import math from cereal import car from common.numpy_fast import clip from opendbc.can.packer import CANPacker from selfdrive.car import apply_std_steer_angle_limits from selfdrive.car.ford.fordcan import create_acc_ui_msg, create_button_msg, create_lat_ctl_msg, create_lka_msg, create_lkas_ui_msg from selfdrive.car.ford.values import CANBUS, CarControllerParams VisualAlert = car.CarControl.HUDControl.VisualAlert class CarController: def __init__(self, dbc_name, CP, VM): self.CP = CP self.VM = VM self.packer = CANPacker(dbc_name) self.frame = 0 self.apply_curvature_last = 0 self.main_on_last = False self.lkas_enabled_last = False self.steer_alert_last = False def update(self, CC, CS): can_sends = [] actuators = CC.actuators hud_control = CC.hudControl main_on = CS.out.cruiseState.available steer_alert = hud_control.visualAlert in (VisualAlert.steerRequired, VisualAlert.ldw) ### acc buttons ### if CC.cruiseControl.cancel: can_sends.append(create_button_msg(self.packer, CS.buttons_stock_values, cancel=True)) can_sends.append(create_button_msg(self.packer, CS.buttons_stock_values, cancel=True, bus=CANBUS.main)) elif CC.cruiseControl.resume and (self.frame % CarControllerParams.BUTTONS_STEP) == 0: can_sends.append(create_button_msg(self.packer, CS.buttons_stock_values, resume=True)) can_sends.append(create_button_msg(self.packer, CS.buttons_stock_values, resume=True, bus=CANBUS.main)) # if stock lane centering isn't off, send a button press to toggle it off # the stock system checks for steering pressed, and eventually disengages cruise control elif CS.acc_tja_status_stock_values["Tja_D_Stat"] != 0 and (self.frame % CarControllerParams.ACC_UI_STEP) == 0: can_sends.append(create_button_msg(self.packer, CS.buttons_stock_values, tja_toggle=True)) ### lateral control ### # send steering commands at 20Hz if (self.frame % CarControllerParams.STEER_STEP) == 0: if CC.latActive: # apply limits to curvature apply_curvature = -self.VM.calc_curvature(math.radians(actuators.steeringAngleDeg), CS.out.vEgo, 0.0) apply_curvature = apply_std_steer_angle_limits(apply_curvature, self.apply_curvature_last, CS.out.vEgo, CarControllerParams) # clip to signal range apply_curvature = clip(apply_curvature, -CarControllerParams.CURVATURE_MAX, CarControllerParams.CURVATURE_MAX) else: apply_curvature = 0. # set slower ramp type when small steering angle change # 0=Slow, 1=Medium, 2=Fast, 3=Immediately steer_change = abs(CS.out.steeringAngleDeg - actuators.steeringAngleDeg) if steer_change < 2.5: ramp_type = 0 elif steer_change < 5.0: ramp_type = 1 elif steer_change < 7.5: ramp_type = 2 else: ramp_type = 3 precision = 1 # 0=Comfortable, 1=Precise (the stock system always uses comfortable) self.apply_curvature_last = apply_curvature can_sends.append(create_lka_msg(self.packer)) can_sends.append(create_lat_ctl_msg(self.packer, CC.latActive, ramp_type, precision, 0., 0., -apply_curvature, 0.)) ### ui ### send_ui = (self.main_on_last != main_on) or (self.lkas_enabled_last != CC.latActive) or (self.steer_alert_last != steer_alert) # send lkas ui command at 1Hz or if ui state changes if (self.frame % CarControllerParams.LKAS_UI_STEP) == 0 or send_ui: can_sends.append(create_lkas_ui_msg(self.packer, main_on, CC.latActive, steer_alert, hud_control, CS.lkas_status_stock_values)) # send acc ui command at 20Hz or if ui state changes if (self.frame % CarControllerParams.ACC_UI_STEP) == 0 or send_ui: can_sends.append(create_acc_ui_msg(self.packer, main_on, CC.latActive, hud_control, CS.acc_tja_status_stock_values)) self.main_on_last = main_on self.lkas_enabled_last = CC.latActive self.steer_alert_last = steer_alert new_actuators = actuators.copy() new_actuators.curvature = self.apply_curvature_last self.frame += 1 return new_actuators, can_sends