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from cereal import car
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from common.numpy_fast import clip
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from selfdrive.car import apply_toyota_steer_torque_limits, create_gas_command, make_can_msg
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from selfdrive.car.toyota.toyotacan import create_steer_command, create_ui_command, \
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create_accel_command, create_acc_cancel_command, create_fcw_command
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from selfdrive.car.toyota.values import Ecu, CAR, STATIC_MSGS, SteerLimitParams
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from opendbc.can.packer import CANPacker
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VisualAlert = car.CarControl.HUDControl.VisualAlert
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# Accel limits
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ACCEL_HYST_GAP = 0.02 # don't change accel command for small oscilalitons within this value
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ACCEL_MAX = 1.5 # 1.5 m/s2
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ACCEL_MIN = -3.0 # 3 m/s2
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ACCEL_SCALE = max(ACCEL_MAX, -ACCEL_MIN)
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def accel_hysteresis(accel, accel_steady, enabled):
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# for small accel oscillations within ACCEL_HYST_GAP, don't change the accel command
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if not enabled:
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# send 0 when disabled, otherwise acc faults
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accel_steady = 0.
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elif accel > accel_steady + ACCEL_HYST_GAP:
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accel_steady = accel - ACCEL_HYST_GAP
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elif accel < accel_steady - ACCEL_HYST_GAP:
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accel_steady = accel + ACCEL_HYST_GAP
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accel = accel_steady
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return accel, accel_steady
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class CarController():
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def __init__(self, dbc_name, CP, VM):
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self.last_steer = 0
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self.accel_steady = 0.
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self.alert_active = False
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self.last_standstill = False
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self.standstill_req = False
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self.last_fault_frame = -200
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self.steer_rate_limited = False
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self.fake_ecus = set()
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if CP.enableCamera: self.fake_ecus.add(Ecu.fwdCamera)
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if CP.enableDsu: self.fake_ecus.add(Ecu.dsu)
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self.packer = CANPacker(dbc_name)
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def update(self, enabled, CS, frame, actuators, pcm_cancel_cmd, hud_alert,
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left_line, right_line, lead, left_lane_depart, right_lane_depart):
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# *** compute control surfaces ***
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# gas and brake
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apply_gas = clip(actuators.gas, 0., 1.)
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if CS.CP.enableGasInterceptor:
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# send only negative accel if interceptor is detected. otherwise, send the regular value
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# +0.06 offset to reduce ABS pump usage when OP is engaged
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apply_accel = 0.06 - actuators.brake
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else:
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apply_accel = actuators.gas - actuators.brake
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apply_accel, self.accel_steady = accel_hysteresis(apply_accel, self.accel_steady, enabled)
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apply_accel = clip(apply_accel * ACCEL_SCALE, ACCEL_MIN, ACCEL_MAX)
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# steer torque
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new_steer = int(round(actuators.steer * SteerLimitParams.STEER_MAX))
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apply_steer = apply_toyota_steer_torque_limits(new_steer, self.last_steer, CS.out.steeringTorqueEps, SteerLimitParams)
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self.steer_rate_limited = new_steer != apply_steer
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# only cut torque when steer state is a known fault
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if CS.steer_state in [9, 25]:
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self.last_fault_frame = frame
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# Cut steering for 2s after fault
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if not enabled or (frame - self.last_fault_frame < 200):
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apply_steer = 0
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apply_steer_req = 0
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else:
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apply_steer_req = 1
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if not enabled and CS.pcm_acc_status:
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# send pcm acc cancel cmd if drive is disabled but pcm is still on, or if the system can't be activated
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pcm_cancel_cmd = 1
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# on entering standstill, send standstill request
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if CS.out.standstill and not self.last_standstill:
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self.standstill_req = True
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if CS.pcm_acc_status != 8:
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# pcm entered standstill or it's disabled
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self.standstill_req = False
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self.last_steer = apply_steer
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self.last_accel = apply_accel
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self.last_standstill = CS.out.standstill
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can_sends = []
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#*** control msgs ***
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#print("steer {0} {1} {2} {3}".format(apply_steer, min_lim, max_lim, CS.steer_torque_motor)
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# toyota can trace shows this message at 42Hz, with counter adding alternatively 1 and 2;
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# sending it at 100Hz seem to allow a higher rate limit, as the rate limit seems imposed
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# on consecutive messages
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if Ecu.fwdCamera in self.fake_ecus:
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can_sends.append(create_steer_command(self.packer, apply_steer, apply_steer_req, frame))
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# we can spam can to cancel the system even if we are using lat only control
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if (frame % 3 == 0 and CS.CP.openpilotLongitudinalControl) or (pcm_cancel_cmd and Ecu.fwdCamera in self.fake_ecus):
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lead = lead or CS.out.vEgo < 12. # at low speed we always assume the lead is present do ACC can be engaged
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# Lexus IS uses a different cancellation message
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if pcm_cancel_cmd and CS.CP.carFingerprint == CAR.LEXUS_IS:
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can_sends.append(create_acc_cancel_command(self.packer))
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elif CS.CP.openpilotLongitudinalControl:
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can_sends.append(create_accel_command(self.packer, apply_accel, pcm_cancel_cmd, self.standstill_req, lead))
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else:
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can_sends.append(create_accel_command(self.packer, 0, pcm_cancel_cmd, False, lead))
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if (frame % 2 == 0) and (CS.CP.enableGasInterceptor):
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# send exactly zero if apply_gas is zero. Interceptor will send the max between read value and apply_gas.
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# This prevents unexpected pedal range rescaling
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can_sends.append(create_gas_command(self.packer, apply_gas, frame//2))
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# ui mesg is at 100Hz but we send asap if:
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# - there is something to display
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# - there is something to stop displaying
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fcw_alert = hud_alert == VisualAlert.fcw
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steer_alert = hud_alert == VisualAlert.steerRequired
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send_ui = False
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if ((fcw_alert or steer_alert) and not self.alert_active) or \
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(not (fcw_alert or steer_alert) and self.alert_active):
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send_ui = True
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self.alert_active = not self.alert_active
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elif pcm_cancel_cmd:
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# forcing the pcm to disengage causes a bad fault sound so play a good sound instead
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send_ui = True
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if (frame % 100 == 0 or send_ui) and Ecu.fwdCamera in self.fake_ecus:
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can_sends.append(create_ui_command(self.packer, steer_alert, pcm_cancel_cmd, left_line, right_line, left_lane_depart, right_lane_depart))
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if frame % 100 == 0 and Ecu.dsu in self.fake_ecus:
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can_sends.append(create_fcw_command(self.packer, fcw_alert))
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#*** static msgs ***
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for (addr, ecu, cars, bus, fr_step, vl) in STATIC_MSGS:
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if frame % fr_step == 0 and ecu in self.fake_ecus and CS.CP.carFingerprint in cars:
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can_sends.append(make_can_msg(addr, vl, bus))
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return can_sends
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