Beispiel #1
0
    def Start(self):

        print("| opening, starting camera service |")

        # try to open the camera
        camera = picamera.PiCamera(camera_num=0,
                                   stereo_mode='none',
                                   stereo_decimate=False,
                                   resolution=self.camera_cfg['resolution'],
                                   framerate=None,
                                   sensor_mode=self.camera_cfg['sensor_mode'],
                                   led_pin=None)

        # camera settings
        camera.exposure_mode = self.camera_cfg['exposure_mode']
        camera.iso = self.camera_cfg['iso']
        camera.awb_mode = self.camera_cfg['awb_mode']
        camera.awb_gains = self.camera_cfg['awb_gains']
        camera.shutter_speed = self.camera_cfg['shutter_speed']
        camera.brightness = self.camera_cfg['brightness']
        camera.exposure_compensation = self.camera_cfg['exposure_compensation']
        camera.meter_mode = self.camera_cfg['meter_mode']
        camera.contrast = self.camera_cfg['contrast']

        # Create NeoPixel object with appropriate configuration.
        self.led_flash = Adafruit_NeoPixel(
            self.camera_cfg['led_count'], self.camera_cfg['led_pin'],
            self.camera_cfg['led_freq_hz'], self.camera_cfg['led_dma'],
            self.camera_cfg['led_inverter'], self.camera_cfg['led_brightness'],
            self.camera_cfg['led_channel'], ws.SK6812W_STRIP)
        # Intialize the library (must be called once before other functions).
        self.led_flash.begin()

        print("| started, autotigger -", self.script_cfg['headless'], "|")

        if not self.script_cfg['headless']:
            print('| looking for ',
                  self.script_cfg['path'] + '/tmp/trigger.proc |')
        else:
            print('| starting auto capture |')

        print('| process will run ', self.script_cfg['max'], ' or ',
              self.script_cfg['triggers'], ' triggers |')

        # run some basic tests and conenct our script
        # these script hault on fail, see logs details
        self.process['start'] = self.Connect()

        # if everything connects
        if self.process['start']:

            # try to open the camera process
            try:

                # open the in-memory photo stream
                stream = BytesIO()

                # set th flash on
                # set th flash on
                self.led_flash.setPixelColor(
                    0,
                    Color(self.camera_cfg['led_color_r'],
                          self.camera_cfg['led_color_g'],
                          self.camera_cfg['led_color_b']))
                self.led_flash.show()

                # grab a reliable piece of time
                start_stamp = datetime.now()  # init system date stamp
                # first loop, we need to set the frames stop timecode to the start time
                frame_stop = perf_counter()

                # capture frames continuously in-memory until we capture a trigger
                for photo in camera.capture_continuous(stream,
                                                       format='jpeg',
                                                       use_video_port=False,
                                                       resize=None,
                                                       splitter_port=0,
                                                       quality=100):

                    # set th flash off
                    self.led_flash.setPixelColor(0, Color(0, 0, 0))
                    self.led_flash.show()

                    # time since the last photo the last operation ran
                    camera_lapse = perf_counter() - frame_stop

                    # this frames start timecode
                    frame_start = perf_counter()

                    # get the start byte of our imu file
                    imu_byte = path.getsize(self.script_cfg['path'] +
                                            '/tmp/imu.dat')

                    # Truncate the stream to the current position (in case
                    # prior iterations output a longer image)
                    stream.truncate()

                    # this frames stop timecode
                    frame_stop = perf_counter()
                    # get the time stamp that this frame was recveived
                    frame_stamp = start_stamp + timedelta(0, frame_start)
                    # get the total time this operation took
                    frame_lapse = frame_stop - frame_start

                    self.process['loop'] += 1  # this loop counts

                    result = {}
                    # tmp holder for the IMU data
                    result[
                        'telemetry'] = ''  # we will get this on post process
                    # store the results meta data for this frame
                    result['trigger'] = format(frame_stamp)
                    result['trigger_lapse'] = "{:.12f}".format(frame_lapse)
                    result['camera_lapse'] = "{:.12f}".format(camera_lapse)
                    result['imu_byte'] = imu_byte

                    # if we have hit the max amount of loops then we need to stop
                    if self.script_cfg['max'] != 0 and self.process[
                            'loop'] >= self.script_cfg['max']:
                        # close our connections, kill everything
                        stream.close()
                        self.End(camera)
                        break

                    # if we have hit the max amount of triggers then we need to stop
                    elif self.script_cfg['triggers'] != 0 and self.process[
                            'count'] >= self.script_cfg['triggers']:
                        # close our connections, save everything
                        stream.close()
                        self.End(camera)
                        break

                    # otherwise lets see if a stop file exists
                    elif path.isfile(self.script_cfg['path'] +
                                     '/tmp/stop.proc'):

                        # close our connections, save everything
                        stream.close()
                        self.End(camera)
                        break

                    # test our triggers
                    else:

                        # if we are set to run headless then do not wait for the tigger file
                        if self.script_cfg['headless']:

                            print("| capture | ")

                            self.process['count'] += 1  # this trigger counts
                            self.process['loop'] = 0  # reset the loop count

                            # get the file name and open the file
                            result['image'] = "image-" + str(
                                self.process['count']).zfill(4) + ".jpg"

                            # write our frame to a file
                            file = open(
                                self.script_cfg['path'] + "/tmp/" +
                                result['image'], 'wb')
                            file.flush()  # <-- here's something not to forget!

                            # Rewind the stream and write the file to tmp
                            stream.seek(0)
                            file.write(stream.read())
                            file.close()

                            # get the file size
                            result['size'] = path.getsize(
                                self.script_cfg['path'] + "/tmp/" +
                                result['image'])

                            # Reset the stream for the next capture
                            stream.seek(0)
                            stream.truncate()
                            stream.flush()

                            # send the result to the database
                            DBLite.InsertDB(DBLite, self.process['connection'],
                                            self.script_cfg, result)

                            print("| complete -", result, " | ")

                            # set th flash on
                            self.led_flash.setPixelColor(
                                0,
                                Color(self.camera_cfg['led_color_r'],
                                      self.camera_cfg['led_color_g'],
                                      self.camera_cfg['led_color_b']))
                            self.led_flash.show()

                        # otherwise lets see if a tigger file exists
                        elif path.isfile(self.script_cfg['path'] +
                                         '/tmp/trigger.proc'):

                            print("| capture trigger | ")

                            self.process['count'] += 1  # this trigger counts
                            self.process['loop'] = 0  # reset the loop count

                            # get the file name and open the file
                            result['image'] = "image-" + str(
                                self.process['count']).zfill(4) + ".jpg"

                            # write our frame to a file
                            file = open(
                                self.script_cfg['path'] + "/tmp/" +
                                result['image'], 'wb')
                            file.flush()  # <-- here's something not to forget!

                            # Rewind the stream and write the file to tmp
                            stream.seek(0)
                            file.write(stream.read())
                            file.close()

                            # get the file size
                            result['size'] = path.getsize(
                                self.script_cfg['path'] + "/tmp/" +
                                result['image'])

                            # Reset the stream for the next capture
                            stream.seek(0)
                            stream.truncate()
                            stream.flush()

                            # send the result to the database
                            DBLite.InsertDB(DBLite, self.process['connection'],
                                            self.script_cfg, result)

                            # remove the trigger file
                            remove(self.script_cfg['path'] +
                                   '/tmp/trigger.proc')

                            print("| complete -", result, " | ")

                            # set th flash on
                            # set th flash on
                            self.led_flash.setPixelColor(
                                0,
                                Color(self.camera_cfg['led_color_r'],
                                      self.camera_cfg['led_color_g'],
                                      self.camera_cfg['led_color_b']))
                            self.led_flash.show()

                        else:
                            # throw away this frame, no trigger found
                            print("| rest offset -", self.offsets_cfg['rest'],
                                  " | ")
                            # Reset the stream for the next capture
                            stream.seek(0)
                            stream.truncate()
                            stream.flush()
                            sleep(self.offsets_cfg['rest'])

            except KeyboardInterrupt:
                print("| bye user exit, closing connections |")
                # close our connections, kill everything
                stream.close()
                self.End(camera)

        else:

            print("| failed to connect services, closing camera |")
            # close the camera, something went wrong starting our services
            camera.close()
Beispiel #2
0
    def Start(self):

        print("| starting, autotigger -", self.script_cfg['headless'], "|")

        # report the start
        if self.script_cfg['debug']:
            print('start looking for ',
                  self.script_cfg['path'] + '/tmp/trigger.proc')
            print('process start ', self.process['loop'], ' will run ',
                  self.script_cfg['max'], ' or ', self.script_cfg['triggers'],
                  ' triggers')

        # run some basic tests and conenct our script
        # these script hault on fail, see logs details
        self.process['start'] = self.Connect()

        # run the process if our tests are valid
        while self.process['start']:  # constructs our process loop

            # start monitoring our process
            try:

                # if we have hit the max amount of loops then we need to stop
                if self.script_cfg['max'] != 0 and self.process[
                        'loop'] >= self.script_cfg['max']:
                    # stop the process and exit
                    self.End()
                    break

                # if we have hit the max amount of triggers then we need to stop
                elif self.script_cfg['triggers'] != 0 and self.process[
                        'count'] >= self.script_cfg['triggers']:
                    # stop the process and exit
                    self.End()
                    break

                # runs some triggers
                else:

                    # if we are set to run headless then do not wait for the tigger file
                    if self.script_cfg['headless']:

                        # run the tigger process, now
                        result = self.Event(True)

                        if not result:
                            print(" trigger was not valid ")

                        else:
                            print(" trigger was valid ")
                            # send the result to the database
                            DBLite.InsertDB(DBLite, self.process['connection'],
                                            self.script_cfg, result)

                    # otherwise lets see if a tigger file exists
                    else:

                        # look for the tigger file in the following path
                        if path.isfile(self.script_cfg['path'] +
                                       '/tmp/trigger.proc'
                                       ):  # does the trigger file exists fire

                            # run the tigger process, now
                            result = self.Event(True)

                            if not result:
                                print(" trigger is not ready ")

                            else:
                                print(" trigger recorded storing ")
                                # send the result to the database
                                DBLite.InsertDB(DBLite,
                                                self.process['connection'],
                                                self.script_cfg, result)

                            # remove the trigger file
                            remove(self.script_cfg['path'] +
                                   '/tmp/trigger.proc')

                        else:
                            # run the tigger process, fail
                            self.Event(False)

            except KeyboardInterrupt:
                print("| bye early exit, closing connections |")
                # close our connections
                DBLite.CloseDB(DBLite, self.process['connection'],
                               self.script_cfg)
                IMUDevice.StopIMU(IMUDevice, self.process['pid'],
                                  self.script_cfg)
                exit()