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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/test/longitudinal_maneuvers/test_longitudinal.py

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#!/usr/bin/env python3
import os
os.environ['OLD_CAN'] = '1'
os.environ['NOCRASH'] = '1'
import unittest
import matplotlib
matplotlib.use('svg')
from selfdrive.config import Conversions as CV
from selfdrive.car.honda.values import CruiseButtons as CB
from selfdrive.test.longitudinal_maneuvers.maneuver import Maneuver
import selfdrive.manager as manager
from common.params import Params
def create_dir(path):
try:
os.makedirs(path)
except OSError:
pass
def check_no_collision(log):
return min(log['d_rel']) > 0
def check_fcw(log):
return any(log['fcw'])
def check_engaged(log):
return log['controls_state_msgs'][-1][-1].active
maneuvers = [
Maneuver(
'while cruising at 40 mph, change cruise speed to 50mph',
duration=30.,
initial_speed=40. * CV.MPH_TO_MS,
cruise_button_presses=[(CB.DECEL_SET, 2.), (0, 2.3),
(CB.RES_ACCEL, 10.), (0, 10.1),
(CB.RES_ACCEL, 10.2), (0, 10.3)],
checks=[check_engaged],
),
Maneuver(
'while cruising at 60 mph, change cruise speed to 50mph',
duration=30.,
initial_speed=60. * CV.MPH_TO_MS,
cruise_button_presses=[(CB.DECEL_SET, 2.), (0, 2.3),
(CB.DECEL_SET, 10.), (0, 10.1),
(CB.DECEL_SET, 10.2), (0, 10.3)],
checks=[check_engaged],
),
Maneuver(
'while cruising at 20mph, uphill grade of 10%',
duration=25.,
initial_speed=20. * CV.MPH_TO_MS,
cruise_button_presses=[(CB.DECEL_SET, 1.2), (0, 1.3)],
grade_values=[0., 0., .1],
grade_breakpoints=[0., 10., 11.],
checks=[check_engaged],
),
Maneuver(
'while cruising at 20mph, downhill grade of -10%',
duration=25.,
initial_speed=20. * CV.MPH_TO_MS,
cruise_button_presses=[(CB.DECEL_SET, 1.2), (0, 1.3)],
grade_values=[0., 0., -.1],
grade_breakpoints=[0., 10., 11.],
checks=[check_engaged],
),
Maneuver(
'approaching a 40mph car while cruising at 60mph from 100m away',
duration=30.,
initial_speed=60. * CV.MPH_TO_MS,
lead_relevancy=True,
initial_distance_lead=100.,
speed_lead_values=[40. * CV.MPH_TO_MS, 40. * CV.MPH_TO_MS],
speed_lead_breakpoints=[0., 100.],
cruise_button_presses=[(CB.DECEL_SET, 1.2), (0, 1.3)],
checks=[check_engaged, check_no_collision],
),
Maneuver(
'approaching a 0mph car while cruising at 40mph from 150m away',
duration=30.,
initial_speed=40. * CV.MPH_TO_MS,
lead_relevancy=True,
initial_distance_lead=150.,
speed_lead_values=[0. * CV.MPH_TO_MS, 0. * CV.MPH_TO_MS],
speed_lead_breakpoints=[0., 100.],
cruise_button_presses=[(CB.DECEL_SET, 1.2), (0, 1.3)],
checks=[check_engaged, check_no_collision],
),
Maneuver(
'steady state following a car at 20m/s, then lead decel to 0mph at 1m/s^2',
duration=50.,
initial_speed=20.,
lead_relevancy=True,
initial_distance_lead=35.,
speed_lead_values=[20., 20., 0.],
speed_lead_breakpoints=[0., 15., 35.0],
cruise_button_presses=[(CB.DECEL_SET, 1.2), (0, 1.3)],
checks=[check_engaged, check_no_collision],
),
Maneuver(
'steady state following a car at 20m/s, then lead decel to 0mph at 2m/s^2',
duration=50.,
initial_speed=20.,
lead_relevancy=True,
initial_distance_lead=35.,
speed_lead_values=[20., 20., 0.],
speed_lead_breakpoints=[0., 15., 25.0],
cruise_button_presses=[(CB.DECEL_SET, 1.2), (0, 1.3)],
checks=[check_engaged, check_no_collision],
),
Maneuver(
'steady state following a car at 20m/s, then lead decel to 0mph at 3m/s^2',
duration=50.,
initial_speed=20.,
lead_relevancy=True,
initial_distance_lead=35.,
speed_lead_values=[20., 20., 0.],
speed_lead_breakpoints=[0., 15., 21.66],
cruise_button_presses=[(CB.DECEL_SET, 1.2), (0, 1.3)],
checks=[check_engaged, check_fcw],
),
Maneuver(
'steady state following a car at 20m/s, then lead decel to 0mph at 5m/s^2',
duration=40.,
initial_speed=20.,
lead_relevancy=True,
initial_distance_lead=35.,
speed_lead_values=[20., 20., 0.],
speed_lead_breakpoints=[0., 15., 19.],
cruise_button_presses=[(CB.DECEL_SET, 1.2), (0, 1.3)],
checks=[check_engaged, check_fcw],
),
Maneuver(
'starting at 0mph, approaching a stopped car 100m away',
duration=30.,
initial_speed=0.,
lead_relevancy=True,
initial_distance_lead=100.,
cruise_button_presses=[(CB.DECEL_SET, 1.2), (0, 1.3),
(CB.RES_ACCEL, 1.4), (0.0, 1.5),
(CB.RES_ACCEL, 1.6), (0.0, 1.7),
(CB.RES_ACCEL, 1.8), (0.0, 1.9)],
checks=[check_engaged, check_no_collision],
),
Maneuver(
"following a car at 60mph, lead accel and decel at 0.5m/s^2 every 2s",
duration=25.,
initial_speed=30.,
lead_relevancy=True,
initial_distance_lead=49.,
speed_lead_values=[30., 30., 29., 31., 29., 31., 29.],
speed_lead_breakpoints=[0., 6., 8., 12., 16., 20., 24.],
cruise_button_presses=[(CB.DECEL_SET, 1.2), (0, 1.3),
(CB.RES_ACCEL, 1.4), (0.0, 1.5),
(CB.RES_ACCEL, 1.6), (0.0, 1.7)],
checks=[check_engaged, check_no_collision],
),
Maneuver(
"following a car at 10mph, stop and go at 1m/s2 lead dece1 and accel",
duration=70.,
initial_speed=10.,
lead_relevancy=True,
initial_distance_lead=20.,
speed_lead_values=[10., 0., 0., 10., 0., 10.],
speed_lead_breakpoints=[10., 20., 30., 40., 50., 60.],
cruise_button_presses=[(CB.DECEL_SET, 1.2), (0, 1.3),
(CB.RES_ACCEL, 1.4), (0.0, 1.5),
(CB.RES_ACCEL, 1.6), (0.0, 1.7)],
checks=[check_engaged, check_no_collision],
),
Maneuver(
"green light: stopped behind lead car, lead car accelerates at 1.5 m/s",
duration=30.,
initial_speed=0.,
lead_relevancy=True,
initial_distance_lead=4.,
speed_lead_values=[0, 0, 45],
speed_lead_breakpoints=[0, 10., 40.],
cruise_button_presses=[(CB.DECEL_SET, 1.2), (0, 1.3),
(CB.RES_ACCEL, 1.4), (0.0, 1.5),
(CB.RES_ACCEL, 1.6), (0.0, 1.7),
(CB.RES_ACCEL, 1.8), (0.0, 1.9),
(CB.RES_ACCEL, 2.0), (0.0, 2.1),
(CB.RES_ACCEL, 2.2), (0.0, 2.3)],
checks=[check_engaged, check_no_collision],
),
Maneuver(
"stop and go with 1m/s2 lead decel and accel, with full stops",
duration=70.,
initial_speed=0.,
lead_relevancy=True,
initial_distance_lead=20.,
speed_lead_values=[10., 0., 0., 10., 0., 0.],
speed_lead_breakpoints=[10., 20., 30., 40., 50., 60.],
cruise_button_presses=[(CB.DECEL_SET, 1.2), (0, 1.3),
(CB.RES_ACCEL, 1.4), (0.0, 1.5),
(CB.RES_ACCEL, 1.6), (0.0, 1.7)],
checks=[check_engaged, check_no_collision],
),
Maneuver(
"stop and go with 1.5m/s2 lead accel and 3.3m/s^2 lead decel, with full stops",
duration=45.,
initial_speed=0.,
lead_relevancy=True,
initial_distance_lead=20.,
speed_lead_values=[10., 0., 0., 10., 0., 0.],
speed_lead_breakpoints=[10., 13., 26., 33., 36., 45.],
cruise_button_presses=[(CB.DECEL_SET, 1.2), (0, 1.3),
(CB.RES_ACCEL, 1.4), (0.0, 1.5),
(CB.RES_ACCEL, 1.6), (0.0, 1.7)],
checks=[check_engaged, check_no_collision],
),
Maneuver(
"accelerate from 20 while lead vehicle decelerates from 40 to 20 at 1m/s2",
duration=30.,
initial_speed=10.,
lead_relevancy=True,
initial_distance_lead=10.,
speed_lead_values=[20., 10.],
speed_lead_breakpoints=[1., 11.],
cruise_button_presses=[(CB.DECEL_SET, 1.2), (0, 1.3),
(CB.RES_ACCEL, 1.4), (0.0, 1.5),
(CB.RES_ACCEL, 1.6), (0.0, 1.7),
(CB.RES_ACCEL, 1.8), (0.0, 1.9),
(CB.RES_ACCEL, 2.0), (0.0, 2.1),
(CB.RES_ACCEL, 2.2), (0.0, 2.3)],
checks=[check_engaged, check_no_collision],
),
Maneuver(
"accelerate from 20 while lead vehicle decelerates from 40 to 0 at 2m/s2",
duration=30.,
initial_speed=10.,
lead_relevancy=True,
initial_distance_lead=10.,
speed_lead_values=[20., 0.],
speed_lead_breakpoints=[1., 11.],
cruise_button_presses=[(CB.DECEL_SET, 1.2), (0, 1.3),
(CB.RES_ACCEL, 1.4), (0.0, 1.5),
(CB.RES_ACCEL, 1.6), (0.0, 1.7),
(CB.RES_ACCEL, 1.8), (0.0, 1.9),
(CB.RES_ACCEL, 2.0), (0.0, 2.1),
(CB.RES_ACCEL, 2.2), (0.0, 2.3)],
checks=[check_engaged, check_no_collision],
),
Maneuver(
"fcw: traveling at 30 m/s and approaching lead traveling at 20m/s",
duration=15.,
initial_speed=30.,
lead_relevancy=True,
initial_distance_lead=100.,
speed_lead_values=[20.],
speed_lead_breakpoints=[1.],
cruise_button_presses=[],
checks=[check_fcw],
),
Maneuver(
"fcw: traveling at 20 m/s following a lead that decels from 20m/s to 0 at 1m/s2",
duration=18.,
initial_speed=20.,
lead_relevancy=True,
initial_distance_lead=35.,
speed_lead_values=[20., 0.],
speed_lead_breakpoints=[3., 23.],
cruise_button_presses=[],
checks=[check_fcw],
),
Maneuver(
"fcw: traveling at 20 m/s following a lead that decels from 20m/s to 0 at 3m/s2",
duration=13.,
initial_speed=20.,
lead_relevancy=True,
initial_distance_lead=35.,
speed_lead_values=[20., 0.],
speed_lead_breakpoints=[3., 9.6],
cruise_button_presses=[],
checks=[check_fcw],
),
Maneuver(
"fcw: traveling at 20 m/s following a lead that decels from 20m/s to 0 at 5m/s2",
duration=8.,
initial_speed=20.,
lead_relevancy=True,
initial_distance_lead=35.,
speed_lead_values=[20., 0.],
speed_lead_breakpoints=[3., 7.],
cruise_button_presses=[],
checks=[check_fcw],
)
]
def setup_output():
output_dir = os.path.join(os.getcwd(), 'out/longitudinal')
if not os.path.exists(os.path.join(output_dir, "index.html")):
# write test output header
css_style = """
.maneuver_title {
font-size: 24px;
text-align: center;
}
.maneuver_graph {
width: 100%;
}
"""
view_html = "<html><head><style>%s</style></head><body><table>" % (css_style,)
for i, man in enumerate(maneuvers):
view_html += "<tr><td class='maneuver_title' colspan=5><div>%s</div></td></tr><tr>" % (man.title,)
for c in ['distance.svg', 'speeds.svg', 'acceleration.svg', 'pedals.svg', 'pid.svg']:
view_html += "<td><img class='maneuver_graph' src='%s'/></td>" % (os.path.join("maneuver" + str(i + 1).zfill(2), c), )
view_html += "</tr>"
create_dir(output_dir)
with open(os.path.join(output_dir, "index.html"), "w") as f:
f.write(view_html)
class LongitudinalControl(unittest.TestCase):
@classmethod
def setUpClass(cls):
os.environ['NO_CAN_TIMEOUT'] = "1"
setup_output()
params = Params()
params.clear_all()
params.put("Passive", "1" if os.getenv("PASSIVE") else "0")
params.put("OpenpilotEnabledToggle", "1")
params.put("CommunityFeaturesToggle", "1")
manager.prepare_managed_process('radard')
manager.prepare_managed_process('controlsd')
manager.prepare_managed_process('plannerd')
manager.prepare_managed_process('dmonitoringd')
@classmethod
def tearDownClass(cls):
pass
# hack
def test_longitudinal_setup(self):
pass
def run_maneuver_worker(k):
man = maneuvers[k]
output_dir = os.path.join(os.getcwd(), 'out/longitudinal')
def run(self):
print(man.title)
valid = False
for _ in range(3):
manager.start_managed_process('radard')
manager.start_managed_process('controlsd')
manager.start_managed_process('plannerd')
manager.start_managed_process('dmonitoringd')
plot, valid = man.evaluate()
plot.write_plot(output_dir, "maneuver" + str(k + 1).zfill(2))
manager.kill_managed_process('radard')
manager.kill_managed_process('controlsd')
manager.kill_managed_process('plannerd')
manager.kill_managed_process('dmonitoringd')
if valid:
break
self.assertTrue(valid)
return run
for k in range(len(maneuvers)):
setattr(LongitudinalControl, "test_longitudinal_maneuvers_%d" % (k + 1), run_maneuver_worker(k))
if __name__ == "__main__":
unittest.main(failfast=True)