import math
from cereal import log
from openpilot.selfdrive.controls.lib.latcontrol import LatControl
from openpilot.selfdrive.controls.lib.pid import PIDController
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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()
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def reset(self):
super().reset()
self.pid.reset()
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def update(self, active, CS, VM, params, steer_limited, desired_curvature, llk):
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