def __init__(self, CP, sendcan=None): self.CP = CP self.VM = VehicleModel(CP) self.frame = 0 self.can_invalid_count = 0 self.gas_pressed_prev = False self.brake_pressed_prev = False self.cruise_enabled_prev = False self.low_speed_alert = False # *** init the major players *** self.CS = CarState(CP) self.cp = get_can_parser(CP) # sending if read only is False if sendcan is not None: self.sendcan = sendcan self.CC = CarController(self.cp.dbc_name, CP.carFingerprint, CP.enableCamera)
class CarInterface(object): def __init__(self, CP, sendcan=None): self.CP = CP self.VM = VehicleModel(CP) self.frame = 0 self.can_invalid_count = 0 self.gas_pressed_prev = False self.brake_pressed_prev = False self.cruise_enabled_prev = False self.low_speed_alert = False # *** init the major players *** self.CS = CarState(CP) self.cp = get_can_parser(CP) # sending if read only is False if sendcan is not None: self.sendcan = sendcan self.CC = CarController(self.cp.dbc_name, CP.carFingerprint, CP.enableCamera) @staticmethod def compute_gb(accel, speed): return float(accel) / 3.0 @staticmethod def calc_accel_override(a_ego, a_target, v_ego, v_target): return 1.0 @staticmethod def get_params(candidate, fingerprint): # kg of standard extra cargo to count for drive, gas, etc... std_cargo = 136 ret = car.CarParams.new_message() ret.carName = "chrysler" ret.carFingerprint = candidate ret.safetyModel = car.CarParams.SafetyModels.chrysler # pedal ret.enableCruise = True # FIXME: hardcoding honda civic 2016 touring params so they can be used to # scale unknown params for other cars mass_civic = 2923./2.205 + std_cargo wheelbase_civic = 2.70 centerToFront_civic = wheelbase_civic * 0.4 centerToRear_civic = wheelbase_civic - centerToFront_civic rotationalInertia_civic = 2500 tireStiffnessFront_civic = 85400 * 2.0 tireStiffnessRear_civic = 90000 * 2.0 # Speed conversion: 20, 45 mph ret.steerKpBP, ret.steerKiBP = [[9., 20.], [9., 20.]] ret.wheelbase = 3.089 # in meters for Pacifica Hybrid 2017 ret.steerRatio = 16.2 # Pacifica Hybrid 2017 ret.mass = 2858 + std_cargo # kg curb weight Pacifica Hybrid 2017 ret.steerKpV, ret.steerKiV = [[0.15,0.30], [0.03,0.05]] ret.steerKf = 0.00006 # full torque for 10 deg at 80mph means 0.00007818594 ret.steerActuatorDelay = 0.1 ret.steerRateCost = 0.7 if candidate == CAR.JEEP_CHEROKEE: ret.wheelbase = 2.91 # in meters ret.steerRatio = 12.7 ret.steerActuatorDelay = 0.2 # in seconds ret.centerToFront = ret.wheelbase * 0.44 ret.longPidDeadzoneBP = [0., 9.] ret.longPidDeadzoneV = [0., .15] ret.minSteerSpeed = 3.8 # m/s ret.minEnableSpeed = -1. # enable is done by stock ACC, so ignore this centerToRear = ret.wheelbase - ret.centerToFront # TODO: get actual value, for now starting with reasonable value for # civic and scaling by mass and wheelbase ret.rotationalInertia = rotationalInertia_civic * \ ret.mass * ret.wheelbase**2 / (mass_civic * wheelbase_civic**2) # TODO: start from empirically derived lateral slip stiffness for the civic and scale by # mass and CG position, so all cars will have approximately similar dyn behaviors ret.tireStiffnessFront = tireStiffnessFront_civic * \ ret.mass / mass_civic * \ (centerToRear / ret.wheelbase) / (centerToRear_civic / wheelbase_civic) ret.tireStiffnessRear = tireStiffnessRear_civic * \ ret.mass / mass_civic * \ (ret.centerToFront / ret.wheelbase) / (centerToFront_civic / wheelbase_civic) # no rear steering, at least on the listed cars above ret.steerRatioRear = 0. # steer, gas, brake limitations VS speed ret.steerMaxBP = [16. * CV.KPH_TO_MS, 45. * CV.KPH_TO_MS] # breakpoints at 1 and 40 kph ret.steerMaxV = [1., 1.] # 2/3rd torque allowed above 45 kph ret.gasMaxBP = [0.] ret.gasMaxV = [0.5] ret.brakeMaxBP = [5., 20.] ret.brakeMaxV = [1., 0.8] ret.enableCamera = not check_ecu_msgs(fingerprint, ECU.CAM) print "ECU Camera Simulated: ", ret.enableCamera ret.openpilotLongitudinalControl = False ret.steerLimitAlert = True ret.stoppingControl = False ret.startAccel = 0.0 ret.longitudinalKpBP = [0., 5., 35.] ret.longitudinalKpV = [3.6, 2.4, 1.5] ret.longitudinalKiBP = [0., 35.] ret.longitudinalKiV = [0.54, 0.36] return ret # returns a car.CarState def update(self, c): # ******************* do can recv ******************* canMonoTimes = [] self.cp.update(int(sec_since_boot() * 1e9), False) self.CS.update(self.cp) # create message ret = car.CarState.new_message() # speeds ret.vEgo = self.CS.v_ego ret.vEgoRaw = self.CS.v_ego_raw ret.aEgo = self.CS.a_ego ret.yawRate = self.VM.yaw_rate(self.CS.angle_steers * CV.DEG_TO_RAD, self.CS.v_ego) ret.standstill = self.CS.standstill ret.wheelSpeeds.fl = self.CS.v_wheel_fl ret.wheelSpeeds.fr = self.CS.v_wheel_fr ret.wheelSpeeds.rl = self.CS.v_wheel_rl ret.wheelSpeeds.rr = self.CS.v_wheel_rr # gear shifter ret.gearShifter = self.CS.gear_shifter # gas pedal ret.gas = self.CS.car_gas ret.gasPressed = self.CS.pedal_gas > 0 # brake pedal ret.brake = self.CS.user_brake ret.brakePressed = self.CS.brake_pressed ret.brakeLights = self.CS.brake_lights # steering wheel ret.steeringAngle = self.CS.angle_steers ret.steeringRate = self.CS.angle_steers_rate ret.steeringTorque = self.CS.steer_torque_driver ret.steeringPressed = self.CS.steer_override # cruise state ret.cruiseState.enabled = self.CS.pcm_acc_status # same as main_on ret.cruiseState.speed = self.CS.v_cruise_pcm * CV.KPH_TO_MS ret.cruiseState.available = self.CS.main_on ret.cruiseState.speedOffset = 0. # ignore standstill in hybrid rav4, since pcm allows to restart without # receiving any special command ret.cruiseState.standstill = False # TODO: button presses buttonEvents = [] if self.CS.left_blinker_on != self.CS.prev_left_blinker_on: be = car.CarState.ButtonEvent.new_message() be.type = 'leftBlinker' be.pressed = self.CS.left_blinker_on != 0 buttonEvents.append(be) if self.CS.right_blinker_on != self.CS.prev_right_blinker_on: be = car.CarState.ButtonEvent.new_message() be.type = 'rightBlinker' be.pressed = self.CS.right_blinker_on != 0 buttonEvents.append(be) ret.buttonEvents = buttonEvents ret.leftBlinker = bool(self.CS.left_blinker_on) ret.rightBlinker = bool(self.CS.right_blinker_on) ret.doorOpen = not self.CS.door_all_closed ret.seatbeltUnlatched = not self.CS.seatbelt self.low_speed_alert = (ret.vEgo < self.CP.minSteerSpeed) ret.genericToggle = self.CS.generic_toggle # events events = [] if not self.CS.can_valid: self.can_invalid_count += 1 if self.can_invalid_count >= 5: events.append(create_event('commIssue', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE])) else: self.can_invalid_count = 0 if not ret.gearShifter == 'drive': events.append(create_event('wrongGear', [ET.NO_ENTRY, ET.SOFT_DISABLE])) if ret.doorOpen: events.append(create_event('doorOpen', [ET.NO_ENTRY, ET.SOFT_DISABLE])) if ret.seatbeltUnlatched: events.append(create_event('seatbeltNotLatched', [ET.NO_ENTRY, ET.SOFT_DISABLE])) if self.CS.esp_disabled: events.append(create_event('espDisabled', [ET.NO_ENTRY, ET.SOFT_DISABLE])) if not self.CS.main_on: events.append(create_event('wrongCarMode', [ET.NO_ENTRY, ET.USER_DISABLE])) if ret.gearShifter == 'reverse': events.append(create_event('reverseGear', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE])) if self.CS.steer_error: events.append(create_event('steerUnavailable', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE, ET.PERMANENT])) if ret.cruiseState.enabled and not self.cruise_enabled_prev: events.append(create_event('pcmEnable', [ET.ENABLE])) elif not ret.cruiseState.enabled: events.append(create_event('pcmDisable', [ET.USER_DISABLE])) # disable on gas pedal and speed isn't zero. Gas pedal is used to resume ACC # from a 3+ second stop. if (ret.gasPressed and (not self.gas_pressed_prev) and ret.vEgo > 2.0): events.append(create_event('pedalPressed', [ET.NO_ENTRY, ET.USER_DISABLE])) if self.low_speed_alert: events.append(create_event('belowSteerSpeed', [ET.WARNING])) ret.events = events ret.canMonoTimes = canMonoTimes self.gas_pressed_prev = ret.gasPressed self.brake_pressed_prev = ret.brakePressed self.cruise_enabled_prev = ret.cruiseState.enabled return ret.as_reader() # pass in a car.CarControl # to be called @ 100hz def apply(self, c, perception_state=log.Live20Data.new_message()): if (self.CS.frame == -1): return False # if we haven't seen a frame 220, then do not update. self.frame = self.CS.frame self.CC.update(self.sendcan, c.enabled, self.CS, self.frame, c.actuators, c.cruiseControl.cancel, c.hudControl.visualAlert, c.hudControl.audibleAlert) return False
class CarInterface(object): def __init__(self, CP, sendcan=None): self.CP = CP self.VM = VehicleModel(CP) self.frame = 0 self.can_invalid_count = 0 self.gas_pressed_prev = False self.brake_pressed_prev = False self.cruise_enabled_prev = False # *** init the major players *** self.CS = CarState(CP) self.cp = get_can_parser(CP) # sending if read only is False if sendcan is not None: self.sendcan = sendcan self.CC = CarController(self.cp.dbc_name, CP.carFingerprint, CP.enableCamera, CP.enableDsu, CP.enableApgs) @staticmethod def compute_gb(accel, speed): return float(accel) / 3.0 @staticmethod def calc_accel_override(a_ego, a_target, v_ego, v_target): return 1.0 @staticmethod def get_params(candidate, fingerprint): # kg of standard extra cargo to count for drive, gas, etc... std_cargo = 136 ret = car.CarParams.new_message() ret.carName = "chrysler" ret.carFingerprint = candidate ret.safetyModel = car.CarParams.SafetyModels.chrysler # pedal ret.enableCruise = True # FIXME: hardcoding honda civic 2016 touring params so they can be used to # scale unknown params for other cars mass_civic = 2923. / 2.205 + std_cargo wheelbase_civic = 2.70 centerToFront_civic = wheelbase_civic * 0.4 centerToRear_civic = wheelbase_civic - centerToFront_civic rotationalInertia_civic = 2500 tireStiffnessFront_civic = 85400 * 2.0 tireStiffnessRear_civic = 90000 * 2.0 # Speed conversion: 0, 20, 45, 75 mph ret.steerKpBP, ret.steerKiBP = [[0., 9., 20., 34.], [0., 9., 20., 34.]] ret.safetyParam = 73 # see conversion factor for STEER_TORQUE_EPS in dbc file ret.wheelbase = 3.089 # in meters for Pacifica Hybrid 2017 ret.steerRatio = 16.2 # Pacifica Hybrid 2017 ret.mass = 2858 + std_cargo # kg curb weight Pacifica Hybrid 2017 ret.steerKpV, ret.steerKiV = [[0.15, 0.15, 0.34, 0.34], [0.03, 0.03, 0.03, 0.03]] ret.steerKf = 0.00006 # full torque for 10 deg at 80mph means 0.00007818594 ret.steerActuatorDelay = 0.1 ret.steerRateCost = 1. ret.centerToFront = ret.wheelbase * 0.44 ret.longPidDeadzoneBP = [0., 9.] ret.longPidDeadzoneV = [0., .15] # min speed to enable ACC. if car can do stop and go, then set enabling speed # to a negative value, so it won't matter. ret.minEnableSpeed = 5. * CV.MPH_TO_MS # -1 for stop-and-go centerToRear = ret.wheelbase - ret.centerToFront # TODO: get actual value, for now starting with reasonable value for # civic and scaling by mass and wheelbase ret.rotationalInertia = rotationalInertia_civic * \ ret.mass * ret.wheelbase**2 / (mass_civic * wheelbase_civic**2) # TODO: start from empirically derived lateral slip stiffness for the civic and scale by # mass and CG position, so all cars will have approximately similar dyn behaviors ret.tireStiffnessFront = tireStiffnessFront_civic * \ ret.mass / mass_civic * \ (centerToRear / ret.wheelbase) / (centerToRear_civic / wheelbase_civic) ret.tireStiffnessRear = tireStiffnessRear_civic * \ ret.mass / mass_civic * \ (ret.centerToFront / ret.wheelbase) / (centerToFront_civic / wheelbase_civic) # no rear steering, at least on the listed cars above ret.steerRatioRear = 0. # steer, gas, brake limitations VS speed ret.steerMaxBP = [16. * CV.KPH_TO_MS, 45. * CV.KPH_TO_MS] # breakpoints at 1 and 40 kph ret.steerMaxV = [1., 1.] # 2/3rd torque allowed above 45 kph ret.gasMaxBP = [0.] ret.gasMaxV = [0.5] ret.brakeMaxBP = [5., 20.] ret.brakeMaxV = [1., 0.8] ret.enableCamera = not check_ecu_msgs(fingerprint, candidate, ECU.CAM) ret.enableDsu = False #not check_ecu_msgs(fingerprint, candidate, ECU.DSU) ret.enableApgs = False #not check_ecu_msgs(fingerprint, candidate, ECU.APGS) print "ECU Camera Simulated: ", ret.enableCamera print "ECU DSU Simulated: ", ret.enableDsu print "ECU APGS Simulated: ", ret.enableApgs ret.steerLimitAlert = False ret.stoppingControl = False ret.startAccel = 0.0 ret.longitudinalKpBP = [0., 5., 35.] ret.longitudinalKpV = [3.6, 2.4, 1.5] ret.longitudinalKiBP = [0., 35.] ret.longitudinalKiV = [0.54, 0.36] return ret # returns a car.CarState def update(self, c): # ******************* do can recv ******************* canMonoTimes = [] self.cp.update(int(sec_since_boot() * 1e9), False) self.CS.update(self.cp) # create message ret = car.CarState.new_message() # speeds ret.vEgo = self.CS.v_ego ret.vEgoRaw = self.CS.v_ego_raw ret.aEgo = self.CS.a_ego ret.yawRate = self.VM.yaw_rate(self.CS.angle_steers * CV.DEG_TO_RAD, self.CS.v_ego) ret.standstill = self.CS.standstill ret.wheelSpeeds.fl = self.CS.v_wheel_fl ret.wheelSpeeds.fr = self.CS.v_wheel_fr ret.wheelSpeeds.rl = self.CS.v_wheel_rl ret.wheelSpeeds.rr = self.CS.v_wheel_rr # gear shifter ret.gearShifter = self.CS.gear_shifter # gas pedal ret.gas = self.CS.car_gas ret.gasPressed = self.CS.pedal_gas > 0 # brake pedal ret.brake = self.CS.user_brake ret.brakePressed = self.CS.brake_pressed ret.brakeLights = self.CS.brake_lights # steering wheel ret.steeringAngle = self.CS.angle_steers ret.steeringRate = self.CS.angle_steers_rate ret.steeringTorque = self.CS.steer_torque_driver ret.steeringPressed = self.CS.steer_override # cruise state ret.cruiseState.enabled = self.CS.pcm_acc_status # is this the same as main_on an issue? ret.cruiseState.speed = self.CS.v_cruise_pcm * CV.KPH_TO_MS ret.cruiseState.available = self.CS.main_on ret.cruiseState.speedOffset = 0. # ignore standstill in hybrid rav4, since pcm allows to restart without # receiving any special command ret.cruiseState.standstill = False # TODO: button presses buttonEvents = [] if self.CS.left_blinker_on != self.CS.prev_left_blinker_on: be = car.CarState.ButtonEvent.new_message() be.type = 'leftBlinker' be.pressed = self.CS.left_blinker_on != 0 buttonEvents.append(be) if self.CS.right_blinker_on != self.CS.prev_right_blinker_on: be = car.CarState.ButtonEvent.new_message() be.type = 'rightBlinker' be.pressed = self.CS.right_blinker_on != 0 buttonEvents.append(be) ret.buttonEvents = buttonEvents ret.leftBlinker = bool(self.CS.left_blinker_on) ret.rightBlinker = bool(self.CS.right_blinker_on) ret.doorOpen = not self.CS.door_all_closed ret.seatbeltUnlatched = not self.CS.seatbelt ret.genericToggle = self.CS.generic_toggle # events events = [] if not self.CS.can_valid: self.can_invalid_count += 1 if self.can_invalid_count >= 5: events.append( create_event('commIssue', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE])) else: self.can_invalid_count = 0 if not ret.gearShifter == 'drive' and self.CP.enableDsu: events.append( create_event('wrongGear', [ET.NO_ENTRY, ET.SOFT_DISABLE])) if ret.doorOpen: events.append( create_event('doorOpen', [ET.NO_ENTRY, ET.SOFT_DISABLE])) if ret.seatbeltUnlatched: events.append( create_event('seatbeltNotLatched', [ET.NO_ENTRY, ET.SOFT_DISABLE])) if self.CS.esp_disabled and self.CP.enableDsu: events.append( create_event('espDisabled', [ET.NO_ENTRY, ET.SOFT_DISABLE])) if not self.CS.main_on and self.CP.enableDsu: events.append( create_event('wrongCarMode', [ET.NO_ENTRY, ET.USER_DISABLE])) if ret.gearShifter == 'reverse' and self.CP.enableDsu: events.append( create_event('reverseGear', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE])) if self.CS.steer_error: events.append( create_event('steerTempUnavailable', [ET.NO_ENTRY, ET.WARNING])) if self.CS.low_speed_lockout and self.CP.enableDsu: events.append( create_event('lowSpeedLockout', [ET.NO_ENTRY, ET.PERMANENT])) if ret.vEgo < self.CP.minEnableSpeed and self.CP.enableDsu: events.append(create_event('speedTooLow', [ET.NO_ENTRY])) if c.actuators.gas > 0.1: # some margin on the actuator to not false trigger cancellation while stopping events.append( create_event('speedTooLow', [ET.IMMEDIATE_DISABLE])) if ret.vEgo < 0.001: # while in standstill, send a user alert events.append(create_event('manualRestart', [ET.WARNING])) # enable request in prius is simple, as we activate when Toyota is active (rising edge) if ret.cruiseState.enabled and not self.cruise_enabled_prev: events.append(create_event('pcmEnable', [ET.ENABLE])) elif not ret.cruiseState.enabled: events.append(create_event('pcmDisable', [ET.USER_DISABLE])) # disable on pedals rising edge or when brake is pressed and speed isn't zero if (ret.gasPressed and not self.gas_pressed_prev) or \ (ret.brakePressed and (not self.brake_pressed_prev or ret.vEgo > 0.001)): events.append( create_event('pedalPressed', [ET.NO_ENTRY, ET.USER_DISABLE])) if ret.gasPressed: events.append(create_event('pedalPressed', [ET.PRE_ENABLE])) ret.events = events ret.canMonoTimes = canMonoTimes self.gas_pressed_prev = ret.gasPressed self.brake_pressed_prev = ret.brakePressed self.cruise_enabled_prev = ret.cruiseState.enabled return ret.as_reader() # pass in a car.CarControl # to be called @ 100hz def apply(self, c, perception_state=log.Live20Data.new_message()): #! if our frame isn't synced with 220, then reset it. # this wasn't needed in the game, so could it be needed for OP?!?! # check if it's more than 3 away, accounting for 0x10 wrap-around. f1 = int(self.frame) % 0x10 f2 = int(self.CS.frame_220 ) % 0x10 # shouldn't need the mod, but just in case. fmin = min(f1, f2) fmax = max(f1, f2) if ((fmax - fmin) > 2) and ((fmin + 0x10 - fmax) > 2): # copy lower nibble from frame_220 to our frame so they match self.frame = (int(self.frame) & 0xfffffff0) | f2 self.CC.update(self.sendcan, c.enabled, self.CS, self.frame, c.actuators, c.cruiseControl.cancel, c.hudControl.visualAlert, c.hudControl.audibleAlert) self.frame += 1 return False