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256 lines
12 KiB
256 lines
12 KiB
#!/usr/bin/env python3
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from cereal import car
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from math import fabs
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from panda import Panda
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from common.conversions import Conversions as CV
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from selfdrive.car import STD_CARGO_KG, create_button_enable_events, create_button_event, scale_rot_inertia, scale_tire_stiffness, gen_empty_fingerprint, get_safety_config
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from selfdrive.car.gm.values import CAR, CruiseButtons, CarControllerParams
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from selfdrive.car.interfaces import CarInterfaceBase
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ButtonType = car.CarState.ButtonEvent.Type
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EventName = car.CarEvent.EventName
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GearShifter = car.CarState.GearShifter
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TransmissionType = car.CarParams.TransmissionType
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NetworkLocation = car.CarParams.NetworkLocation
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BUTTONS_DICT = {CruiseButtons.RES_ACCEL: ButtonType.accelCruise, CruiseButtons.DECEL_SET: ButtonType.decelCruise,
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CruiseButtons.MAIN: ButtonType.altButton3, CruiseButtons.CANCEL: ButtonType.cancel}
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class CarInterface(CarInterfaceBase):
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@staticmethod
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def get_pid_accel_limits(CP, current_speed, cruise_speed):
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params = CarControllerParams()
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return params.ACCEL_MIN, params.ACCEL_MAX
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@staticmethod
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def get_steer_feedforward_sigmoid(desired_angle: float, v_ego: float, ANGLE: float, ANGLE_OFFSET: float,
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SIGMOID_SPEED: float, SIGMOID: float, SPEED: float) -> float:
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# Apply sigmoid feedforward function on desired_angle & v_ego using supplied factors
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x = ANGLE * (desired_angle + ANGLE_OFFSET)
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sigmoid = x / (1 + fabs(x))
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return (SIGMOID_SPEED * sigmoid * v_ego) + (SIGMOID * sigmoid) + (SPEED * v_ego)
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# Determined by iteratively plotting and minimizing error for f(angle, speed) = steer.
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@staticmethod
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def get_steer_feedforward_volt(desired_angle, v_ego):
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desired_angle *= 0.02904609
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sigmoid = desired_angle / (1 + fabs(desired_angle))
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return 0.10006696 * sigmoid * (v_ego + 3.12485927)
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@staticmethod
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def get_steer_feedforward_acadia(desired_angle, v_ego):
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desired_angle *= 0.09760208
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sigmoid = desired_angle / (1 + fabs(desired_angle))
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return 0.04689655 * sigmoid * (v_ego + 10.028217)
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@staticmethod
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def get_steer_feedforward_silverado(desired_angle, v_ego):
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ANGLE = 0.06539361463056717
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ANGLE_OFFSET = -0.#8390269362439537
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SIGMOID_SPEED = 0.023681877712247515
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SIGMOID = 0.5709779025308087
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SPEED = -0.0016656455765509301
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return CarInterface.get_steer_feedforward_sigmoid(desired_angle, v_ego, ANGLE, ANGLE_OFFSET, SIGMOID_SPEED, SIGMOID, SPEED)
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def get_steer_feedforward_function(self):
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if self.CP.carFingerprint == CAR.VOLT:
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return self.get_steer_feedforward_volt
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elif self.CP.carFingerprint == CAR.ACADIA:
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return self.get_steer_feedforward_acadia
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elif self.CP.carFingerprint == CAR.SILVERADO:
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return self.get_steer_feedforward_silverado
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else:
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return CarInterfaceBase.get_steer_feedforward_default
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@staticmethod
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def get_params(candidate, fingerprint=gen_empty_fingerprint(), car_fw=None, disable_radar=False):
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ret = CarInterfaceBase.get_std_params(candidate, fingerprint)
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ret.carName = "gm"
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ret.safetyConfigs = [get_safety_config(car.CarParams.SafetyModel.gm)]
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ret.pcmCruise = False # For ASCM, stock non-adaptive cruise control is kept off
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ret.radarOffCan = False # For ASCM, radar is present
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ret.transmissionType = TransmissionType.automatic # EV is direct
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# NetworkLocation.gateway: OBD-II harness (typically ASCM), NetworkLocation.fwdCamera: non-ASCM
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ret.networkLocation = NetworkLocation.gateway # or fwdCamera
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# These cars have been put into dashcam only due to both a lack of users and test coverage.
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# These cars likely still work fine. Once a user confirms each car works and a test route is
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# added to selfdrive/car/tests/routes.py, we can remove it from this list.
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ret.dashcamOnly = candidate in {CAR.CADILLAC_ATS, CAR.HOLDEN_ASTRA, CAR.MALIBU, CAR.BUICK_REGAL}
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# Presence of a camera on the object bus is ok.
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# Have to go to read_only if ASCM is online (ACC-enabled cars),
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# or camera is on powertrain bus (LKA cars without ACC).
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ret.openpilotLongitudinalControl = True # For ASCM, OP performs long
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tire_stiffness_factor = 0.444 # not optimized yet
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# Start with a baseline tuning for all GM vehicles. Override tuning as needed in each model section below.
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ret.minSteerSpeed = 7 * CV.MPH_TO_MS
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ret.lateralTuning.pid.kiBP, ret.lateralTuning.pid.kpBP = [[0.], [0.]]
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ret.lateralTuning.pid.kpV, ret.lateralTuning.pid.kiV = [[0.2], [0.00]]
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ret.lateralTuning.pid.kf = 0.00004 # full torque for 20 deg at 80mph means 0.00007818594
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ret.steerActuatorDelay = 0.1 # Default delay, not measured yet
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ret.longitudinalTuning.kpBP = [5., 35.]
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ret.longitudinalTuning.kpV = [2.4, 1.5]
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ret.longitudinalTuning.kiBP = [0.]
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ret.longitudinalTuning.kiV = [0.36]
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ret.steerLimitTimer = 0.4
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ret.radarTimeStep = 0.0667 # GM radar runs at 15Hz instead of standard 20Hz
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# supports stop and go, but initial engage must (conservatively) be above 18mph
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ret.minEnableSpeed = 18 * CV.MPH_TO_MS
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# TODO: Should this be changed to -1?
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# Newer cars (that are still ASCM-based) use -1 for minEnableSpeed with the comment "engage speed is decided by pcm"
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if candidate == CAR.VOLT:
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ret.transmissionType = TransmissionType.direct
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ret.mass = 1607. + STD_CARGO_KG
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ret.wheelbase = 2.69
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ret.steerRatio = 17.7 # Stock 15.7, LiveParameters
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tire_stiffness_factor = 0.469 # Stock Michelin Energy Saver A/S, LiveParameters
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ret.centerToFront = ret.wheelbase * 0.45 # Volt Gen 1, TODO corner weigh
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ret.lateralTuning.pid.kpBP = [0., 40.]
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ret.lateralTuning.pid.kpV = [0., 0.17]
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ret.lateralTuning.pid.kiBP = [0.]
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ret.lateralTuning.pid.kiV = [0.]
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ret.lateralTuning.pid.kf = 1. # get_steer_feedforward_volt()
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ret.steerActuatorDelay = 0.2
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elif candidate == CAR.MALIBU:
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ret.mass = 1496. + STD_CARGO_KG
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ret.wheelbase = 2.83
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ret.steerRatio = 15.8
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ret.centerToFront = ret.wheelbase * 0.4 # wild guess
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elif candidate == CAR.HOLDEN_ASTRA:
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ret.mass = 1363. + STD_CARGO_KG
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ret.wheelbase = 2.662
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# Remaining parameters copied from Volt for now
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ret.centerToFront = ret.wheelbase * 0.4
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ret.steerRatio = 15.7
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elif candidate == CAR.ACADIA:
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ret.minEnableSpeed = -1. # engage speed is decided by pcm
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ret.mass = 4353. * CV.LB_TO_KG + STD_CARGO_KG
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ret.wheelbase = 2.86
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ret.steerRatio = 14.4 # end to end is 13.46
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ret.centerToFront = ret.wheelbase * 0.4
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ret.lateralTuning.pid.kf = 1. # get_steer_feedforward_acadia()
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ret.longitudinalActuatorDelayUpperBound = 0.5 # large delay to initially start braking
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elif candidate == CAR.BUICK_REGAL:
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ret.mass = 3779. * CV.LB_TO_KG + STD_CARGO_KG # (3849+3708)/2
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ret.wheelbase = 2.83 # 111.4 inches in meters
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ret.steerRatio = 14.4 # guess for tourx
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ret.centerToFront = ret.wheelbase * 0.4 # guess for tourx
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elif candidate == CAR.CADILLAC_ATS:
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ret.mass = 1601. + STD_CARGO_KG
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ret.wheelbase = 2.78
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ret.steerRatio = 15.3
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ret.centerToFront = ret.wheelbase * 0.49
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elif candidate == CAR.ESCALADE_ESV:
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ret.minEnableSpeed = -1. # engage speed is decided by pcm
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ret.mass = 2739. + STD_CARGO_KG
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ret.wheelbase = 3.302
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ret.steerRatio = 17.3
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ret.centerToFront = ret.wheelbase * 0.49
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ret.lateralTuning.pid.kiBP, ret.lateralTuning.pid.kpBP = [[10., 41.0], [10., 41.0]]
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ret.lateralTuning.pid.kpV, ret.lateralTuning.pid.kiV = [[0.13, 0.24], [0.01, 0.02]]
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ret.lateralTuning.pid.kf = 0.000045
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tire_stiffness_factor = 1.0
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elif candidate == CAR.SILVERADO:
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ret.minEnableSpeed = -1.
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ret.mass = 2400. + STD_CARGO_KG
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ret.wheelbase = 3.745
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ret.steerRatio = 16.3
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ret.centerToFront = ret.wheelbase * .49
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ret.networkLocation = NetworkLocation.fwdCamera # Uses Cam Harness
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ret.radarOffCan = True # No Radar
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ret.openpilotLongitudinalControl = False # Stock ACC
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ret.pcmCruise = True # CC is on
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# Tune (Thanks Skip)
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ret.steerActuatorDelay = 0.11
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ret.lateralTuning.pid.kpBP = [11.0, 15.5, 22.0, 31.0]
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ret.lateralTuning.pid.kpV = [0.12, 0.14, 0.20, 0.25]
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# kf value is based on the use of custom feedforward function
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ret.lateralTuning.pid.kf = (0.55 + 0.4) / 2. # Averaging the right and left kf for now
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# GM Trucks have weak right turning
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# Allowing for kf to be swapped depending on the curvature direction
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# seems to be improve the issue
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# ret.lateralTuning.pid.kf = 0.55
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# ret.lateralTuning.pid.kfLeft = 0.4
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elif candidate == CAR.BOLT_EUV:
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ret.transmissionType = TransmissionType.direct # EV (or hybrid)
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ret.minEnableSpeed = -1
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ret.mass = 1669. + STD_CARGO_KG
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ret.wheelbase = 2.675
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ret.steerRatio = 16.8 # Not measured
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ret.centerToFront = ret.wheelbase * 0.4
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ret.networkLocation = NetworkLocation.fwdCamera # Uses Cam Harness
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ret.radarOffCan = True # No Radar
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ret.openpilotLongitudinalControl = False # Stock ACC
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ret.pcmCruise = True # CC is on
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# Tune
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ret.steerActuatorDelay = 0.
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ret.lateralTuning.pid.kpBP, ret.lateralTuning.pid.kiBP = [[10., 41.0], [10., 41.0]]
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ret.lateralTuning.pid.kpV, ret.lateralTuning.pid.kiV = [[0.18, 0.275], [0.01, 0.021]]
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ret.lateralTuning.pid.kf = 0.0002
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tire_stiffness_factor = 1.0
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# Set Panda to camera forwarding mode
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if ret.networkLocation == NetworkLocation.fwdCamera:
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# TODO: Depends on Panda PR #962 (Cam Harness forwarding, stock ACC)
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ret.safetyConfigs[0].safetyParam |= Panda.FLAG_GM_HW_CAM
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# TODO: get actual value, for now starting with reasonable value for
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# civic and scaling by mass and wheelbase
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ret.rotationalInertia = scale_rot_inertia(ret.mass, ret.wheelbase)
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# TODO: start from empirically derived lateral slip stiffness for the civic and scale by
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# mass and CG position, so all cars will have approximately similar dyn behaviors
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ret.tireStiffnessFront, ret.tireStiffnessRear = scale_tire_stiffness(ret.mass, ret.wheelbase, ret.centerToFront,
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tire_stiffness_factor=tire_stiffness_factor)
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return ret
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# returns a car.CarState
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def _update(self, c):
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ret = self.CS.update(self.cp, self.cp_loopback)
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if self.CS.cruise_buttons != self.CS.prev_cruise_buttons and self.CS.prev_cruise_buttons != CruiseButtons.INIT:
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be = create_button_event(self.CS.cruise_buttons, self.CS.prev_cruise_buttons, BUTTONS_DICT, CruiseButtons.UNPRESS)
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# Suppress resume button if we're resuming from stop so we don't adjust speed.
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if be.type == ButtonType.accelCruise and (ret.cruiseState.enabled and ret.standstill):
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be.type = ButtonType.unknown
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ret.buttonEvents = [be]
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events = self.create_common_events(ret, extra_gears=[GearShifter.sport, GearShifter.low,
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GearShifter.eco, GearShifter.manumatic],
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pcm_enable=self.CP.pcmCruise)
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if ret.vEgo < self.CP.minEnableSpeed:
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events.add(EventName.belowEngageSpeed)
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if ret.cruiseState.standstill:
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events.add(EventName.resumeRequired)
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if ret.vEgo < self.CP.minSteerSpeed:
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events.add(car.CarEvent.EventName.belowSteerSpeed)
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# handle button presses
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events.events.extend(create_button_enable_events(ret.buttonEvents, pcm_cruise=self.CP.pcmCruise))
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ret.events = events.to_msg()
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return ret
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def apply(self, c):
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return self.CC.update(c, self.CS)
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