def initApi():
try:
global api
api = DataApi(addr=addr)
api.login(phone, token)
except Exception as e:
print('Init Api Failed')
def loginJaqsApp(self):
"""
# 登录jaqs的api。需要账号和token,可在官网上注册。
"""
print(u'正在登陆JaqsAPI.')
self.api = DataApi(addr=self.setting['ADDR'])
self.api.login(self.setting['PHONE'], self.setting['TOKEN'])
def get_data(symbol=None):
if not os.path.exists('./data/prepared/datacsv/'):
os.makedirs('./data/prepared/datacsv/')
if not symbol:
api = DataApi(addr="tcp://data.quantos.org:8910")
result, msg = api.login(
"18652420434",
"eyJhbGciOiJIUzI1NiJ9.eyJjcmVhdGVfdGltZSI6IjE1MTcwNjAxMDgyOTMiLCJpc3MiOiJhdXRoMCIsImlkIjoiMTg2NTI0MjA0MzQifQ.b1ejSpbEVS7LhbsveZ5kvbWgUs7fnUd0-CBakPwNUu4"
)
# print(result)
data, msg = api.query(
view="lb.indexCons",
fields="symbol",
filter="index_code=000016.SH&start_date=20180801&end_date=20180831",
data_format='pandas')
print(msg)
# symbols = data['symbol'].tolist()
symbols = [
'600887.SH', '601988.SH', '600048.SH', '601006.SH', '601398.SH',
'601628.SH', '601166.SH', '601318.SH', '601328.SH', '601169.SH',
'601088.SH', '601857.SH', '601390.SH', '601601.SH', '601186.SH',
'601668.SH', '601766.SH', '600999.SH', '601989.SH', '601688.SH',
'601288.SH', '601818.SH', '601800.SH', '601360.SH', '601336.SH',
'603993.SH', '601211.SH', '600958.SH', '601878.SH', '601229.SH',
'601881.SH'
]
print(symbols)
for sym in symbols:
# df = load_data(sym)
# close = [float(x) for x in df['close']]
# # prepare macd data
# df['MACD'], df['MACDsignal'], df['MACDhist'] = talib.MACD(np.array(close),
# fastperiod=12, slowperiod=26, signalperiod=9)
# df = df.sort_index()
# df.index = pd.to_datetime(df.index, format='%Y%m%d')
# df = prepare_kdj(df, 9, 'close') # 计算好kdj之后从13行开始取数据,计算出来的kdj比较准确
# df = df[34:]
# df = calculator_close(df)
# save_csv(sym, df)
draw_pic(sym, 'macd_j')
else:
df = load_data(symbol)
close = [float(x) for x in df['close']]
# prepare macd data
df['MACD'], df['MACDsignal'], df['MACDhist'] = talib.MACD(
np.array(close), fastperiod=12, slowperiod=26, signalperiod=9)
# df = df.sort_index()
# df.index = pd.to_datetime(df.index, format='%Y%m%d')
df = prepare_kdj(df, 9, 'close') # 计算好kdj之后从13行开始取数据,计算出来的kdj比较准确
df = df[34:]
df = calculator_close(df)
save_csv(symbol, df)
draw_pic(symbol, 'macd_j')
def getQuantApi():
token = 'eyJhbGciOiJIUzI1NiJ9.eyJjcmVhdGVfdGltZSI6IjE1MzI5MzM3MjAwOTEiLCJpc3MiOiJhdXRoMCIsImlkIjoiMTg2MDExMTA5NTkifQ.nN08iv14dxEtd1r3EMmASxfkWqXoJ0xlyif8peWaFg4'
addr = 'tcp://data.quantos.org:8910'
phone = '18601110959'
try:
api = DataApi(addr=addr)
api.login(phone, token)
return api
except Exception as e:
print('Init Api Failed')
def __init__(self, api_url=None, user=None, token=None):
global _api
from jaqs.data import DataApi
if _api is None:
url = api_url or os.environ.get("QUANTOS_URL", "tcp://data.quantos.org:8910")
user = user or os.environ.get("QUANTOS_USER")
token = token or os.environ.get("QUANTOS_TOKEN")
_api = DataApi(addr=url)
_api.login(user, token)
self._api = _api
def __init__(self,
storage,
user,
password,
jaqs_addr="tcp://data.quantos.org:8910"):
self.user = user
self.password = password
self.jaqs_addr = jaqs_addr
self.api = DataApi(self.jaqs_addr)
assert isinstance(storage, BarStorage)
self.storage = storage
class ReqestHandler(Handler):
def __init__(self,
storage,
user,
password,
jaqs_addr="tcp://data.quantos.org:8910"):
self.user = user
self.password = password
self.jaqs_addr = jaqs_addr
self.api = DataApi(self.jaqs_addr)
assert isinstance(storage, BarStorage)
self.storage = storage
def __enter__(self):
self.api.login(self.user, self.password)
return self.api
def __exit__(self, *args):
self.api.logout()
def handle(self, req):
logging.warning("received bar req | %s", req)
with self as api:
try:
data = get_bar(api, **req)
except Exception as e:
logging.error("require bar error | %s", e)
else:
self.send(env.get_table_name(req["symbol"], req["freq"]), data)
def send(self, symbol, data):
for doc in data[STORAGE_COLUMNS].to_dict("record"):
doc["volume"] = int(doc["volume"])
doc["flag"] = 1
self.storage.put(symbol, doc)
logging.warning("update bar | %s | %s", symbol, doc)
@staticmethod
def make_rsp(symbol, data):
assert isinstance(data, pd.DataFrame)
bars = []
for doc in data[COLUMNS].to_dict("record"):
doc["date"] = int(doc["date"])
doc["time"] = int(doc["time"])
doc["volume"] = int(doc["volume"])
bars.append(proto.make_msg(proto.BAR, **doc))
rsp = proto.make_msg(proto.BAR_RESP, symbol=symbol)
rsp.bars.extend(bars)
return rsp
def init_from_config(self, props):
# do not initialize and login again
if self.data_api is not None and self.data_api._loggined:
return
if props is None:
props = dict()
if self.data_api is not None:
if len(props) == 0:
return
else:
self.data_api.close()
def get_from_list_of_dict(l, key, default=None):
res = None
for dic in l:
res = dic.get(key, None)
if res is not None:
break
if res is None:
res = default
return res
props_default = dict(
) # jutil.read_json(jutil.join_relative_path('etc/data_config.json'))
dic_list = [props, props_default]
address = get_from_list_of_dict(dic_list, "remote.data.address", "")
username = get_from_list_of_dict(dic_list, "remote.data.username", "")
password = get_from_list_of_dict(dic_list, "remote.data.password", "")
if address is None or username is None or password is None:
raise ValueError("no address, username or password available!")
time_out = get_from_list_of_dict(dic_list, "timeout", 60)
self.data_api = DataApi(address, use_jrpc=False)
self.data_api.set_timeout(timeout=time_out)
print("\nDataApi login: {}@{}".format(username, address))
r, msg = self.data_api.login(username=username, password=password)
if not r:
print(" login failed: msg = '{}'\n".format(msg))
else:
print " login success \n"
def connect(self):
"""连接"""
try:
dataServer = self.setting['DATA_SERVER']
tradeServer = self.setting['TRADE_SERVER']
userID = self.setting['USER_ID']
token = self.setting['TOKEN']
except KeyError:
self.writeLog(text.CONFIG_KEY_MISSING)
return
# 连接行情API
try:
api = DataApi(addr=dataServer)
api.login(userID, token)
self.writeLog(text.DATA_SERVER_CONNECTED)
except:
self.writeLog(text.DATA_SERVER_FAILED)
return
# 连接交易API
t_api = TradeApi(addr=tradeServer)
user_info, msg = t_api.login(userID, token)
self.writeLog(text.TRADING_SERVER_CONNECTED)
if msg == self.setting['ISOK']:
self.user_info = user_info
strategy_list = self.user_info['strategies']
self.strategyID = strategy_list[
self.setting['DEFAULT_STRATEGYID']] # 设置默认的策略编号
else:
self.writeLog(text.TRADING_SERVER_FAILED)
return
self.qsqApi = api
self.qstApi = t_api
self.initContract() # 初始化合约信息
self.initTradingEnv() # 初始化交易环境
self.qryAccount() # 获取账户信息
self.qryPosition() # 获取交易信息
self.initOrder() # 获取订单信息
self.initTrade() # 获取成交信息
class TurtleTest(unittest.TestCase):
user_id = ''
def setUp(self):
self.api = DataApi(addr='tcp://data.tushare.org:8910')
self.api.login(
self.user_id,
"eyJhbGciOiJIUzI1NiJ9.eyJjcmVhdGVfdGltZSI6IjE1MjY5MDQ0NTgwODAiLCJpc3MiOiJhdXRoMCIsImlkIjoiMTg4MTAyOTkyMDAifQ.M9d07UvpEWVWugga0d2UtbWsRRZubS5mgMXaTxrieSk"
)
def tearDown(self):
pass
def test_api(self):
df, msg = self.api.daily(symbol="cu1801.SHF",
start_date="2017-10-26",
end_date="2018-11-06",
fields="",
adjust_mode="post")
self.assertEqual(msg, '0,')
self.assertTupleEqual(df.shape, (57, 16))
def test_data_api():
address = data_config.get("remote.data.address", None)
username = data_config.get("remote.data.username", None)
password = data_config.get("remote.data.password", None)
if address is None or username is None or password is None:
raise ValueError("no data service config available!")
api = DataApi(address, use_jrpc=False)
login_msg = api.login(username=username, password=password)
print login_msg
daily, msg = api.daily(symbol="600030.SH,000002.SZ", start_date=20170103, end_date=20170708,
fields="open,high,low,close,volume,last,trade_date,settle")
daily2, msg2 = api.daily(symbol="600030.SH", start_date=20170103, end_date=20170708,
fields="open,high,low,close,volume,last,trade_date,settle")
# err_code, err_msg = msg.split(',')
assert msg == '0,'
assert msg2 == '0,'
assert daily.shape == (248, 9)
assert daily2.shape == (124, 9)
df, msg = api.bar(symbol="600030.SH", trade_date=20170904, freq=common.QUOTE_TYPE.MIN, start_time=90000, end_time=150000)
print df.columns
assert df.shape == (240, 15)
print "test passed"
def get_api():
login = CONF["login"]
api = DataApi(login["addr"])
api.login(login["username"], login["password"])
return api
import pyfolio as pf
from fxdayu_data import DataAPI
try:
from functools import lru_cache, partial
except ImportError:
from fastcache import lru_cache
from jaqs.data import DataApi
data_config = {
"remote.data.address": "tcp://192.168.0.102:23000",
"remote.data.username": "******",
"remote.data.password": "******"
}
api = DataApi(data_config["remote.data.address"])
api.login(username=data_config["remote.data.username"],
password=data_config["remote.data.password"])
def memorized_method(*lru_args, **lru_kwargs):
def decorator(func):
@functools.wraps(func)
def wrapped_func(self, *args, **kwargs):
# We're storing the wrapped method inside the instance. If we had
# a strong reference to self the instance would never die.
self_weak = weakref.ref(self)
@functools.wraps(func)
@lru_cache(*lru_args, **lru_kwargs)
def cached_method(*args, **kwargs):
def login(username, password):
api = DataApi(env.ADDR)
api.login(username, password)
logging.warning("login | %s", username)
return api
def setUp(self):
self.api = DataApi(addr='tcp://data.tushare.org:8910')
self.api.login(
self.user_id,
"eyJhbGciOiJIUzI1NiJ9.eyJjcmVhdGVfdGltZSI6IjE1MjY5MDQ0NTgwODAiLCJpc3MiOiJhdXRoMCIsImlkIjoiMTg4MTAyOTkyMDAifQ.M9d07UvpEWVWugga0d2UtbWsRRZubS5mgMXaTxrieSk"
)
def init_from_config(self, props):
"""
Parameters
----------
props : dict
Configurations used for initialization.
Example
-------
{"remote.data.address": "tcp://*****:*****@{}".format(username, address))
INDENT = ' ' * 4
if self.data_api_loginned:
if (address == "") or (username == "") or (password == ""):
raise InitializeError("no address, username or password available!")
elif ((address == self._address) and (time_out == self._timeout)
and (username == self._username) and (password == self._password)):
print(INDENT + "Already login as {:s}, skip init_from_config".format(username))
return '0,' # do not login with the same props again
else:
self.data_api.close()
self.data_api = None
self._address = address
self._username = username
self._password = password
self._timeout = time_out
data_api = DataApi(self._address, use_jrpc=False)
data_api.set_timeout(timeout=self._timeout)
r, err_msg = data_api.login(username=self._username, password=self._password)
if not r:
print(INDENT + "login failed: err_msg = '{}'\n".format(err_msg))
else:
self.data_api = data_api
print(INDENT + "login success \n")
return err_msg
class RemoteDataService(DataService):
"""
RemoteDataService is a concrete class using data from remote server's database.
"""
__metaclass__ = Singleton
# TODO no validity check for input parameters
def __init__(self):
DataService.__init__(self)
self.data_api = None
self.REPORT_DATE_FIELD_NAME = 'report_date'
# self.calendar = None
def __del__(self):
self.data_api.close()
def init_from_config(self, props):
# do not initialize and login again
if self.data_api is not None and self.data_api._loggined:
return
if props is None:
props = dict()
if self.data_api is not None:
if len(props) == 0:
return
else:
self.data_api.close()
def get_from_list_of_dict(l, key, default=None):
res = None
for dic in l:
res = dic.get(key, None)
if res is not None:
break
if res is None:
res = default
return res
props_default = dict(
) # jutil.read_json(jutil.join_relative_path('etc/data_config.json'))
dic_list = [props, props_default]
address = get_from_list_of_dict(dic_list, "remote.data.address", "")
username = get_from_list_of_dict(dic_list, "remote.data.username", "")
password = get_from_list_of_dict(dic_list, "remote.data.password", "")
if address is None or username is None or password is None:
raise ValueError("no address, username or password available!")
time_out = get_from_list_of_dict(dic_list, "timeout", 60)
self.data_api = DataApi(address, use_jrpc=False)
self.data_api.set_timeout(timeout=time_out)
print("\nDataApi login: {}@{}".format(username, address))
r, msg = self.data_api.login(username=username, password=password)
if not r:
print(" login failed: msg = '{}'\n".format(msg))
else:
print " login success \n"
# self.calendar = Calendar(self)
# -----------------------------------------------------------------------------------
# Basic APIs
def daily(self, symbol, start_date, end_date, fields="", adjust_mode=None):
df, err_msg = self.data_api.daily(symbol=symbol,
start_date=start_date,
end_date=end_date,
fields=fields,
adjust_mode=adjust_mode,
data_format="")
# trade_status performance warning
# TODO there will be duplicate entries when on stocks' IPO day
df = df.drop_duplicates()
return df, err_msg
def bar(self,
symbol,
start_time=200000,
end_time=160000,
trade_date=None,
freq='1M',
fields=""):
df, msg = self.data_api.bar(symbol=symbol,
fields=fields,
start_time=start_time,
end_time=end_time,
trade_date=trade_date,
freq='1M',
data_format="")
return df, msg
def query(self, view, filter="", fields="", **kwargs):
"""
Get various reference data.
Parameters
----------
view : str
data source.
fields : str
Separated by ','
filter : str
filter expressions.
kwargs
Returns
-------
df : pd.DataFrame
msg : str
error code and error message, joined by ','
Examples
--------
res3, msg3 = ds.query("lb.secDailyIndicator", fields="price_level,high_52w_adj,low_52w_adj",\
filter="start_date=20170907&end_date=20170907",\
orderby="trade_date",\
data_format='pandas')
view does not change. fileds can be any field predefined in reference data api.
"""
df, msg = self.data_api.query(view,
fields=fields,
filter=filter,
data_format="",
**kwargs)
return df, msg
# -----------------------------------------------------------------------------------
# Convenient Functions
def get_trade_date_range_OLD(self, start_date, end_date):
return self.calendar.get_trade_date_range(start_date, end_date)
@staticmethod
def _dic2url(d):
"""
Convert a dict to str like 'k1=v1&k2=v2'
Parameters
----------
d : dict
Returns
-------
str
"""
l = ['='.join([key, str(value)]) for key, value in d.viewitems()]
return '&'.join(l)
def query_lb_fin_stat(self,
type_,
symbol,
start_date,
end_date,
fields="",
drop_dup_cols=None):
"""
Helper function to call data_api.query with 'lb.income' more conveniently.
Parameters
----------
type_ : {'income', 'balance_sheet', 'cash_flow'}
symbol : str
separated by ','
start_date : int
Annoucement date in results will be no earlier than start_date
end_date : int
Annoucement date in results will be no later than start_date
fields : str, optional
separated by ',', default ""
drop_dup_cols : list or tuple
Whether drop duplicate entries according to drop_dup_cols.
Returns
-------
df : pd.DataFrame
index date, columns fields
msg : str
"""
view_map = {
'income': 'lb.income',
'cash_flow': 'lb.cashFlow',
'balance_sheet': 'lb.balanceSheet',
'fin_indicator': 'lb.finIndicator'
}
view_name = view_map.get(type_, None)
if view_name is None:
raise NotImplementedError("type_ = {:s}".format(type_))
dic_argument = {
'symbol': symbol,
'start_date': start_date,
'end_date': end_date,
# 'update_flag': '0'
}
if view_name != 'lb.finIndicator':
dic_argument.update({
'report_type': '408001000'
}) # we do not use single quarter single there are zeros
"""
408001000: joint
408002000: joint (single quarter)
"""
filter_argument = self._dic2url(
dic_argument) # 0 means first time, not update
res, msg = self.query(view_name,
fields=fields,
filter=filter_argument,
order_by=self.REPORT_DATE_FIELD_NAME)
# change data type
try:
cols = list(
set.intersection({'ann_date', 'report_date'},
set(res.columns)))
dic_dtype = {col: int for col in cols}
res = res.astype(dtype=dic_dtype)
except:
pass
if drop_dup_cols is not None:
res = res.sort_values(by=drop_dup_cols, axis=0)
res = res.drop_duplicates(subset=drop_dup_cols, keep='first')
return res, msg
def query_lb_dailyindicator(self, symbol, start_date, end_date, fields=""):
"""
Helper function to call data_api.query with 'lb.secDailyIndicator' more conveniently.
Parameters
----------
symbol : str
separated by ','
start_date : int
end_date : int
fields : str, optional
separated by ',', default ""
Returns
-------
df : pd.DataFrame
index date, columns fields
msg : str
"""
filter_argument = self._dic2url({
'symbol': symbol,
'start_date': start_date,
'end_date': end_date
})
return self.query("lb.secDailyIndicator",
fields=fields,
filter=filter_argument,
orderby="trade_date")
def get_index_weights(self, index, trade_date):
"""
Return all securities that have been in index during start_date and end_date.
Parameters
----------
index : str
separated by ','
trade_date : int
Returns
-------
pd.DataFrame
"""
if index == '000300.SH':
index = '399300.SZ'
filter_argument = self._dic2url({
'index_code': index,
'trade_date': trade_date
})
df_io, msg = self.query("lb.indexWeight",
fields="",
filter=filter_argument)
if msg != '0,':
print msg
df_io = df_io.set_index('symbol')
df_io = df_io.astype({'weight': float, 'trade_date': int})
df_io.loc[:, 'weight'] = df_io['weight'] / 100.
return df_io
def get_index_weights_daily(self, index, start_date, end_date):
"""
Return all securities that have been in index during start_date and end_date.
Parameters
----------
index : str
start_date : int
end_date : int
Returns
-------
res : pd.DataFrame
Index is trade_date, columns are symbols.
"""
# TODO: temparary api
trade_dates = self.get_trade_date_range(start_date, end_date)
start_date, end_date = trade_dates[0], trade_dates[-1]
td = start_date
dic = dict()
symbols_set = set()
while True:
if td > end_date:
break
df = self.get_index_weights(index, td)
# update_date = df['trade_date'].iat[0]
# if update_date >= start_date and update_date <= end_date:
symbols_set.update(set(df.index))
dic[td] = df['weight']
td = jutil.get_next_period_day(td, 'month', 1)
merge = pd.concat(dic, axis=1).T
merge = merge.fillna(0.0) # for those which are not components
res = pd.DataFrame(index=trade_dates,
columns=sorted(list(symbols_set)),
data=np.nan)
res.update(merge)
res = res.fillna(method='ffill')
res = res.loc[start_date:end_date]
return res
def _get_index_comp(self, index, start_date, end_date):
"""
Return all securities that have been in index during start_date and end_date.
Parameters
----------
index : str
separated by ','
start_date : int
end_date : int
Returns
-------
list
"""
filter_argument = self._dic2url({
'index_code': index,
'start_date': start_date,
'end_date': end_date
})
df_io, msg = self.query("lb.indexCons",
fields="",
filter=filter_argument,
orderby="symbol")
return df_io, msg
def get_index_comp(self, index, start_date, end_date):
"""
Return list of symbols that have been in index during start_date and end_date.
Parameters
----------
index : str
separated by ','
start_date : int
end_date : int
Returns
-------
list
"""
df_io, msg = self._get_index_comp(index, start_date, end_date)
if msg != '0,':
print msg
return list(np.unique(df_io.loc[:, 'symbol']))
def get_index_comp_df(self, index, start_date, end_date):
"""
Get index components on each day during start_date and end_date.
Parameters
----------
index : str
separated by ','
start_date : int
end_date : int
Returns
-------
res : pd.DataFrame
index dates, columns all securities that have ever been components,
values are 0 (not in) or 1 (in)
"""
df_io, msg = self._get_index_comp(index, start_date, end_date)
if msg != '0,':
print msg
def str2int(s):
if isinstance(s, (str, unicode)):
return int(s) if s else 99999999
elif isinstance(s, (int, np.integer, float, np.float)):
return s
else:
raise NotImplementedError("type s = {}".format(type(s)))
df_io.loc[:, 'in_date'] = df_io.loc[:, 'in_date'].apply(str2int)
df_io.loc[:, 'out_date'] = df_io.loc[:, 'out_date'].apply(str2int)
# df_io.set_index('symbol', inplace=True)
dates = self.get_trade_date_range(start_date=start_date,
end_date=end_date)
dic = dict()
gp = df_io.groupby(by='symbol')
for sec, df in gp:
mask = np.zeros_like(dates, dtype=int)
for idx, row in df.iterrows():
bool_index = np.logical_and(dates > row['in_date'],
dates < row['out_date'])
mask[bool_index] = 1
dic[sec] = mask
res = pd.DataFrame(index=dates, data=dic)
return res
def get_industry_daily(self,
symbol,
start_date,
end_date,
type_='SW',
level=1):
"""
Get index components on each day during start_date and end_date.
Parameters
----------
symbol : str
separated by ','
start_date : int
end_date : int
type_ : {'SW', 'ZZ'}
Returns
-------
res : pd.DataFrame
index dates, columns symbols
values are industry code
"""
df_raw = self.get_industry_raw(symbol, type_=type_, level=level)
dic_sec = jutil.group_df_to_dict(df_raw, by='symbol')
dic_sec = {
sec: df.sort_values(by='in_date', axis=0).reset_index()
for sec, df in dic_sec.viewitems()
}
df_ann_tmp = pd.concat(
{sec: df.loc[:, 'in_date']
for sec, df in dic_sec.viewitems()},
axis=1)
df_value_tmp = pd.concat(
{
sec: df.loc[:, 'industry{:d}_code'.format(level)]
for sec, df in dic_sec.viewitems()
},
axis=1)
idx = np.unique(
np.concatenate([df.index.values for df in dic_sec.values()]))
symbol_arr = np.sort(symbol.split(','))
df_ann = pd.DataFrame(index=idx, columns=symbol_arr, data=np.nan)
df_ann.loc[df_ann_tmp.index, df_ann_tmp.columns] = df_ann_tmp
df_value = pd.DataFrame(index=idx, columns=symbol_arr, data=np.nan)
df_value.loc[df_value_tmp.index, df_value_tmp.columns] = df_value_tmp
dates_arr = self.get_trade_date_range(start_date, end_date)
df_industry = align.align(df_value, df_ann, dates_arr)
# TODO before industry classification is available, we assume they belong to their first group.
df_industry = df_industry.fillna(method='bfill')
df_industry = df_industry.astype(str)
return df_industry
def get_industry_raw(self, symbol, type_='ZZ', level=1):
"""
Get daily industry of securities from ShenWanZhiShu or ZhongZhengZhiShu.
Parameters
----------
symbol : str
separated by ','
type_ : {'SW', 'ZZ'}
level : {1, 2, 3, 4}
Use which level of industry index classification.
Returns
-------
df : pd.DataFrame
"""
if type_ == 'SW':
src = u'申万研究所'.encode('utf-8')
if level not in [1, 2, 3, 4]:
raise ValueError("For [SW], level must be one of {1, 2, 3, 4}")
elif type_ == 'ZZ':
src = u'中证指数有限公司'.encode('utf-8')
if level not in [1, 2, 3, 4]:
raise ValueError("For [ZZ], level must be one of {1, 2}")
else:
raise ValueError("type_ must be one of SW of ZZ")
filter_argument = self._dic2url({
'symbol': symbol,
'industry_src': src
})
fields_list = [
'symbol', 'industry{:d}_code'.format(level),
'industry{:d}_name'.format(level)
]
df_raw, msg = self.query("lb.secIndustry",
fields=','.join(fields_list),
filter=filter_argument,
orderby="symbol")
if msg != '0,':
print msg
df_raw = df_raw.astype(dtype={
'in_date': int,
# 'out_date': int
})
return df_raw.drop_duplicates()
def get_adj_factor_daily(self, symbol, start_date, end_date, div=False):
"""
Get index components on each day during start_date and end_date.
Parameters
----------
symbol : str
separated by ','
start_date : int
end_date : int
div : bool
False for normal adjust factor, True for diff.
Returns
-------
res : pd.DataFrame
index dates, columns symbols
values are industry code
"""
df_raw = self.get_adj_factor_raw(symbol,
start_date=start_date,
end_date=end_date)
dic_sec = jutil.group_df_to_dict(df_raw, by='symbol')
dic_sec = {
sec: df.set_index('trade_date').loc[:, 'adjust_factor']
for sec, df in dic_sec.viewitems()
}
# TODO: duplicate codes with dataview.py: line 512
res = pd.concat(dic_sec, axis=1) # TODO: fillna ?
idx = np.unique(
np.concatenate([df.index.values for df in dic_sec.values()]))
symbol_arr = np.sort(symbol.split(','))
res_final = pd.DataFrame(index=idx, columns=symbol_arr, data=np.nan)
res_final.loc[res.index, res.columns] = res
# align to every trade date
s, e = df_raw.loc[:,
'trade_date'].min(), df_raw.loc[:,
'trade_date'].max()
dates_arr = self.get_trade_date_range(s, e)
if not len(dates_arr) == len(res_final.index):
res_final = res_final.reindex(dates_arr)
res_final = res_final.fillna(method='ffill').fillna(method='bfill')
if div:
res_final = res_final.div(res_final.shift(1, axis=0)).fillna(1.0)
# res = res.loc[start_date: end_date, :]
return res_final
def get_adj_factor_raw(self, symbol, start_date=None, end_date=None):
"""
Query adjust factor for symbols.
Parameters
----------
symbol : str
separated by ','
start_date : int
end_date : int
Returns
-------
df : pd.DataFrame
"""
if start_date is None:
start_date = ""
if end_date is None:
end_date = ""
filter_argument = self._dic2url({
'symbol': symbol,
'start_date': start_date,
'end_date': end_date
})
fields_list = ['symbol', 'trade_date', 'adjust_factor']
df_raw, msg = self.query("lb.secAdjFactor",
fields=','.join(fields_list),
filter=filter_argument,
orderby="symbol")
if msg != '0,':
print msg
df_raw = df_raw.astype(dtype={
'symbol': str,
'trade_date': int,
'adjust_factor': float
})
return df_raw.drop_duplicates()
def query_inst_info(self, symbol, inst_type="", fields=""):
if inst_type == "":
inst_type = "1,2,3,4,5,101,102,103,104"
filter_argument = self._dic2url({
'symbol': symbol,
'inst_type': inst_type
})
df_raw, msg = self.query("jz.instrumentInfo",
fields=fields,
filter=filter_argument,
orderby="symbol")
if msg != '0,':
print msg
dtype_map = {
'symbol': str,
'list_date': int,
'delist_date': int,
'inst_type': int
}
cols = set(df_raw.columns)
dtype_map = {k: v for k, v in dtype_map.viewitems() if k in cols}
df_raw = df_raw.astype(dtype=dtype_map)
res = df_raw.set_index('symbol')
return res
# -----------------------------------------------------------------------------------
# subscribe for real time trading
def subscribe(self, symbols):
"""
Parameters
----------
symbols : str
Separated by ,
"""
self.data_api.subscribe(symbols, func=self.mkt_data_callback)
def mkt_data_callback(self, key, quote):
e = Event(EVENT_TYPE.MARKET_DATA)
# print quote
e.dic = {'quote': quote}
self.ctx.instance.put(e)
# ---------------------------------------------------------------------
# Calendar
def get_trade_date_range(self, start_date, end_date):
"""
Get array of trade dates within given range.
Return zero size array if no trade dates within range.
Parameters
----------
start_date : int
YYmmdd
end_date : int
Returns
-------
trade_dates_arr : np.ndarray
dtype = int
"""
filter_argument = self._dic2url({
'start_date': start_date,
'end_date': end_date
})
df_raw, msg = self.data_api.query("jz.secTradeCal",
fields="trade_date",
filter=filter_argument,
orderby="")
if df_raw.empty:
return np.array([], dtype=int)
trade_dates_arr = df_raw['trade_date'].values.astype(int)
return trade_dates_arr
def get_last_trade_date(self, date):
"""
Parameters
----------
date : int
Returns
-------
res : int
"""
dt = jutil.convert_int_to_datetime(date)
delta = pd.Timedelta(weeks=2)
dt_old = dt - delta
date_old = jutil.convert_datetime_to_int(dt_old)
dates = self.get_trade_date_range(date_old, date)
mask = dates < date
res = dates[mask][-1]
return res
def is_trade_date(self, date):
"""
Check whether date is a trade date.
Parameters
----------
date : int
Returns
-------
bool
"""
dates = self.get_trade_date_range(date, date)
return len(dates) > 0
def get_next_trade_date(self, date):
"""
Parameters
----------
date : int
Returns
-------
res : int
"""
dt = jutil.convert_int_to_datetime(date)
delta = pd.Timedelta(weeks=2)
dt_new = dt + delta
date_new = jutil.convert_datetime_to_int(dt_new)
dates = self.get_trade_date_range(date, date_new)
mask = dates > date
res = dates[mask][0]
return res
def get_api():
api = DataApi(env.jaqs_addr)
api.login(env.jaqs_user, env.jaqs_password)
return api
# -*- coding: utf-8 -*-
import pandas as pd
import os
import matplotlib.pyplot as plt
import tushare as ts
from jaqs.data import DataApi
if __name__ == '__main__':
_start_date = '2014-01-01'
_end_date = '2018-02-02'
phone = '13706519134'
token = 'eyJhbGciOiJIUzI1NiJ9.eyJjcmVhdGVfdGltZSI6IjE1MTM0ODE2NTM4MTAiLCJpc3MiOiJhdXRoMCIsImlkIjoiMTM3MDY1MTkxMzQifQ.6wOPdEDGnSBwMzb3dDVp_8LPBT0UbHqnFFvCc15bL_U'
api = DataApi("tcp://data.tushare.org:8910")
df, msg = api.login(phone, token)
#获取融资余额
df1 = ts.sh_margins(start=_start_date, end=_end_date)
df1.index = pd.to_datetime(df1.opDate)
df1.sort_index(inplace=True)
#获取上证日收盘价
df_sh, msg = api.daily(symbol='000001.SH', start_date=_start_date, end_date = _end_date, fields = '', freq = '1d')
df_sh.trade_date = pd.Series(df_sh.trade_date, index=df_sh.index, dtype=str)
df_sh.index = pd.to_datetime(df_sh.trade_date)
df_sh.sort_index(inplace=True)
df_a = df1['rzye']/100000000
df_b = df_sh['close']
class Api(object):
__api = DataApi(addr='tcp://data.tushare.org:8910')
def __lazy_login(self):
if self.__login_flag is False:
ret = self.__api.login(self.id, self.token)
if ret[0] is None:
raise Exception('login failed %s - %s' % (self.id, ret))
else:
log.info('%s login success' % self.id)
self.__login_flag = ret
def __init__(self):
self.__login_flag = False
with open('.config.json') as f:
info = json.load(f)
self.id = info.get('id')
self.token = info.get('token')
# 获取市场股市列表
def instrumentinfo(self, _fields="", _filter="inst_type=1&status=1&market=SH,SZ"):
self.__lazy_login()
df, msg = self.__api.query(view="jz.instrumentInfo", fields=_fields,
filter=_filter,
data_format='pandas')
log.debug('request jz.instrumentInfo')
return df
# 停复牌resu_date 未设置
# def secsusp(self, _filter="", _fields=""):
# self.__lazy_login()
# df, msg = self.__api.query(
# view="lb.secSusp",
# fields=_fields,
# filter=_filter,
# data_format='pandas')
# log.debug('request lb.secSusp')
# return CecsuspDataFrame(df)
# 获取限售股解禁列表
# TODO
#def secrestricted(self, _start_date, _end_date, _fields=""):
# self.__lazy_login()
# filters = urlencode({'start_date': TradeCalendar.date2int(_start_date),
# 'end_date': TradeCalendar.date2int(_end_date)})
# df, msg = self.__api.query(
# view="lb.secRestricted",
# fields=_fields,
# filter=filters,
# data_format='pandas')
# log.debug('request lb.secRestricted')
# return df
# 日交易行情
def daily(self, symbol, start_date, end_date, freq='1d', fields= "", adjust_mode='post'):
self.__lazy_login()
df, msg = self.__api.daily(
symbol=symbol,
freq=freq,
start_date=start_date,
end_date=end_date,
fields=fields,
adjust_mode=adjust_mode)
log.debug('request daily %s' % msg)
return df
# 交易日历
def tradecal(self, _fields="trade_date, istradeday"):
self.__lazy_login()
df, msg = self.__api.query(
view="jz.secTradeCal",
fields=_fields)
log.debug('request jz.secTradeCal')
return df
# 订阅
def subscribe(self, _symbol, _func, _fields):
self.__lazy_login()
sublist, msg = self.__api.subscribe(_symbol, func=_func,
fields=_fields)
log.debug('request subscribe')
return sublist
# bar
def bar(self, _symbol, _trade_date, _freq="5M", _fields=""):
self.__lazy_login()
df, msg = self.__api.bar(symbol=_symbol,
trade_date=_trade_date,
freq=_freq,
fields=_fields)
log.debug('request bar')
return df
from jaqs.data import DataApi
phone = "15009296563"
token = "eyJhbGciOiJIUzI1NiJ9.eyJjcmVhdGVfdGltZSI6IjE1MjY5MDUyODQ4NDQiLCJpc3MiOiJhdXRoMCIsImlkIjoiMTUwMDkyOTY1NjMifQ.G7iuy8aDdNvq6CQzdKMGS7MhnpSg7aVuvCSUpPNhIEk"
api = DataApi(addr='tcp://data.quantos.org:8910')
result, msg = api.login(phone, token)
print(result, msg)
print("########")
df, msg = api.bar("cu1806.SHF",
start_time="09:56:00",
end_time="13:56:00",
trade_date="2017-08-23",
fields="open,high,low,last,volume",
freq="5M")
print(df, msg)
from jaqs.data import DataApi
import matplotlib.pyplot as plt
# matplotlib inline
import pandas as pd
import numpy as np
api = DataApi(addr='tcp://data.tushare.org:8910')
phone = 'phone'
token = 'token'
df, msg = api.login(phone, token)
print(df, msg)
df, msg = api.query(view="jz.instrumentInfo",
fields="market,symbol,list_date,status",
filter="inst_type=1&status=1&market=SH,SZ",
data_format="pandas")
df.index = df['symbol']
df.sort_index(inplace=True)
print(len(df))
print(len(df[df['market'] == 'SZ']))
print(len(df[df['market'] == 'SH']))
class JaqsDataDownloader(object):
MAIN_CONTRACT_DB_NAME = 'VnTrader_MainContract'
def __init__(self):
self.setting = None
self.contractDict = None
self.api = None
self.dbClient = None
self.db = None
self.symbols = []
self.taskList = []
self.finishedSymbols = [] # 学习协程使用的,普通和多线程下载用不上。
# 连接出错重试设置
self._retry = 0
self._waitTime = 10
# 初始化设置
self._loadSetting()
self._loadContracts()
def _loadSetting(self):
"""
默认载入json文件的合约列表
"""
with codecs.open('config.json', 'r', 'utf-8') as f:
self.setting = json.load(f)
self.symbols = self.setting['SYMBOLS']
def _loadContracts(self):
"""
jaqs的数据api合约代码是基础代码加上jaqs设置的市场编号,如'cu1805.SHF'。
将合约与市场的映射关系保存在json文件上,有新合约上市可以在json文件上修改 。
"""
with codecs.open('contract.json', 'r', 'utf-8') as f:
self.contractDict = json.load(f)
def _symbolConvert(self, symbol):
"""
把合约代码格式转换成jaqs的合约代码格式。
"""
symbolAlphabet = re.match(r'^([A-Z]|[a-z])+', symbol).group()
for market, symbols in self.contractDict.items():
if symbolAlphabet in symbols:
return '%s.%s' % (symbol, market)
print(u'%s-目前期货交易所无此合约.' % symbol)
def _generateVtBar(self, symbol, data):
"""
生成vtBar(vnpy的bar类对象)
"""
bar = VtBarData()
bar.symbol = symbol
bar.vtSymbol = symbol
bar.open = float(data['open'])
bar.high = float(data['high'])
bar.low = float(data['low'])
bar.close = float(data['close'])
bar.volume = int(data['volume'])
bar.openInterest = int(data['oi'])
dt_str = '%08d %06d' % (data['date'], data['time'])
bar.datetime = datetime.strptime(dt_str, '%Y%m%d %H%M%S')
bar.date = bar.datetime.strftime('%Y%m%d')
bar.time = bar.datetime.strftime('%H:%M:%S')
return bar
def loginJaqsApp(self):
"""
# 登录jaqs的api。需要账号和token,可在官网上注册。
"""
print(u'正在登陆JaqsAPI.')
self.api = DataApi(addr=self.setting['ADDR'])
self.api.login(self.setting['PHONE'], self.setting['TOKEN'])
def connectDb(self, dbName=MINUTE_DB_NAME):
"""
连接数据库。
"""
self.dbClient = MongoClient(self.setting['MONGO_HOST'],
self.setting['MONGO_PORT'])
self.db = self.dbClient[dbName]
# print(self.db.collection_names())
def setSymbols(self, symbolsList):
"""
设置要批量下载的合约列表,覆盖配置文件合约代码的设置
"""
self.symbols = symbolsList
def getData(self, symbol, *args, **kwargs):
"""
调用jaqs的api方法,如果传入错误的参数,可能会发生阻塞或异常,如果出错,可以检查传入参数是否正确。
**kwargs
:param symbol: 交易合约代码,如rb1810
:param args: 其他支持的参数可以在官网查询jaqs的api文档,最常用的是trade_date,可以支持自定义要下载的交易日。
:param kwargs: 同上
:return:
"""
symbol = self._symbolConvert(symbol)
df, msg = self.api.bar(symbol=symbol, freq="1M", *args, **kwargs)
# print df, msg
return df
def getTradingday(self, startDate, endDate=None):
"""
:param startDate: 开始日期,格式YYYY-MM-DD
:param endDate: 结束日期,格式同上
:return: 交易日列表,格式同上
"""
# jaqs交易日api传入参数的日期格式是YYYYMMDD,需要先转换
if not endDate:
endDate = datetime.now().strftime('%Y%m%d')
else:
endDate = '%s%s%s' % (endDate[0:4], endDate[5:7], endDate[8:10])
startDate = '%s%s%s' % (startDate[0:4], startDate[5:7],
startDate[8:10])
flt = 'start_date=%s&end_date=%s' % (startDate, endDate)
df, msg = self.api.query(view='jz.secTradeCal', filter=flt)
dates = df['trade_date'].values
dates = map(
lambda dateStr: '%s-%s-%s' %
(dateStr[0:4], dateStr[4:6], dateStr[6:8]), dates)
return dates
def getMainContract(self, symbol, startDate='2012-01-01', endDate=None):
"""
获取从2012年1月1日开始的历史主力合约列表(jaqs数据从2012年开始)。
jaqs不提供历史主力合约数据,本方法依赖本地数据库,需要先用附带的模块从ricequant获取数据并入库。
:param symbol: 合约字母,不包含日期,如螺纹钢是rb
:param startDate: 开始日期,格式YYYY-MM-DD
:param endDate: 结束日期,格式同上,默认今日
:return: tuple(实际合约代码,日期)
"""
if not endDate:
endDate = datetime.now()
else:
endDate = datetime.strptime(endDate, '%Y-%m-%d')
startDate = datetime.strptime(startDate, '%Y-%m-%d')
# print startDate, endDate
db = self.dbClient[self.MAIN_CONTRACT_DB_NAME]
# print db.collection_names()
# 搜索合约所在的交易所
exchange = None
for colName in db.collection_names():
doc = db[colName].find_one()
if symbol in doc.keys():
exchange = colName
# print(exchange)
if exchange:
flt = {'date': {'$gte': startDate, '$lt': endDate}}
projection = {'date': True, '_id': False, symbol: True}
cursor = db[exchange].find(flt, projection).sort('date', ASCENDING)
docs = list(cursor)
docs = [(doc[symbol].lower(), doc['date'].strftime('%Y-%m-%d'))
for doc in docs]
# print(docs)
return docs
else:
print(u'数据库找不该合约的数据')
def getExistedDay(self, symbol):
"""
查找数据库已经存在的数据的日期,避免重复下载
"""
col = self.db[symbol]
docs = list(
col.find({}, {
'datetime': True,
'_id': False
}).sort('datetime', ASCENDING))
dateList = [doc['datetime'].strftime('%Y-%m-%d') for doc in docs]
# 如果下载过程出错,已经保存好的数据最后一天很可能不是完整的,所以数据库最后一天从已有数据集合删除,重新下载。
lastDay = dateList[-1]
dates = set(dateList)
dates.remove(lastDay)
return dates
def saveToDb(self, symbol, overwrite=True, *args, **kwargs):
"""
将单一合约分钟线数据存入数据库。
默认当前交易日,可通过trade_date='2018-02-03'指定交易日。
默认覆盖已有数据库资料,overwrite设为
:param symbol: 交易合约代码,如rb1810
:param overwrite: 是否覆盖数据库已有数据,默认是True(覆盖)。False:若数据库存在重复的日期,跳过。
:param args: jaqs其他支持的参数通过这里传入,请查询官方文档。
:param kwargs: jaqs其他支持的参数通过这里传入,请查询官方文档。
:return:
"""
# 如果当前日期的数据在数据已经存在,并且模式为不覆盖,则忽略任务
if not overwrite and 'trade_date' in kwargs:
qryDate = kwargs['trade_date']
existedDate = self.getExistedDay(symbol)
if qryDate in existedDate:
print(u'数据库已存在该日期数据,忽略')
return
# 调用jaqs的api
data = self.getData(symbol, *args, **kwargs)
if data.empty:
print(u'无数据!可能是节假日或超过jaqs数据库的保存范围。')
return
col = self.db[symbol]
col.create_index([('datetime', ASCENDING)], unique=True)
dataStart = None
dataEnd = None
for i in range(len(data)):
bar = self._generateVtBar(symbol, data.iloc[i])
document = bar.__dict__
flt = {'datetime': bar.datetime}
col.replace_one(flt, document, upsert=True)
if i == 0:
dataStart = bar.datetime
elif i == len(data) - 1:
dataEnd = bar.datetime
# 判断当前任务是否完成,协程方式使用,普通和多线程方式用不上
dateStr = '%s' % dataEnd
missionID = '.'.join([dateStr[0:10], symbol])
self.finishedSymbols.append(missionID)
print(u'合约%s下载完成。日期区间:%s - %s' % (symbol, dataStart, dataEnd))
def downloadAllSymbol(self, *args, **kwargs):
"""
多合约单日下载,适用于每日收市后的数据更新,默认当前交易日,可通过trade_date='2018-02-03'指定交易日。
"""
self.taskList.extend(self.symbols)
print(u'开始下载所有合约分钟线数据,任务列表:')
print(self.taskList)
# 如果网络连接出错,会重新连接,重试3次。
# 如果不是网络连接问题,请仔细检查传入jaqsApi的参数是否正确。
while self.taskList and self._retry <= 3:
# 重试计时
if self._retry > 0:
print(u'%s秒后开始重试' % self._waitTime)
time.sleep(self._waitTime)
for symbol in self.taskList:
try:
self.saveToDb(symbol, *args, **kwargs)
except:
self._retry += 1
self._waitTime += 10
traceback.print_exc()
else:
self.taskList.remove(symbol)
# 达到最大重试次数后,检查任务完成度
if not self.taskList:
print(u'全部合约分钟线数据下载完成')
else:
print(u'下载失败,达到最大重试次数。未完成合约:%s' % self.taskList)
performance_metrics['Sharpe Ratio'] = \
(performance_metrics['Annual Return (%)'] / performance_metrics['Annual Volatility (%)'])
risk_metrics = dict()
risk_metrics['Beta'] = np.corrcoef(df_returns.loc[:, 'bench'],
df_returns.loc[:, 'strat'])[0, 1]
risk_metrics['Maximum Drawdown (%)'] = max_dd * 100
risk_metrics['Maximum Drawdown start'] = df_returns.index[max_dd_start]
risk_metrics['Maximum Drawdown end'] = df_returns.index[max_dd_end]
# print(performance_metrics, risk_metrics, df_returns)
return performance_metrics, risk_metrics, df_returns
if __name__ == "__main__":
api = DataApi(addr="tcp://data.tushare.org:8910")
df, msg = api.login(data_config["remote.data.username"],
data_config["remote.data.password"])
# print(df, msg)
df = get_fundlist(api, u'股票型', u'增强指数型')
symbols = ",".join(df['symbol'])
start_data = 20170101
curr_data = 20180110
index_map = get_index_map(api, symbols, start_data)
# print(index_map)
indicators = list()
for (symbol, index) in index_map.items():
performance_metrics, risk_metrics, df_returns = cal_active_return(
#! usr/bin/python
#coding=utf-8
from jaqs.data import DataApi
api = DataApi(addr="tcp://data.tushare.org:8910")
api.login(
"18852992009", "eyJhbGciOiJIUzI1NiJ9.eyJjcmV\
hdGVfdGltZSI6IjE1MTMxODExNzkxNDIiLCJpc3MiOiJhdXR\
oMCIsImlkIjoiMTg4NTI5OTIwMDkifQ.RVrI6_rndVcgwRvJYL\
fbPkBNuLEy65kG0lcOZSp4g8w")
# 士兰微(SH:600460)
# df,msg = api.quote("600460.SH", fields="open,high,low,last,volume")
df, msg = api.daily(symbol="600460.SH",
start_date=20171210,
end_date=20171212,
fields="",
adjust_mode="post")
print df
print msg
def init_from_config(self, props):
"""
Parameters
----------
props : dict
Configurations used for initialization.
Example
-------
{"remote.data.address": "tcp://*****:*****@{}".format(username, address))
INDENT = ' ' * 4
if self.data_api is None:
if (address == "") or (username == "") or (password == ""):
raise InitializeError(
"no address, username or password available!")
elif self.data_api._loggined:
if ((address == self._address) and (time_out == self._timeout)
and (username == self._username)
and (password == self._password)):
print(INDENT +
"Already login as {:s}, skip init_from_config".format(
username))
return # do not login with the same props again
else:
self.data_api.close()
self.data_api = None
self._address = address
self._username = username
self._password = password
self._timeout = time_out
data_api = DataApi(self._address, use_jrpc=False)
data_api.set_timeout(timeout=self._timeout)
r, err_msg = data_api.login(username=self._username,
password=self._password)
if not r:
print(INDENT + "login failed: err_msg = '{}'\n".format(err_msg))
else:
self.data_api = data_api
print(INDENT + "login success \n")
"18652420434",
"remote.data.password":
"******"
}
trade_config = {
"remote.trade.address":
"tcp://gw.quantos.org:8901",
"remote.trade.username":
"******",
"remote.trade.password":
"******"
}
dataview_store_folder = './read_picture/data/prepared'
api = DataApi(addr='tcp://data.quantos.org:8910')
api.login(
18652420434,
'eyJhbGciOiJIUzI1NiJ9.eyJjcmVhdGVfdGltZSI6IjE1MTcwNjAxMDgyOTMiLCJpc3MiOiJhdXRoMCIsImlkIjoiMTg2NTI0MjA0MzQifQ.b1ejSpbEVS7LhbsveZ5kvbWgUs7fnUd0-CBakPwNUu4'
)
start_date = "20120101"
end_date = "20181231"
def get_index_info():
df, msg = api.query(
view="lb.indexCons",
fields="index_code,symbol,in_date,out_date",
filter="index_code=000905.SH&start_date=20120101&end_date=20181231",
data_format='pandas')
