# Estrategia EURUSD: 49 periodos, 3 desviaciones, 1 minuto
sma_eurusd.append(eurusd[2])
# Determinar tipo de vela
if eurusd[2] >= eurusd[1]:
tipo = "Verde"
else:
tipo = "Roja"
# Calculo de las señales
if tipo == "Verde":
if alta_eurusd != 0 and eurusd[2] > alta_eurusd and senal != 1:
balance = api.profile.balance
inversion = round(balance / chances, 2)
if inversion < 1:
inversion = 1
api.buy(inversion, activo, "turbo", "put")
print "Operación bajista abierta a las:", datetime.now()
senal = 1
else:
if baja_eurusd != 0 and eurusd[2] < baja_eurusd and senal != 2:
balance = api.profile.balance
inversion = round(balance / chances, 2)
if inversion < 1:
inversion = 1
api.buy(inversion, activo, "turbo", "call")
print "Operación alcista abierta a las:", datetime.now()
senal = 2
# Calculo de las bandas bollinger
if len(sma_eurusd) == periodos_eurusd:
media = (sum(sma_eurusd)) / periodos_eurusd
desviacion = np.std(np.array(sma_eurusd))
class IQ_Option:
__version__ = "4.5"
def __init__(self, email, password):
self.size = [
1, 5, 10, 15, 30, 60, 120, 300, 600, 900, 1800, 3600, 7200, 14400,
28800, 43200, 86400, 604800, 2592000
]
self.email = email
self.password = password
self.suspend = 0.5
self.thread = None
self.subscribe_candle = []
self.subscribe_candle_all_size = []
self.subscribe_mood = []
# for digit
self.get_realtime_strike_list_temp_data = {}
self.get_realtime_strike_list_temp_expiration = 0
#
self.max_reconnect = 5
self.connect_count = 0
# --start
self.connect()
# self.update_ACTIVES_OPCODE() this auto function delay too long
self.get_balance_id()
# --------------------------------------------------------------------------
def get_server_timestamp(self):
return self.api.timesync.server_timestamp
def set_max_reconnect(self, number):
self.max_reconnect = number
def connect(self):
while True:
try:
self.api.close()
except:
pass
#logging.error('**warning** self.api.close() fail')
if self.connect_count < self.max_reconnect or self.max_reconnect < 0:
self.api = IQOptionAPI("iqoption.com", self.email,
self.password)
check = None
check = self.api.connect()
if check == True:
# -------------reconnect subscribe_candle
try:
for ac in self.subscribe_candle:
sp = ac.split(",")
self.start_candles_one_stream(sp[0], sp[1])
except:
pass
# -----------------
try:
for ac in self.subscribe_candle_all_size:
self.start_candles_all_size_stream(ac)
except:
pass
# -------------reconnect subscribe_mood
try:
for ac in self.subscribe_mood:
self.start_mood_stream(ac)
except:
pass
#---------for async get name: "position-changed", microserviceName
self.api.setOptions(1, True)
self.api.subscribe_position_changed(
"position-changed", "multi-option", 2)
self.api.subscribe_position_changed(
"trading-fx-option.position-changed", "fx-option", 3)
self.api.subscribe_position_changed(
"position-changed", "crypto", 4)
self.api.subscribe_position_changed(
"position-changed", "forex", 5)
self.api.subscribe_position_changed(
"digital-options.position-changed", "digital-option",
6)
self.api.subscribe_position_changed(
"position-changed", "cfd", 7)
break
time.sleep(self.suspend * 2)
self.connect_count = self.connect_count + 1
else:
logging.error(
'**error** reconnect() too many time please look log file')
exit(1)
def check_connect(self):
# True/False
idle_time = abs(self.api.timesync.server_timestamp - time.time())
if idle_time > 6:
return False
else:
return True
# wait for timestamp getting
# _________________________UPDATE ACTIVES OPCODE_____________________
def get_all_ACTIVES_OPCODE(self):
return OP_code.ACTIVES
def update_ACTIVES_OPCODE(self):
# update from binary option
self.get_ALL_Binary_ACTIVES_OPCODE()
#crypto /dorex/cfd
self.instruments_input_all_in_ACTIVES()
dicc = {}
for lis in sorted(OP_code.ACTIVES.items(), key=operator.itemgetter(1)):
dicc[lis[0]] = lis[1]
OP_code.ACTIVES = dicc
def get_name_by_activeId(self, activeId):
info = self.get_financial_information(activeId)
try:
return info["msg"]["data"]["active"]["name"]
except:
return None
def get_financial_information(self, activeId):
self.api.financial_information = None
self.api.get_financial_information(activeId)
while self.api.financial_information == None:
pass
return self.api.financial_information
def get_instruments(self, type):
#type="crypto"/"forex"/"cfd"
time.sleep(self.suspend)
self.api.instruments = None
while self.api.instruments == None:
try:
self.api.get_instruments(type)
start = time.time()
while self.api.instruments == None and time.time() - start < 10:
pass
except:
logging.error('**error** api.get_instruments need reconnect')
self.connect()
return self.api.instruments
def instruments_input_to_ACTIVES(self, type):
instruments = self.get_instruments(type)
for ins in instruments["instruments"]:
OP_code.ACTIVES[ins["id"]] = ins["active_id"]
def instruments_input_all_in_ACTIVES(self):
self.instruments_input_to_ACTIVES("crypto")
self.instruments_input_to_ACTIVES("forex")
self.instruments_input_to_ACTIVES("cfd")
def get_ALL_Binary_ACTIVES_OPCODE(self):
init_info = self.get_all_init()
for dirr in (["binary", "turbo"]):
for i in init_info["result"][dirr]["actives"]:
OP_code.ACTIVES[(init_info["result"][dirr]["actives"][i]
["name"]).split(".")[1]] = int(i)
# _________________________self.api.get_api_option_init_all() wss______________________
def get_all_init(self):
while True:
self.api.api_option_init_all_result = None
while True:
try:
self.api.get_api_option_init_all()
break
except:
logging.error('**error** get_all_init need reconnect')
self.connect()
time.sleep(5)
start = time.time()
while True:
if time.time() - start > 30:
logging.error('**warning** get_all_init late 30 sec')
break
try:
if self.api.api_option_init_all_result != None:
break
except:
pass
try:
if self.api.api_option_init_all_result["isSuccessful"] == True:
return self.api.api_option_init_all_result
except:
pass
def get_all_init_v2(self):
self.api.api_option_init_all_result_v2 = None
self.api.get_api_option_init_all_v2()
start_t = time.time()
while self.api.api_option_init_all_result_v2 == None:
if time.time() - start_t >= 30:
logging.error('**warning** get_all_init_v2 late 30 sec')
return None
return self.api.api_option_init_all_result_v2
# return OP_code.ACTIVES
#------- chek if binary/digit/cfd/stock... if open or not
def get_all_open_time(self):
#for binary option turbo and binary
OPEN_TIME = nested_dict(3, dict)
binary_data = self.get_all_init_v2()
binary_list = ["binary", "turbo"]
for option in binary_list:
for actives_id in binary_data[option]["actives"]:
active = binary_data[option]["actives"][actives_id]
name = str(active["name"]).split(".")[1]
if active["enabled"] == True:
if active["is_suspended"] == True:
OPEN_TIME[option][name]["open"] = False
else:
OPEN_TIME[option][name]["open"] = True
else:
OPEN_TIME[option][name]["open"] = active["enabled"]
#for digital
digital_data = self.get_digital_underlying_list_data()["underlying"]
for digital in digital_data:
name = digital["underlying"]
schedule = digital["schedule"]
OPEN_TIME["digital"][name]["open"] = False
for schedule_time in schedule:
start = schedule_time["open"]
end = schedule_time["close"]
if start < time.time() < end:
OPEN_TIME["digital"][name]["open"] = True
#for OTHER
instrument_list = ["cfd", "forex", "crypto"]
for instruments_type in instrument_list:
ins_data = self.get_instruments(instruments_type)["instruments"]
for detail in ins_data:
name = detail["name"]
schedule = detail["schedule"]
OPEN_TIME[instruments_type][name]["open"] = False
for schedule_time in schedule:
start = schedule_time["open"]
end = schedule_time["close"]
if start < time.time() < end:
OPEN_TIME[instruments_type][name]["open"] = True
return OPEN_TIME
# --------for binary option detail
def get_binary_option_detail(self):
detail = nested_dict(2, dict)
init_info = self.get_all_init()
for actives in init_info["result"]["turbo"]["actives"]:
name = init_info["result"]["turbo"]["actives"][actives]["name"]
name = name[name.index(".") + 1:len(name)]
detail[name]["turbo"] = init_info["result"]["turbo"]["actives"][
actives]
for actives in init_info["result"]["binary"]["actives"]:
name = init_info["result"]["binary"]["actives"][actives]["name"]
name = name[name.index(".") + 1:len(name)]
detail[name]["binary"] = init_info["result"]["binary"]["actives"][
actives]
return detail
def get_all_profit(self):
all_profit = nested_dict(2, dict)
init_info = self.get_all_init()
for actives in init_info["result"]["turbo"]["actives"]:
name = init_info["result"]["turbo"]["actives"][actives]["name"]
name = name[name.index(".") + 1:len(name)]
all_profit[name]["turbo"] = (100.0 - init_info["result"]["turbo"][
"actives"][actives]["option"]["profit"]["commission"]) / 100.0
for actives in init_info["result"]["binary"]["actives"]:
name = init_info["result"]["binary"]["actives"][actives]["name"]
name = name[name.index(".") + 1:len(name)]
all_profit[name]["binary"] = (
100.0 - init_info["result"]["binary"]["actives"][actives]
["option"]["profit"]["commission"]) / 100.0
return all_profit
# ----------------------------------------
# ______________________________________self.api.getprofile() https________________________________
def get_profile(self):
while True:
try:
respon = self.api.getprofile().json()
time.sleep(self.suspend)
if respon["isSuccessful"] == True:
return respon
except:
logging.error('**error** get_profile try reconnect')
self.connect()
def get_balance_id(self):
self.api.profile.balance_id = None
while True:
try:
respon = self.get_profile()
self.api.profile.balance_id = respon["result"]["balance_id"]
break
except:
logging.error('**error** get_balance()')
time.sleep(self.suspend)
return self.api.profile.balance
def get_balance(self):
self.api.profile.balance = None
while True:
try:
respon = self.get_profile()
self.api.profile.balance = respon["result"]["balance"]
break
except:
logging.error('**error** get_balance()')
time.sleep(self.suspend)
return self.api.profile.balance
def get_balances(self):
# self.api.profile.balance=None
while True:
try:
respon = self.get_profile()
self.api.profile.balances = respon["result"]["balances"]
break
except:
logging.error('**error** get_balances()')
pass
time.sleep(self.suspend)
return self.api.profile.balances
def get_balance_mode(self):
# self.api.profile.balance_type=None
while True:
try:
respon = self.get_profile()
self.api.profile.balance_type = respon["result"][
"balance_type"]
break
except:
logging.error('**error** get_balance_mode()')
pass
time.sleep(self.suspend)
if self.api.profile.balance_type == 1:
return "REAL"
elif self.api.profile.balance_type == 4:
return "PRACTICE"
def reset_practice_balance(self):
self.api.training_balance_reset_request = None
self.api.reset_training_balance()
while self.api.training_balance_reset_request == None:
pass
return self.api.training_balance_reset_request
def change_balance(self, Balance_MODE):
real_id = None
practice_id = None
while True:
try:
self.get_balances()
for accunt in self.api.profile.balances:
if accunt["type"] == 1:
real_id = accunt["id"]
if accunt["type"] == 4:
practice_id = accunt["id"]
break
except:
logging.error('**error** change_balance()')
pass
while self.get_balance_mode() != Balance_MODE:
if Balance_MODE == "REAL":
self.api.changebalance(real_id)
elif Balance_MODE == "PRACTICE":
self.api.changebalance(practice_id)
else:
logging.error("ERROR doesn't have this mode")
exit(1)
# ________________________________________________________________________
# _______________________ CANDLE _____________________________
# ________________________self.api.getcandles() wss________________________
def get_candles(self, ACTIVES, interval, count, endtime):
self.api.candles.candles_data = None
while True:
try:
self.api.getcandles(OP_code.ACTIVES[ACTIVES], interval, count,
endtime)
while self.check_connect and self.api.candles.candles_data == None:
pass
if self.api.candles.candles_data != None:
break
except:
logging.error('**error** get_candles need reconnect')
self.connect()
return self.api.candles.candles_data
#######################################################
# ______________________________________________________
# _____________________REAL TIME CANDLE_________________
# ______________________________________________________
#######################################################
def start_candles_stream(self, ACTIVE, size, maxdict):
if size == "all":
for s in self.size:
self.full_realtime_get_candle(ACTIVE, s, maxdict)
self.api.real_time_candles_maxdict_table[ACTIVE][s] = maxdict
self.start_candles_all_size_stream(ACTIVE)
elif size in self.size:
self.api.real_time_candles_maxdict_table[ACTIVE][size] = maxdict
self.full_realtime_get_candle(ACTIVE, size, maxdict)
self.start_candles_one_stream(ACTIVE, size)
else:
logging.error(
'**error** start_candles_stream please input right size')
def stop_candles_stream(self, ACTIVE, size):
if size == "all":
self.stop_candles_all_size_stream(ACTIVE)
elif size in self.size:
self.stop_candles_one_stream(ACTIVE, size)
else:
logging.error(
'**error** start_candles_stream please input right size')
def get_realtime_candles(self, ACTIVE, size):
if size == "all":
try:
return self.api.real_time_candles[ACTIVE]
except:
logging.error(
'**error** get_realtime_candles() size="all" can not get candle'
)
return False
elif size in self.size:
try:
return self.api.real_time_candles[ACTIVE][size]
except:
logging.error('**error** get_realtime_candles() size=' +
str(size) + ' can not get candle')
return False
else:
logging.error(
'**error** get_realtime_candles() please input right "size"')
def get_all_realtime_candles(self):
return self.api.real_time_candles
################################################
# ---------REAL TIME CANDLE Subset Function---------
################################################
# ---------------------full dict get_candle-----------------------
def full_realtime_get_candle(self, ACTIVE, size, maxdict):
candles = self.get_candles(ACTIVE, size, maxdict,
self.api.timesync.server_timestamp)
for can in candles:
self.api.real_time_candles[str(ACTIVE)][int(size)][
can["from"]] = can
# ------------------------Subscribe ONE SIZE-----------------------
def start_candles_one_stream(self, ACTIVE, size):
if (str(ACTIVE + "," + str(size)) in self.subscribe_candle) == False:
self.subscribe_candle.append((ACTIVE + "," + str(size)))
start = time.time()
self.api.candle_generated_check[str(ACTIVE)][int(size)] = {}
while True:
if time.time() - start > 20:
logging.error(
'**error** start_candles_one_stream late for 20 sec')
return False
try:
if self.api.candle_generated_check[str(ACTIVE)][int(
size)] == True:
return True
except:
pass
try:
self.api.subscribe(OP_code.ACTIVES[ACTIVE], size)
except:
logging.error('**error** start_candles_stream reconnect')
self.connect()
time.sleep(1)
def stop_candles_one_stream(self, ACTIVE, size):
if ((ACTIVE + "," + str(size)) in self.subscribe_candle) == True:
self.subscribe_candle.remove(ACTIVE + "," + str(size))
while True:
try:
if self.api.candle_generated_check[str(ACTIVE)][int(
size)] == {}:
return True
except:
pass
self.api.candle_generated_check[str(ACTIVE)][int(size)] = {}
self.api.unsubscribe(OP_code.ACTIVES[ACTIVE], size)
time.sleep(self.suspend * 10)
# ------------------------Subscribe ALL SIZE-----------------------
def start_candles_all_size_stream(self, ACTIVE):
self.api.candle_generated_all_size_check[str(ACTIVE)] = {}
if (str(ACTIVE) in self.subscribe_candle_all_size) == False:
self.subscribe_candle_all_size.append(str(ACTIVE))
start = time.time()
while True:
if time.time() - start > 20:
logging.error('**error** fail ' + ACTIVE +
' start_candles_all_size_stream late for 10 sec')
return False
try:
if self.api.candle_generated_all_size_check[str(
ACTIVE)] == True:
return True
except:
pass
try:
self.api.subscribe_all_size(OP_code.ACTIVES[ACTIVE])
except:
logging.error(
'**error** start_candles_all_size_stream reconnect')
self.connect()
time.sleep(1)
def stop_candles_all_size_stream(self, ACTIVE):
if (str(ACTIVE) in self.subscribe_candle_all_size) == True:
self.subscribe_candle_all_size.remove(str(ACTIVE))
while True:
try:
if self.api.candle_generated_all_size_check[str(ACTIVE)] == {}:
break
except:
pass
self.api.candle_generated_all_size_check[str(ACTIVE)] = {}
self.api.unsubscribe_all_size(OP_code.ACTIVES[ACTIVE])
time.sleep(self.suspend * 10)
# ------------------------top_assets_updated---------------------------------------------
def subscribe_top_assets_updated(self, instrument_type):
self.api.Subscribe_Top_Assets_Updated(instrument_type)
def unsubscribe_top_assets_updated(self, instrument_type):
self.api.Unsubscribe_Top_Assets_Updated(instrument_type)
def get_top_assets_updated(self, instrument_type):
if instrument_type in self.api.top_assets_updated_data:
return self.api.top_assets_updated_data[instrument_type]
else:
return None
# -----------------------------------------------
# -----------------traders_mood----------------------
def start_mood_stream(self, ACTIVES):
if ACTIVES in self.subscribe_mood == False:
self.subscribe_mood.append(ACTIVES)
while True:
self.api.subscribe_Traders_mood(OP_code.ACTIVES[ACTIVES])
try:
self.api.traders_mood[OP_code.ACTIVES[ACTIVES]]
break
except:
time.sleep(5)
def stop_mood_stream(self, ACTIVES):
if ACTIVES in self.subscribe_mood == True:
del self.subscribe_mood[ACTIVES]
self.api.unsubscribe_Traders_mood(OP_code.ACTIVES[ACTIVES])
def get_traders_mood(self, ACTIVES):
# return highter %
return self.api.traders_mood[OP_code.ACTIVES[ACTIVES]]
def get_all_traders_mood(self):
# return highter %
return self.api.traders_mood
##############################################################################################
def check_win(self, id_number):
# 'win':win money 'equal':no win no loose 'loose':loose money
while True:
try:
listinfodata_dict = self.api.listinfodata.get(id_number)
if listinfodata_dict["game_state"] == 1:
break
except:
pass
self.api.listinfodata.delete(id_number)
return listinfodata_dict["win"]
def check_win_v2(self, id_number):
while True:
check, data = self.get_betinfo(id_number)
if check:
return data["result"]["data"][str(id_number)]["win"]
time.sleep(self.suspend)
# -------------------get infomation only for binary option------------------------
def get_betinfo(self, id_number):
# INPUT:int
while True:
self.api.game_betinfo.isSuccessful = None
start = time.time()
try:
self.api.get_betinfo(id_number)
except:
logging.error(
'**error** def get_betinfo self.api.get_betinfo reconnect'
)
self.connect()
while self.api.game_betinfo.isSuccessful == None:
if time.time() - start > 10:
logging.error(
'**error** get_betinfo time out need reconnect')
self.connect()
self.api.get_betinfo(id_number)
time.sleep(self.suspend * 10)
if self.api.game_betinfo.isSuccessful == True:
return self.api.game_betinfo.isSuccessful, self.api.game_betinfo.dict
else:
return self.api.game_betinfo.isSuccessful, None
time.sleep(self.suspend * 10)
def get_optioninfo(self, limit):
self.api.api_game_getoptions_result = None
self.api.get_options(limit)
while self.api.api_game_getoptions_result == None:
pass
return self.api.api_game_getoptions_result
def get_optioninfo_v2(self, limit):
self.api.get_options_v2_data = None
self.api.get_options_v2(limit, "binary,turbo")
while self.api.get_options_v2_data == None:
pass
return self.api.get_options_v2_data
# __________________________BUY__________________________
# __________________FOR OPTION____________________________
def buy_multi(self, price, ACTIVES, ACTION, expirations):
self.api.buy_multi_option = {}
if len(price) == len(ACTIVES) == len(ACTION) == len(expirations):
buy_len = len(price)
for idx in range(buy_len):
self.api.buyv3(price[idx], OP_code.ACTIVES[ACTIVES[idx]],
ACTION[idx], expirations[idx], idx)
while len(self.api.buy_multi_option) < buy_len:
pass
buy_id = []
for key in sorted(self.api.buy_multi_option.keys()):
try:
value = self.api.buy_multi_option[key]
buy_id.append(value["id"])
except:
buy_id.append(None)
return buy_id
else:
logging.error('buy_multi error please input all same len')
def get_remaning(self, duration):
for remaning in get_remaning_time(self.api.timesync.server_timestamp):
if remaning[0] == duration:
return remaning[1]
logging.error('get_remaning(self,duration) ERROR duration')
return "ERROR duration"
def buy(self, price, ACTIVES, ACTION, expirations):
self.api.buy_successful = None
self.api.buy_id = None
self.api.buy(price, OP_code.ACTIVES[ACTIVES], ACTION, expirations)
start_t = time.time()
while self.api.buy_successful == None and self.api.buy_id == None:
if time.time() - start_t >= 30:
logging.error('**warning** buy late 30 sec')
return False, None
return self.api.buy_successful, self.api.buy_id
def sell_option(self, options_ids):
self.api.sell_option(options_ids)
self.api.sold_options_respond = None
while self.api.sold_options_respond == None:
pass
return self.api.sold_options_respond
# __________________for Digital___________________
def get_digital_underlying_list_data(self):
self.api.underlying_list_data = None
self.api.get_digital_underlying()
start_t = time.time()
while self.api.underlying_list_data == None:
if time.time() - start_t >= 30:
logging.error(
'**warning** get_digital_underlying_list_data late 30 sec')
return None
return self.api.underlying_list_data
def get_strike_list(self, ACTIVES, duration):
self.api.strike_list = None
self.api.get_strike_list(ACTIVES, duration)
ans = {}
while self.api.strike_list == None:
pass
try:
for data in self.api.strike_list["msg"]["strike"]:
temp = {}
temp["call"] = data["call"]["id"]
temp["put"] = data["put"]["id"]
ans[("%.6f" % (float(data["value"]) * 10e-7))] = temp
except:
logging.error('**error** get_strike_list read problem...')
return self.api.strike_list, None
return self.api.strike_list, ans
def subscribe_strike_list(self, ACTIVE, expiration_period):
self.api.subscribe_instrument_quites_generated(ACTIVE,
expiration_period)
def unsubscribe_strike_list(self, ACTIVE, expiration_period):
del self.api.instrument_quites_generated_data[ACTIVE]
self.api.unsubscribe_instrument_quites_generated(
ACTIVE, expiration_period)
def get_realtime_strike_list(self, ACTIVE, duration):
while True:
if not self.api.instrument_quites_generated_data[ACTIVE][duration *
60]:
pass
else:
break
"""
strike_list dict: price:{call:id,put:id}
"""
ans = {}
now_timestamp = self.api.instrument_quites_generated_timestamp[ACTIVE][
duration * 60]
while ans == {}:
if self.get_realtime_strike_list_temp_data == {} or now_timestamp != self.get_realtime_strike_list_temp_expiration:
raw_data, strike_list = self.get_strike_list(ACTIVE, duration)
self.get_realtime_strike_list_temp_expiration = raw_data[
"msg"]["expiration"]
self.get_realtime_strike_list_temp_data = strike_list
else:
strike_list = self.get_realtime_strike_list_temp_data
profit = self.api.instrument_quites_generated_data[ACTIVE][duration
* 60]
for price_key in strike_list:
try:
side_data = {}
for side_key in strike_list[price_key]:
detail_data = {}
profit_d = profit[strike_list[price_key][side_key]]
detail_data["profit"] = profit_d
detail_data["id"] = strike_list[price_key][side_key]
side_data[side_key] = detail_data
ans[price_key] = side_data
except:
pass
return ans
def get_digital_current_profit(self, ACTIVE, duration):
profit = self.api.instrument_quites_generated_data[ACTIVE][duration *
60]
for key in profit:
if key.find("SPT") != -1:
return profit[key]
return False
#thank thiagottjv
#https://github.com/Lu-Yi-Hsun/iqoptionapi/issues/65#issuecomment-513998357
def buy_digital_spot(self, active, amount, action, duration):
#Expiration time need to be formatted like this: YYYYMMDDHHII
#And need to be on GMT time
#Type - P or C
if action == 'put':
action = 'P'
elif action == 'call':
action = 'C'
else:
logging.error('buy_digital_spot active error')
return -1
#doEURUSD201907191250PT5MPSPT
timestamp = int(self.api.timesync.server_timestamp)
if duration == 1:
exp, _ = get_expiration_time(timestamp, duration)
else:
now_date = datetime.fromtimestamp(timestamp) + timedelta(
minutes=1, seconds=30)
while True:
if now_date.minute % duration == 0 and time.mktime(
now_date.timetuple()) - timestamp > 30:
break
now_date = now_date + timedelta(minutes=1)
exp = time.mktime(now_date.timetuple())
dateFormated = str(
datetime.utcfromtimestamp(exp).strftime("%Y%m%d%H%M"))
instrument_id = "do" + active + dateFormated + "PT" + str(
duration) + "M" + action + "SPT"
self.api.digital_option_placed_id = None
self.api.place_digital_option(instrument_id, amount)
while self.api.digital_option_placed_id == None:
pass
return self.api.digital_option_placed_id
def buy_digital(self, amount, instrument_id):
self.api.digital_option_placed_id = None
self.api.place_digital_option(instrument_id, amount)
start_t = time.time()
while self.api.digital_option_placed_id == None:
if time.time() - start_t > 30:
logging.error('buy_digital loss digital_option_placed_id')
return False, None
return True, self.api.digital_option_placed_id
def close_digital_option(self, position_id):
self.api.result = None
while self.get_async_order(position_id) == None:
pass
position_changed = self.get_async_order(position_id)
self.api.close_digital_option(position_changed["id"])
while self.api.result == None:
pass
return self.api.result
def check_win_digital(self, buy_order_id):
data = self.get_digital_position(buy_order_id)
if data["msg"]["position"]["status"] == "closed":
if data["msg"]["position"]["close_reason"] == "default":
return True, data["msg"]["position"]["pnl_realized"]
elif data["msg"]["position"]["close_reason"] == "expired":
return True, data["msg"]["position"]["pnl_realized"] - data[
"msg"]["position"]["buy_amount"]
else:
return False, None
def check_win_digital_v2(self, buy_order_id):
order_data = self.get_async_order(buy_order_id)
if order_data != None:
if order_data["status"] == "closed":
if order_data["close_reason"] == "expired":
if order_data["close_effect_amount"] == 0:
return True, -1 * max(order_data["buy_amount"],
order_data["sell_amount"])
else:
return True, order_data["close_effect_amount"] - max(
order_data["buy_amount"],
order_data["sell_amount"])
elif order_data["close_reason"] == "default":
return True, order_data["pnl_realized_enrolled"]
else:
return False, None
else:
return False, None
# ----------------------------------------------------------
# -----------------BUY_for__Forex__&&__stock(cfd)__&&__ctrpto
def buy_order(self,
instrument_type,
instrument_id,
side,
amount,
leverage,
type,
limit_price=None,
stop_price=None,
stop_lose_kind=None,
stop_lose_value=None,
take_profit_kind=None,
take_profit_value=None,
use_trail_stop=False,
auto_margin_call=False,
use_token_for_commission=False):
self.api.buy_order_id = None
self.api.buy_order(instrument_type=instrument_type,
instrument_id=instrument_id,
side=side,
amount=amount,
leverage=leverage,
type=type,
limit_price=limit_price,
stop_price=stop_price,
stop_lose_value=stop_lose_value,
stop_lose_kind=stop_lose_kind,
take_profit_value=take_profit_value,
take_profit_kind=take_profit_kind,
use_trail_stop=use_trail_stop,
auto_margin_call=auto_margin_call,
use_token_for_commission=use_token_for_commission)
while self.api.buy_order_id == None:
pass
check, data = self.get_order(self.api.buy_order_id)
while data["status"] == "pending_new":
check, data = self.get_order(self.api.buy_order_id)
time.sleep(1)
if check:
if data["status"] != "rejected":
return True, self.api.buy_order_id
else:
return False, None
else:
return False, None
def change_auto_margin_call(self, ID_Name, ID, auto_margin_call):
self.api.auto_margin_call_changed_respond = None
self.api.change_auto_margin_call(ID_Name, ID, auto_margin_call)
while self.api.auto_margin_call_changed_respond == None:
pass
if self.api.auto_margin_call_changed_respond["status"] == 2000:
return True, self.api.auto_margin_call_changed_respond
else:
return False, self.api.auto_margin_call_changed_respond
def change_order(self, ID_Name, order_id, stop_lose_kind, stop_lose_value,
take_profit_kind, take_profit_value, use_trail_stop,
auto_margin_call):
check = True
if ID_Name == "position_id":
check, order_data = self.get_order(order_id)
position_id = order_data["position_id"]
ID = position_id
elif ID_Name == "order_id":
ID = order_id
else:
logging.error('change_order input error ID_Name')
if check:
self.api.tpsl_changed_respond = None
self.api.change_order(ID_Name=ID_Name,
ID=ID,
stop_lose_kind=stop_lose_kind,
stop_lose_value=stop_lose_value,
take_profit_kind=take_profit_kind,
take_profit_value=take_profit_value,
use_trail_stop=use_trail_stop)
self.change_auto_margin_call(ID_Name=ID_Name,
ID=ID,
auto_margin_call=auto_margin_call)
while self.api.tpsl_changed_respond == None:
pass
if self.api.tpsl_changed_respond["status"] == 2000:
return True, self.api.tpsl_changed_respond["msg"]
else:
return False, self.api.tpsl_changed_respond
else:
logging.error('change_order fail to get position_id')
return False, None
def get_async_order(self, buy_order_id):
if buy_order_id in self.api.position_changed_data:
return self.api.position_changed_data[buy_order_id]
elif buy_order_id in self.api.microserviceName_binary_options_name_option:
return self.api.microserviceName_binary_options_name_option[
buy_order_id]
else:
return None
def get_order(self, buy_order_id):
# self.api.order_data["status"]
# reject:you can not get this order
# pending_new:this order is working now
# filled:this order is ok now
# new
self.api.order_data = None
self.api.get_order(buy_order_id)
while self.api.order_data == None:
pass
if self.api.order_data["status"] == 2000:
return True, self.api.order_data["msg"]
else:
return False, None
def get_pending(self, instrument_type):
self.api.deferred_orders = None
self.api.get_pending(instrument_type)
while self.api.deferred_orders == None:
pass
if self.api.deferred_orders["status"] == 2000:
return True, self.api.deferred_orders["msg"]
else:
return False, None
# this function is heavy
def get_positions(self, instrument_type):
self.api.positions = None
self.api.get_positions(instrument_type)
while self.api.positions == None:
pass
if self.api.positions["status"] == 2000:
return True, self.api.positions["msg"]
else:
return False, None
def get_position(self, buy_order_id):
self.api.position = None
check, order_data = self.get_order(buy_order_id)
position_id = order_data["position_id"]
self.api.get_position(position_id)
while self.api.position == None:
pass
if self.api.position["status"] == 2000:
return True, self.api.position["msg"]
else:
return False, None
# this function is heavy
def get_digital_position(self, order_id):
self.api.position = None
while self.get_async_order(order_id) == None:
pass
position_id = self.get_async_order(order_id)["id"]
self.api.get_digital_position(position_id)
while self.api.position == None:
pass
return self.api.position
def get_position_history(self, instrument_type):
self.api.position_history = None
self.api.get_position_history(instrument_type)
while self.api.position_history == None:
pass
if self.api.position_history["status"] == 2000:
return True, self.api.position_history["msg"]
else:
return False, None
def get_position_history_v2(self, instrument_type, limit, offset, start,
end):
#instrument_type=crypto forex fx-option multi-option cfd digital-option turbo-option
self.api.position_history_v2 = None
self.api.get_position_history_v2(instrument_type, limit, offset, start,
end)
while self.api.position_history_v2 == None:
pass
if self.api.position_history_v2["status"] == 2000:
return True, self.api.position_history_v2["msg"]
else:
return False, None
def get_available_leverages(self, instrument_type, actives):
self.api.available_leverages = None
self.api.get_available_leverages(instrument_type,
OP_code.ACTIVES[actives])
while self.api.available_leverages == None:
pass
if self.api.available_leverages["status"] == 2000:
return True, self.api.available_leverages["msg"]
else:
return False, None
def cancel_order(self, buy_order_id):
self.api.order_canceled = None
self.api.cancel_order(buy_order_id)
while self.api.order_canceled == None:
pass
if self.api.order_canceled["status"] == 2000:
return True
else:
return False
def close_position(self, position_id):
check, data = self.get_order(position_id)
if data["position_id"] != None:
self.api.close_position_data = None
self.api.close_position(data["position_id"])
while self.api.close_position_data == None:
pass
if self.api.close_position_data["status"] == 2000:
return True
else:
return False
else:
return False
def close_position_v2(self, position_id):
while self.get_async_order(position_id) == None:
pass
position_changed = self.get_async_order(position_id)
self.api.close_position(position_changed["id"])
while self.api.close_position_data == None:
pass
if self.api.close_position_data["status"] == 2000:
return True
else:
return False
def get_overnight_fee(self, instrument_type, active):
self.api.overnight_fee = None
self.api.get_overnight_fee(instrument_type, OP_code.ACTIVES[active])
while self.api.overnight_fee == None:
pass
if self.api.overnight_fee["status"] == 2000:
return True, self.api.overnight_fee["msg"]
else:
return False, None
class IQ_Option:
__version__ = "2.1.1"
def __init__(self, email, password):
self.size = [
1, 5, 10, 15, 30, 60, 120, 300, 600, 900, 1800, 3600, 7200, 14400,
28800, 43200, 86400, 604800, 2592000
]
self.email = email
self.password = password
self.suspend = 0.5
self.thread = None
self.subscribe_candle = []
self.subscribe_candle_all_size = []
self.subscribe_mood = []
#--start
self.connect()
self.update_ACTIVES_OPCODE()
self.get_balance_id()
def get_server_time(self):
return self.api.timesync.server_timestamp
def connect(self):
while True:
try:
self.api.close()
except:
pass
#logging.error('**warning** self.api.close() fail')
self.api = IQOptionAPI("iqoption.com", self.email, self.password)
check = None
try:
check = self.api.connect()
except:
logging.error('**error** connect() fail')
if check == True:
#-------------reconnect subscribe_candle
try:
for ac in self.subscribe_candle:
sp = ac.split(",")
self.start_candles_one_stream(sp[0], sp[1])
except:
pass
#-----------------
try:
for ac in self.subscribe_candle_all_size:
self.start_candles_all_size_stream(ac)
except:
pass
#-------------reconnect subscribe_mood
try:
for ac in self.subscribe_mood:
self.start_mood_stream(ac)
except:
pass
break
time.sleep(self.suspend * 2)
def check_connect(self):
#True/False
return self.api.websocket_alive()
#wait for timestamp getting
#_________________________UPDATE ACTIVES OPCODE_____________________
def get_all_ACTIVES_OPCODE(self):
return OP_code.ACTIVES
def update_ACTIVES_OPCODE(self):
#update from binary option
self.get_ALL_Binary_ACTIVES_OPCODE()
#crypto /dorex/cfd
self.get_all_instruments()
dicc = {}
for lis in sorted(OP_code.ACTIVES.items(), key=operator.itemgetter(1)):
dicc[lis[0]] = lis[1]
OP_code.ACTIVES = dicc
def instruments_input(self, types):
time.sleep(self.suspend)
self.api.instruments = None
while self.api.instruments == None:
try:
self.api.get_instruments(types)
start = time.time()
while self.api.instruments == None and time.time() - start < 10:
pass
except:
logging.error('**error** api.get_instruments need reconnect')
self.connect()
for ins in self.api.instruments["instruments"]:
OP_code.ACTIVES[ins["id"]] = ins["active_id"]
def get_all_instruments(self):
self.instruments_input("crypto")
self.instruments_input("forex")
self.instruments_input("cfd")
def get_ALL_Binary_ACTIVES_OPCODE(self):
init_info = self.get_all_init()
for i in init_info["result"]["binary"]["actives"]:
OP_code.ACTIVES[(init_info["result"]["binary"]["actives"][i]
["name"]).split(".")[1]] = int(i)
#_________________________self.api.get_api_option_init_all() wss______________________
def get_all_init(self):
self.api.api_option_init_all_result = None
while True:
try:
self.api.get_api_option_init_all()
start = time.time()
while True:
if time.time() - start > 30:
logging.error('**warning** get_all_init late 30 sec')
break
try:
if self.api.api_option_init_all_result != None:
break
except:
time.sleep(self.suspend * 5)
break
if self.api.api_option_init_all_result["isSuccessful"] == True:
break
except:
logging.error('**error** get_all_init need reconnect')
self.connect()
return self.api.api_option_init_all_result
#return OP_code.ACTIVES
def get_profit(self, ACTIVES):
init_info = self.get_all_init()
return (100.0 - init_info["result"]["turbo"]["actives"][str(
OP_code.ACTIVES[ACTIVES])]["option"]["profit"]["commission"]
) / 100.0
def get_all_profit(self):
all_profit = {}
init_info = self.get_all_init()
for active in OP_code.ACTIVES:
try:
prof = (100.0 - init_info["result"]["turbo"]["actives"][str(
OP_code.ACTIVES[active])]["option"]["profit"]["commission"]
) / 100.0
all_profit[active] = prof
except:
pass
return all_profit
#______________________________________self.api.getprofile() https________________________________
def get_profile(self):
while True:
try:
respon = self.api.getprofile().json()
time.sleep(self.suspend)
if respon["isSuccessful"] == True:
return respon
except:
logging.error('**error** get_profile try reconnect')
self.connect()
def get_balance_id(self):
self.api.profile.balance_id = None
while True:
try:
respon = self.get_profile()
self.api.profile.balance_id = respon["result"]["balance_id"]
break
except:
logging.error('**error** get_balance()')
time.sleep(self.suspend)
return self.api.profile.balance
def get_balance(self):
self.api.profile.balance = None
while True:
try:
respon = self.get_profile()
self.api.profile.balance = respon["result"]["balance"]
break
except:
logging.error('**error** get_balance()')
time.sleep(self.suspend)
return self.api.profile.balance
def get_balances(self):
#self.api.profile.balance=None
while True:
try:
respon = self.get_profile()
self.api.profile.balances = respon["result"]["balances"]
break
except:
logging.error('**error** get_balances()')
pass
time.sleep(self.suspend)
return self.api.profile.balances
def get_balance_mode(self):
#self.api.profile.balance_type=None
while True:
try:
respon = self.get_profile()
self.api.profile.balance_type = respon["result"][
"balance_type"]
break
except:
logging.error('**error** get_balance_mode()')
pass
time.sleep(self.suspend)
if self.api.profile.balance_type == 1:
return "REAL"
elif self.api.profile.balance_type == 4:
return "PRACTICE"
def change_balance(self, Balance_MODE):
real_id = None
practice_id = None
while True:
try:
self.get_balances()
for accunt in self.api.profile.balances:
if accunt["type"] == 1:
real_id = accunt["id"]
if accunt["type"] == 4:
practice_id = accunt["id"]
break
except:
logging.error('**error** change_balance()')
pass
while self.get_balance_mode() != Balance_MODE:
if Balance_MODE == "REAL":
self.api.changebalance(real_id)
elif Balance_MODE == "PRACTICE":
self.api.changebalance(practice_id)
else:
print("ERROR doesn't have this mode")
exit(1)
#________________________________________________________________________
#_______________________ CANDLE _____________________________
#________________________self.api.getcandles() wss________________________
def get_candles(self, ACTIVES, interval, count, endtime):
self.api.candles.candles_data = None
while True:
try:
self.api.getcandles(OP_code.ACTIVES[ACTIVES], interval, count,
endtime)
while self.check_connect and self.api.candles.candles_data == None:
pass
if self.api.candles.candles_data != None:
break
except:
logging.error('**error** get_candles need reconnect')
self.connect()
return self.api.candles.candles_data
#######################################################
#______________________________________________________
#_____________________REAL TIME CANDLE_________________
#______________________________________________________
#######################################################
def start_candles_stream(self, ACTIVE, size, maxdict):
if size == "all":
for s in self.size:
self.full_realtime_get_candle(ACTIVE, s, maxdict)
self.api.real_time_candles_maxdict_table[ACTIVE][s] = maxdict
self.start_candles_all_size_stream(ACTIVE)
elif size in self.size:
self.api.real_time_candles_maxdict_table[ACTIVE][size] = maxdict
self.full_realtime_get_candle(ACTIVE, size, maxdict)
self.start_candles_one_stream(ACTIVE, size)
else:
logging.error(
'**error** start_candles_stream please input right size')
def stop_candles_stream(self, ACTIVE, size):
if size == "all":
self.stop_candles_all_size_stream(ACTIVE)
elif size in self.size:
self.stop_candles_one_stream(ACTIVE, size)
else:
logging.error(
'**error** start_candles_stream please input right size')
def get_realtime_candles(self, ACTIVE, size):
if size == "all":
try:
return self.api.real_time_candles[ACTIVE]
except:
logging.error(
'**error** get_realtime_candles() size="all" can not get candle'
)
return False
elif size in self.size:
try:
return self.api.real_time_candles[ACTIVE][size]
except:
logging.error('**error** get_realtime_candles() size=' +
str(size) + ' can not get candle')
return False
else:
logging.error(
'**error** get_realtime_candles() please input right "size"')
def get_all_realtime_candles(self):
return self.api.real_time_candles
################################################
#---------REAL TIME CANDLE Subset Function---------
################################################
#---------------------full dict get_candle-----------------------
def full_realtime_get_candle(self, ACTIVE, size, maxdict):
candles = self.get_candles(ACTIVE, size, maxdict,
self.api.timesync.server_timestamp)
for can in candles:
self.api.real_time_candles[str(ACTIVE)][int(size)][
can["from"]] = can
#------------------------Subscribe ONE SIZE-----------------------
def start_candles_one_stream(self, ACTIVE, size):
if (str(ACTIVE + "," + str(size)) in self.subscribe_candle) == False:
self.subscribe_candle.append((ACTIVE + "," + str(size)))
start = time.time()
self.api.candle_generated_check[str(ACTIVE)][int(size)] = {}
while True:
if time.time() - start > 20:
logging.error(
'**error** start_candles_one_stream late for 20 sec')
return False
try:
if self.api.candle_generated_check[str(ACTIVE)][int(
size)] == True:
return True
except:
pass
try:
self.api.subscribe(OP_code.ACTIVES[ACTIVE], size)
except:
logging.error('**error** start_candles_stream reconnect')
self.connect()
time.sleep(1)
def stop_candles_one_stream(self, ACTIVE, size):
if ((ACTIVE + "," + str(size)) in self.subscribe_candle) == True:
self.subscribe_candle.remove(ACTIVE + "," + str(size))
while True:
try:
if self.api.candle_generated_check[str(ACTIVE)][int(
size)] == {}:
return True
except:
pass
self.api.candle_generated_check[str(ACTIVE)][int(size)] = {}
self.api.unsubscribe(OP_code.ACTIVES[ACTIVE], size)
time.sleep(self.suspend * 10)
#------------------------Subscribe ALL SIZE-----------------------
def start_candles_all_size_stream(self, ACTIVE):
self.api.candle_generated_all_size_check[str(ACTIVE)] = {}
if (str(ACTIVE) in self.subscribe_candle_all_size) == False:
self.subscribe_candle_all_size.append(str(ACTIVE))
start = time.time()
while True:
if time.time() - start > 20:
logging.error('**error** fail ' + ACTIVE +
' start_candles_all_size_stream late for 10 sec')
return False
try:
if self.api.candle_generated_all_size_check[str(
ACTIVE)] == True:
return True
except:
pass
try:
self.api.subscribe_all_size(OP_code.ACTIVES[ACTIVE])
except:
logging.error(
'**error** start_candles_all_size_stream reconnect')
self.connect()
time.sleep(1)
def stop_candles_all_size_stream(self, ACTIVE):
if (str(ACTIVE) in self.subscribe_candle_all_size) == True:
self.subscribe_candle_all_size.remove(str(ACTIVE))
while True:
try:
if self.api.candle_generated_all_size_check[str(ACTIVE)] == {}:
break
except:
pass
self.api.candle_generated_all_size_check[str(ACTIVE)] = {}
self.api.unsubscribe_all_size(OP_code.ACTIVES[ACTIVE])
time.sleep(self.suspend * 10)
#---------------------------------------------------------------------
################################################
################################################
#-----------------------------------------------
#-----------------traders_mood----------------------
def start_mood_stream(self, ACTIVES):
if ACTIVES in self.subscribe_mood == False:
self.subscribe_mood.append(ACTIVES)
while True:
self.api.subscribe_Traders_mood(OP_code.ACTIVES[ACTIVES])
try:
self.api.traders_mood[OP_code.ACTIVES[ACTIVES]]
break
except:
time.sleep(1)
def stop_mood_stream(self, ACTIVES):
if ACTIVES in self.subscribe_mood == True:
del self.subscribe_mood[ACTIVES]
self.api.unsubscribe_Traders_mood(OP_code.ACTIVES[ACTIVES])
def get_traders_mood(self, ACTIVES):
#return highter %
return self.api.traders_mood[OP_code.ACTIVES[ACTIVES]]
def get_all_traders_mood(self):
#return highter %
return self.api.traders_mood
##############################################################################################
def check_win(self, id_number):
#'win':win money 'equal':no win no loose 'loose':loose money
while True:
try:
listinfodata_dict = self.api.listinfodata.get(id_number)
if listinfodata_dict["game_state"] == 1:
break
except:
pass
self.api.listinfodata.delete(id_number)
return listinfodata_dict["win"]
def check_win_v2(self, id_number):
while True:
check, data = self.get_betinfo(id_number)
if check:
return data[str(id_number)]["win"]
time.sleep(self.suspend)
def get_betinfo(self, id_number):
#INPUT:int
while True:
self.api.game_betinfo.isSuccessful = None
start = time.time()
try:
self.api.get_betinfo(id_number)
except:
logging.error(
'**error** def get_betinfo self.api.get_betinfo reconnect'
)
self.connect()
while self.api.game_betinfo.isSuccessful == None:
if time.time() - start > 10:
logging.error(
'**error** get_betinfo time out need reconnect')
self.connect()
self.api.get_betinfo(id_number)
time.sleep(self.suspend * 10)
if self.api.game_betinfo.isSuccessful == True:
return self.api.game_betinfo.isSuccessful, self.api.game_betinfo.dict
else:
return self.api.game_betinfo.isSuccessful, None
time.sleep(self.suspend * 10)
#__________________________BUY__________________________
#__________________FOR OPTION____________________________
def buy(self, price, ACTIVES, ACTION, expirations, force_buy=True):
self.api.buy_successful == None
while True:
while True:
try:
self.api.buy(price, OP_code.ACTIVES[ACTIVES], ACTION,
expirations)
break
except:
if force_buy == False:
return (False, None)
logging.error('self.api.buy error')
self.connect()
pass
start = time.time()
while self.api.buy_successful == None:
if time.time() - start > 60:
logging.error('check buy_successful time late 60sec')
break
if self.api.buy_successful:
return (True, self.api.buy_id)
else:
if force_buy == False:
return (False, None)
logging.error('**error** buy error...')
self.connect()
#__________________for digit_____________
def get_strike_list_data(self, ACTIVES, expirations):
try:
self.api.strike_list.del_data(ACTIVES, expirations)
except:
pass
while True:
self.api.get_strike_list(ACTIVES, expirations)
all_strike_list_data = self.api.strike_list.get_All_data()
try:
return all_strike_list_data[str(ACTIVES), str(expirations)]
except:
pass
time.sleep(self.suspend * 3)
def buy_digit(self, price, direction, instrument_id):
self.api.digit_buy(price, direction, instrument_id)
#----------------------------------------------------------
#-----------------BUY_for__Forex__&&__stock(cfd)__&&__ctrpto
def buy_order(self, instrument_type, instrument_id, side, type, amount,
limit_price, leverage, stop_lose_price, take_profit_price):
self.api.buy_order_id = None
self.api.buy_order(instrument_type=instrument_type,
instrument_id=instrument_id,
side=side,
type=type,
amount=amount,
limit_price=limit_price,
stop_price=0,
leverage=leverage,
stop_lose_price=stop_lose_price,
take_profit_price=take_profit_price)
while self.api.buy_order_id == None:
pass
check, data = self.get_order(self.api.buy_order_id)
while data["status"] == "pending_new":
check, data = self.get_order(self.api.buy_order_id)
time.sleep(1)
if check:
if data["status"] != "rejected":
return True, self.api.buy_order_id
else:
return False, None
else:
return False, None
def get_order(self, buy_order_id):
#self.api.order_data["status"]
#reject:you can not get this order
#pending_new:this order is working now
#filled:this order is ok now
#new
self.api.order_data = None
self.api.get_order(buy_order_id)
while self.api.order_data == None:
pass
if self.api.order_data["status"] == 2000:
return True, self.api.order_data["msg"]
else:
return False, None
#this function is heavy
def get_positions(self, instrument_type):
self.api.positions = None
self.api.get_positions(instrument_type)
while self.api.positions == None:
pass
if self.api.positions["status"] == 2000:
return True, self.api.positions["msg"]
else:
return False, None
#this function is heavy
def get_position_history(self, instrument_type):
self.api.position_history = None
self.api.get_position_history(instrument_type)
while self.api.position_history == None:
pass
if self.api.position_history["status"] == 2000:
return True, self.api.position_history["msg"]
else:
return False, None
def get_available_leverages(self, instrument_type, actives):
self.api.available_leverages = None
self.api.get_available_leverages(instrument_type,
OP_code.ACTIVES[actives])
while self.api.available_leverages == None:
pass
if self.api.available_leverages["status"] == 2000:
return True, self.api.available_leverages["msg"]
else:
return False, None
def cancel_order(self, buy_order_id):
self.api.order_canceled = None
self.api.cancel_order(buy_order_id)
while self.api.order_canceled == None:
pass
if self.api.order_canceled["status"] == 2000:
return True
else:
return False
def close_position(self, buy_order_id):
check, data = self.get_order(buy_order_id)
if data["position_id"] != None:
self.api.close_position_data = None
self.api.close_position(data["position_id"])
while self.api.close_position_data == None:
pass
if self.api.close_position_data["status"] == 2000:
return True
else:
return False
else:
return False
def get_overnight_fee(self, instrument_type, active):
self.api.overnight_fee = None
self.api.get_overnight_fee(instrument_type, OP_code.ACTIVES[active])
while self.api.overnight_fee == None:
pass
if self.api.overnight_fee["status"] == 2000:
return True, self.api.overnight_fee["msg"]
else:
return False, None
class IQ_Option:
__version__ = "3.6.4"
def __init__(self, email, password):
self.size = [
1, 5, 10, 15, 30, 60, 120, 300, 600, 900, 1800, 3600, 7200, 14400,
28800, 43200, 86400, 604800, 2592000
]
self.email = email
self.password = password
self.suspend = 0.5
self.thread = None
self.subscribe_candle = []
self.subscribe_candle_all_size = []
self.subscribe_mood = []
# for digit
self.get_realtime_strike_list_temp_data = {}
self.get_realtime_strike_list_temp_expiration = 0
#
self.max_reconnect = 5
self.connect_count = 0
# --start
self.connect()
# self.update_ACTIVES_OPCODE() this auto function delay too long
self.get_balance_id()
# --------------------------------------------------------------------------
def get_server_timestamp(self):
return self.api.timesync.server_timestamp
def set_max_reconnect(self, number):
self.max_reconnect = number
def connect(self):
while True:
try:
self.api.close()
except:
pass
#logging.error('**warning** self.api.close() fail')
if self.connect_count < self.max_reconnect:
self.api = IQOptionAPI("iqoption.com", self.email,
self.password)
check = None
try:
check = self.api.connect()
except:
logging.error('**error** connect() fail')
if check == True:
# -------------reconnect subscribe_candle
try:
for ac in self.subscribe_candle:
sp = ac.split(",")
self.start_candles_one_stream(sp[0], sp[1])
except:
pass
# -----------------
try:
for ac in self.subscribe_candle_all_size:
self.start_candles_all_size_stream(ac)
except:
pass
# -------------reconnect subscribe_mood
try:
for ac in self.subscribe_mood:
self.start_mood_stream(ac)
except:
pass
break
time.sleep(self.suspend * 2)
self.connect_count = self.connect_count + 1
else:
logging.error(
'**error** reconnect() too many time please look log file')
exit(1)
def check_connect(self):
# True/False
idle_time = abs(self.api.timesync.server_timestamp - time.time())
if idle_time > 6:
return False
else:
return True
# wait for timestamp getting
# _________________________UPDATE ACTIVES OPCODE_____________________
def get_all_ACTIVES_OPCODE(self):
return OP_code.ACTIVES
def update_ACTIVES_OPCODE(self):
# update from binary option
self.get_ALL_Binary_ACTIVES_OPCODE()
#crypto /dorex/cfd
self.instruments_input_all_in_ACTIVES()
dicc = {}
for lis in sorted(OP_code.ACTIVES.items(), key=operator.itemgetter(1)):
dicc[lis[0]] = lis[1]
OP_code.ACTIVES = dicc
def get_name_by_activeId(self, activeId):
info = self.get_financial_information(activeId)
try:
return info["msg"]["data"]["active"]["name"]
except:
return None
def get_financial_information(self, activeId):
self.api.financial_information = None
self.api.get_financial_information(activeId)
while self.api.financial_information == None:
pass
return self.api.financial_information
def get_instruments(self, type):
#type="crypto"/"forex"/"cfd"
time.sleep(self.suspend)
self.api.instruments = None
while self.api.instruments == None:
try:
self.api.get_instruments(type)
start = time.time()
while self.api.instruments == None and time.time() - start < 10:
pass
except:
logging.error('**error** api.get_instruments need reconnect')
self.connect()
return self.api.instruments
def instruments_input_to_ACTIVES(self, type):
instruments = self.get_instruments(type)
for ins in instruments["instruments"]:
OP_code.ACTIVES[ins["id"]] = ins["active_id"]
def instruments_input_all_in_ACTIVES(self):
self.instruments_input_to_ACTIVES("crypto")
self.instruments_input_to_ACTIVES("forex")
self.instruments_input_to_ACTIVES("cfd")
def get_ALL_Binary_ACTIVES_OPCODE(self):
init_info = self.get_all_init()
for i in init_info["result"]["binary"]["actives"]:
OP_code.ACTIVES[(init_info["result"]["binary"]["actives"][i]
["name"]).split(".")[1]] = int(i)
# _________________________self.api.get_api_option_init_all() wss______________________
def get_all_init(self):
while True:
self.api.api_option_init_all_result = None
while True:
try:
self.api.get_api_option_init_all()
break
except:
logging.error('**error** get_all_init need reconnect')
self.connect()
time.sleep(5)
start = time.time()
while True:
if time.time() - start > 30:
logging.error('**warning** get_all_init late 30 sec')
break
try:
if self.api.api_option_init_all_result != None:
break
except:
pass
try:
if self.api.api_option_init_all_result["isSuccessful"] == True:
return self.api.api_option_init_all_result
except:
pass
# return OP_code.ACTIVES
# --------for binary option detail
def get_binary_option_detail(self):
detail = nested_dict(2, dict)
init_info = self.get_all_init()
for actives in init_info["result"]["turbo"]["actives"]:
name = init_info["result"]["turbo"]["actives"][actives]["name"]
name = name[name.index(".") + 1:len(name)]
detail[name]["turbo"] = init_info["result"]["turbo"]["actives"][
actives]
for actives in init_info["result"]["binary"]["actives"]:
name = init_info["result"]["binary"]["actives"][actives]["name"]
name = name[name.index(".") + 1:len(name)]
detail[name]["binary"] = init_info["result"]["binary"]["actives"][
actives]
return detail
def get_all_profit(self):
all_profit = nested_dict(2, dict)
init_info = self.get_all_init()
for actives in init_info["result"]["turbo"]["actives"]:
name = init_info["result"]["turbo"]["actives"][actives]["name"]
name = name[name.index(".") + 1:len(name)]
all_profit[name]["turbo"] = (100.0 - init_info["result"]["turbo"][
"actives"][actives]["option"]["profit"]["commission"]) / 100.0
for actives in init_info["result"]["binary"]["actives"]:
name = init_info["result"]["binary"]["actives"][actives]["name"]
name = name[name.index(".") + 1:len(name)]
all_profit[name]["binary"] = (
100.0 - init_info["result"]["binary"]["actives"][actives]
["option"]["profit"]["commission"]) / 100.0
return all_profit
# ----------------------------------------
# ______________________________________self.api.getprofile() https________________________________
def get_profile(self):
while True:
try:
respon = self.api.getprofile().json()
time.sleep(self.suspend)
if respon["isSuccessful"] == True:
return respon
except:
logging.error('**error** get_profile try reconnect')
self.connect()
def get_balance_id(self):
self.api.profile.balance_id = None
while True:
try:
respon = self.get_profile()
self.api.profile.balance_id = respon["result"]["balance_id"]
break
except:
logging.error('**error** get_balance()')
time.sleep(self.suspend)
return self.api.profile.balance
def get_balance(self):
self.api.profile.balance = None
while True:
try:
respon = self.get_profile()
self.api.profile.balance = respon["result"]["balance"]
break
except:
logging.error('**error** get_balance()')
time.sleep(self.suspend)
return self.api.profile.balance
def get_balances(self):
# self.api.profile.balance=None
while True:
try:
respon = self.get_profile()
self.api.profile.balances = respon["result"]["balances"]
break
except:
logging.error('**error** get_balances()')
pass
time.sleep(self.suspend)
return self.api.profile.balances
def get_balance_mode(self):
# self.api.profile.balance_type=None
while True:
try:
respon = self.get_profile()
self.api.profile.balance_type = respon["result"][
"balance_type"]
break
except:
logging.error('**error** get_balance_mode()')
pass
time.sleep(self.suspend)
if self.api.profile.balance_type == 1:
return "REAL"
elif self.api.profile.balance_type == 4:
return "PRACTICE"
def change_balance(self, Balance_MODE):
real_id = None
practice_id = None
while True:
try:
self.get_balances()
for accunt in self.api.profile.balances:
if accunt["type"] == 1:
real_id = accunt["id"]
if accunt["type"] == 4:
practice_id = accunt["id"]
break
except:
logging.error('**error** change_balance()')
pass
while self.get_balance_mode() != Balance_MODE:
if Balance_MODE == "REAL":
self.api.changebalance(real_id)
elif Balance_MODE == "PRACTICE":
self.api.changebalance(practice_id)
else:
logging.error("ERROR doesn't have this mode")
exit(1)
# ________________________________________________________________________
# _______________________ CANDLE _____________________________
# ________________________self.api.getcandles() wss________________________
def get_candles(self, ACTIVES, interval, count, endtime):
self.api.candles.candles_data = None
while True:
try:
self.api.getcandles(OP_code.ACTIVES[ACTIVES], interval, count,
endtime)
while self.check_connect and self.api.candles.candles_data == None:
pass
if self.api.candles.candles_data != None:
break
except:
logging.error('**error** get_candles need reconnect')
self.connect()
return self.api.candles.candles_data
#######################################################
# ______________________________________________________
# _____________________REAL TIME CANDLE_________________
# ______________________________________________________
#######################################################
def start_candles_stream(self, ACTIVE, size, maxdict):
if size == "all":
for s in self.size:
self.full_realtime_get_candle(ACTIVE, s, maxdict)
self.api.real_time_candles_maxdict_table[ACTIVE][s] = maxdict
self.start_candles_all_size_stream(ACTIVE)
elif size in self.size:
self.api.real_time_candles_maxdict_table[ACTIVE][size] = maxdict
self.full_realtime_get_candle(ACTIVE, size, maxdict)
self.start_candles_one_stream(ACTIVE, size)
else:
logging.error(
'**error** start_candles_stream please input right size')
def stop_candles_stream(self, ACTIVE, size):
if size == "all":
self.stop_candles_all_size_stream(ACTIVE)
elif size in self.size:
self.stop_candles_one_stream(ACTIVE, size)
else:
logging.error(
'**error** start_candles_stream please input right size')
def get_realtime_candles(self, ACTIVE, size):
if size == "all":
try:
return self.api.real_time_candles[ACTIVE]
except:
logging.error(
'**error** get_realtime_candles() size="all" can not get candle'
)
return False
elif size in self.size:
try:
return self.api.real_time_candles[ACTIVE][size]
except:
logging.error('**error** get_realtime_candles() size=' +
str(size) + ' can not get candle')
return False
else:
logging.error(
'**error** get_realtime_candles() please input right "size"')
def get_all_realtime_candles(self):
return self.api.real_time_candles
################################################
# ---------REAL TIME CANDLE Subset Function---------
################################################
# ---------------------full dict get_candle-----------------------
def full_realtime_get_candle(self, ACTIVE, size, maxdict):
candles = self.get_candles(ACTIVE, size, maxdict,
self.api.timesync.server_timestamp)
for can in candles:
self.api.real_time_candles[str(ACTIVE)][int(size)][
can["from"]] = can
# ------------------------Subscribe ONE SIZE-----------------------
def start_candles_one_stream(self, ACTIVE, size):
if (str(ACTIVE + "," + str(size)) in self.subscribe_candle) == False:
self.subscribe_candle.append((ACTIVE + "," + str(size)))
start = time.time()
self.api.candle_generated_check[str(ACTIVE)][int(size)] = {}
while True:
if time.time() - start > 20:
logging.error(
'**error** start_candles_one_stream late for 20 sec')
return False
try:
if self.api.candle_generated_check[str(ACTIVE)][int(
size)] == True:
return True
except:
pass
try:
self.api.subscribe(OP_code.ACTIVES[ACTIVE], size)
except:
logging.error('**error** start_candles_stream reconnect')
self.connect()
time.sleep(1)
def stop_candles_one_stream(self, ACTIVE, size):
if ((ACTIVE + "," + str(size)) in self.subscribe_candle) == True:
self.subscribe_candle.remove(ACTIVE + "," + str(size))
while True:
try:
if self.api.candle_generated_check[str(ACTIVE)][int(
size)] == {}:
return True
except:
pass
self.api.candle_generated_check[str(ACTIVE)][int(size)] = {}
self.api.unsubscribe(OP_code.ACTIVES[ACTIVE], size)
time.sleep(self.suspend * 10)
# ------------------------Subscribe ALL SIZE-----------------------
def start_candles_all_size_stream(self, ACTIVE):
self.api.candle_generated_all_size_check[str(ACTIVE)] = {}
if (str(ACTIVE) in self.subscribe_candle_all_size) == False:
self.subscribe_candle_all_size.append(str(ACTIVE))
start = time.time()
while True:
if time.time() - start > 20:
logging.error('**error** fail ' + ACTIVE +
' start_candles_all_size_stream late for 10 sec')
return False
try:
if self.api.candle_generated_all_size_check[str(
ACTIVE)] == True:
return True
except:
pass
try:
self.api.subscribe_all_size(OP_code.ACTIVES[ACTIVE])
except:
logging.error(
'**error** start_candles_all_size_stream reconnect')
self.connect()
time.sleep(1)
def stop_candles_all_size_stream(self, ACTIVE):
if (str(ACTIVE) in self.subscribe_candle_all_size) == True:
self.subscribe_candle_all_size.remove(str(ACTIVE))
while True:
try:
if self.api.candle_generated_all_size_check[str(ACTIVE)] == {}:
break
except:
pass
self.api.candle_generated_all_size_check[str(ACTIVE)] = {}
self.api.unsubscribe_all_size(OP_code.ACTIVES[ACTIVE])
time.sleep(self.suspend * 10)
# ---------------------------------------------------------------------
################################################
################################################
# -----------------------------------------------
# -----------------traders_mood----------------------
def start_mood_stream(self, ACTIVES):
if ACTIVES in self.subscribe_mood == False:
self.subscribe_mood.append(ACTIVES)
while True:
self.api.subscribe_Traders_mood(OP_code.ACTIVES[ACTIVES])
try:
self.api.traders_mood[OP_code.ACTIVES[ACTIVES]]
break
except:
time.sleep(5)
def stop_mood_stream(self, ACTIVES):
if ACTIVES in self.subscribe_mood == True:
del self.subscribe_mood[ACTIVES]
self.api.unsubscribe_Traders_mood(OP_code.ACTIVES[ACTIVES])
def get_traders_mood(self, ACTIVES):
# return highter %
return self.api.traders_mood[OP_code.ACTIVES[ACTIVES]]
def get_all_traders_mood(self):
# return highter %
return self.api.traders_mood
##############################################################################################
def check_win(self, id_number):
# 'win':win money 'equal':no win no loose 'loose':loose money
while True:
try:
listinfodata_dict = self.api.listinfodata.get(id_number)
if listinfodata_dict["game_state"] == 1:
break
except:
pass
self.api.listinfodata.delete(id_number)
return listinfodata_dict["win"]
def check_win_v2(self, id_number):
while True:
check, data = self.get_betinfo(id_number)
if check:
return data["result"]["data"][str(id_number)]["win"]
time.sleep(self.suspend)
# -------------------get infomation only for binary option------------------------
def get_betinfo(self, id_number):
# INPUT:int
while True:
self.api.game_betinfo.isSuccessful = None
start = time.time()
try:
self.api.get_betinfo(id_number)
except:
logging.error(
'**error** def get_betinfo self.api.get_betinfo reconnect'
)
self.connect()
while self.api.game_betinfo.isSuccessful == None:
if time.time() - start > 10:
logging.error(
'**error** get_betinfo time out need reconnect')
self.connect()
self.api.get_betinfo(id_number)
time.sleep(self.suspend * 10)
if self.api.game_betinfo.isSuccessful == True:
return self.api.game_betinfo.isSuccessful, self.api.game_betinfo.dict
else:
return self.api.game_betinfo.isSuccessful, None
time.sleep(self.suspend * 10)
def get_optioninfo(self, limit):
self.api.api_game_getoptions_result = None
self.api.get_options(limit)
while self.api.api_game_getoptions_result == None:
pass
return self.api.api_game_getoptions_result
# __________________________BUY__________________________
# __________________FOR OPTION____________________________
def buy_multi(self, price, ACTIVES, ACTION, expirations):
self.api.buy_multi_option = {}
if len(price) == len(ACTIVES) == len(ACTION) == len(expirations):
buy_len = len(price)
for idx in range(buy_len):
self.api.buyv3(price[idx], OP_code.ACTIVES[ACTIVES[idx]],
ACTION[idx], expirations[idx], idx)
while len(self.api.buy_multi_option) < buy_len:
pass
buy_id = []
for key in sorted(self.api.buy_multi_option.keys()):
value = self.api.buy_multi_option[key]
buy_id.append(value["id"])
return buy_id
else:
logging.error('buy_multi error please input all same len')
def buy(self, price, ACTIVES, ACTION, expirations, force_buy=False):
self.api.buy_successful = None
self.api.buy_id = None
while True:
while True:
try:
self.api.buy(price, OP_code.ACTIVES[ACTIVES], ACTION,
expirations)
break
except:
logging.error('self.api.buy error')
if force_buy == False:
return (None)
self.connect()
pass
start = time.time()
while self.api.buy_successful == None or self.api.buy_id == None:
if time.time() - start > 60:
logging.error('check buy_successful time late 60sec')
break
if self.api.buy_successful:
return (self.api.buy_id)
else:
if force_buy == False:
return (None)
logging.error('**error** buy error...')
self.connect()
def sell_option(self, options_ids):
self.api.sell_option(options_ids)
self.api.sold_options_respond = None
while self.api.sold_options_respond == None:
pass
return self.api.sold_options_respond
# __________________for Digital___________________
def get_strike_list(self, ACTIVES, duration):
self.api.strike_list = None
self.api.get_strike_list(ACTIVES, duration)
ans = {}
while self.api.strike_list == None:
pass
try:
for data in self.api.strike_list["msg"]["strike"]:
temp = {}
temp["call"] = data["call"]["id"]
temp["put"] = data["put"]["id"]
ans[("%.6f" % (float(data["value"]) * 10e-7))] = temp
except:
logging.error('**error** get_strike_list read problem...')
return self.api.strike_list, None
return self.api.strike_list, ans
def subscribe_strike_list(self, ACTIVE):
self.api.subscribe_instrument_quites_generated(ACTIVE)
def unsubscribe_strike_list(self, ACTIVE):
del self.api.instrument_quites_generated_data[ACTIVE]
self.api.unsubscribe_instrument_quites_generated(ACTIVE)
def get_realtime_strike_list(self, ACTIVE, duration):
while True:
if not self.api.instrument_quites_generated_data[ACTIVE][duration *
60]:
pass
else:
break
"""
strike_list dict: price:{call:id,put:id}
"""
ans = {}
now_timestamp = self.api.instrument_quites_generated_timestamp[ACTIVE][
duration * 60]
while ans == {}:
if self.get_realtime_strike_list_temp_data == {} or now_timestamp != self.get_realtime_strike_list_temp_expiration:
raw_data, strike_list = self.get_strike_list(ACTIVE, duration)
self.get_realtime_strike_list_temp_expiration = raw_data[
"msg"]["expiration"]
self.get_realtime_strike_list_temp_data = strike_list
else:
strike_list = self.get_realtime_strike_list_temp_data
profit = self.api.instrument_quites_generated_data[ACTIVE][duration
* 60]
for price_key in strike_list:
try:
side_data = {}
for side_key in strike_list[price_key]:
detail_data = {}
profit_d = profit[strike_list[price_key][side_key]]
detail_data["profit"] = profit_d
detail_data["id"] = strike_list[price_key][side_key]
side_data[side_key] = detail_data
ans[price_key] = side_data
except:
pass
return ans
def buy_digital(self, amount, instrument_id):
self.api.position_changed = None
return self.buy_order(instrument_type="digital-option",
instrument_id=instrument_id,
side="buy",
type="market",
amount=amount,
limit_price=0,
leverage=1)
def check_win_digital(self, buy_order_id):
check, data = self.get_position(buy_order_id)
if check:
if data["position"]["status"] == "closed":
return True, data["position"]["close_effect_amount"]
else:
return False, None
else:
return False, None
# ----------------------------------------------------------
# -----------------BUY_for__Forex__&&__stock(cfd)__&&__ctrpto
def buy_order(self,
instrument_type,
instrument_id,
side,
amount,
leverage,
type,
limit_price=None,
stop_price=None,
stop_lose_kind=None,
stop_lose_value=None,
take_profit_kind=None,
take_profit_value=None,
use_trail_stop=False,
auto_margin_call=False,
use_token_for_commission=False):
self.api.buy_order_id = None
self.api.buy_order(instrument_type=instrument_type,
instrument_id=instrument_id,
side=side,
amount=amount,
leverage=leverage,
type=type,
limit_price=limit_price,
stop_price=stop_price,
stop_lose_value=stop_lose_value,
stop_lose_kind=stop_lose_kind,
take_profit_value=take_profit_value,
take_profit_kind=take_profit_kind,
use_trail_stop=use_trail_stop,
auto_margin_call=auto_margin_call,
use_token_for_commission=use_token_for_commission)
while self.api.buy_order_id == None:
pass
check, data = self.get_order(self.api.buy_order_id)
while data["status"] == "pending_new":
check, data = self.get_order(self.api.buy_order_id)
time.sleep(1)
if check:
if data["status"] != "rejected":
return True, self.api.buy_order_id
else:
return False, None
else:
return False, None
def change_auto_margin_call(self, ID_Name, ID, auto_margin_call):
self.api.auto_margin_call_changed_respond = None
self.api.change_auto_margin_call(ID_Name, ID, auto_margin_call)
while self.api.auto_margin_call_changed_respond == None:
pass
if self.api.auto_margin_call_changed_respond["status"] == 2000:
return True, self.api.auto_margin_call_changed_respond
else:
return False, self.api.auto_margin_call_changed_respond
def change_order(self, ID_Name, order_id, stop_lose_kind, stop_lose_value,
take_profit_kind, take_profit_value, use_trail_stop,
auto_margin_call):
check = True
if ID_Name == "position_id":
check, order_data = self.get_order(order_id)
position_id = order_data["position_id"]
ID = position_id
elif ID_Name == "order_id":
ID = order_id
else:
logging.error('change_order input error ID_Name')
if check:
self.api.tpsl_changed_respond = None
self.api.change_order(ID_Name=ID_Name,
ID=ID,
stop_lose_kind=stop_lose_kind,
stop_lose_value=stop_lose_value,
take_profit_kind=take_profit_kind,
take_profit_value=take_profit_value,
use_trail_stop=use_trail_stop)
self.change_auto_margin_call(ID_Name=ID_Name,
ID=ID,
auto_margin_call=auto_margin_call)
while self.api.tpsl_changed_respond == None:
pass
if self.api.tpsl_changed_respond["status"] == 2000:
return True, self.api.tpsl_changed_respond["msg"]
else:
return False, self.api.tpsl_changed_respond
else:
logging.error('change_order fail to get position_id')
return False, None
def get_order(self, buy_order_id):
# self.api.order_data["status"]
# reject:you can not get this order
# pending_new:this order is working now
# filled:this order is ok now
# new
self.api.order_data = None
self.api.get_order(buy_order_id)
while self.api.order_data == None:
pass
if self.api.order_data["status"] == 2000:
return True, self.api.order_data["msg"]
else:
return False, None
def get_pending(self, instrument_type):
self.api.deferred_orders = None
self.api.get_pending(instrument_type)
while self.api.deferred_orders == None:
pass
if self.api.deferred_orders["status"] == 2000:
return True, self.api.deferred_orders["msg"]
else:
return False, None
# this function is heavy
def get_positions(self, instrument_type):
self.api.positions = None
self.api.get_positions(instrument_type)
while self.api.positions == None:
pass
if self.api.positions["status"] == 2000:
return True, self.api.positions["msg"]
else:
return False, None
def get_position(self, buy_order_id):
self.api.position = None
check, order_data = self.get_order(buy_order_id)
position_id = order_data["position_id"]
self.api.get_position(position_id)
while self.api.position == None:
pass
if self.api.position["status"] == 2000:
return True, self.api.position["msg"]
else:
return False, None
# this function is heavy
def get_position_history(self, instrument_type):
self.api.position_history = None
self.api.get_position_history(instrument_type)
while self.api.position_history == None:
pass
if self.api.position_history["status"] == 2000:
return True, self.api.position_history["msg"]
else:
return False, None
def get_available_leverages(self, instrument_type, actives):
self.api.available_leverages = None
self.api.get_available_leverages(instrument_type,
OP_code.ACTIVES[actives])
while self.api.available_leverages == None:
pass
if self.api.available_leverages["status"] == 2000:
return True, self.api.available_leverages["msg"]
else:
return False, None
def cancel_order(self, buy_order_id):
self.api.order_canceled = None
self.api.cancel_order(buy_order_id)
while self.api.order_canceled == None:
pass
if self.api.order_canceled["status"] == 2000:
return True
else:
return False
def close_position(self, buy_order_id):
check, data = self.get_order(buy_order_id)
if data["position_id"] != None:
self.api.close_position_data = None
self.api.close_position(data["position_id"])
while self.api.close_position_data == None:
pass
if self.api.close_position_data["status"] == 2000:
return True
else:
return False
else:
return False
def get_overnight_fee(self, instrument_type, active):
self.api.overnight_fee = None
self.api.get_overnight_fee(instrument_type, OP_code.ACTIVES[active])
while self.api.overnight_fee == None:
pass
if self.api.overnight_fee["status"] == 2000:
return True, self.api.overnight_fee["msg"]
else:
return False, None
class IQOption():
def __init__(self, user=userdata.mainUser, active_id="EURUSD"):
self.username = user['username']
self.password = user['password']
self.real = user['real']
self.demo = user['demo']
self.active_id = active_id
self.api = IQOptionAPI("iqoption.com", self.username, self.password)
self.api.connect()
self.setExpirationTime()
self.setActives(self.active_id)
self.api.changebalance(self.demo)
def openPosition(self, direction, amount=1):
while self.api.timesync.server_datetime.second != 0:
sleep(0.5)
self.api.buy(amount, api_constants.ACTIVES[self.active_id], "turbo",
direction)
def getBalance(self):
return self.api.profile.balance
def setExpirationTime(self, time=1):
self.api.timesync.expiration_time = time
def setActives(self, activeID):
self.active_id = activeID
self.api.setactives([api_constants.ACTIVES[self.active_id]])
def getCandles(self, duration=1):
self.api.getcandles(api_constants.ACTIVES[self.active_id], duration)
candles = self.api.candles.candles_data
while not candles:
sleep(0.1)
self.api.getcandles(api_constants.ACTIVES[self.active_id],
duration)
candles = self.api.candles.candles_data
if candles:
# print 'Timestamp: ', datetime.datetime.fromtimestamp(int(candles[-1][0])).strftime('%Y-%m-%d %H:%M:%S')
# print 'Open: ', candles[-1][1]
# print 'Close: ', candles[-1][2]
# print 'High: ', candles[-1][3]
# print 'Low: ', candles[-1][4]
return candles[-3], candles[-2], candles[-1]
else:
print('Invalid Candle!')
return None
def getServerDateTime(self):
print(str(self.api.timesync.server_datetime))
return str(self.api.timesync.server_datetime)
def getExpirationDateTime(self):
print(str(self.api.timesync.expiration_datetime))
return str(self.api.timesync.expiration_datetime)
def getResult(self):
try:
result = self.api.listinfodata.current_listinfodata.win
#print('Result: ' + result)
return result
except:
print('Result Error!')
return None
def changeBalance(self, real=False):
# To enable the real account:
if real:
self.api.changebalance(self.real)
else:
self.api.changebalance(self.demo)
#self.api.change_balance('practice')
def getDataFrame(self, duration=1):
candles = self.getCandles(duration)
if candles:
try:
# candlesDF -> dict type
candlesDF = {
'DateTime': [candles[-3][0],
candles[-2][0]], # candles[-1][0]],
'Open': [candles[-3][1],
candles[-2][1]], # candles[-1][1]],
'Close': [candles[-3][2],
candles[-2][2]], # candles[-1][2]],
'High': [candles[-3][3],
candles[-2][3]], # candles[-1][3]],
'Low': [candles[-3][4],
candles[-2][4]] # , candles[-1][4]]
}
except:
return None
return candlesDF
#api.setactives([api_constants.ACTIVES["EURUSD"], api_constants.ACTIVES["EURUSD-OTC"]])
api.setactives([1, 1])
time.sleep(5)
api.getcandles(1, 1)
time.sleep(5)
data = api.candles.candles_data
print(api.candles.candles_data)
print("local time is")
sec = strftime("%S", gmtime())
while True:
sec = strftime("%S", gmtime())
if sec == "59":
print("should be here")
api.buy(1, 1, "binary", "put")
time.sleep(5)
#for key in api_constants.ACTIVES:
#print key, 'corresponds to', api_constants.ACTIVES[key]
#api.timesync.expiration_time = 0
profile = api.getprofile()
res = json.loads(profile._content)
balance = res['result']['balance']
print("banlance")
print(balance)
class IQ_Option:
def __init__(self, email, password):
self.email = email
self.password = password
self.suspend = 0.5
self.connect()
self.thread_collect_realtime = {}
#***
def connect(self):
while True:
try:
self.api = IQOptionAPI("iqoption.com", self.email,
self.password)
self.api.connect()
time.sleep(self.suspend)
break
except:
logging.error('**error** connect()')
pass
##################################################################################
def get_all_init(self):
self.api.api_option_init_all_result = None
while True:
try:
self.api.get_api_option_init_all()
time.sleep(self.suspend)
try:
if self.api.api_option_init_all_result[
"isSuccessful"] == True:
break
except:
pass
except:
logging.error('**error** get_all_init need reconnect')
self.connect()
return self.api.api_option_init_all_result
def get_ALL_Binary_ACTIVES_OPCODE(self):
init_info = self.get_all_init()
for i in init_info["result"]["binary"]["actives"]:
OP_code.ACTIVES[(init_info["result"]["binary"]["actives"][i]
["name"]).split(".")[1]] = i
return OP_code.ACTIVES
def get_profit(self, ACTIVES):
init_info = self.get_all_init()
return (100.0 - init_info["result"]["turbo"]["actives"][str(
OP_code.ACTIVES[ACTIVES])]["option"]["profit"]["commission"]
) / 100.0
def get_all_profit(self):
all_profit = {}
init_info = self.get_all_init()
for active in OP_code.ACTIVES:
try:
prof = (100.0 - init_info["result"]["turbo"]["actives"][str(
OP_code.ACTIVES[active])]["option"]["profit"]["commission"]
) / 100.0
all_profit[active] = prof
except:
pass
return all_profit
##################################################################################################
def get_profile(self):
while True:
try:
respon = self.api.getprofile().json()
time.sleep(self.suspend)
if respon["isSuccessful"] == True:
return respon
except:
logging.error('**error** get_profile')
#------------------------https profile------------------------
def get_balance(self):
#self.api.profile.balance=None
while True:
try:
respon = self.get_profile()
self.api.profile.balance = respon["result"]["balance"]
break
except:
logging.error('**error** get_balance()')
pass
time.sleep(self.suspend)
return self.api.profile.balance
def get_balances(self):
#self.api.profile.balance=None
while True:
try:
respon = self.get_profile()
self.api.profile.balances = respon["result"]["balances"]
break
except:
logging.error('**error** get_balances()')
pass
time.sleep(self.suspend)
return self.api.profile.balances
def get_balance_mode(self):
#self.api.profile.balance_type=None
while True:
try:
respon = self.get_profile()
self.api.profile.balance_type = respon["result"][
"balance_type"]
break
except:
logging.error('**error** get_balance_mode()')
pass
time.sleep(self.suspend)
if self.api.profile.balance_type == 1:
return "REAL"
elif self.api.profile.balance_type == 4:
return "PRACTICE"
#------------------------------------------------
def change_balance(self, Balance_MODE):
real_id = None
practice_id = None
while True:
try:
self.get_balances()
for accunt in self.api.profile.balances:
if accunt["type"] == 1:
real_id = accunt["id"]
if accunt["type"] == 4:
practice_id = accunt["id"]
break
except:
logging.error('**error** change_balance()')
pass
while self.get_balance_mode() != Balance_MODE:
if Balance_MODE == "REAL":
self.api.changebalance(real_id)
elif Balance_MODE == "PRACTICE":
self.api.changebalance(practice_id)
else:
print("ERROR doesn't have this mode")
exit(1)
#######################**********candles***********#######################
def get_candles(self, ACTIVES, interval, count, endtime):
while True:
try:
self.api.getcandles(OP_code.ACTIVES[ACTIVES], interval, count,
endtime)
break
except:
logging.error('**error** get_candles need reconnect')
self.connect()
pass
while self.api.candles.candles_data == None:
pass
return self.api.candles.candles_data
################################################################################
################### real time ###########################
################################################################################
#all
def start_all_candles_stream(self):
while self.api.real_time_candles == {}:
for ACTIVES_name in OP_code.ACTIVES:
self.api.subscribe(OP_code.ACTIVES[ACTIVES_name])
time.sleep(self.suspend)
def get_all_realtime_candles(self):
return self.api.real_time_candles
def stop_all_candles_stream(self):
while self.api.real_time_candles != {}:
self.api.real_time_candles = {}
time.sleep(self.suspend)
for ACTIVES_name in OP_code.ACTIVES:
self.api.unsubscribe(OP_code.ACTIVES[ACTIVES_name])
##one
def start_candles_stream(self, ACTIVES):
while self.api.real_time_candles == {}:
time.sleep(self.suspend)
self.api.subscribe(OP_code.ACTIVES[ACTIVES])
def get_realtime_candles(self, ACTIVES):
while True:
try:
return self.api.real_time_candles[ACTIVES]
except:
logging.error('**error** get_realtime_candles()')
pass
def stop_candles_stream(self, ACTIVES):
while self.api.real_time_candles != {}:
self.api.real_time_candles = {}
time.sleep(self.suspend)
self.api.unsubscribe(OP_code.ACTIVES[ACTIVES])
###################################collect realtime###################################
#####dict controler####
def dict_queue_add(self, dict, ACTIVES, maxdict, key, value):
while True:
if len(dict) <= maxdict:
dict[(ACTIVES, key)] = value
break
else:
#del mini key
del dict[sorted(dict.keys(), reverse=False)[0]]
def thread_realtime(self, ACTIVES, maxdict):
t = threading.currentThread()
while getattr(t, "do_run", True):
candles = self.get_realtime_candles(ACTIVES)
self.dict_queue_add(dict=self.thread_collect_realtime,
ACTIVES=ACTIVES,
maxdict=maxdict,
key=candles["at"],
value=candles)
#self.thread_collect_realtime={}
def collect_realtime_candles_thread_start(self, ACTIVES, maxdict):
t = threading.Thread(target=self.thread_realtime,
args=(ACTIVES, maxdict))
t.start()
return t
def collect_realtime_candles_thread_stop(self, thread):
thread.do_run = False
thread.join()
def collect_realtime_candles(self, ACTIVES, collect_time):
#doing while untill time stop
collect = {}
start = time.time()
while time.time() < start + collect_time:
candles = self.get_realtime_candles(ACTIVES)
collect[candles["at"]] = candles
return collect
##############################################################################################
def get_candles_as_array(self, ACTIVES, interval, count, endtime):
candles = self.get_candles(ACTIVES, interval, count, endtime)
ans = np.empty(shape=(len(candles), 4))
for idx, candle in enumerate(candles):
ans[idx][0] = candle["open"]
ans[idx][1] = candle["close"]
ans[idx][2] = candle["min"]
ans[idx][3] = candle["max"]
return ans
def check_win(self):
#'win':win money 'equal':no win no loose 'loose':loose money
self.api.listinfodata.__init__()
start = time.time()
while True:
try:
state = self.api.listinfodata.current_listinfodata.game_state
if state == 1:
break
except:
if time.time() - start > 180:
logging.error('check_win time late 120sec')
return self.api.listinfodata.current_listinfodata.win
def buy(self, price, ACTIVES, ACTION):
self.api.buy_successful == None
while True:
while True:
try:
self.api.buy(price, OP_code.ACTIVES[ACTIVES], "turbo",
ACTION)
break
except:
logging.error('self.api.buy error')
pass
start = time.time()
while self.api.buy_successful == None:
if time.time() - start > 60:
logging.error('check buy_successful time late 60sec')
break
if self.api.buy_successful:
break
else:
logging.error('**error** buy need reconnect')
self.connect()
#print("buy ok")
def call(self, price, ACTIVES):
while True:
try:
self.api.buy(price, OP_code.ACTIVES[ACTIVES], "turbo", "call")
except:
pass
def put(self, price, ACTIVES):
while True:
try:
self.api.buy(price, OP_code.ACTIVES[ACTIVES], "turbo", "put")
except:
pass
class IQ_Option:
def __init__(self, email, password):
self.email = email
self.password = password
self.suspend = 0.5
self.thread = None
self.connect()
self.thread_collect_realtime = {}
self.update_ACTIVES_OPCODE()
#time.sleep(self.suspend)
#***
def connect(self):
while True:
try:
try:
self.api.close()
except:
pass
#logging.error('**warning** self.api.close() it can ignore')
self.api = IQOptionAPI("iqoption.com", self.email,
self.password)
self.api.connect()
time.sleep(self.suspend)
break
except:
logging.error(
'**error** connect():DO you install right version?')
pass
#wait for timestamp getting
#_________________________UPDATE ACTIVES OPCODE_____________________
def get_all_ACTIVES_OPCODE(self):
return OP_code.ACTIVES
def update_ACTIVES_OPCODE(self):
#update from binary option
self.get_ALL_Binary_ACTIVES_OPCODE()
#crypto /dorex/cfd
self.get_all_instruments()
dicc = {}
for lis in sorted(OP_code.ACTIVES.items(), key=operator.itemgetter(1)):
dicc[lis[0]] = lis[1]
OP_code.ACTIVES = dicc
def instruments_input(self, types):
time.sleep(self.suspend)
self.api.instruments = None
while self.api.instruments == None:
self.api.get_instruments(types)
start = time.time()
while self.api.instruments == None and time.time() - start < 10:
pass
for ins in self.api.instruments["instruments"]:
OP_code.ACTIVES[ins["id"]] = ins["active_id"]
def get_all_instruments(self):
self.instruments_input("crypto")
self.instruments_input("forex")
self.instruments_input("cfd")
def get_ALL_Binary_ACTIVES_OPCODE(self):
init_info = self.get_all_init()
for i in init_info["result"]["binary"]["actives"]:
OP_code.ACTIVES[(init_info["result"]["binary"]["actives"][i]
["name"]).split(".")[1]] = int(i)
#_________________________self.api.get_api_option_init_all() wss______________________
def get_all_init(self):
self.api.api_option_init_all_result = None
while True:
try:
self.api.get_api_option_init_all()
start = time.time()
while True:
if time.time() - start > 30:
logging.error('**warning** get_all_init late 30 sec')
break
try:
if self.api.api_option_init_all_result != None:
break
except:
self.api.get_api_option_init_all()
time.sleep(self.suspend * 2)
if self.api.api_option_init_all_result["isSuccessful"] == True:
break
except:
logging.error('**error** get_all_init need reconnect')
self.connect()
return self.api.api_option_init_all_result
#return OP_code.ACTIVES
def get_profit(self, ACTIVES):
init_info = self.get_all_init()
return (100.0 - init_info["result"]["turbo"]["actives"][str(
OP_code.ACTIVES[ACTIVES])]["option"]["profit"]["commission"]
) / 100.0
def get_all_profit(self):
all_profit = {}
init_info = self.get_all_init()
for active in OP_code.ACTIVES:
try:
prof = (100.0 - init_info["result"]["turbo"]["actives"][str(
OP_code.ACTIVES[active])]["option"]["profit"]["commission"]
) / 100.0
all_profit[active] = prof
except:
pass
return all_profit
#______________________________________self.api.getprofile() https________________________________
def get_profile(self):
while True:
try:
respon = self.api.getprofile().json()
time.sleep(self.suspend)
if respon["isSuccessful"] == True:
return respon
except:
logging.error('**error** get_profile')
def get_balance(self):
#self.api.profile.balance=None
while True:
try:
respon = self.get_profile()
self.api.profile.balance = respon["result"]["balance"]
break
except:
logging.error('**error** get_balance()')
pass
time.sleep(self.suspend)
return self.api.profile.balance
def get_balances(self):
#self.api.profile.balance=None
while True:
try:
respon = self.get_profile()
self.api.profile.balances = respon["result"]["balances"]
break
except:
logging.error('**error** get_balances()')
pass
time.sleep(self.suspend)
return self.api.profile.balances
def get_balance_mode(self):
#self.api.profile.balance_type=None
while True:
try:
respon = self.get_profile()
self.api.profile.balance_type = respon["result"][
"balance_type"]
break
except:
logging.error('**error** get_balance_mode()')
pass
time.sleep(self.suspend)
if self.api.profile.balance_type == 1:
return "REAL"
elif self.api.profile.balance_type == 4:
return "PRACTICE"
def change_balance(self, Balance_MODE):
real_id = None
practice_id = None
while True:
try:
self.get_balances()
for accunt in self.api.profile.balances:
if accunt["type"] == 1:
real_id = accunt["id"]
if accunt["type"] == 4:
practice_id = accunt["id"]
break
except:
logging.error('**error** change_balance()')
pass
while self.get_balance_mode() != Balance_MODE:
if Balance_MODE == "REAL":
self.api.changebalance(real_id)
elif Balance_MODE == "PRACTICE":
self.api.changebalance(practice_id)
else:
print("ERROR doesn't have this mode")
exit(1)
#________________________________________________________________________
#_______________________ CANDLE _____________________________
#________________________self.api.getcandles() wss________________________
def get_candles(self, ACTIVES, interval, count, endtime):
while True:
try:
self.api.getcandles(OP_code.ACTIVES[ACTIVES], interval, count,
endtime)
break
except:
logging.error('**error** get_candles need reconnect')
self.connect()
pass
while self.api.candles.candles_data == None:
pass
return self.api.candles.candles_data
#______________________________________________________________
#_____________________________REAL TIME CANDLE_________________
#______________________________________________________________
#all need to fixxxxxxxxxxxxxxxxxxxxxxx
def start_all_candles_stream(self):
while self.api.real_time_candles == {}:
for ACTIVES_name in OP_code.ACTIVES:
self.api.subscribe(OP_code.ACTIVES[ACTIVES_name])
time.sleep(self.suspend)
time.sleep(self.suspend)
def get_all_realtime_candles(self):
return self.api.real_time_candles
def stop_all_candles_stream(self):
while self.api.real_time_candles != {}:
self.api.real_time_candles = {}
time.sleep(self.suspend)
for ACTIVES_name in OP_code.ACTIVES:
self.api.unsubscribe(OP_code.ACTIVES[ACTIVES_name])
##############################################
##one
def start_candles_stream(self, ACTIVES):
try:
self.api.subscribe(OP_code.ACTIVES[ACTIVES])
start = time.time()
while True:
if time.time() - start > 20:
logging.error('**error** fail ' + ACTIVES +
' start_candles_stream late for 10 sec')
return False
try:
if self.api.real_time_candles[ACTIVES] != {}:
break
except:
time.sleep(1)
self.api.subscribe(OP_code.ACTIVES[ACTIVES])
if self.api.real_time_candles[ACTIVES] != {}:
return True
except:
logging.error('**error** start_candles_stream reconnect')
self.connect()
def get_realtime_candles(self, ACTIVES):
try:
return self.api.real_time_candles[ACTIVES]
except:
logging.error('**error** get_realtime_candles()')
return False
def stop_candles_stream(self, ACTIVES):
while True:
try:
if self.api.real_time_candles[ACTIVES] == {}:
break
except:
pass
self.api.real_time_candles[ACTIVES] = {}
time.sleep(1)
self.api.unsubscribe(OP_code.ACTIVES[ACTIVES])
#__________________________Collect realtime_____________________________
#______thread_____
def dict_queue_add(self, dict, ACTIVES, maxdict, key, value):
while True:
if len(dict) <= maxdict:
dict[(ACTIVES, key)] = value
break
else:
#del mini key
del dict[sorted(dict.keys(), reverse=False)[0]]
def thread_realtime(self, ACTIVES, maxdict):
t = threading.currentThread()
while getattr(t, "do_run", True):
candles = self.get_realtime_candles(ACTIVES)
self.dict_queue_add(dict=self.thread_collect_realtime,
ACTIVES=ACTIVES,
maxdict=maxdict,
key=candles["at"],
value=candles)
#self.thread_collect_realtime={}
def collect_realtime_candles_thread_start(self, ACTIVES, maxdict):
t = threading.Thread(target=self.thread_realtime,
args=(ACTIVES, maxdict))
t.start()
return t
def collect_realtime_candles_thread_stop(self, thread):
thread.do_run = False
thread.join()
# ___None thread___
def collect_realtime_candles(self, ACTIVES, collect_time):
#doing while untill time stop
collect = {}
start = time.time()
while time.time() < start + collect_time:
candles = self.get_realtime_candles(ACTIVES)
collect[candles["at"]] = candles
return collect
##############################################################################################
def get_candles_as_array(self, ACTIVES, interval, count, endtime):
candles = self.get_candles(ACTIVES, interval, count, endtime)
ans = np.empty(shape=(len(candles), 4))
for idx, candle in enumerate(candles):
ans[idx][0] = candle["open"]
ans[idx][1] = candle["close"]
ans[idx][2] = candle["min"]
ans[idx][3] = candle["max"]
return ans
def check_win(self, id_number):
#'win':win money 'equal':no win no loose 'loose':loose money
while True:
try:
listinfodata_dict = self.api.listinfodata.get(id_number)
if listinfodata_dict["game_state"] == 1:
break
except:
pass
self.api.listinfodata.delete(id_number)
return listinfodata_dict["win"]
#__________________________BUY__________________________
#__________________FOR OPTION____________________________
def buy(self, price, ACTIVES, ACTION, expirations, force_buy=True):
self.api.buy_successful == None
while True:
while True:
try:
self.api.buy(price, OP_code.ACTIVES[ACTIVES], ACTION,
expirations)
break
except:
if force_buy == False:
return (False, None)
logging.error('self.api.buy error')
self.connect()
pass
start = time.time()
while self.api.buy_successful == None:
if time.time() - start > 60:
logging.error('check buy_successful time late 60sec')
break
if self.api.buy_successful:
return (True, self.api.buy_id)
else:
if force_buy == False:
return (False, None)
logging.error('**error** buy error...')
self.connect()
