def _calibrate_safe_throttle(io_device): while True: # Ask user for new values. safe_forward = _easy_ask("Safe forward throttle (0, 100]", m.CAR_THROTTLE_FORWARD_SAFE_SPEED, int, io_device, min_val=1, max_val=100) safe_reverse = _easy_ask("Safe reverse throttle [-100, 0)", m.CAR_THROTTLE_REVERSE_SAFE_SPEED, int, io_device, min_val=-100, max_val=-1) m.CAR_THROTTLE_FORWARD_SAFE_SPEED = safe_forward m.CAR_THROTTLE_REVERSE_SAFE_SPEED = safe_reverse STORE.put('CAR_THROTTLE_FORWARD_SAFE_SPEED', m.CAR_THROTTLE_FORWARD_SAFE_SPEED) STORE.put('CAR_THROTTLE_REVERSE_SAFE_SPEED', m.CAR_THROTTLE_REVERSE_SAFE_SPEED) _demo_forward_reverse_no_pid() if _choice_input(prompt="Keep?", choices=['n', 'y'], io_device=io_device) == 'y': break
def _calibrate_safe_throttle(): while True: # Ask user for new values. safe_forward = _easy_ask("Safe forward throttle (0, 100]", m.CAR_THROTTLE_FORWARD_SAFE_SPEED, int) safe_reverse = _easy_ask("Safe reverse throttle [-100, 0)", m.CAR_THROTTLE_REVERSE_SAFE_SPEED, int) m.CAR_THROTTLE_FORWARD_SAFE_SPEED = safe_forward m.CAR_THROTTLE_REVERSE_SAFE_SPEED = safe_reverse STORE.put('CAR_THROTTLE_FORWARD_SAFE_SPEED', m.CAR_THROTTLE_FORWARD_SAFE_SPEED) STORE.put('CAR_THROTTLE_REVERSE_SAFE_SPEED', m.CAR_THROTTLE_REVERSE_SAFE_SPEED) _demo_forward_reverse_no_pid() if input("Keep? [n/y] ") == 'y': break
def calibrate(): """ Run the end-to-end calibration routine for this car. """ if input("Calibrate microcontroller (e.g. gyro & accelerometer)? [n/y] ") == 'y': _calibrate_microcontroller() if input("Calibrate safe throttle speed? [n/y] ") == 'y': _calibrate_safe_throttle() if input("Calibrate servo range? [n/y] ") == 'y': _calibrate_servo_range() if input("Calibrate steering PID? [n/y] ") == 'y': _calibrate_steering_pid() if input("Disable battery monitor? [n/y] ") == 'y': STORE.put('BATTERY_MONITOR_DISABLED', True)
def _calibrate_steering_pid(io_device): _setup_steering_pid() steering_pid_params = _query_steering_pid_params() p = steering_pid_params['p'] i = steering_pid_params['i'] d = steering_pid_params['d'] while True: p, i, d = _easy_ask("Steering PID [space-separated p i d]", [p, i, d], lambda s: (float(v) for v in s.split(' ')), io_device, adj_delta=0.1) STORE.put('CAR_STEERING_PID_P', p) STORE.put('CAR_STEERING_PID_I', i) STORE.put('CAR_STEERING_PID_D', d) _setup_steering_pid() m.forward(2.5) # <-- uses gyro m.reverse(2.5) # <-- uses gyro if _choice_input(prompt="Keep?", choices=['n', 'y'], io_device=io_device) == 'y': break _setup_steering_pid(save=True)
def _calibrate_steering_pid(io_device): _setup_steering_pid() steering_pid_params = _query_steering_pid_params() p = steering_pid_params['p'] i = steering_pid_params['i'] d = steering_pid_params['d'] while True: p, i, d = _easy_ask("Steering PID [space-separated p i d]", [p, i, d], lambda s: (float(v) for v in s.split(' ')), io_device, adj_delta=0.1) STORE.put('CAR_STEERING_PID_P', p) STORE.put('CAR_STEERING_PID_I', i) STORE.put('CAR_STEERING_PID_D', d) _setup_steering_pid() m.straight(m.CAR_THROTTLE_FORWARD_SAFE_SPEED, 2.5, invert_output=False) # <-- uses gyro m.straight(m.CAR_THROTTLE_REVERSE_SAFE_SPEED, 2.5, invert_output=True) # <-- uses gyro if _choice_input(prompt="Keep?", choices=['n', 'y'], io_device=io_device) == 'y': break _setup_steering_pid(save=True)
def _calibrate_servo_range(): _setup_motors() motor_params = _query_motor_params() steering_left = motor_params['steering_left'] steering_mid = motor_params['steering_mid'] steering_right = motor_params['steering_right'] _setup_motors(30000) m.set_steering(45.0) v = _easy_ask("Steering left PWM value", steering_left, int) while True: steering_left = v STORE.put('CAR_MOTOR_STEERING_LEFT', steering_left) _setup_motors(30000) # <-- nearabout the max possible timeout m.set_steering(45.0) v = _easy_ask("Steering left PWM value", steering_left, int) if v == steering_left: break # break when the user doesn't change the value _setup_motors(30000) m.set_steering(-45.0) v = _easy_ask("Steering right PWM value", steering_right, int) while True: steering_right = v STORE.put('CAR_MOTOR_STEERING_RIGHT', steering_right) _setup_motors(30000) # <-- nearabout the max possible timeout m.set_steering(-45.0) v = _easy_ask("Steering right PWM value", steering_right, int) if v == steering_right: break # break when the user doesn't change the value _setup_motors() m.set_steering(0) v = _easy_ask("Steering mid PWM value", steering_mid, int) while True: steering_mid = v STORE.put('CAR_MOTOR_STEERING_MID', steering_mid) _setup_motors() _demo_forward_reverse_no_pid() v = _easy_ask("Steering mid PWM value", steering_mid, int) if v == steering_mid: break # break when the user doesn't change the value _setup_motors(save=True)
def _calibrate_steering_pid(): _setup_steering_pid() steering_pid_params = _query_steering_pid_params() p = steering_pid_params['p'] i = steering_pid_params['i'] d = steering_pid_params['d'] while True: p, i, d = _easy_ask("Steering PID [space-separated p i d]", (p, i, d), lambda s: tuple(float(v) for v in s.split(' '))) STORE.put('CAR_STEERING_PID_P', p) STORE.put('CAR_STEERING_PID_I', i) STORE.put('CAR_STEERING_PID_D', d) _setup_steering_pid() m.forward(2.5) # <-- uses gyro m.reverse(2.5) # <-- uses gyro if input("Keep? [n/y] ") == 'y': break _setup_steering_pid(save=True)
def demo_mid(new_val): STORE.put('CAR_MOTOR_STEERING_MID', new_val) _setup_motors(30000) # <-- nearabout the max possible timeout m.set_steering(0.0) # <-- mid-steering ("straight")
def demo_right(new_val): STORE.put('CAR_MOTOR_STEERING_RIGHT', new_val) _setup_motors(30000) # <-- nearabout the max possible timeout m.set_steering(-45.0) # <-- max right
def demo_left(new_val): STORE.put('CAR_MOTOR_STEERING_LEFT', new_val) _setup_motors(30000) # <-- nearabout the max possible timeout m.set_steering(45.0) # <-- max left