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openpilot is an open source driver assistance system. openpilot performs the functions of Automated Lane Centering and Adaptive Cruise Control for over 200 supported car makes and models.
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openpilot_comma/selfdrive/controls/tests/test_cruise_speed.py

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#!/usr/bin/env python3
import numpy as np
from parameterized import parameterized_class
import unittest
from selfdrive.controls.lib.drive_helpers import VCruiseHelper, V_CRUISE_MIN, V_CRUISE_MAX, V_CRUISE_ENABLE_MIN, IMPERIAL_INCREMENT
from cereal import car
from common.conversions import Conversions as CV
from common.params import Params
from selfdrive.test.longitudinal_maneuvers.maneuver import Maneuver
ButtonEvent = car.CarState.ButtonEvent
ButtonType = car.CarState.ButtonEvent.Type
def run_cruise_simulation(cruise, t_end=20.):
man = Maneuver(
'',
duration=t_end,
initial_speed=max(cruise - 1., 0.0),
lead_relevancy=True,
initial_distance_lead=100,
cruise_values=[cruise],
prob_lead_values=[0.0],
breakpoints=[0.],
)
valid, output = man.evaluate()
assert valid
return output[-1, 3]
class TestCruiseSpeed(unittest.TestCase):
def test_cruise_speed(self):
params = Params()
for e2e in [False, True]:
params.put_bool("ExperimentalMode", e2e)
for speed in np.arange(5, 40, 5):
print(f'Testing {speed} m/s')
cruise_speed = float(speed)
simulation_steady_state = run_cruise_simulation(cruise_speed)
self.assertAlmostEqual(simulation_steady_state, cruise_speed, delta=.01, msg=f'Did not reach {speed} m/s')
# TODO: test pcmCruise
@parameterized_class(('pcm_cruise',), [(False,)])
class TestVCruiseHelper(unittest.TestCase):
def setUp(self):
self.CP = car.CarParams(pcmCruise=self.pcm_cruise) # pylint: disable=E1101
self.v_cruise_helper = VCruiseHelper(self.CP)
self.reset_cruise_speed_state()
def reset_cruise_speed_state(self):
# Two resets previous cruise speed
for _ in range(2):
self.v_cruise_helper.update_v_cruise(car.CarState(cruiseState={"available": False}), enabled=False, is_metric=False)
def enable(self, v_ego):
# Simulates user pressing set with a current speed
self.v_cruise_helper.initialize_v_cruise(car.CarState(vEgo=v_ego))
def test_adjust_speed(self):
"""
Asserts speed changes on falling edges of buttons.
"""
self.enable(V_CRUISE_ENABLE_MIN * CV.KPH_TO_MS)
for btn in (ButtonType.accelCruise, ButtonType.decelCruise):
for pressed in (True, False):
CS = car.CarState(cruiseState={"available": True})
CS.buttonEvents = [ButtonEvent(type=btn, pressed=pressed)]
self.v_cruise_helper.update_v_cruise(CS, enabled=True, is_metric=False)
self.assertEqual(pressed, self.v_cruise_helper.v_cruise_kph == self.v_cruise_helper.v_cruise_kph_last)
def test_rising_edge_enable(self):
"""
Some car interfaces may enable on rising edge of a button,
ensure we don't adjust speed if enabled changes mid-press.
"""
# NOTE: enabled is always one frame behind the result from button press in controlsd
for enabled, pressed in ((False, False),
(False, True),
(True, False)):
CS = car.CarState(cruiseState={"available": True})
CS.buttonEvents = [ButtonEvent(type=ButtonType.decelCruise, pressed=pressed)]
self.v_cruise_helper.update_v_cruise(CS, enabled=enabled, is_metric=False)
if pressed:
self.enable(V_CRUISE_ENABLE_MIN * CV.KPH_TO_MS)
# Expected diff on enabling. Speed should not change on falling edge of pressed
self.assertEqual(not pressed, self.v_cruise_helper.v_cruise_kph == self.v_cruise_helper.v_cruise_kph_last)
def test_resume_in_standstill(self):
"""
Asserts we don't increment set speed if user presses resume/accel to exit cruise standstill.
"""
self.enable(0)
for standstill in (True, False):
for pressed in (True, False):
CS = car.CarState(cruiseState={"available": True, "standstill": standstill})
CS.buttonEvents = [ButtonEvent(type=ButtonType.accelCruise, pressed=pressed)]
self.v_cruise_helper.update_v_cruise(CS, enabled=True, is_metric=False)
# speed should only update if not at standstill and button falling edge
should_equal = standstill or pressed
self.assertEqual(should_equal, self.v_cruise_helper.v_cruise_kph == self.v_cruise_helper.v_cruise_kph_last)
def test_set_gas_pressed(self):
"""
Asserts pressing set while enabled with gas pressed sets
the speed to the maximum of vEgo and current cruise speed.
"""
for v_ego in np.linspace(0, 100, 101):
self.reset_cruise_speed_state()
self.enable(V_CRUISE_ENABLE_MIN * CV.KPH_TO_MS)
# first decrement speed, then perform gas pressed logic
expected_v_cruise_kph = self.v_cruise_helper.v_cruise_kph - IMPERIAL_INCREMENT
expected_v_cruise_kph = max(expected_v_cruise_kph, v_ego * CV.MS_TO_KPH) # clip to min of vEgo
expected_v_cruise_kph = float(np.clip(round(expected_v_cruise_kph, 1), V_CRUISE_MIN, V_CRUISE_MAX))
CS = car.CarState(vEgo=float(v_ego), gasPressed=True, cruiseState={"available": True})
CS.buttonEvents = [ButtonEvent(type=ButtonType.decelCruise, pressed=False)]
self.v_cruise_helper.update_v_cruise(CS, enabled=True, is_metric=False)
# TODO: fix skipping first run due to enabled on rising edge exception
if v_ego == 0.0:
continue
self.assertEqual(expected_v_cruise_kph, self.v_cruise_helper.v_cruise_kph)
def test_initialize_v_cruise(self):
"""
Asserts allowed cruise speeds on enabling with SET.
"""
for v_ego in np.linspace(0, 100, 101):
self.reset_cruise_speed_state()
self.assertFalse(self.v_cruise_helper.v_cruise_initialized)
self.enable(float(v_ego))
self.assertTrue(V_CRUISE_ENABLE_MIN <= self.v_cruise_helper.v_cruise_kph <= V_CRUISE_MAX)
self.assertTrue(self.v_cruise_helper.v_cruise_initialized)
if __name__ == "__main__":
unittest.main()