from cereal import car
from common . numpy_fast import mean
from selfdrive . config import Conversions as CV
from opendbc . can . can_define import CANDefine
from opendbc . can . parser import CANParser
from selfdrive . car . interfaces import CarStateBase
from selfdrive . car . gm . values import DBC , CAR , AccState , CanBus , \
CruiseButtons , STEER_THRESHOLD
class CarState ( CarStateBase ) :
def __init__ ( self , CP ) :
super ( ) . __init__ ( CP )
can_define = CANDefine ( DBC [ CP . carFingerprint ] [ " pt " ] )
self . shifter_values = can_define . dv [ " ECMPRDNL " ] [ " PRNDL " ]
def update ( self , pt_cp ) :
ret = car . CarState . new_message ( )
self . prev_cruise_buttons = self . cruise_buttons
self . cruise_buttons = pt_cp . vl [ " ASCMSteeringButton " ] [ " ACCButtons " ]
ret . wheelSpeeds . fl = pt_cp . vl [ " EBCMWheelSpdFront " ] [ " FLWheelSpd " ] * CV . KPH_TO_MS
ret . wheelSpeeds . fr = pt_cp . vl [ " EBCMWheelSpdFront " ] [ " FRWheelSpd " ] * CV . KPH_TO_MS
ret . wheelSpeeds . rl = pt_cp . vl [ " EBCMWheelSpdRear " ] [ " RLWheelSpd " ] * CV . KPH_TO_MS
ret . wheelSpeeds . rr = pt_cp . vl [ " EBCMWheelSpdRear " ] [ " RRWheelSpd " ] * CV . KPH_TO_MS
ret . vEgoRaw = mean ( [ ret . wheelSpeeds . fl , ret . wheelSpeeds . fr , ret . wheelSpeeds . rl , ret . wheelSpeeds . rr ] )
ret . vEgo , ret . aEgo = self . update_speed_kf ( ret . vEgoRaw )
ret . standstill = ret . vEgoRaw < 0.01
ret . gearShifter = self . parse_gear_shifter ( self . shifter_values . get ( pt_cp . vl [ " ECMPRDNL " ] [ " PRNDL " ] , None ) )
ret . brake = pt_cp . vl [ " EBCMBrakePedalPosition " ] [ " BrakePedalPosition " ] / 0xd0
# Brake pedal's potentiometer returns near-zero reading even when pedal is not pressed.
if ret . brake < 10 / 0xd0 :
ret . brake = 0.
ret . gas = pt_cp . vl [ " AcceleratorPedal " ] [ " AcceleratorPedal " ] / 254.
ret . gasPressed = ret . gas > 1e-5
ret . steeringAngleDeg = pt_cp . vl [ " PSCMSteeringAngle " ] [ " SteeringWheelAngle " ]
ret . steeringRateDeg = pt_cp . vl [ " PSCMSteeringAngle " ] [ " SteeringWheelRate " ]
ret . steeringTorque = pt_cp . vl [ " PSCMStatus " ] [ " LKADriverAppldTrq " ]
ret . steeringTorqueEps = pt_cp . vl [ " PSCMStatus " ] [ " LKATorqueDelivered " ]
ret . steeringPressed = abs ( ret . steeringTorque ) > STEER_THRESHOLD
# 0 inactive, 1 active, 2 temporarily limited, 3 failed
self . lkas_status = pt_cp . vl [ " PSCMStatus " ] [ " LKATorqueDeliveredStatus " ]
ret . steerWarning = self . lkas_status == 2
ret . steerError = self . lkas_status == 3
# 1 - open, 0 - closed
ret . doorOpen = ( pt_cp . vl [ " BCMDoorBeltStatus " ] [ " FrontLeftDoor " ] == 1 or
pt_cp . vl [ " BCMDoorBeltStatus " ] [ " FrontRightDoor " ] == 1 or
pt_cp . vl [ " BCMDoorBeltStatus " ] [ " RearLeftDoor " ] == 1 or
pt_cp . vl [ " BCMDoorBeltStatus " ] [ " RearRightDoor " ] == 1 )
# 1 - latched
ret . seatbeltUnlatched = pt_cp . vl [ " BCMDoorBeltStatus " ] [ " LeftSeatBelt " ] == 0
ret . leftBlinker = pt_cp . vl [ " BCMTurnSignals " ] [ " TurnSignals " ] == 1
ret . rightBlinker = pt_cp . vl [ " BCMTurnSignals " ] [ " TurnSignals " ] == 2
self . park_brake = pt_cp . vl [ " EPBStatus " ] [ " EPBClosed " ]
ret . cruiseState . available = bool ( pt_cp . vl [ " ECMEngineStatus " ] [ " CruiseMainOn " ] )
ret . espDisabled = pt_cp . vl [ " ESPStatus " ] [ " TractionControlOn " ] != 1
self . pcm_acc_status = pt_cp . vl [ " AcceleratorPedal2 " ] [ " CruiseState " ]
ret . brakePressed = ret . brake > 1e-5
# Regen braking is braking
if self . car_fingerprint == CAR . VOLT :
ret . brakePressed = ret . brakePressed or bool ( pt_cp . vl [ " EBCMRegenPaddle " ] [ " RegenPaddle " ] )
ret . cruiseState . enabled = self . pcm_acc_status != AccState . OFF
ret . cruiseState . standstill = self . pcm_acc_status == AccState . STANDSTILL
return ret
@staticmethod
def get_can_parser ( CP ) :
# this function generates lists for signal, messages and initial values
signals = [
# sig_name, sig_address, default
( " BrakePedalPosition " , " EBCMBrakePedalPosition " , 0 ) ,
( " FrontLeftDoor " , " BCMDoorBeltStatus " , 0 ) ,
( " FrontRightDoor " , " BCMDoorBeltStatus " , 0 ) ,
( " RearLeftDoor " , " BCMDoorBeltStatus " , 0 ) ,
( " RearRightDoor " , " BCMDoorBeltStatus " , 0 ) ,
( " LeftSeatBelt " , " BCMDoorBeltStatus " , 0 ) ,
( " RightSeatBelt " , " BCMDoorBeltStatus " , 0 ) ,
( " TurnSignals " , " BCMTurnSignals " , 0 ) ,
( " AcceleratorPedal " , " AcceleratorPedal " , 0 ) ,
( " CruiseState " , " AcceleratorPedal2 " , 0 ) ,
( " ACCButtons " , " ASCMSteeringButton " , CruiseButtons . UNPRESS ) ,
( " SteeringWheelAngle " , " PSCMSteeringAngle " , 0 ) ,
( " SteeringWheelRate " , " PSCMSteeringAngle " , 0 ) ,
( " FLWheelSpd " , " EBCMWheelSpdFront " , 0 ) ,
( " FRWheelSpd " , " EBCMWheelSpdFront " , 0 ) ,
( " RLWheelSpd " , " EBCMWheelSpdRear " , 0 ) ,
( " RRWheelSpd " , " EBCMWheelSpdRear " , 0 ) ,
( " PRNDL " , " ECMPRDNL " , 0 ) ,
( " LKADriverAppldTrq " , " PSCMStatus " , 0 ) ,
( " LKATorqueDelivered " , " PSCMStatus " , 0 ) ,
( " LKATorqueDeliveredStatus " , " PSCMStatus " , 0 ) ,
( " TractionControlOn " , " ESPStatus " , 0 ) ,
( " EPBClosed " , " EPBStatus " , 0 ) ,
( " CruiseMainOn " , " ECMEngineStatus " , 0 ) ,
]
checks = [
( " BCMTurnSignals " , 1 ) ,
( " ECMPRDNL " , 10 ) ,
( " PSCMStatus " , 10 ) ,
( " ESPStatus " , 10 ) ,
( " BCMDoorBeltStatus " , 10 ) ,
( " EPBStatus " , 20 ) ,
( " EBCMWheelSpdFront " , 20 ) ,
( " EBCMWheelSpdRear " , 20 ) ,
( " AcceleratorPedal " , 33 ) ,
( " AcceleratorPedal2 " , 33 ) ,
( " ASCMSteeringButton " , 33 ) ,
( " ECMEngineStatus " , 100 ) ,
( " PSCMSteeringAngle " , 100 ) ,
( " EBCMBrakePedalPosition " , 100 ) ,
]
if CP . carFingerprint == CAR . VOLT :
signals + = [
( " RegenPaddle " , " EBCMRegenPaddle " , 0 ) ,
]
checks + = [
( " EBCMRegenPaddle " , 50 ) ,
]
return CANParser ( DBC [ CP . carFingerprint ] [ " pt " ] , signals , checks , CanBus . POWERTRAIN )
