def startScenarios(self):
_drivingMode = [
786603, 11.0
] # mode (0-4294967296), speed (0-20), only if auto drive
_vehicle = 'oracle' # "blista", "voltic", "packer", "oracle"
_weather = 'CLEAR' # "CLEAR", "EXTRASUNNY", "CLOUDS", "OVERCAST", "RAIN", "CLEARING", "THUNDER", "SMOG", "FOGGY", "XMAS", "SNOWLIGHT", "BLIZZARD", "NEUTRAL", "SNOW"
_time = [10, 30] # HH, MM
_location = [-281.8045, -1396.085] # [-274.2653, -1122.707]
dataset = Dataset(throttle=True,
brake=True,
steering=True,
vehicles=True,
trafficSigns=True,
peds=True,
speed=True,
yawRate=True,
location=True,
time=True)
scenario = Scenario(drivingMode=_drivingMode,
vehicle=_vehicle,
weather=_weather,
time=_time,
location=_location)
start_msg = Start(dataset=dataset, scenario=scenario)
jsonstr = start_msg.to_json().encode()
c = Message(START_SCENARIOS, data=jsonstr)
self.__sendMsg(c)
def main():
global client, scenario
client = Client(ip='localhost',
port=8000,
datasetPath='D:/no_traffic/dataset' + str(i) + '.pz',
compressionLevel=9)
scenario = Scenario(weather=weather,
vehicle='blista',
time=[set_time, 0],
drivingMode=-1,
location=location) # 设置数据集存储位置,采集数据所用的车辆型号
client.sendMessage(Start(scenario=scenario, dataset=dataset))
print("load deepGTAV successfully! \nbegin")
while True:
fo = open(txt_position, "r") # 配置1
txt = fo.read()
fo.close()
if txt == '0':
tongji = open(tongji_position, "w+")
tongji.write("left:" + str(left) + " right:" + str(right) +
" total:" + str(total))
tongji.close()
print('=====================end=====================')
exit(0)
elif txt == '1':
drive()
def work(self):
"""
Pretend this worker method does work that takes a long time. During this time, the thread's
event loop is blocked, except if the application's processEvents() is called: this gives every
thread (incl. main) a chance to process events, which in this sample means processing signals
received from GUI (such as abort).
"""
thread_name = QThread.currentThread().objectName()
thread_id = int(
QThread.currentThreadId()) # cast to int() is necessary
self.sig_msg.emit('Running worker #{} from thread "{}" (#{})'.format(
self.__id, thread_name, thread_id))
# Creates a new connection to DeepGTAV using the specified ip and port.
# If desired, a dataset path and compression level can be set to store in memory all the data received in a gziped pickle file.
# We don't want to save a dataset in this case
self.client = Client(ip=self.args.host, port=self.args.port)
# self.client = Client(ip="127.0.0.1", port=8000)
# We set the scenario to be in manual driving, and everything else random (time, weather and location).
# See deepgtav/messages.py to see what options are supported
scenario = Scenario(drivingMode=-1) #manual driving
# Send the Start request to DeepGTAV. Dataset is set as default, we only receive frames at 10Hz (320, 160)
self.client.sendMessage(Start(scenario=scenario))
# Dummy agent
model = Model()
# Start listening for messages coming from DeepGTAV. We do it for 80 hours
stoptime = time.time() + 80 * 3600
while (time.time() < stoptime and (not self.__abort)):
# We receive a message as a Python dictionary
app.processEvents()
message = self.client.recvMessage()
# The frame is a numpy array that can we pass through a CNN for example
image = frame2numpy(message['frame'], (320, 160))
commands = model.run(image)
self.sig_step.emit(self.__id, 'step ' + str(time.time()))
self.sig_image.emit(image.tolist())
# We send the commands predicted by the agent back to DeepGTAV to control the vehicle
self.client.sendMessage(
Commands(commands[0], commands[1], commands[2]))
# We tell DeepGTAV to stop
self.client.sendMessage(Stop())
self.client.close()
self.sig_done.emit(self.__id)
def __init__(self, args_):
self.__args = args_
self.__driving_mode = [786603, 55.0]
self.__driving_vehicle = 'Blista'
self.__starting_time = 5
self.__starting_weather = 4
self.__starting_location = [-2730, 2300]
self.__frame_size = [650, 418]
self.__client, self.__scenario, self.__dataset, self.__detection_pickleFile = None, None, None, None
self.__total_written_images = 0
self.__images_to_capture = self.__args['images_to_capture']
self.__save_dir = self.__args['save_dir']
self.__target_shape = (200,88)
self.__labels_csv = None
self.__init_client()
self.__init_scenairo()
self.__prepare_datasets()
self.__client.sendMessage(Start(scenario=self.__scenario, dataset=self.__dataset))
self.__old_location = []
def reset(weatherIndex=0):
''' Resets position of car to a specific location '''
# Same conditions as below |
client.sendMessage(Stop())
dataset = Dataset(rate=30,
frame=frame_capture_size,
throttle=True,
brake=True,
steering=True,
location=True,
speed=True,
yawRate=True,
direction=True)
# dataset = Dataset(rate=30, frame=[400,300], throttle=True, brake=True, steering=True, location=True, speed=True, yawRate=True, direction=True, reward=[18.0, 0.5])
# Automatic driving scenario
# scenario = Scenario(weather='EXTRASUNNY',vehicle='voltic',time=[12,0],drivingMode=[786603,70.0],location=[-2573.13916015625, 3292.256103515625, 13.241103172302246])
# scenario = Scenario(weather=weatherList[weatherIndex],vehicle='voltic',time=[12,0],drivingMode=[4294967295,70.0],location=[-2573.13916015625, 3292.256103515625, 13.241103172302246])
scenario = Scenario(weather=weatherList[weatherIndex],
vehicle='voltic',
time=[12, 0],
drivingMode=[2883621, 20.0],
wander=False)
client.sendMessage(Start(scenario=scenario,
dataset=dataset)) # Start request
'--port',
default=8000,
help='The port where DeepGTAV is running')
args = parser.parse_args()
# Creates a new connection to DeepGTAV using the specified ip and port.
# If desired, a dataset path and compression level can be set to store in memory all the data received in a gziped pickle file.
# We don't want to save a dataset in this case
client = Client(ip=args.host, port=args.port)
# We set the scenario to be in manual driving, and everything else random (time, weather and location).
# See deepgtav/messages.py to see what options are supported
scenario = Scenario(drivingMode=-1) #manual driving
# Send the Start request to DeepGTAV. Dataset is set as default, we only receive frames at 10Hz (320, 160)
client.sendMessage(Start(scenario=scenario))
# Dummy agent
model = Model()
# Start listening for messages coming from DeepGTAV. We do it for 80 hours
stoptime = time.time() + 80 * 3600
while time.time() < stoptime:
try:
# We receive a message as a Python dictionary
message = client.recvMessage()
print(message)
# The frame is a numpy array that can we pass through a CNN for example
image = frame2numpy(message['frame'], (320, 160))
commands = model.run(image)
# Dataset options
dataset = Dataset(rate=30,
frame=[320, 160],
throttle=True,
brake=True,
steering=True,
location=True,
drivingMode=True)
# Automatic driving scenario
scenario = Scenario(
weather='EXTRASUNNY',
vehicle='blista',
time=[12, 0],
drivingMode=[786603, 20.0],
location=[-2573.13916015625, 3292.256103515625, 13.241103172302246])
client.sendMessage(Start(scenario=scenario,
dataset=dataset)) # Start request
count = 0
old_location = [0, 0, 0]
while True: # Main loop
try:
# Message recieved as a Python dictionary
message = client.recvMessage()
if (count % 100) == 0:
print(count)
# Checks if car is suck, resets position if it is
if (count % 250) == 0:
new_location = message['location']
weathers = ["CLEAR", "EXTRASUNNY", "CLOUDS", "OVERCAST", "RAIN", "CLEARING", "THUNDER", "SMOG", "FOGGY", "XMAS", "SNOWLIGHT", "BLIZZARD", "NEUTRAL", "SNOW" ]
hours = [0,4,8,12,16,20]
## CREATE A REAL DATASET WITH WEATHER CONDITIONS IN DIRECTORY.
for weather in weathers:
# Creates a new connection to DeepGTAV using the specified ip and port.
# If desired, a dataset path and compression level can be set to store in memory all the data received in a gziped pickle file.
for hour in hours:
client = Client(ip=args.host, port=args.port, datasetPath=args.dataset_path, compressionLevel=9)
infos = {}
infos['weather'] = weather
infos['hour'] = hour
infos['time'] = int(time.time())
# Configures the information that we want DeepGTAV to generate and send to us.
# See deepgtav/messages.py to see what options are supported
dataset = Dataset(rate=4, frame=[1280,640], throttle=True, brake=True, steering=True, vehicles=True, peds=True, trafficSigns=True, reward=[15.0, 0.0], direction=None, speed=True, yawRate=True, location=True, time=True)
# Send the Start request to DeepGTAV.
scenario = Scenario(time=[hour,0],weather=weather,drivingMode=[786603,15.0]) # Driving style is set to normal, with a speed of 15.0 mph. All other scenario options are random.
client.sendMessage(Start(dataset=dataset,scenario=scenario))
stoptime = time.time() + 2*60
while time.time() < stoptime:
try:
message = client.recvMessage(infos)
except KeyboardInterrupt:
# We tell DeepGTAV to stop
break
# We tell DeepGTAV to stop
client.sendMessage(Stop())
client.close()
#See deepgtav/messages.py to see what options are supported
dataset = Dataset(rate=30,
frame=[320, 160],
throttle=True,
brake=True,
steering=True,
vehicles=True,
peds=True,
reward=[15.0, 0.0],
direction=None,
speed=True,
yawRate=True,
location=True,
time=True)
#Send the Start request to DeepGTAV. Scenario is set as default (random weather, position, time and driving style)
client.sendMessage(Start(dataset=dataset))
#Start listening for messages coming from DeepGTAV. We do it for 80 hours
stoptime = time.time() + 80 * 3600
while time.time() < stoptime:
try:
#We receive a message as a Python dictionary
message = client.recvMessage()
#The frame is a numpy array and can be displayed using OpenCV or similar
#image = frame2numpy(message['frame'], (320,160))
#cv2.imshow('img',image)
#cv2.waitKey(-1)
except KeyboardInterrupt:
break
def main():
global client, scenario
client = Client(ip='localhost', port=8000) # Default interface
scenario = Scenario(
weather='EXTRASUNNY',
vehicle='blista',
time=[12, 0],
drivingMode=-1,
location=[-2583.6708984375, 3501.88232421875, 12.7711820602417])
client.sendMessage(Start(scenario=scenario, dataset=dataset))
print("load deepGTAV successfully! \nbegin")
# load yolo v3
classes = yolo_util.read_coco_names('./files/coco/coco.names')
num_classes = len(classes)
input_tensor, output_tensors = yolo_util.read_pb_return_tensors(
tf.get_default_graph(), "./files/trained_models/yolov3.pb",
["Placeholder:0", "concat_9:0", "mul_6:0"])
print("load yolo v3 successfully!")
with tf.Session() as sess:
model = load_model("files/trained_models/main_model.h5")
print("load main_model successfully!")
while True:
fo = open(config_position, "r") # 配置1
txt = fo.read()
fo.close()
if txt == '0':
set_gamepad(-1, -1, 0)
time.sleep(0.7)
print('=====================end=====================')
exit(0)
elif txt == '1':
message = client.recvMessage()
frame = frame2numpy(message['frame'], (CAP_IMG_W, CAP_IMG_H))
image_obj = Image.fromarray(frame)
speed = message['speed']
boxes, scores = sess.run(output_tensors,
feed_dict={
input_tensor:
np.expand_dims(
yolo_img_process(frame),
axis=0)
})
boxes, scores, labels = yolo_util.cpu_nms(boxes,
scores,
num_classes,
score_thresh=0.4,
iou_thresh=0.1)
image, warning = yolo_util.draw_boxes(image_obj,
boxes,
scores,
labels,
classes,
(IMAGE_H, IMAGE_W),
show=False)
control, throttle, breakk = drive(model=model,
image=frame,
speed=speed,
warning=warning)
print(warning)
set_gamepad(control, throttle, breakk)