import math
from cereal import log
from openpilot . selfdrive . controls . lib . latcontrol import LatControl
from openpilot . selfdrive . controls . lib . pid import PIDController
class LatControlPID ( LatControl ) :
def __init__ ( self , CP , CI ) :
super ( ) . __init__ ( CP , CI )
self . pid = PIDController ( ( CP . lateralTuning . pid . kpBP , CP . lateralTuning . pid . kpV ) ,
( CP . lateralTuning . pid . kiBP , CP . lateralTuning . pid . kiV ) ,
k_f = CP . lateralTuning . pid . kf , pos_limit = self . steer_max , neg_limit = - self . steer_max )
self . get_steer_feedforward = CI . get_steer_feedforward_function ( )
def reset ( self ) :
super ( ) . reset ( )
self . pid . reset ( )
def update ( self , active , CS , VM , params , steer_limited , desired_curvature , calibrated_pose ) :
pid_log = log . ControlsState . LateralPIDState . new_message ( )
pid_log . steeringAngleDeg = float ( CS . steeringAngleDeg )
pid_log . steeringRateDeg = float ( CS . steeringRateDeg )
angle_steers_des_no_offset = math . degrees ( VM . get_steer_from_curvature ( - desired_curvature , CS . vEgo , params . roll ) )
angle_steers_des = angle_steers_des_no_offset + params . angleOffsetDeg
error = angle_steers_des - CS . steeringAngleDeg
pid_log . steeringAngleDesiredDeg = angle_steers_des
pid_log . angleError = error
if not active :
output_steer = 0.0
pid_log . active = False
self . pid . reset ( )
else :
# offset does not contribute to resistive torque
steer_feedforward = self . get_steer_feedforward ( angle_steers_des_no_offset , CS . vEgo )
output_steer = self . pid . update ( error , override = CS . steeringPressed ,
feedforward = steer_feedforward , speed = CS . vEgo )
pid_log . active = True
pid_log . p = self . pid . p
pid_log . i = self . pid . i
pid_log . f = self . pid . f
pid_log . output = output_steer
pid_log . saturated = self . _check_saturation ( self . steer_max - abs ( output_steer ) < 1e-3 , CS , steer_limited )
return output_steer , angle_steers_des , pid_log
