#!/usr/bin/env python3
from collections import defaultdict
import importlib
from parameterized import parameterized_class
import sys
from typing import DefaultDict , Dict
import unittest
from openpilot . common . realtime import DT_CTRL
from openpilot . selfdrive . car . car_helpers import interfaces
from openpilot . selfdrive . car . fingerprints import all_known_cars
from openpilot . selfdrive . car . interfaces import get_torque_params
from openpilot . selfdrive . car . subaru . values import CAR as SUBARU
CAR_MODELS = all_known_cars ( )
# ISO 11270 - allowed up jerk is strictly lower than recommended limits
MAX_LAT_ACCEL = 3.0 # m/s^2
MAX_LAT_JERK_UP = 2.5 # m/s^3
MAX_LAT_JERK_DOWN = 5.0 # m/s^3
MAX_LAT_JERK_UP_TOLERANCE = 0.5 # m/s^3
# jerk is measured over half a second
JERK_MEAS_T = 0.5
# TODO: put these cars within limits
ABOVE_LIMITS_CARS = [
SUBARU . LEGACY ,
SUBARU . OUTBACK ,
]
car_model_jerks : DefaultDict [ str , Dict [ str , float ] ] = defaultdict ( dict )
@parameterized_class ( ' car_model ' , [ ( c , ) for c in CAR_MODELS ] )
class TestLateralLimits ( unittest . TestCase ) :
car_model : str
@classmethod
def setUpClass ( cls ) :
CarInterface , _ , _ = interfaces [ cls . car_model ]
CP = CarInterface . get_non_essential_params ( cls . car_model )
if CP . dashcamOnly :
raise unittest . SkipTest ( " Platform is behind dashcamOnly " )
# TODO: test all platforms
if CP . lateralTuning . which ( ) != ' torque ' :
raise unittest . SkipTest
if CP . notCar :
raise unittest . SkipTest
if CP . carFingerprint in ABOVE_LIMITS_CARS :
raise unittest . SkipTest
CarControllerParams = importlib . import_module ( f ' selfdrive.car. { CP . carName } .values ' ) . CarControllerParams
cls . control_params = CarControllerParams ( CP )
cls . torque_params = get_torque_params ( cls . car_model )
@staticmethod
def calculate_0_5s_jerk ( control_params , torque_params ) :
steer_step = control_params . STEER_STEP
max_lat_accel = torque_params [ ' MAX_LAT_ACCEL_MEASURED ' ]
# Steer up/down delta per 10ms frame, in percentage of max torque
steer_up_per_frame = control_params . STEER_DELTA_UP / control_params . STEER_MAX / steer_step
steer_down_per_frame = control_params . STEER_DELTA_DOWN / control_params . STEER_MAX / steer_step
# Lateral acceleration reached in 0.5 seconds, clipping to max torque
accel_up_0_5_sec = min ( steer_up_per_frame * JERK_MEAS_T / DT_CTRL , 1.0 ) * max_lat_accel
accel_down_0_5_sec = min ( steer_down_per_frame * JERK_MEAS_T / DT_CTRL , 1.0 ) * max_lat_accel
# Convert to m/s^3
return accel_up_0_5_sec / JERK_MEAS_T , accel_down_0_5_sec / JERK_MEAS_T
def test_jerk_limits ( self ) :
up_jerk , down_jerk = self . calculate_0_5s_jerk ( self . control_params , self . torque_params )
car_model_jerks [ self . car_model ] = { " up_jerk " : up_jerk , " down_jerk " : down_jerk }
self . assertLessEqual ( up_jerk , MAX_LAT_JERK_UP + MAX_LAT_JERK_UP_TOLERANCE )
self . assertLessEqual ( down_jerk , MAX_LAT_JERK_DOWN )
def test_max_lateral_accel ( self ) :
self . assertLessEqual ( self . torque_params [ " MAX_LAT_ACCEL_MEASURED " ] , MAX_LAT_ACCEL )
if __name__ == " __main__ " :
result = unittest . main ( exit = False )
print ( f " \n \n ---- Lateral limit report ( { len ( CAR_MODELS ) } cars) ---- \n " )
max_car_model_len = max ( [ len ( car_model ) for car_model in car_model_jerks ] )
for car_model , _jerks in sorted ( car_model_jerks . items ( ) , key = lambda i : i [ 1 ] [ ' up_jerk ' ] , reverse = True ) :
violation = _jerks [ " up_jerk " ] > MAX_LAT_JERK_UP + MAX_LAT_JERK_UP_TOLERANCE or \
_jerks [ " down_jerk " ] > MAX_LAT_JERK_DOWN
violation_str = " - VIOLATION " if violation else " "
print ( f " { car_model : { max_car_model_len } } - up jerk: { round ( _jerks [ ' up_jerk ' ] , 2 ) : 5 } \
m / s ^ 3 , down jerk : { round ( _jerks [ ' down_jerk ' ] , 2 ) : 5 } m / s ^ 3 { violation_str } " )
# exit with test result
sys . exit ( not result . result . wasSuccessful ( ) )
