def __init__(self, motorhat_addr=0x6f, drive_enabled=True):
# Setup the motorhat with the passed in address
self._mh = Raspi_MotorHAT(addr=motorhat_addr)
# get local variable for each motor
self.left_motor = self._mh.getMotor(1)
self.right_motor = self._mh.getMotor(2)
self.drive_enabled = drive_enabled
# ensure the motors get stopped when the code exits
atexit.register(self.stop_all)
# Setup the line sensors
self.left_line_sensor = LineSensor(23, queue_len=3, pull_up=True)
self.right_line_sensor = LineSensor(16, queue_len=3, pull_up=True)
# Setup The Distance Sensors
self.left_distance_sensor = DistanceSensor(17, 27)
self.right_distance_sensor = DistanceSensor(5, 6)
# Setup the Encoders
EncoderCounter.set_constants(self.wheel_diameter_mm,
self.ticks_per_revolution)
self.left_encoder = EncoderCounter(4)
self.right_encoder = EncoderCounter(26)
# Setup the Leds
self.leds = leds_8_apa102c.Leds()
# Set up servo motors for pan and tilt.
self.servos = Servos(addr=motorhat_addr)
def __init__(self, motorhat_addr=0x6f):
# Setup the motorhat with the passed in address
self._mh = Raspi_MotorHAT(addr=motorhat_addr)
# get local variable for each motor
self.left_motor = self._mh.getMotor(1)
self.right_motor = self._mh.getMotor(2)
# ensure the motors get stopped when the code exits
atexit.register(self.stop_all)
# Setup the line sensors
self.left_line_sensor = LineSensor(23, queue_len=3, pull_up=True)
self.right_line_sensor = LineSensor(16, queue_len=3, pull_up=True)
# Setup the Leds
self.leds = leds_8_apa102c.Leds()