def playTraffic(port=3101, target_vel=50.0, angle=0.0, sleep=0):
"""Traffic Play function."""
env = TorcsEnv(vision=False, throttle=True, gear_change=False)
ob = None
while ob is None:
try:
client = snakeoil3.Client(p=port, vision=False)
client.MAX_STEPS = np.inf
client.get_servers_input(step=0)
obs = client.S.d
ob = env.make_observation(obs)
except:
pass
episode_count = cfg['traffic']['max_eps']
max_steps = cfg['traffic']['max_steps_eps']
early_stop = 0
velocity = target_vel / 300.0
accel_pid = PID(np.array([10.5, 0.05, 2.8]))
steer_pid = PID(np.array([5.1, 0.001, 0.000001]))
steer = 0.0
accel = 0.0
brake = 0
print(velocity)
for i in range(episode_count):
info = {'termination_cause': 0}
steer = 0.0
accel = 0.0
brake = 0
for step in range(max_steps):
a_t = np.asarray([steer, accel, brake]) # [steer, accel, brake]
try:
ob, r_t, done, info = env.step(step, client, a_t, early_stop)
if done:
break
except Exception as e:
print("Exception caught at port " + str(i) + str(e))
ob = None
while ob is None:
try:
client = snakeoil3.Client(p=port, vision=False)
client.MAX_STEPS = np.inf
client.get_servers_input(step=0)
obs = client.S.d
ob = env.make_observation(obs)
except:
pass
continue
if (step <= sleep):
print("WAIT" + str(port))
continue
opp = ob.opponents
front = np.array([opp[15], opp[16], opp[17], opp[18], opp[19]])
closest_front = np.min(front)
print(ob.speedX * 300)
vel_error = velocity - ob.speedX
angle_error = -(ob.trackPos + angle
) / 10 + ob.angle + random.choice([1, -1]) * 0.05
steer_pid.update_error(angle_error)
accel_pid.update_error(vel_error)
accel = accel_pid.output()
steer = steer_pid.output()
if accel < 0:
brake = 1
else:
brake = 0
if closest_front < (
(madras.floatX(0.5 * ob.speedX * 100) + 10.0) / 200.0):
brake = 1
else:
brake = 0
try:
if 'termination_cause' in info.keys(
) and info['termination_cause'] == 'hardReset':
print('Hard reset by some agent')
ob, client = env.reset(client=client, relaunch=True)
except Exception as e:
print("Exception caught at point B at port " + str(i) + str(e))
ob = None
while ob is None:
try:
client = snakeoil3.Client(
p=port, vision=False) # Open new UDP in vtorcs
client.MAX_STEPS = np.inf
client.get_servers_input(
0) # Get the initial input from torcs
obs = client.S.d # Get the current full-observation from torcs
ob = env.make_observation(obs)
except:
print("Exception caught at at point C at port " + str(i) +
str(e))
class MadrasEnv(TorcsEnv):
"""Definition of the Gym Madras Env."""
def __init__(self, vision=False, throttle=True,
gear_change=False, port=3001, pid_assist=True,
CLIENT_MAX_STEPS=np.inf):
"""Init Method."""
self.pid_assist = pid_assist
if self.pid_assist:
self.action_dim = 2 # LanePos, Velocity
else:
self.action_dim = 3 # Accel, Steer, Brake
TorcsEnv.__init__(self, vision=False, throttle=True, gear_change=False)
self.state_dim = 29 # No. of sensors input
self.env_name = 'Madras_Env'
self.port = port
self.CLIENT_MAX_STEPS = CLIENT_MAX_STEPS
self.client_type = 0 # Snakeoil client type
self.initial_reset = True
self.early_stop = True
if self.pid_assist:
self.PID_latency = 10
else:
self.PID_latency = 1
self.accel_PID = PID(np.array([10.5, 0.05, 2.8])) # accel PID
self.steer_PID = PID(np.array([5.1, 0.001, 0.000001])) # steer PID
self.prev_lane = 0
self.prev_angle = 0
self.prev_vel = 0
self.prev_dist = 0
self.ob = None
self.track_len = 7014.6
def reset(self, prev_step_info=None):
"""Reset Method. To be called at the end of each episode"""
if self.initial_reset:
while self.ob is None:
try:
self.client = snakeoil3.Client(p=self.port,
vision=self.vision)
# Open new UDP in vtorcs
self.client.MAX_STEPS = self.CLIENT_MAX_STEPS
self.client.get_servers_input(step=0)
# Get the initial input from torcs
raw_ob = self.client.S.d
# Get the current full-observation
self.ob = self.make_observation(raw_ob)
except:
pass
self.initial_reset = False
else:
try:
if 'termination_cause' in list(prev_step_info.keys()) and\
prev_step_info['termination_cause'] == 'hardReset':
self.ob, self.client =\
TorcsEnv.reset(self, client=self.client, relaunch=True)
else:
self.ob, self.client =\
TorcsEnv.reset(self, client=self.client, relaunch=True)
except Exception as e:
self.ob = None
while self.ob is None:
try:
self.client = snakeoil3.Client(p=self.port,
vision=self.vision)
# Open new UDP in vtorcs
self.client.MAX_STEPS = self.CLIENT_MAX_STEPS
self.client.get_servers_input(step=0)
# Get the initial input from torcs
raw_ob = self.client.S.d
# Get the current full-observation from torcs
self.ob = self.make_observation(raw_ob)
except:
pass
self.distance_traversed = 0
s_t = np.hstack((self.ob.angle, self.ob.track, self.ob.trackPos,
self.ob.speedX, self.ob.speedY, self.ob.speedZ,
self.ob.wheelSpinVel / 100.0, self.ob.rpm))
return s_t
def step(self, desire):
"""Step method to be called at each time step."""
r_t = 0
for PID_step in range(self.PID_latency):
# Implement the desired trackpos and velocity using PID
if self.pid_assist:
self.accel_PID.update_error((desire[1] - self.prev_vel))
self.steer_PID.update_error((-(self.prev_lane - desire[0]) / 10 +
self.prev_angle))
if self.accel_PID.output() < 0.0:
brake = 1
else:
brake = 0
a_t = np.asarray([self.steer_PID.output(),
self.accel_PID.output(), brake])
else:
a_t = desire
try:
self.ob, r, done, info = TorcsEnv.step(self, PID_step,
self.client, a_t,
self.early_stop)
except Exception as e:
print(("Exception caught at port " + str(e)))
self.ob = None
while self.ob is None:
try:
self.client = snakeoil3.Client(p=self.port,
vision=self.vision)
# Open new UDP in vtorcs
self.client.MAX_STEPS = self.CLIENT_MAX_STEPS
self.client.get_servers_input(0)
# Get the initial input from torcs
raw_ob = self.client.S.d
# Get the current full-observation from torcs
self.ob = self.make_observation(raw_ob)
except:
pass
continue
self.prev_vel = self.ob.speedX
self.prev_angle = self.ob.angle
self.prev_lane = self.ob.trackPos
if (math.isnan(r)):
r = 0.0
r_t += r # accumulate rewards over all the time steps
self.distance_traversed = self.client.S.d['distRaced']
r_t += (self.distance_traversed - self.prev_dist) /\
self.track_len
self.prev_dist = deepcopy(self.distance_traversed)
if self.distance_traversed >= self.track_len:
done = True
if done:
break
s_t1 = np.hstack((self.ob.angle, self.ob.track, self.ob.trackPos,
self.ob.speedX, self.ob.speedY, self.ob.speedZ,
self.ob.wheelSpinVel / 100.0, self.ob.rpm))
return s_t1, r_t, done, info
