536 lines
19 KiB
Python
Executable File
536 lines
19 KiB
Python
Executable File
#!/usr/bin/env python
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import os
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import numpy as np
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from cereal import car
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from common.numpy_fast import clip, interp
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from common.realtime import sec_since_boot
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from selfdrive.config import Conversions as CV
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from selfdrive.controls.lib.drive_helpers import create_event, EventTypes as ET, get_events
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from selfdrive.controls.lib.vehicle_model import VehicleModel
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from selfdrive.car.honda.carstate import CarState, get_can_parser
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from selfdrive.car.honda.values import CruiseButtons, CM, BP, AH
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from selfdrive.controls.lib.planner import A_ACC_MAX
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from common.fingerprints import HONDA as CAR
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try:
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from .carcontroller import CarController
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except ImportError:
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CarController = None
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# msgs sent for steering controller by camera module on can 0.
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# those messages are mutually exclusive on CRV and non-CRV cars
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CAMERA_MSGS = [0xe4, 0x194]
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def compute_gb_honda(accel, speed):
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creep_brake = 0.0
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creep_speed = 2.3
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creep_brake_value = 0.15
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if speed < creep_speed:
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creep_brake = (creep_speed - speed) / creep_speed * creep_brake_value
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return float(accel) / 4.8 - creep_brake
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def get_compute_gb_acura():
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# generate a function that takes in [desired_accel, current_speed] -> [-1.0, 1.0]
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# where -1.0 is max brake and 1.0 is max gas
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# see debug/dump_accel_from_fiber.py to see how those parameters were generated
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w0 = np.array([[ 1.22056961, -0.39625418, 0.67952657],
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[ 1.03691769, 0.78210306, -0.41343188]])
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b0 = np.array([ 0.01536703, -0.14335321, -0.26932889])
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w2 = np.array([[-0.59124422, 0.42899439, 0.38660881],
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[ 0.79973811, 0.13178682, 0.08550351],
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[-0.15651935, -0.44360259, 0.76910877]])
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b2 = np.array([ 0.15624429, 0.02294923, -0.0341086 ])
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w4 = np.array([[-0.31521443],
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[-0.38626176],
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[ 0.52667892]])
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b4 = np.array([-0.02922216])
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def compute_output(dat, w0, b0, w2, b2, w4, b4):
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m0 = np.dot(dat, w0) + b0
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m0 = leakyrelu(m0, 0.1)
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m2 = np.dot(m0, w2) + b2
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m2 = leakyrelu(m2, 0.1)
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m4 = np.dot(m2, w4) + b4
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return m4
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def leakyrelu(x, alpha):
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return np.maximum(x, alpha * x)
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def _compute_gb_acura(accel, speed):
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# linearly extrap below v1 using v1 and v2 data
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v1 = 5.
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v2 = 10.
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dat = np.array([accel, speed])
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if speed > 5.:
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m4 = compute_output(dat, w0, b0, w2, b2, w4, b4)
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else:
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dat[1] = v1
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m4v1 = compute_output(dat, w0, b0, w2, b2, w4, b4)
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dat[1] = v2
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m4v2 = compute_output(dat, w0, b0, w2, b2, w4, b4)
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m4 = (speed - v1) * (m4v2 - m4v1) / (v2 - v1) + m4v1
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return float(m4)
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return _compute_gb_acura
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class CarInterface(object):
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def __init__(self, CP, sendcan=None):
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self.CP = CP
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self.frame = 0
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self.last_enable_pressed = 0
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self.last_enable_sent = 0
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self.gas_pressed_prev = False
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self.brake_pressed_prev = False
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self.can_invalid_count = 0
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self.cp = get_can_parser(CP)
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# *** init the major players ***
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self.CS = CarState(CP)
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self.VM = VehicleModel(CP)
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# sending if read only is False
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if sendcan is not None:
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self.sendcan = sendcan
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self.CC = CarController(self.cp.dbc_name, CP.enableCamera)
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if self.CS.CP.carFingerprint == CAR.ACURA_ILX:
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self.compute_gb = get_compute_gb_acura()
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else:
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self.compute_gb = compute_gb_honda
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@staticmethod
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def calc_accel_override(a_ego, a_target, v_ego, v_target):
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# limit the pcm accel cmd if:
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# - v_ego exceeds v_target, or
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# - a_ego exceeds a_target and v_ego is close to v_target
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eA = a_ego - a_target
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valuesA = [1.0, 0.1]
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bpA = [0.3, 1.1]
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eV = v_ego - v_target
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valuesV = [1.0, 0.1]
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bpV = [0.0, 0.5]
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valuesRangeV = [1., 0.]
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bpRangeV = [-1., 0.]
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# only limit if v_ego is close to v_target
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speedLimiter = interp(eV, bpV, valuesV)
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accelLimiter = max(interp(eA, bpA, valuesA), interp(eV, bpRangeV, valuesRangeV))
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# accelOverride is more or less the max throttle allowed to pcm: usually set to a constant
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# unless aTargetMax is very high and then we scale with it; this help in quicker restart
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return float(max(0.714, a_target / A_ACC_MAX)) * min(speedLimiter, accelLimiter)
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@staticmethod
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def get_params(candidate, fingerprint):
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# kg of standard extra cargo to count for drive, gas, etc...
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std_cargo = 136
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ret = car.CarParams.new_message()
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ret.carName = "honda"
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ret.carFingerprint = candidate
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ret.safetyModel = car.CarParams.SafetyModels.honda
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ret.enableSteer = True
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ret.enableBrake = True
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ret.enableCamera = not any(x for x in CAMERA_MSGS if x in fingerprint)
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ret.enableGas = 0x201 in fingerprint
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print "ECU Camera Simulated: ", ret.enableCamera
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print "ECU Gas Interceptor: ", ret.enableGas
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ret.enableCruise = not ret.enableGas
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# FIXME: hardcoding honda civic 2016 touring params so they can be used to
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# scale unknown params for other cars
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mass_civic = 2923./2.205 + std_cargo
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wheelbase_civic = 2.70
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centerToFront_civic = wheelbase_civic * 0.4
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centerToRear_civic = wheelbase_civic - centerToFront_civic
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rotationalInertia_civic = 2500
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tireStiffnessFront_civic = 85400
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tireStiffnessRear_civic = 90000
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ret.steerKiBP, ret.steerKpBP = [[0.], [0.]]
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if candidate == CAR.CIVIC:
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stop_and_go = True
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ret.mass = mass_civic
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ret.wheelbase = wheelbase_civic
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ret.centerToFront = centerToFront_civic
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ret.steerRatio = 13.0
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# Civic at comma has modified steering FW, so different tuning for the Neo in that car
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is_fw_modified = os.getenv("DONGLE_ID") in ['99c94dc769b5d96e']
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ret.steerKpV, ret.steerKiV = [[0.4], [0.12]] if is_fw_modified else [[0.8], [0.24]]
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ret.longitudinalKpBP = [0., 5., 35.]
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ret.longitudinalKpV = [3.6, 2.4, 1.5]
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ret.longitudinalKiBP = [0., 35.]
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ret.longitudinalKiV = [0.54, 0.36]
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elif candidate == CAR.ACURA_ILX:
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stop_and_go = False
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ret.mass = 3095./2.205 + std_cargo
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ret.wheelbase = 2.67
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ret.centerToFront = ret.wheelbase * 0.37
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ret.steerRatio = 15.3
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# Acura at comma has modified steering FW, so different tuning for the Neo in that car
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is_fw_modified = os.getenv("DONGLE_ID") in ['85a6c74d4ad9c310']
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ret.steerKpV, ret.steerKiV = [[0.1], [0.03]] if is_fw_modified else [[0.8], [0.24]]
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ret.longitudinalKpBP = [0., 5., 35.]
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ret.longitudinalKpV = [1.2, 0.8, 0.5]
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ret.longitudinalKiBP = [0., 35.]
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ret.longitudinalKiV = [0.18, 0.12]
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elif candidate == CAR.CRV:
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stop_and_go = False
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ret.mass = 3572./2.205 + std_cargo
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ret.wheelbase = 2.62
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ret.centerToFront = ret.wheelbase * 0.41
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ret.steerRatio = 15.3
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ret.steerKpV, ret.steerKiV = [[0.8], [0.24]]
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ret.longitudinalKpBP = [0., 5., 35.]
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ret.longitudinalKpV = [1.2, 0.8, 0.5]
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ret.longitudinalKiBP = [0., 35.]
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ret.longitudinalKiV = [0.18, 0.12]
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elif candidate == CAR.ACURA_RDX:
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stop_and_go = False
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ret.mass = 3935./2.205 + std_cargo
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ret.wheelbase = 2.68
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ret.centerToFront = ret.wheelbase * 0.38
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ret.steerRatio = 15.0
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ret.steerKpV, ret.steerKiV = [[0.8], [0.24]]
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ret.longitudinalKpBP = [0., 5., 35.]
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ret.longitudinalKpV = [1.2, 0.8, 0.5]
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ret.longitudinalKiBP = [0., 35.]
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ret.longitudinalKiV = [0.18, 0.12]
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elif candidate == CAR.ODYSSEY:
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stop_and_go = False
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ret.mass = 4354./2.205 + std_cargo
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ret.wheelbase = 3.00
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ret.centerToFront = ret.wheelbase * 0.41
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ret.steerRatio = 14.35
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ret.steerKpV, ret.steerKiV = [[0.6], [0.18]]
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ret.longitudinalKpBP = [0., 5., 35.]
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ret.longitudinalKpV = [1.2, 0.8, 0.5]
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ret.longitudinalKiBP = [0., 35.]
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ret.longitudinalKiV = [0.18, 0.12]
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elif candidate == CAR.PILOT:
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stop_and_go = False
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ret.mass = 4303./2.205 + std_cargo
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ret.wheelbase = 2.81
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ret.centerToFront = ret.wheelbase * 0.41
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ret.steerRatio = 16.0
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ret.steerKpV, ret.steerKiV = [[0.38], [0.11]]
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ret.longitudinalKpBP = [0., 5., 35.]
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ret.longitudinalKpV = [1.2, 0.8, 0.5]
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ret.longitudinalKiBP = [0., 35.]
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ret.longitudinalKiV = [0.18, 0.12]
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else:
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raise ValueError("unsupported car %s" % candidate)
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ret.steerKf = 0. # TODO: investigate FF steer control for Honda
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# min speed to enable ACC. if car can do stop and go, then set enabling speed
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# to a negative value, so it won't matter. Otherwise, add 0.5 mph margin to not
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# conflict with PCM acc
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ret.minEnableSpeed = -1. if (stop_and_go or ret.enableGas) else 25.5 * CV.MPH_TO_MS
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centerToRear = ret.wheelbase - ret.centerToFront
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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 = rotationalInertia_civic * \
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ret.mass * ret.wheelbase**2 / (mass_civic * wheelbase_civic**2)
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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 = tireStiffnessFront_civic * \
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ret.mass / mass_civic * \
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(centerToRear / ret.wheelbase) / (centerToRear_civic / wheelbase_civic)
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ret.tireStiffnessRear = tireStiffnessRear_civic * \
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ret.mass / mass_civic * \
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(ret.centerToFront / ret.wheelbase) / (centerToFront_civic / wheelbase_civic)
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# no rear steering, at least on the listed cars above
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ret.steerRatioRear = 0.
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# no max steer limit VS speed
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ret.steerMaxBP = [0.] # m/s
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ret.steerMaxV = [1.] # max steer allowed
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ret.gasMaxBP = [0.] # m/s
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ret.gasMaxV = [0.6] if ret.enableGas else [0.] # max gas allowed
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ret.brakeMaxBP = [5., 20.] # m/s
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ret.brakeMaxV = [1., 0.8] # max brake allowed
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ret.longPidDeadzoneBP = [0.]
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ret.longPidDeadzoneV = [0.]
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ret.stoppingControl = True
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ret.steerLimitAlert = True
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ret.startAccel = 0.5
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ret.steerRateCost = 0.5
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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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# ******************* do can recv *******************
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canMonoTimes = []
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self.cp.update(int(sec_since_boot() * 1e9), False)
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self.CS.update(self.cp)
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# create message
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ret = car.CarState.new_message()
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# speeds
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ret.vEgo = self.CS.v_ego
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ret.aEgo = self.CS.a_ego
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ret.vEgoRaw = self.CS.v_ego_raw
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ret.yawRate = self.VM.yaw_rate(self.CS.angle_steers * CV.DEG_TO_RAD, self.CS.v_ego)
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ret.standstill = self.CS.standstill
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ret.wheelSpeeds.fl = self.CS.v_wheel_fl
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ret.wheelSpeeds.fr = self.CS.v_wheel_fr
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ret.wheelSpeeds.rl = self.CS.v_wheel_rl
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ret.wheelSpeeds.rr = self.CS.v_wheel_rr
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# gas pedal
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ret.gas = self.CS.car_gas / 256.0
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if not self.CP.enableGas:
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ret.gasPressed = self.CS.pedal_gas > 0
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else:
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ret.gasPressed = self.CS.user_gas_pressed
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# brake pedal
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ret.brake = self.CS.user_brake
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ret.brakePressed = self.CS.brake_pressed != 0
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# FIXME: read sendcan for brakelights
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brakelights_threshold = 0.02 if self.CS.CP.carFingerprint == CAR.CIVIC else 0.1
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ret.brakeLights = bool(self.CS.brake_switch or
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c.actuators.brake > brakelights_threshold)
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# steering wheel
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ret.steeringAngle = self.CS.angle_steers
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ret.steeringRate = self.CS.angle_steers_rate
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# gear shifter lever
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ret.gearShifter = self.CS.gear_shifter
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ret.steeringTorque = self.CS.steer_torque_driver
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ret.steeringPressed = self.CS.steer_override
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# cruise state
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ret.cruiseState.enabled = self.CS.pcm_acc_status != 0
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ret.cruiseState.speed = self.CS.v_cruise_pcm * CV.KPH_TO_MS
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ret.cruiseState.available = bool(self.CS.main_on)
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ret.cruiseState.speedOffset = self.CS.cruise_speed_offset
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ret.cruiseState.standstill = False
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# TODO: button presses
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buttonEvents = []
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ret.leftBlinker = bool(self.CS.left_blinker_on)
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ret.rightBlinker = bool(self.CS.right_blinker_on)
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ret.doorOpen = not self.CS.door_all_closed
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ret.seatbeltUnlatched = not self.CS.seatbelt
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if self.CS.left_blinker_on != self.CS.prev_left_blinker_on:
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be = car.CarState.ButtonEvent.new_message()
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be.type = 'leftBlinker'
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be.pressed = self.CS.left_blinker_on != 0
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buttonEvents.append(be)
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if self.CS.right_blinker_on != self.CS.prev_right_blinker_on:
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be = car.CarState.ButtonEvent.new_message()
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be.type = 'rightBlinker'
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be.pressed = self.CS.right_blinker_on != 0
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buttonEvents.append(be)
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if self.CS.cruise_buttons != self.CS.prev_cruise_buttons:
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be = car.CarState.ButtonEvent.new_message()
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be.type = 'unknown'
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if self.CS.cruise_buttons != 0:
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be.pressed = True
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but = self.CS.cruise_buttons
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else:
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be.pressed = False
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but = self.CS.prev_cruise_buttons
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if but == CruiseButtons.RES_ACCEL:
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be.type = 'accelCruise'
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elif but == CruiseButtons.DECEL_SET:
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be.type = 'decelCruise'
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elif but == CruiseButtons.CANCEL:
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be.type = 'cancel'
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elif but == CruiseButtons.MAIN:
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be.type = 'altButton3'
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buttonEvents.append(be)
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if self.CS.cruise_setting != self.CS.prev_cruise_setting:
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be = car.CarState.ButtonEvent.new_message()
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be.type = 'unknown'
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if self.CS.cruise_setting != 0:
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be.pressed = True
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but = self.CS.cruise_setting
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else:
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be.pressed = False
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but = self.CS.prev_cruise_setting
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if but == 1:
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be.type = 'altButton1'
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# TODO: more buttons?
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buttonEvents.append(be)
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ret.buttonEvents = buttonEvents
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# events
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# TODO: I don't like the way capnp does enums
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# These strings aren't checked at compile time
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events = []
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if not self.CS.can_valid:
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self.can_invalid_count += 1
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if self.can_invalid_count >= 5:
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events.append(create_event('commIssue', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE]))
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else:
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self.can_invalid_count = 0
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if self.CS.steer_error:
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events.append(create_event('steerUnavailable', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE, ET.PERMANENT]))
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elif self.CS.steer_not_allowed:
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events.append(create_event('steerTempUnavailable', [ET.NO_ENTRY, ET.WARNING]))
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if self.CS.brake_error:
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events.append(create_event('brakeUnavailable', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE, ET.PERMANENT]))
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if not ret.gearShifter == 'drive':
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events.append(create_event('wrongGear', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
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if ret.doorOpen:
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events.append(create_event('doorOpen', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
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if ret.seatbeltUnlatched:
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events.append(create_event('seatbeltNotLatched', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
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if self.CS.esp_disabled:
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events.append(create_event('espDisabled', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
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if not self.CS.main_on:
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events.append(create_event('wrongCarMode', [ET.NO_ENTRY, ET.USER_DISABLE]))
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if ret.gearShifter == 'reverse':
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events.append(create_event('reverseGear', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE]))
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if self.CS.brake_hold:
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|
events.append(create_event('brakeHold', [ET.NO_ENTRY, ET.USER_DISABLE]))
|
|
if self.CS.park_brake:
|
|
events.append(create_event('parkBrake', [ET.NO_ENTRY, ET.USER_DISABLE]))
|
|
|
|
if self.CP.enableCruise and ret.vEgo < self.CP.minEnableSpeed:
|
|
events.append(create_event('speedTooLow', [ET.NO_ENTRY]))
|
|
|
|
# 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]))
|
|
|
|
# it can happen that car cruise disables while comma system is enabled: need to
|
|
# keep braking if needed or if the speed is very low
|
|
if self.CP.enableCruise and not ret.cruiseState.enabled and c.actuators.brake <= 0.:
|
|
# non loud alert if cruise disbales below 25mph as expected (+ a little margin)
|
|
if ret.vEgo < self.CP.minEnableSpeed + 2.:
|
|
events.append(create_event('speedTooLow', [ET.IMMEDIATE_DISABLE]))
|
|
else:
|
|
events.append(create_event("cruiseDisabled", [ET.IMMEDIATE_DISABLE]))
|
|
if self.CS.CP.carFingerprint != CAR.CIVIC and ret.vEgo < 0.001:
|
|
events.append(create_event('manualRestart', [ET.WARNING]))
|
|
|
|
cur_time = sec_since_boot()
|
|
enable_pressed = False
|
|
# handle button presses
|
|
for b in ret.buttonEvents:
|
|
|
|
# do enable on both accel and decel buttons
|
|
if b.type in ["accelCruise", "decelCruise"] and not b.pressed:
|
|
print "enabled pressed at", cur_time
|
|
self.last_enable_pressed = cur_time
|
|
enable_pressed = True
|
|
|
|
# do disable on button down
|
|
if b.type == "cancel" and b.pressed:
|
|
events.append(create_event('buttonCancel', [ET.USER_DISABLE]))
|
|
|
|
if self.CP.enableCruise:
|
|
# KEEP THIS EVENT LAST! send enable event if button is pressed and there are
|
|
# NO_ENTRY events, so controlsd will display alerts. Also not send enable events
|
|
# too close in time, so a no_entry will not be followed by another one.
|
|
# TODO: button press should be the only thing that triggers enble
|
|
if ((cur_time - self.last_enable_pressed) < 0.2 and
|
|
(cur_time - self.last_enable_sent) > 0.2 and
|
|
ret.cruiseState.enabled) or \
|
|
(enable_pressed and get_events(events, [ET.NO_ENTRY])):
|
|
events.append(create_event('buttonEnable', [ET.ENABLE]))
|
|
self.last_enable_sent = cur_time
|
|
elif enable_pressed:
|
|
events.append(create_event('buttonEnable', [ET.ENABLE]))
|
|
|
|
ret.events = events
|
|
ret.canMonoTimes = canMonoTimes
|
|
|
|
# update previous brake/gas pressed
|
|
self.gas_pressed_prev = ret.gasPressed
|
|
self.brake_pressed_prev = ret.brakePressed
|
|
|
|
# cast to reader so it can't be modified
|
|
return ret.as_reader()
|
|
|
|
# pass in a car.CarControl
|
|
# to be called @ 100hz
|
|
def apply(self, c):
|
|
if c.hudControl.speedVisible:
|
|
hud_v_cruise = c.hudControl.setSpeed * CV.MS_TO_KPH
|
|
else:
|
|
hud_v_cruise = 255
|
|
|
|
hud_alert = {
|
|
"none": AH.NONE,
|
|
"fcw": AH.FCW,
|
|
"steerRequired": AH.STEER,
|
|
"brakePressed": AH.BRAKE_PRESSED,
|
|
"wrongGear": AH.GEAR_NOT_D,
|
|
"seatbeltUnbuckled": AH.SEATBELT,
|
|
"speedTooHigh": AH.SPEED_TOO_HIGH}[str(c.hudControl.visualAlert)]
|
|
|
|
snd_beep, snd_chime = {
|
|
"none": (BP.MUTE, CM.MUTE),
|
|
"beepSingle": (BP.SINGLE, CM.MUTE),
|
|
"beepTriple": (BP.TRIPLE, CM.MUTE),
|
|
"beepRepeated": (BP.REPEATED, CM.MUTE),
|
|
"chimeSingle": (BP.MUTE, CM.SINGLE),
|
|
"chimeDouble": (BP.MUTE, CM.DOUBLE),
|
|
"chimeRepeated": (BP.MUTE, CM.REPEATED),
|
|
"chimeContinuous": (BP.MUTE, CM.CONTINUOUS)}[str(c.hudControl.audibleAlert)]
|
|
|
|
pcm_accel = int(clip(c.cruiseControl.accelOverride,0,1)*0xc6)
|
|
|
|
self.CC.update(self.sendcan, c.enabled, self.CS, self.frame, \
|
|
c.actuators, \
|
|
c.cruiseControl.speedOverride, \
|
|
c.cruiseControl.override, \
|
|
c.cruiseControl.cancel, \
|
|
pcm_accel, \
|
|
hud_v_cruise, c.hudControl.lanesVisible, \
|
|
hud_show_car = c.hudControl.leadVisible, \
|
|
hud_alert = hud_alert, \
|
|
snd_beep = snd_beep, \
|
|
snd_chime = snd_chime)
|
|
|
|
self.frame += 1
|