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tuning: measure steering accuracy for existing routes (#25722)

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* support parsing route logs

* optionally use cached data

* support segment or route names

* get control type from log
old-commit-hash: b15018387c
taco
Cameron Clough 2 years ago committed by GitHub
parent 8a32eec398
commit f2e0b35e9e
1 changed files with 89 additions and 64 deletions
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  1. 143
      tools/tuning/measure_steering_accuracy.py

143
tools/tuning/measure_steering_accuracy.py
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@ -8,24 +8,13 @@ import signal
from collections import defaultdict from collections import defaultdict
import cereal.messaging as messaging import cereal.messaging as messaging
from tools.lib.logreader import logreader_from_route_or_segment
def sigint_handler(signal, frame): def sigint_handler(signal, frame):
print("handler!")
exit(0) exit(0)
signal.signal(signal.SIGINT, sigint_handler) signal.signal(signal.SIGINT, sigint_handler)
if __name__ == "__main__": class SteeringAccuracyTool:
parser = argparse.ArgumentParser(description='Sniff a communication socket')
parser.add_argument('control_type', help="[pid|indi|lqr|angle]")
parser.add_argument('--addr', default='127.0.0.1', help="IP address for optional ZMQ listener, default to msgq")
parser.add_argument('--group', default='all', help="speed group to display, [crawl|slow|medium|fast|veryfast|germany|all], default to all")
args = parser.parse_args()
if args.addr != "127.0.0.1":
os.environ["ZMQ"] = "1"
messaging.context = messaging.Context()
all_groups = {"germany": (45, "45 - up m/s // 162 - up km/h // 101 - up mph"), all_groups = {"germany": (45, "45 - up m/s // 162 - up km/h // 101 - up mph"),
"veryfast": (35, "35 - 45 m/s // 126 - 162 km/h // 78 - 101 mph"), "veryfast": (35, "35 - 45 m/s // 126 - 162 km/h // 78 - 101 mph"),
"fast": (25, "25 - 35 m/s // 90 - 126 km/h // 56 - 78 mph"), "fast": (25, "25 - 35 m/s // 90 - 126 km/h // 56 - 78 mph"),
@ -33,39 +22,28 @@ if __name__ == "__main__":
"slow": (5, " 5 - 15 m/s // 18 - 54 km/h // 11 - 34 mph"), "slow": (5, " 5 - 15 m/s // 18 - 54 km/h // 11 - 34 mph"),
"crawl": (0, " 0 - 5 m/s // 0 - 18 km/h // 0 - 11 mph")} "crawl": (0, " 0 - 5 m/s // 0 - 18 km/h // 0 - 11 mph")}
def __init__(self, args):
self.msg_cnt = 0
self.cnt = 0
self.total_error = 0
if args.group == "all": if args.group == "all":
display_groups = all_groups.keys() self.display_groups = self.all_groups.keys()
elif args.group in all_groups.keys(): elif args.group in self.all_groups.keys():
display_groups = [args.group] self.display_groups = [args.group]
else: else:
raise ValueError("invalid speed group, see help") raise ValueError("invalid speed group, see help")
speed_group_stats = {} self.speed_group_stats = {}
for group in all_groups: for group in self.all_groups:
speed_group_stats[group] = defaultdict(lambda: {'err': 0, "cnt": 0, "=": 0, "+": 0, "-": 0, "steer": 0, "limited": 0, "saturated": 0, "dpp": 0}) self.speed_group_stats[group] = defaultdict(lambda: {'err': 0, "cnt": 0, "=": 0, "+": 0, "-": 0, "steer": 0, "limited": 0, "saturated": 0, "dpp": 0})
carControl = messaging.sub_sock('carControl', addr=args.addr, conflate=True) def update(self, sm):
sm = messaging.SubMaster(['carState', 'carControl', 'controlsState', 'lateralPlan'], addr=args.addr) self.msg_cnt += 1
time.sleep(1) # Make sure all submaster data is available before going further
msg_cnt = 0 lateralControlState = sm['controlsState'].lateralControlState
cnt = 0 control_type = list(lateralControlState.to_dict().keys())[0]
total_error = 0 control_state = lateralControlState.__getattr__(control_type)
while messaging.recv_one(carControl):
sm.update()
msg_cnt += 1
if args.control_type == "pid":
control_state = sm['controlsState'].lateralControlState.pidState
elif args.control_type == "indi":
control_state = sm['controlsState'].lateralControlState.indiState
elif args.control_type == "lqr":
control_state = sm['controlsState'].lateralControlState.lqrState
elif args.control_type == "angle":
control_state = sm['controlsState'].lateralControlState.angleState
else:
raise ValueError("invalid lateral control type, see help")
v_ego = sm['carState'].vEgo v_ego = sm['carState'].vEgo
active = sm['controlsState'].active active = sm['controlsState'].active
@ -77,10 +55,10 @@ if __name__ == "__main__":
d_path_points = sm['lateralPlan'].dPathPoints d_path_points = sm['lateralPlan'].dPathPoints
# must be engaged, not at standstill, not overriding steering, and not changing lanes # must be engaged, not at standstill, not overriding steering, and not changing lanes
if active and not standstill and not overriding and not changing_lanes: if active and not standstill and not overriding and not changing_lanes:
cnt += 1 self.cnt += 1
# wait 5 seconds after engage / standstill / override / lane change # wait 5 seconds after engage / standstill / override / lane change
if cnt >= 500: if self.cnt >= 500:
actual_angle = control_state.steeringAngleDeg actual_angle = control_state.steeringAngleDeg
desired_angle = control_state.steeringAngleDesiredDeg desired_angle = control_state.steeringAngleDesiredDeg
@ -91,41 +69,88 @@ if __name__ == "__main__":
angle_error = round(angle_error, 2) angle_error = round(angle_error, 2)
angle_abs = int(abs(round(desired_angle, 0))) angle_abs = int(abs(round(desired_angle, 0)))
for group, group_props in all_groups.items(): for group, group_props in self.all_groups.items():
if v_ego > group_props[0]: if v_ego > group_props[0]:
# collect stats # collect stats
speed_group_stats[group][angle_abs]["cnt"] += 1 self.speed_group_stats[group][angle_abs]["cnt"] += 1
speed_group_stats[group][angle_abs]["err"] += angle_error self.speed_group_stats[group][angle_abs]["err"] += angle_error
speed_group_stats[group][angle_abs]["steer"] += abs(steer) self.speed_group_stats[group][angle_abs]["steer"] += abs(steer)
if len(d_path_points): if len(d_path_points):
speed_group_stats[group][angle_abs]["dpp"] += abs(d_path_points[0]) self.speed_group_stats[group][angle_abs]["dpp"] += abs(d_path_points[0])
if steer_limited: if steer_limited:
speed_group_stats[group][angle_abs]["limited"] += 1 self.speed_group_stats[group][angle_abs]["limited"] += 1
if control_state.saturated: if control_state.saturated:
speed_group_stats[group][angle_abs]["saturated"] += 1 self.speed_group_stats[group][angle_abs]["saturated"] += 1
if actual_angle == desired_angle: if actual_angle == desired_angle:
speed_group_stats[group][angle_abs]["="] += 1 self.speed_group_stats[group][angle_abs]["="] += 1
else: else:
if desired_angle == 0.: if desired_angle == 0.:
overshoot = True overshoot = True
else: else:
overshoot = desired_angle < actual_angle if desired_angle > 0. else desired_angle > actual_angle overshoot = desired_angle < actual_angle if desired_angle > 0. else desired_angle > actual_angle
speed_group_stats[group][angle_abs]["+" if overshoot else "-"] += 1 self.speed_group_stats[group][angle_abs]["+" if overshoot else "-"] += 1
break break
else: else:
cnt = 0 self.cnt = 0
if msg_cnt % 100 == 0: if self.msg_cnt % 100 == 0:
print(chr(27) + "[2J") print(chr(27) + "[2J")
if cnt != 0: if self.cnt != 0:
print("COLLECTING ...\n") print("COLLECTING ...\n")
else: else:
print("DISABLED (not active, standstill, steering override, or lane change)\n") print("DISABLED (not active, standstill, steering override, or lane change)\n")
for group in display_groups: for group in self.display_groups:
if len(speed_group_stats[group]) > 0: if len(self.speed_group_stats[group]) > 0:
print(f"speed group: {group:10s} {all_groups[group][1]:>96s}") print(f"speed group: {group:10s} {self.all_groups[group][1]:>96s}")
print(f" {'-'*118}") print(f" {'-'*118}")
for k in sorted(speed_group_stats[group].keys()): for k in sorted(self.speed_group_stats[group].keys()):
v = speed_group_stats[group][k] v = self.speed_group_stats[group][k]
print(f' {k:#2}° | actuator:{int(v["steer"] / v["cnt"] * 100):#3}% | error: {round(v["err"] / v["cnt"], 2):2.2f}° | -:{int(v["-"] / v["cnt"] * 100):#3}% | =:{int(v["="] / v["cnt"] * 100):#3}% | +:{int(v["+"] / v["cnt"] * 100):#3}% | lim:{v["limited"]:#5} | sat:{v["saturated"]:#5} | path dev: {round(v["dpp"] / v["cnt"], 2):2.2f}m | total: {v["cnt"]:#5}') print(f' {k:#2}° | actuator:{int(v["steer"] / v["cnt"] * 100):#3}% | error: {round(v["err"] / v["cnt"], 2):2.2f}° | -:{int(v["-"] / v["cnt"] * 100):#3}% | =:{int(v["="] / v["cnt"] * 100):#3}% | +:{int(v["+"] / v["cnt"] * 100):#3}% | lim:{v["limited"]:#5} | sat:{v["saturated"]:#5} | path dev: {round(v["dpp"] / v["cnt"], 2):2.2f}m | total: {v["cnt"]:#5}')
print("") print("")
if __name__ == "__main__":
parser = argparse.ArgumentParser(description='Steering accuracy measurement tool')
parser.add_argument('--route', help="route name")
parser.add_argument('--addr', default='127.0.0.1', help="IP address for optional ZMQ listener, default to msgq")
parser.add_argument('--group', default='all', help="speed group to display, [crawl|slow|medium|fast|veryfast|germany|all], default to all")
parser.add_argument('--cache', default=False, action='store_true', help="use cached data, default to False")
args = parser.parse_args()
if args.cache:
os.environ['FILEREADER_CACHE'] = '1'
tool = SteeringAccuracyTool(args)
if args.route is not None:
print(f"loading {args.route}...")
lr = logreader_from_route_or_segment(args.route, sort_by_time=True)
sm = {}
for msg in lr:
if msg.which() == 'carState':
sm['carState'] = msg.carState
elif msg.which() == 'carControl':
sm['carControl'] = msg.carControl
elif msg.which() == 'controlsState':
sm['controlsState'] = msg.controlsState
elif msg.which() == 'lateralPlan':
sm['lateralPlan'] = msg.lateralPlan
if msg.which() == 'carControl' and 'carState' in sm and 'controlsState' in sm and 'lateralPlan' in sm:
tool.update(sm)
else:
if args.addr != "127.0.0.1":
os.environ["ZMQ"] = "1"
messaging.context = messaging.Context()
carControl = messaging.sub_sock('carControl', addr=args.addr, conflate=True)
sm = messaging.SubMaster(['carState', 'carControl', 'controlsState', 'lateralPlan'], addr=args.addr)
time.sleep(1) # Make sure all submaster data is available before going further
print("waiting for messages...")
while messaging.recv_one(carControl):
sm.update()
tool.update(sm)

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