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AWX_collector_dummy
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5 Commits
main ... main

Author SHA1 Message Date
yjchu c8453eac62 최신 코드4_printdebug 2023-10-18 19:21:07 +09:00
yjchu e9cc977949 최신 코드3 2023-10-18 10:16:31 +09:00
yjchu 0fe6bc1262 보정치 2023-10-17 19:41:36 +09:00
yjchu 6a5545676f 최신 코드 2 2023-10-17 19:26:48 +09:00
yjchu 32615cdbda 최신 코드 2023-10-17 18:41:21 +09:00
2 changed files with 404 additions and 189 deletions
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526
AWX_collector.py
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@ -41,6 +41,8 @@ args = parser.parse_args()
ROOT_PATH = f"/usr/local/sdt/app/{args.config}"
DEVICE_PATH = f"/etc/sdt/device-control"
###############################################################################
# JSON FILE READ #
###############################################################################
@ -55,29 +57,65 @@ with open(f"{DEVICE_PATH}/config.yaml","r") as f:
###############################################################################
# Shared memory setting #
# Shared memory setting_DO #
###############################################################################
with open(f"{ROOT_PATH}/config.json","r") as f:
#with open(f"{args.config}/config.json","r") as f:
data = json.load(f)
do_dict = json.load(f)
for key in do_dict:
do_dict[key] = "1"
print(data)
print(data["1"])
#print("do_dict", "\n", di_dict)
#print(do_dict["1"])
#print(type(do_dict["1"]))
a = [ data[str(n+1)] for n in range(64)]
a = [ do_dict[str(n+1)] for n in range(64)]
a = np.array(a)
###############################################################################
# Get Data from Shared Memory #
# Shared Memory Setting_CORR #
###############################################################################
shm = shared_memory.SharedMemory(create=True, size=a.nbytes, name="DO-shm")
b = np.ndarray(a.shape, dtype=a.dtype, buffer=shm.buf)
b[:] = a[:]
with open(f"{ROOT_PATH}/config_corr.json","r") as f:
corr_dict = json.load(f)
#print(corr_dict)
for key in corr_dict:
corr_dict[key]= "0"
c = [corr_dict[str(n+1)] for n in range(64)]
c = np.array(c)
#print(c)
#print(type(c[0]))
#print(corr_dict)
#print(corr_dict["1"])
###############################################################################
# Get Data from Shared Memory_DO #
###############################################################################
shm_DO = shared_memory.SharedMemory(create=True, size=a.nbytes, name="DO-shm")
do_value = np.ndarray(a.shape, dtype=a.dtype, buffer=shm_DO.buf)
do_value[:] = a[:]
print("Get data from shm-DO : ", do_value)
#print(type(do_value[0]))
###############################################################################
# Get Data from Shared Memory_CORR #
###############################################################################
shm_CORR = shared_memory.SharedMemory(create=True, size=c.nbytes, name="Correction_Test")
correction_value = np.ndarray(c.shape, dtype=c.dtype, buffer=shm_CORR.buf)
correction_value[:] = c[:]
print("Get data from shm-CORR : ",correction_value)
###############################################################################
@ -105,24 +143,10 @@ client.loop(2) # timeout = 2초
###############################################################################
# Serial setting #
# CWT Thread-Read Serial #
###############################################################################
_serial_port3 = serial.Serial("/dev/ttyMAX2", 115200, parity= serial.PARITY_NONE, stopbits=serial.STOPBITS_ONE, bytesize=serial.EIGHTBITS, timeout = 1, rtscts=True)
_serial_port3.rs485_mode = serial.rs485.RS485Settings()
_serial_port4 = serial.Serial("/dev/ttyMAX3", 115200, parity= serial.PARITY_NONE, stopbits=serial.STOPBITS_ONE, bytesize=serial.EIGHTBITS, timeout = 1, rtscts=True)
_serial_port4.rs485_mode = serial.rs485.RS485Settings()
######################################### thread 함수 작성 ################################################
###############################################################################
# Serial thread #
###############################################################################
isThreadRun = True
def cwt_thread(evt, chip_index, port_a_ai_id , port_a_do_id, port_b_ai_id , port_b_do_id, queue_a, queue_b):
@ -145,39 +169,31 @@ def cwt_thread(evt, chip_index, port_a_ai_id , port_a_do_id, port_b_ai_id , port
port_A_AI = minimalmodbus.Instrument(serial_dev1, port_a_ai_id, debug=False, close_port_after_each_call=False) # port name, slave address (in decimal)
port_A_AI.serial.baudrate = 115200 # baudrate
port_A_AI.serial.baudrate = 115200
port_A_DO = minimalmodbus.Instrument(serial_dev1, port_a_do_id, debug=False, close_port_after_each_call=False) # port name, slave address (in decimal)
port_A_DO.serial.baudrate = 115200 # baudrate
port_A_DO.serial.baudrate = 115200
port_B_AI = minimalmodbus.Instrument(serial_dev2, port_b_ai_id, debug=False, close_port_after_each_call=False) # port name, slave address (in decimal)
port_B_AI.serial.baudrate = 115200 # baudrate
port_B_AI.serial.baudrate = 115200
port_B_DO = minimalmodbus.Instrument(serial_dev2, port_b_do_id, debug=False, close_port_after_each_call=False) # port name, slave address (in decimal)
port_B_DO.serial.baudrate = 115200 # baudrate
port_B_DO.serial.baudrate = 115200
while isThreadRun:
evt.wait()
#print("read thread get even")
evt.clear()
#prev_a_ai = [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]
#prev_b_ai = [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]
prev_a_ai = [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]
prev_b_ai = [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]
ai_array = [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]
random_index = random.randint(0, len(ai_array) -1)
ai_array = [random.randint(1,50000) for _ in range(32)]
prev_a_ai = ai_array
prev_b_ai = ai_array
#value list on -> do control data
#추<><ECB694>에 do power on 할 리스트는 어디선가 읽어서 와야 해요
#do1 do2 나눠야 해요
'''
| AI1 | AI2 | DO1 | DO2 |
Success | 0 | 0 | x | x |
@ -192,112 +208,87 @@ def cwt_thread(evt, chip_index, port_a_ai_id , port_a_do_id, port_b_ai_id , port
-> 데이터를 어떻게 것이냐
-> 이전 데이터가 있다면, 이전 데이터를 가지고 더미 데이터로 사용하는 방법 => 안하기로 했었음
'''
timenow = int(time.time()*1000)
isSuccess = True
a_isSuccess = True
b_isSuccess = True
# PORT A
port_a_do_value = list(b[:16])
port_a_do_value = []
for i in list(do_value[:16]):
port_a_do_value.append(int(i))
#print("port a do: ", port_a_do_value)
#print("do type: {}".format(type(port_a_do_value[0])))
try:
#a_ai_data=port_A_AI.read_registers(0x32, 32)
a_ai_data=ai_array
a_ai_data=port_A_AI.read_registers(0x32, 32)
prev_a_ai = a_ai_data
print("a_ai ;", a_ai_data)
# suc_cnt_ai = suc_cnt_ai +1
except:
isSuccess = False
a_isSuccess = False
print("a_ai fail")
if isSuccess:
priv_a_ai = ai_array
#if isSuccess:
# prev_a_ai = ai_array
try:
port_A_DO.write_bits(0, port_a_do_value)
#port_A_DO.write_bits(0, port_a_do_value)
a_do_value = port_A_DO.write_bits(0, port_a_do_value)
print("a_do ;", a_do_value)
# suc_cnt_do = suc_cnt_do +1
except:
print(port_A_DO)
print("a_do fail")
None
# PORT B
port_b_do_value = list(b[17:32])
port_b_do_value = []
for i in list(do_value[16:32]):
port_b_do_value.append(int(i))
#print("port b do: ", port_b_do_value)
try:
#b_ai_data=port_B_AI.read_registers(0x32, 32)
b_ai_data = ai_array
#prev_b_ai = ai_array
b_ai_data=port_B_AI.read_registers(0x32, 32)
prev_b_ai = b_ai_data
print("b_ai ;", b_ai_data)
# suc_cnt_ai = suc_cnt_ai +1
except:
isSuccess = False
b_isSuccess = False
print("b_ai fail")
if isSuccess:
prev_b_ai = ai_array
#if isSuccess:
# prev_b_ai = ai_array
try:
port_B_DO.write_bits(0, port_b_do_value)
#port_B_DO.write_bits(0, port_b_do_value)
b_do_value = port_B_DO.write_bits(0, port_b_do_value)
print("b_do ;", b_do_value)
# suc_cnt_do = suc_cnt_do +1
except:
None
if isSuccess:
queue_a.put([timenow,ai_array, port_a_do_value])
queue_b.put([timenow,ai_array, port_b_do_value])
print("b_do fail")
if a_isSuccess:
queue_a.put([timenow,a_ai_data, port_a_do_value])
else:
queue_a.put([0,prev_a_ai, port_a_do_value])
queue_b.put([0,prev_a_ai, port_b_do_value])
if b_isSuccess:
queue_b.put([timenow,b_ai_data, port_b_do_value])
else:
queue_b.put([0,prev_b_ai, port_b_do_value])
# lock.release()
'''
리스트를 생성, 10개를 잘라서 어떻게 해야 할ㅈ지 모르겠음
'''
##데이터 생성 할 때
# ai1, ai2
# -> ai1 [32] -> [curr, volt, curr, volt ...]
'''
data_for_list = {
"slot" : 1,
"timestamp": int(timenow*1000),
"data":{
"current": ai1,
"volatge": ai2,
"do1": value_list_ON,
"err1": value_list_ON,
"err2": value_list_ON
#err1, 2
}
}
lists.append(data_for_list)
### 여기서 보냄
# 10번 시그널 <20>으면
#
# list mqtt send
# list clear
if read_cnt_ch0 % 10 == 0:
data = {
"modelCode":"test4",
"assetCode":"NQ-R04-TEST-003",
"dataType":"DATA",
"data": {
"chamber":1,
"list": lists
}
}
data_json_str = json.dumps(data, indent=0)
publish_json_message(client, data_json_str)
#print(data_json_str)
# time.sleep(1)
'''
###############################################################################
# dummy data thread #
###############################################################################
###############################################################################
# data process thread #
# Data process thread #
###############################################################################
@ -308,6 +299,13 @@ def data_process_thread(data_queue, ch, chamber):
data_list_for_send_2=[]
queue_count = 0
queue_select_count = 0
count = 0
below_20 = 0
element_counts = {}
current_cycle_elements = 0
cycle_counts = 0
while isThreadRun:
# 0.1s 마다 발생할 것으로 예상
timestamp, ai, do = data_queue.get()
@ -315,33 +313,74 @@ def data_process_thread(data_queue, ch, chamber):
#==================================================
do_temp = []
for d in do:
#print("dddddddddddd: {}".format(d))
do_temp.append(int(d))
do = do_temp.copy()
#==================================================
#print("timestamp: {timestamp}, \n ai: {ai}, \n do: {do}" .format(timestamp=timestamp, ai=ai, do=do))
###############################################################################
# Distribute AI data, Calculate value with correction #
###############################################################################
#ai data -> current, voltage 전환
queue_count = queue_count + 1
current = []
voltage = []
ai_index = 0
correction_value_array = []
if data_queue == ch1_queue:
correction_value_array = np.array(correction_value[:16])
#key_to_change = str(index+1)
elif data_queue == ch2_queue:
correction_value_array = np.array(correction_value[16:32])
#key_to_change = str(index+17)
elif data_queue == ch3_queue:
correction_value_array = np.array(correction_value[32:48])
#key_to_change = str(index+33)
elif data_queue == ch4_queue:
correction_value_array = np.array(correction_value[48:64])
#key_to_change = str(index+49)
for i in ai:
#짝수 current (확인 필요)
ai_index = ai_index +1
#print("ai list :", ai)
if (ai_index%2) == 0:
current.append(int(i))
#print("current :", current)
else:
voltage.append(int(i))
#print("voltage :", voltage)
calculated_voltage = voltage + np.array(correction_value_array)
calculated_voltage_list = calculated_voltage.tolist()
#print("be calculated: ", calculated_voltage)
#print("do list : ", do)
#print("calculated_voltage list :", calculated_voltage_list)
#mult_voltage = [do[i] * calculated_voltage_list[i] for i in range(len(do))]
#print("multed value :", mult_voltage)
#print(type(mult_voltage))
###############################################################################
# HJ ORG CODE #
###############################################################################
'''
#전압값으로 error count check
voltage_cnt = 0
for i in voltage:
if i < 2:
for i in calculated_voltage_list:
if i <= 20000:
#count up
error_cnt_1[voltage_cnt] = error_cnt_1[voltage_cnt] +1
print("error cnt: ",error_cnt_1)
if error_cnt_1[voltage_cnt] == 10:
error_cnt_1[voltage_cnt] = 0
error_cnt_2[voltage_cnt] = error_cnt_2[voltage_cnt] + 1
@ -350,43 +389,186 @@ def data_process_thread(data_queue, ch, chamber):
else:
# count reset
error_cnt_1[voltage_cnt] = 0
voltage_cnt = voltage_cnt + 1
print("voltage count:",voltage_cnt)
'''
###############################################################################
# YJ TEST CODE #
###############################################################################
'''
ERR1 = 0
#count = 0
#cycle_counts = 0
for i, value in enumerate(calculated_voltage_list):
if value <= 5:
element_counts = [x + 1 if y == 1 else x for x, y in zip(element_counts, do)]
#element_counts[i] = element_counts.get(i,0) + 1
print(element_counts)
#mult_element_count = [element_count[i] * do[i] for i in range(len(do))]
#이건 아닌거 같다 카운트는 계속 올라갈 거고 10일 때 DO가 켜지면 또 에러 발생임
cycle_counts += 1
for index, count in element_counts.items():
if cycle_counts % 10 == 0:
if count == 10:
#print(f"Error elements: {index}")
error_cnt_1[index] = error_cnt_1[index] +1
#error_cnt_1 = [error_cnt_1[index] +1 * do[index] for index in range(len(error_cnt_1))]
mult_error_cnt_1 = [error_cnt_1[i] * do[i] for i in range(len(do))]
#mult_error_cnt_1 = [x + 1 * y for x,y in zip(error_cnt_1, do)]
print("check error_cnt_1 : ", error_cnt_1)
print("check multed value to do index : ", mult_error_cnt_1)
global do_dict
#key_to_change = str(index+1)
if data_queue == ch1_queue:
key_to_change = str(index+1)
elif data_queue == ch2_queue:
key_to_change = str(index+17)
elif data_queue == ch3_queue:
key_to_change = str(index+33)
elif data_queue == ch4_queue:
key_to_change = str(index+49)
if key_to_change in do_dict:
do_dict[key_to_change] = "0"
with open(f"{ROOT_PATH}/config.json","w") as f:
json.dump(do_dict, f)
#print("check do off from config.json: ",do_dict.values())
element_counts[index] = 0
#error_cnt_1 = 0
#mult_error_cnt_1 = 0
else:
element_counts[index] = 0
'''
ERR1 = 0
#count = 0
#cycle_counts = 0
#element_counts = [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]
for i, value in enumerate(calculated_voltage_list):
if value <= 20000 and do[i] == 1:
#print(f"Updating count for index {i}")
#element_counts = [x + 1 if y == 1 else x for x, y in zip(element_counts, do)]
#element_counts[i] += 1
element_counts[i] = element_counts.get(i,0) + 1
#print("check do : " ,do)
#print("voltage list : ", calculated_voltage_list)
#mult_element_count = [element_count[i] * do[i] for i in range(len(do))]
#이건 아닌거 같다 카운트는 계속 올라갈 거고 10일 때 DO가 켜지면 또 에러 발생임
print("check do : " ,do)
print("voltage list : ", calculated_voltage_list)
#print("element cosunts : ", element_counts,"\r\n")
cycle_counts += 1
error_cnt_1 = [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]
for index, count in element_counts.items():
if cycle_counts % 10 == 0:
if count == 10:
#print(f"Updating e_count for index {index}")
#print(f"Error elements: {index}")
error_cnt_1[index] += 1
#error_cnt_1 = [error_cnt_1[index] +1 * do[index] for index in range(len(error_cnt_1))]
#mult_error_cnt_1 = [error_cnt_1[i] * do[i] for i in range(len(do))]
#mult_error_cnt_1 = [x + 1 * y for x,y in zip(error_cnt_1, do)] //zip 함수 사용법
#print("check error_cnt_1 : ", error_cnt_1)
#print("check multed value to do index : ", mult_error_cnt_1)
global do_dict
#key_to_change = str(index+1)
if data_queue == ch1_queue:
key_to_change = str(index+1)
elif data_queue == ch2_queue:
key_to_change = str(index+17)
elif data_queue == ch3_queue:
key_to_change = str(index+33)
elif data_queue == ch4_queue:
key_to_change = str(index+49)
if key_to_change in do_dict:
do_dict[key_to_change] = "0"
with open(f"{ROOT_PATH}/config.json","w") as f:
json.dump(do_dict, f)
#print("check do off from config.json: ",do_dict.values())
element_counts[index] = 0
#mult_error_cnt_1 = 0
else:
element_counts[index] = 0
# 로깅 기능을 넣어야 겠다...?
# 파일 하나 열어서, 데이터를 쓴다
# 데이터 만들어서 전달
###############################################################################
# Make data form to json and Publish message #
###############################################################################
#데이터 만들어서 전달
if timestamp > 0:
data = {
"timestamp" : int(timestamp),
#if timestamp == 0:
data = {
"timestamp" : int(timestamp),
"data": {
"current" : current,
"voltage" : voltage,
"do" : do,
"er1" : error_cnt_1,
"er2" : error_cnt_2
"current" : current,
"voltage" : calculated_voltage_list,
"do" : do,
"er1" : error_cnt_1
}
}
if(queue_select_count == 0):
data_list_for_send_1.append(data)
else:
data_list_for_send_2.append(data)
}
if(queue_select_count == 0):
data_list_for_send_1.append(data)
else:
data_list_for_send_2.append(data)
'''
############## Error Do 데이터 잘려오는 증상 추정 원인 개선 방안 중 하나 ################
# -> string 만들어서 전달하자
json_obj1 = json.loads(data)
if(queue_select_count == 0):
data_list_for_send_1.append(data)
else:
data_list_for_send_2.append(data)
'''
if queue_count == 10:
queue_count = 0
mqtt_msg = {}
if (queue_select_count == 0):
if not data_list_for_send_1:
print("data empty")
mqtt_msg = {
"modelCode":"test4",
"assetCode":"NQ-R04-TEST-003", #나중에는 config에서 셋팅되는 값, or model 값으로 변경 (asset)
"assetCode":"S0NQR0423090001", #나중에는 config에서 셋팅되는 값, or model 값으로 변경 (asset)
"dataType":"DATA",
"data": {
"channel": ch, # 채널 입력 <20>
"chamber":chamber, #chamber 도 입력 <20>
"channel": ch, # 채널 입력 <20>
"chamber":chamber, #chamber 도 입력 <20>
"slot": ch, #슬롯 값은 chamber와 ch 값으로 만든다
"list": data_list_for_send_1
}
@ -396,11 +578,11 @@ def data_process_thread(data_queue, ch, chamber):
else:
mqtt_msg = {
"modelCode":"test4",
"assetCode":"NQ-R04-TEST-003", #나중에는 config에서 셋팅되는 값, or model 값으로 변경 (asset)
"assetCode":"S0NQR0423090001", #나중에는 config에서 셋팅되는 값, or model 값으로 변경 (asset)
"dataType":"DATA",
"data": {
"channel": ch, # 채널 입력 <20>
"chamber":chamber, #chamber 도 입력 <20>
"channel": ch, # 채널 입력 <20>
"chamber":chamber, #chamber 도 입력 <20>
"slot": ch, #슬롯 값은 chamber와 ch 값으로 만든다
"list": data_list_for_send_2
}
@ -410,74 +592,40 @@ def data_process_thread(data_queue, ch, chamber):
# print(type(mqtt_msg['data']['list'][0]['do'][0]))
data_json_str = json.dumps(mqtt_msg, indent=4)
# print(data_json_str)
# print(data_json_str)
print(data_json_str)
publish_json_message(client, data_json_str)
##erro cnt check routine
######################################### thread 함수 작성 ################################################
###############################################################################
# Thread Event Timer #
###############################################################################
#event는 개별 생성을 해준다 th1, th2
def timer_event_loop(e1, e2):
cnt = 0
# global read_cnt
while True:
# print("event set, meanning : periodic sensing")
e1.set()
e2.set()
time.sleep(0.1)
#cnt = cnt +1
#if cnt > 6000:
# print("chip0 read count:", read_cnt_ch0)
#print("\r\nchip1 read count:", read_cnt_ch0)
#print("\r\nai1:", suc_cnt_ai, "\r\nai2:", suc_cnt_ai2)
#print(ai2)
#break
#print(cnt)
# print(read_cnt)
exit()
# timer = threading.Timer(3, lambda: print("test event"))
# timer.start()
# timer.join()
# # timer = threading.Timer(3, lambda: e.set())
################################# 작성 중 #####################################
# def publish_json_message(client, data):
# topic = "devicedata/axr/nodeq1"
# client.publish(topic, payload=data)
# client = mqtt.Client("python_pub")
# client.username_pw_set("sdt", "251327")
# client.connect(host="13.209.39.139",port=32259)
# # get_value()
# data = json.dumps(dict_1)
# #publish_json_message(client, data)
# client.loop(2) # timeout = 2초
################################# 작성 중 ######################################
if __name__ == '__main__':
###############################################################################
# Queue x 4 max- infinite #
# Queue x 4 max- infinite #
###############################################################################
ch1_queue = queue.Queue()
@ -488,8 +636,8 @@ if __name__ == '__main__':
chip0_evt = threading.Event()
chip1_evt = threading.Event()
read_data_chip0 = threading.Thread(target=cwt_thread,args=(chip0_evt, 0, 1,2, 5,6, ch1_queue, ch2_queue)) #현재 4 개씩 연결되 어 있어서 테스트 용
read_data_chip1 = threading.Thread(target=cwt_thread,args=(chip1_evt, 1, 9,10, 13,14, ch3_queue, ch4_queue))
read_data_chip0 = threading.Thread(target=cwt_thread,args=(chip0_evt, 0, 1,2, 13,14, ch1_queue, ch2_queue)) #현재 4개씩 연결되 어 있어서 테스트 용
read_data_chip1 = threading.Thread(target=cwt_thread,args=(chip1_evt, 1, 5,6, 7,8, ch3_queue, ch4_queue))
data_process_ch1 = threading.Thread(target=data_process_thread,args=(ch1_queue, 1, 1))
data_process_ch2 = threading.Thread(target=data_process_thread,args=(ch2_queue, 2, 1))

67
config_corr.json Normal file
View File

@ -0,0 +1,67 @@
{
"1": 1,
"2": 2,
"3": 3,
"4": 4,
"5": 5,
"6": 6,
"7": 7,
"8": 8,
"9": 9,
"10": 5,
"11": 5,
"12": 5,
"13": 5,
"14": 5,
"15": 15,
"16": 16,
"17": 17,
"18": 5,
"19": 5,
"20": 5,
"21": 5,
"22": 5,
"23": 5,
"24": 5,
"25": 5,
"26": 5,
"27": 5,
"28": 5,
"29": 5,
"30": 5,
"31": 31,
"32": 32,
"33": 33,
"34": 5,
"35": 5,
"36": 5,
"37": 5,
"38": 5,
"39": 5,
"40": 0,
"41": 0,
"42": 0,
"43": 0,
"44": 0,
"45": 0,
"46": 5,
"47": 47,
"48": 48,
"49": 49,
"50": 0,
"51": 0,
"52": 0,
"53": 0,
"54": 0,
"55": 0,
"56": 5,
"57": 0,
"58": 0,
"59": 0,
"60": 0,
"61": 0,
"62": 0,
"63": 0,
"64": 64
}