numbers):
self.hardwareController.laser.off(laser_index)
# on stop command by user
def stop_scan(self):
self._stop_scan = True
self._starttime = 0
self.finishFiles()
if self._prefix:
self.utils.delete_folder(
str(self.config.file.folders.scans) + '/' + str(self._prefix))
self.reset_scanner_state()
self._logger.info("Scan stoped")
self.hardwareController.stop_camera_stream()
message = {"message": "SCAN_CANCELED", "level": "info"}
self.eventmanager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE,
message)
def clear_and_stop_worker_pool(self):
# clear queue
if self._worker_pool and self._worker_pool.is_alive():
self._logger.debug("Stopping worker Pool.")
self._worker_pool.stop()
def image_processed(self, result):
if not self._stop_scan:
if self._progress <= self._total and self.actor_ref.is_alive():
points = []
if not 'laser_index' in list(result.keys()):
result['laser_index'] = -1
try:
scan_state = 'texture_scan'
if result['image_type'] == 'depth' and result[
'point_cloud'] is not None:
scan_state = 'object_scan'
point_cloud = zip(result['point_cloud'][0],
result['point_cloud'][1],
result['point_cloud'][2],
result['texture'][0],
result['texture'][1],
result['texture'][2])
for x, y, z, b, g, r in point_cloud:
new_point = {
"x": str(x),
"y": str(z),
"z": str(y),
"r": str(r),
"g": str(g),
"b": str(b)
}
points.append(new_point)
self.append_points((
x,
y,
z,
r,
g,
b,
), result['laser_index'])
# result = None
except Exception as err:
self._logger.warning(
"Image processing Failure: {0}".format(err))
message = {
"laser_index": result['laser_index'],
"points": points,
"progress": self._progress,
"resolution": self._total,
"starttime": self._starttime,
"timestamp": self.get_time_stamp(),
"state": scan_state
}
self.eventmanager.broadcast_client_message(
FSEvents.ON_NEW_PROGRESS, message)
message = None
result = None
self._logger.debug("Step {0} of {1}".format(
self._progress, self._total))
self._progress += 1
if self._progress - 1 == self._total:
self.scan_complete()
def scan_complete(self):
self._worker_pool.tell({FSEvents.COMMAND: FSSWorkerPoolCommand.KILL})
end_time = self.get_time_stamp()
duration = int((end_time - self._starttime) // 1000)
self._logger.debug("Time Total: {0} sec.".format(duration))
if len(self.point_clouds) == self.config.file.laser.numbers:
self._logger.info("Scan complete writing pointcloud.")
self._logger.debug(
"Number of PointClouds (for each laser one): {0}".format(
len(self.point_clouds)))
self.finishFiles()
settings_filename = self.config.file.folders.scans + self._prefix + "/" + self._prefix + ".fab"
self.settings.save_json(settings_filename)
#if bool(self.config.file.keep_raw_images):
# self.utils.zipdir(str(self._prefix))
self.utils.delete_image_folders(self._prefix)
self.reset_scanner_state()
event = FSEvent()
event.command = 'COMPLETE'
self.eventmanager.publish(FSEvents.COMMAND, event)
message = {
"message": "SCAN_COMPLETE",
"scan_id": self._prefix,
"level": "success"
}
self.eventmanager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE,
message)
self.hardwareController.stop_camera_stream()
def append_points(self, points, index):
if len(self.point_clouds) > 0:
self.point_clouds[index].append_points(points)
if len(self.point_clouds) > 1:
self.both_cloud.append_points(points)
def finishFiles(self):
try:
for laser_index in range(self.config.file.laser.numbers):
if self.point_clouds and len(
self.point_clouds
) > 0 and self.point_clouds[laser_index]:
self.point_clouds[laser_index].closeFile()
self.point_clouds[laser_index] = None
if self.config.file.laser.numbers > 1:
if self.both_cloud:
self.both_cloud.closeFile()
self.both_cloud = None
except IOError as e:
#TODO: Call stop scan function if this fails to release the scan process
self._logger.exception(
"Closing PointCloud files failed: {0}".format(e))
#self.scan_failed()
def scan_failed(self):
message = {
"message": "SCAN_FAILED_STOPPING",
"scan_id": self._prefix,
"level": "error"
}
self.eventmanager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE,
message)
self.stop_scan()
def get_resolution(self):
return self._resolution
def get_number_of_pictures(self):
return self._number_of_pictures
def get_folder_name(self):
return self._prefix
def reset_scanner_state(self):
self._logger.info("Reseting scanner states ... ")
self.hardwareController.stop_camera_stream()
for i in range(self.config.file.laser.numbers):
self.hardwareController.laser.off(i)
self.hardwareController.led.off()
self.hardwareController.turntable.disable_motors()
self.clear_and_stop_worker_pool()
self._progress = 1
self.current_position = 0
self._number_of_pictures = 0
self._total = 0
self._starttime = 0
def get_time_stamp(self):
return int(datetime.now().strftime("%s%f")) / 1000
def avr_device_is_available(self):
status = FSSystem.run_command(
"sudo avrdude-autoreset -p m328p -b {0} -carduino -P{1}".format(
self.flash_baudrate, self._port))
return status == 0
def start(self):
#self._hardwarecontroller.stop_camera_stream()
tools = FSSystem()
#self._hardwarecontroller.stop_camera_stream()
tools.delete_folder(self.config.file.folders.scans + 'calibration')
self._hardwarecontroller.turntable.enable_motors()
time.sleep(0.2)
if self.config.file.laser.interleaved == "False":
self._logger.debug("Turning Leds on in non interleaved mode.")
self._hardwarecontroller.led.on(self.calibration_brightness[0],
self.calibration_brightness[1],
self.calibration_brightness[2])
self.reset_calibration_values()
self.settings.threshold = 25
self._starttime = self.get_time_stamp()
message = {"message": "START_CALIBRATION", "level": "info"}
self._eventmanager.broadcast_client_message(FSEvents.ON_INFO_MESSAGE,
message)
try:
self._hardwarecontroller.start_camera_stream(mode="calibration")
self._do_calibration(self._capture_camera_calibration,
self._calculate_camera_calibration)
self._do_calibration(self._capture_scanner_calibration,
self._calculate_scanner_calibration)
if self.config.file.laser.interleaved == "False":
self._hardwarecontroller.led.off()
self._hardwarecontroller.turntable.disable_motors()
if self._stop:
self._logger.debug("Calibration canceled...")
# send information to client that calibration is finished
message = {"message": "STOPPED_CALIBRATION", "level": "info"}
self._eventmanager.broadcast_client_message(
FSEvents.ON_INFO_MESSAGE, message)
self._stop = False
else:
event = FSEvent()
event.command = 'CALIBRATION_COMPLETE'
self._eventmanager.publish(FSEvents.COMMAND, event)
# send information to client that calibration is finished
message = {"message": "FINISHED_CALIBRATION", "level": "info"}
self.config.save_json()
self._eventmanager.broadcast_client_message(
FSEvents.ON_INFO_MESSAGE, message)
self._hardwarecontroller.stop_camera_stream()
self._hardwarecontroller.led.off()
self._hardwarecontroller.turntable.disable_motors()
self.reset_calibration_values()
return
except Exception as e:
self._logger.exception(e)
message = {
"message": "SCANNER_CALIBRATION_FAILED",
"level": "warn"
}
self._eventmanager.broadcast_client_message(
FSEvents.ON_INFO_MESSAGE, message)
