Improve benchmark script:

- Added option for sync mode (on by default)
 - Added a warm-up time after spawning actors to not contaminate the results
 - Added option for no rendering mode (on by default)
 - Added two new cases for Lidar (100k and 1M points)
 - Allow to cancel the execution like other scripts
 - Added the option to benchmark only a sublist of maps, sensors and
types of weather
 - Added a parameter to show all the maps, sensors and types of weather possible
This commit is contained in:
Daniel Santos-Olivan 2021-01-26 15:51:56 +01:00 committed by bernat
parent 18f2558223
commit 198fa38c9b
1 changed files with 145 additions and 52 deletions

View File

@ -75,6 +75,13 @@ def define_weather():
list_weather.append(weather01)
list_weather.append(weather02)
if args.weather is not None:
try:
new_list = [list_weather[int(i)] for i in args.weather]
list_weather = new_list
except IndexError as error:
print("Warning!! The list of types of weather introduced is not valid. Using all available.")
return list_weather
@ -83,34 +90,48 @@ def define_sensors():
if args.tm:
sensors00 = [{'type': 'sensor.camera.rgb', 'x': 0.7, 'y': 0.0, 'z': 1.60, 'roll': 0.0, 'pitch': 0.0, 'yaw': 0.0,
'width': 300, 'height': 200, 'fov': 100, 'label': '1. cam-300x200'}]
'width': 300, 'height': 200, 'fov': 100, 'label': '0. cam-300x200'}]
list_sensor_specs.append(sensors00)
else:
sensors00 = [{'type': 'sensor.camera.rgb', 'x': 0.7, 'y': 0.0, 'z': 1.60, 'roll': 0.0, 'pitch': 0.0, 'yaw': 0.0,
'width': 300, 'height': 200, 'fov': 100, 'label': '1. cam-300x200'}]
'width': 300, 'height': 200, 'fov': 100, 'label': '0. cam-300x200'}]
sensors01 = [{'type': 'sensor.camera.rgb', 'x': 0.7, 'y': 0.0, 'z': 1.60, 'roll': 0.0, 'pitch': 0.0, 'yaw': 0.0,
'width': 800, 'height': 600, 'fov': 100, 'label': '2. cam-800x600'}]
'width': 800, 'height': 600, 'fov': 100, 'label': '1. cam-800x600'}]
sensors02 = [{'type': 'sensor.camera.rgb', 'x': 0.7, 'y': 0.0, 'z': 1.60, 'roll': 0.0, 'pitch': 0.0, 'yaw': 0.0,
'width': 1900, 'height': 1080, 'fov': 100, 'label': '3. cam-1900x1080'}]
'width': 1900, 'height': 1080, 'fov': 100, 'label': '2. cam-1900x1080'}]
sensors03 = [{'type': 'sensor.camera.rgb', 'x': 0.7, 'y': 0.0, 'z': 1.60, 'roll': 0.0, 'pitch': 0.0, 'yaw': 0.0,
'width': 300, 'height': 200, 'fov': 100, 'label': '4. cam-300x200'},
'width': 300, 'height': 200, 'fov': 100, 'label': '3. cam-300x200'},
{'type': 'sensor.camera.rgb', 'x': 0.7, 'y': 0.4, 'z': 1.60, 'roll': 0.0, 'pitch': 0.0, 'yaw': 0.0,
'width': 300, 'height': 200, 'fov': 100, 'label': 'cam-300x200'},
]
'width': 300, 'height': 200, 'fov': 100, 'label': 'cam-300x200'}]
sensors04 = [{'type': 'sensor.lidar.ray_cast', 'x': 0.7, 'y': 0.0, 'z': 1.60, 'yaw': 0.0, 'pitch': 0.0, 'roll': 0.0,
'label': '5. LIDAR'}]
'pts_per_sec': '100000', 'label': '4. LIDAR: 100k'}]
sensors05 = [{'type': 'sensor.lidar.ray_cast', 'x': 0.7, 'y': 0.0, 'z': 1.60, 'yaw': 0.0, 'pitch': 0.0, 'roll': 0.0,
'pts_per_sec': '500000', 'label': '5. LIDAR: 500k'}]
sensors06 = [{'type': 'sensor.lidar.ray_cast', 'x': 0.7, 'y': 0.0, 'z': 1.60, 'yaw': 0.0, 'pitch': 0.0, 'roll': 0.0,
'pts_per_sec': '1000000', 'label': '6. LIDAR: 1M'}]
list_sensor_specs.append(sensors00)
list_sensor_specs.append(sensors01)
list_sensor_specs.append(sensors02)
list_sensor_specs.append(sensors03)
list_sensor_specs.append(sensors04)
list_sensor_specs.append(sensors05)
list_sensor_specs.append(sensors06)
if args.sensors is not None:
try:
new_list = [list_sensor_specs[int(i)] for i in args.sensors]
list_sensor_specs = new_list
except IndexError as error:
print("Warning!! The list of sensors introduced is not valid. Using all available.")
return list_sensor_specs
@ -135,7 +156,18 @@ def define_environments():
return list_env_specs
def define_maps(client):
maps = [m.replace('/Game/Carla/Maps/', '') for m in client.get_available_maps()]
maps = sorted(maps)
if args.maps is not None:
all_good = all(elem in maps for elem in args.maps)
if all_good:
maps = sorted(args.maps)
else:
print("Warning!! The list of maps introduced is not valid. Using all available.")
return maps
class CallBack(object):
def __init__(self):
self._lock = threading.Lock()
@ -179,7 +211,7 @@ def create_environment(world, sensors, n_vehicles, n_walkers, spawn_points, clie
bp.set_attribute('channels', '32')
bp.set_attribute('upper_fov', '15')
bp.set_attribute('lower_fov', '-30')
bp.set_attribute('points_per_second', '500000')
bp.set_attribute('points_per_second', str(sensor_spec['pts_per_sec']))
sensor_location = carla.Location(
x=sensor_spec['x'],
y=sensor_spec['y'],
@ -311,6 +343,21 @@ def create_environment(world, sensors, n_vehicles, n_walkers, spawn_points, clie
# -- Benchmarking functions --------------------------------------------------------------------------------------------
# ======================================================================================================================
def set_world_settings(world, args = None):
if args == None:
settings = world.get_settings()
settings.synchronous_mode = False
settings.fixed_delta_seconds = 0.0
settings.no_rendering_mode = False
world.apply_settings(settings)
else:
settings = world.get_settings()
settings.synchronous_mode = args.sync
settings.fixed_delta_seconds = args.fixed_dt if args.sync else 0.0
settings.no_rendering_mode = args.no_render_mode
world.apply_settings(settings)
def run_benchmark(world, sensors, n_vehicles, n_walkers, client, debug=False):
global sensors_callback
@ -319,14 +366,21 @@ def run_benchmark(world, sensors, n_vehicles, n_walkers, client, debug=False):
list_fps = []
sensor_list = None
tick = world.tick if args.sync else world.wait_for_tick
set_world_settings(world, args)
vehicles_list, walkers_list, all_id, all_actors, sensors_ret = create_environment(world, sensors, n, n_walkers, spawn_points, client)
if sensors_ret:
sensor_list = sensors_ret
# Allow some time for the server to finish the initialization
for _i in range(0, 50):
tick()
ticks = 0
while ticks < int(args.ticks):
_ = world.wait_for_tick()
_ = tick()
if debug:
print("== Samples {} / {}".format(ticks + 1, args.ticks))
@ -356,6 +410,8 @@ def run_benchmark(world, sensors, n_vehicles, n_walkers, client, debug=False):
print('\ndestroying %d walkers' % len(walkers_list))
client.apply_batch([carla.command.DestroyActor(x) for x in all_id])
set_world_settings(world)
return list_fps
@ -419,58 +475,86 @@ def get_system_specs():
return str_system
def show_benchmark_scenarios(maps):
print("Available maps")
for map in sorted(maps):
print(" - %s" % map)
print("Available sensors")
for i,sensors in enumerate(define_sensors()):
sensor_str = ""
for sensor in sensors:
sensor_str += (sensor['label'] + " ")
print(' - %s' % (sensor_str))
print("Available types of weather")
for i,weather in enumerate(define_weather()):
print(' - %i: %s' % (i, weather['name']))
print("Available Enviroments")
for i,env in enumerate(define_environments()):
print(' - %i: %s' % (i, str(env)))
def main(args):
client = carla.Client(args.host, int(args.port))
client.set_timeout(60.0)
pygame.init()
records = {}
maps = [m.replace('/Game/Carla/Maps/', '') for m in client.get_available_maps()]
try:
client = carla.Client(args.host, int(args.port))
client.set_timeout(60.0)
pygame.init()
for town in sorted(maps):
world = client.load_world(town)
records = {}
maps = define_maps(client)
# set to async mode
settings = world.get_settings()
settings.synchronous_mode = False
settings.fixed_delta_seconds = None
world.apply_settings(settings)
if args.show_scenarios:
show_benchmark_scenarios(maps)
return
# spectator pointing to the sky to reduce rendering impact
spectator = world.get_spectator()
spectator.set_transform(carla.Transform(carla.Location(z=500), carla.Rotation(pitch=90)))
#maps = ["Town04_Opt"]
for weather in define_weather():
world.set_weather(weather["parameter"])
for env in define_environments():
for sensors in define_sensors():
list_fps = run_benchmark(world, sensors, env["vehicles"], env["walkers"], client)
mean, std = compute_mean_std(list_fps)
sensor_str = ""
for sensor in sensors:
sensor_str += (sensor['label'] + " ")
for town in maps:
world = client.load_world(town)
record = {
'town': town,
'sensors': sensor_str,
'weather': weather["name"],
'n_vehicles': env["vehicles"],
'n_walkers': env["walkers"],
'samples': args.ticks,
'fps_mean': mean,
'fps_std': std
}
# set to async mode
set_world_settings(world)
env_str = str(env["vehicles"]) + str(env["walkers"])
# spectator pointing to the sky to reduce rendering impact
spectator = world.get_spectator()
spectator.set_transform(carla.Transform(carla.Location(z=500), carla.Rotation(pitch=90)))
if env_str not in records:
records[env_str] = []
records[env_str].append(record)
print(record)
for weather in define_weather():
world.set_weather(weather["parameter"])
for env in define_environments():
for sensors in define_sensors():
list_fps = run_benchmark(world, sensors, env["vehicles"], env["walkers"], client)
mean, std = compute_mean_std(list_fps)
sensor_str = ""
for sensor in sensors:
sensor_str += (sensor['label'] + " ")
system_specs = get_system_specs()
serialize_records(records, system_specs, args.file)
pygame.quit()
record = {
'town': town,
'sensors': sensor_str,
'weather': weather["name"],
'n_vehicles': env["vehicles"],
'n_walkers': env["walkers"],
'samples': args.ticks,
'fps_mean': mean,
'fps_std': std
}
env_str = str(env["vehicles"]) + str(env["walkers"])
if env_str not in records:
records[env_str] = []
records[env_str].append(record)
print(record)
system_specs = get_system_specs()
serialize_records(records, system_specs, args.file)
pygame.quit()
except KeyboardInterrupt:
set_world_settings(world)
client.reload_world()
print('\nCancelled by user. Bye!')
if __name__ == '__main__':
@ -482,6 +566,15 @@ if __name__ == '__main__':
parser.add_argument('--file', type=str, help='Write results into a txt file', default="benchmark.md")
parser.add_argument('--tm', action='store_true', help='Switch to traffic manager benchmark')
parser.add_argument('--ticks', default=100, help='Number of ticks for each scenario (default: 100)')
parser.add_argument('--sync', default=True, action='store_true', help='Synchronous mode execution (default)')
parser.add_argument('--async', dest='sync', action='store_false', help='Asynchronous mode execution')
parser.add_argument('--fixed_dt', type=float, default=0.05, help='Time interval for the simulator in synchronous mode (default: 0.05)')
parser.add_argument('--render_mode', dest='no_render_mode', action='store_false', help='Execute with spectator')
parser.add_argument('--no_render_mode', default=True, action='store_true', help='Execute in no rendering mode (default)')
parser.add_argument('--show_scenarios', default=False, action='store_true', help='Show the scenarios to benchmark and return (default=False)')
parser.add_argument('--sensors', nargs="+", default=None, help='List of sensors to benchmark, by default all defined ones')
parser.add_argument('--maps', nargs="+", default=None, help='List of maps to benchmark, by default all defined ones')
parser.add_argument('--weather', nargs="+", default=None, help='List of weather types to benchmark, by default all defined ones')
args = parser.parse_args()