def get_mi_contracts_from_exchange(self, exchange):
contracts = self.get_contracts(exchange)
if len(contracts) == 0:
print(u'异常,未能获取{}下合约信息'.format(exchange))
return []
mi_contracts = []
short_contract_dict = {}
for contract in contracts:
# 排除指数合约
code = contract.get('code')
if code[-2:] in ['L9', 'L8', 'L0', 'L1', 'L2', 'L3', '50'] or\
(exchange == Exchange.CFFEX and code[-3:] in ['300', '500']):
continue
short_symbol = get_underlying_symbol(code).upper()
contract_list = short_contract_dict.get(short_symbol, [])
contract_list.append(contract)
short_contract_dict.update({short_symbol: contract_list})
for k, v in short_contract_dict.items():
sorted_list = sorted(v, key=lambda c: c['ZongLiang'])
mi_contracts.append(sorted_list[-1])
return mi_contracts
def get_price(self, symbol):
"""获取最新价格"""
tdx_symbol = symbol.upper().replace('_', '')
short_symbol = get_underlying_symbol(tdx_symbol).upper()
if tdx_symbol.endswith('99'):
query_symbol = tdx_symbol.replace('99', 'L9')
else:
query_symbol = get_full_symbol(tdx_symbol)
if query_symbol != tdx_symbol:
self.write_log('转换合约:{}=>{}'.format(tdx_symbol, query_symbol))
tdx_index_symbol = short_symbol + 'L9'
self.connect()
if self.api is None:
return 0
market_id = self.symbol_market_dict.get(tdx_index_symbol, 0)
_res = self.api.get_instrument_quote(market_id, query_symbol)
if not isinstance(_res, list):
return 0
if len(_res) == 0:
return 0
return float(_res[0].get('price', 0))
def get_tdx_marketid(symbol):
"""普通合约/指数合约=》tdx合约所在市场id"""
underlying_symbol = get_underlying_symbol(symbol)
tdx_index_symbol = underlying_symbol.upper() + 'L9'
market_id = INIT_TDX_MARKET_MAP.get(tdx_index_symbol, None)
if market_id is None:
raise KeyError(f'{tdx_index_symbol}不存在INIT_TDX_MARKET_MAP中')
return market_id
def _get_vn_exchange(self, symbol):
"""获取"""
underlying_symbol = get_underlying_symbol(symbol).upper()
info = self.future_contracts.get(underlying_symbol, None)
if info:
return Exchange(info.get('exchange'))
else:
market_id = get_tdx_marketid(symbol)
return Tdx_Vn_Exchange_Map.get(str(market_id), Exchange.INE)
def update_mi_contracts(self):
# 连接通达信,获取主力合约
if not self.api:
self.connect()
mi_contract_quote_list = self.get_mi_contracts2()
self.write_log(
u'一共获取:{}个主力合约:{}'.format(len(mi_contract_quote_list), [c.get('code') for c in mi_contract_quote_list]))
should_save = False
# 逐一更新主力合约数据
for mi_contract in mi_contract_quote_list:
tdx_market_id = mi_contract.get('market')
full_symbol = mi_contract.get('code')
underlying_symbol = get_underlying_symbol(full_symbol).upper()
if underlying_symbol in ['SC', 'NR']:
vn_exchange = Exchange.INE
else:
vn_exchange = Tdx_Vn_Exchange_Map.get(str(tdx_market_id))
mi_symbol = get_real_symbol_by_exchange(full_symbol, vn_exchange)
# 更新登记 短合约:真实主力合约
self.write_log(
'{},{},{},{},{}'.format(tdx_market_id, full_symbol, underlying_symbol, mi_symbol, vn_exchange))
if underlying_symbol in self.future_contracts:
info = self.future_contracts.get(underlying_symbol)
if mi_symbol > info.get('mi_symbol'):
self.write_log(u'主力合约变化:{} =>{}'.format(info.get('mi_symbol'), mi_symbol))
info.update({'mi_symbol': mi_symbol, 'full_symbol': full_symbol})
self.future_contracts.update({underlying_symbol: info})
should_save = True
else:
# 添加到新合约中
# 这里缺少size和price_tick, margin_rate,当ctp_gateway启动时,会自动补充和修正完毕
info = {
"underlying_symbol": underlying_symbol,
"mi_symbol": mi_symbol,
"full_symbol": full_symbol,
"exchange": vn_exchange.value
}
self.write_log(u'新合约:{}, 需要待ctp连接后更新合约的size/price_tick/margin_rate'.format(info))
self.future_contracts.update({underlying_symbol: info})
should_save = True
if should_save:
save_future_contracts(self.future_contracts)
def get_history_transaction_data(self, symbol, date, cache_folder=None):
"""获取当某一交易日的历史成交记录"""
ret_datas = []
if isinstance(date, datetime):
date = date.strftime('%Y%m%d')
if isinstance(date, str):
date = int(date)
self.connect()
cache_symbol = symbol
cache_date = str(date)
max_data_size = sys.maxsize
symbol = symbol.upper()
if '99' in symbol:
# 查询的是指数合约
symbol = symbol.replace('99', 'L9')
tdx_index_symbol = symbol
else:
# 查询的是普通合约
tdx_index_symbol = get_underlying_symbol(symbol).upper() + 'L9'
q_size = QSIZE * 5
# 每秒 2个, 10小时
max_data_size = 1000000
# 优先从缓存加载
if cache_folder:
buffer_data = self.load_cache(cache_folder, cache_symbol,
cache_date)
if buffer_data:
self.write_log(u'使用缓存文件')
return True, buffer_data
self.write_log(u'开始下载{} 历史{}分笔数据'.format(date, symbol))
cur_trading_date = get_trading_date()
if date == int(cur_trading_date.replace('-', '')):
return self.get_transaction_data(symbol)
try:
_datas = []
_pos = 0
while (True):
_res = self.api.get_history_transaction_data(
market=self.symbol_market_dict.get(tdx_index_symbol, 0),
date=date,
code=symbol,
start=_pos,
count=q_size)
if _res is not None:
for d in _res:
dt = d.pop('date')
# 星期1~星期6
if dt.hour >= 20 and 1 < dt.isoweekday() <= 6:
dt = dt - timedelta(days=1)
d.update({'datetime': dt})
elif dt.hour >= 20 and dt.isoweekday() == 1:
# 星期一取得20点后数据
dt = dt - timedelta(days=3)
d.update({'datetime': dt})
elif dt.hour < 8 and dt.isoweekday() == 1:
# 星期一取得8点前数据
dt = dt - timedelta(days=3)
d.update({'datetime': dt})
elif dt.hour >= 20 and dt.isoweekday() == 7:
# 星期天取得20点后数据,肯定是星期五夜盘
dt = dt - timedelta(days=2)
d.update({'datetime': dt})
elif dt.isoweekday() == 7:
# 星期日取得其他时间,必然是 星期六凌晨的数据
dt = dt - timedelta(days=1)
d.update({'datetime': dt})
else:
d.update({'datetime': dt})
# 接口有bug,返回价格*1000,所以要除以1000
d.update({'price': d.get('price', 0) / 1000})
_datas = sorted(_res, key=lambda s: s['datetime']) + _datas
_pos += min(q_size, len(_res))
if _res is not None and len(_res) > 0:
self.write_log(u'分段取分笔数据:{} ~{}, {}条,累计:{}条'.format(
_res[0]['datetime'], _res[-1]['datetime'], len(_res),
_pos))
else:
break
if len(_datas) >= max_data_size:
break
if len(_datas) == 0:
self.write_error(u'{}分笔成交数据获取为空'.format(date))
return False, _datas
# 缓存文件
if cache_folder:
self.save_cache(cache_folder, cache_symbol, cache_date, _datas)
return True, _datas
except Exception as ex:
self.write_error(
'exception in get_transaction_data:{},{},{}'.format(
symbol, str(ex), traceback.format_exc()))
self.write_error(u'当前异常服务器信息:{}'.format(self.best_ip))
self.write_log(u'重置连接')
self.api = None
self.connect(is_reconnect=True)
return False, ret_datas
def get_transaction_data(self, symbol):
"""获取当前交易日的历史成交记录"""
ret_datas = []
max_data_size = sys.maxsize
symbol = symbol.upper()
if '99' in symbol:
# 查询的是指数合约
symbol = symbol.replace('99', 'L9')
tdx_index_symbol = symbol
else:
# 查询的是普通合约
tdx_index_symbol = get_underlying_symbol(symbol).upper() + 'L9'
self.connect()
q_size = QSIZE * 5
# 每秒 2个, 10小时
max_data_size = 1000000
self.write_log(u'开始下载{}当日分笔数据'.format(symbol))
try:
_datas = []
_pos = 0
while (True):
_res = self.api.get_transaction_data(
market=self.symbol_market_dict.get(tdx_index_symbol, 0),
code=symbol,
start=_pos,
count=q_size)
if _res is not None:
for d in _res:
dt = d.pop('date')
# 星期1~星期6
if dt.hour >= 20 and 1 < dt.isoweekday() <= 6:
dt = dt - timedelta(days=1)
elif dt.hour >= 20 and dt.isoweekday() == 1:
# 星期一取得20点后数据
dt = dt - timedelta(days=3)
elif dt.hour < 8 and dt.isoweekday() == 1:
# 星期一取得8点前数据
dt = dt - timedelta(days=3)
elif dt.hour >= 20 and dt.isoweekday() == 7:
# 星期天取得20点后数据,肯定是星期五夜盘
dt = dt - timedelta(days=2)
elif dt.isoweekday() == 7:
# 星期日取得其他时间,必然是 星期六凌晨的数据
dt = dt - timedelta(days=1)
d.update({'datetime': dt})
# 接口有bug,返回价格*1000,所以要除以1000
d.update({'price': d.get('price', 0) / 1000})
_datas = sorted(_res, key=lambda s: s['datetime']) + _datas
_pos += min(q_size, len(_res))
if _res is not None and len(_res) > 0:
self.write_log(u'分段取分笔数据:{} ~{}, {}条,累计:{}条'.format(
_res[0]['datetime'], _res[-1]['datetime'], len(_res),
_pos))
else:
break
if len(_datas) >= max_data_size:
break
if len(_datas) == 0:
self.write_error(u'{}分笔成交数据获取为空')
return True, _datas
except Exception as ex:
self.write_error(
'exception in get_transaction_data:{},{},{}'.format(
symbol, str(ex), traceback.format_exc()))
self.write_error(u'当前异常服务器信息:{}'.format(self.best_ip))
self.write_log(u'重置连接')
self.api = None
self.connect(is_reconnect=True)
return False, ret_datas
def get_bars(self,
symbol,
period,
callback,
bar_is_completed=False,
bar_freq=1,
start_dt=None):
"""
返回k线数据
symbol:合约
period: 周期: 1min,3min,5min,15min,30min,1day,3day,1hour,2hour,4hour,6hour,12hour
"""
ret_bars = []
tdx_symbol = symbol.upper().replace('_', '')
tdx_symbol = tdx_symbol.replace('99', 'L9')
tdx_index_symbol = get_underlying_symbol(symbol) + 'L9'
self.connect()
if self.api is None:
return False, ret_bars
if period not in PERIOD_MAPPING.keys():
self.write_error(u'{} 周期{}不在下载清单中: {}'.format(
datetime.now(), period, list(PERIOD_MAPPING.keys())))
return False, ret_bars
# tdx_period = PERIOD_MAPPING.get(period)
if start_dt is None:
self.write_log(u'没有设置开始时间,缺省为10天前')
qry_start_date = datetime.now() - timedelta(days=10)
else:
qry_start_date = start_dt
end_date = datetime.combine(datetime.now() + timedelta(days=1),
time(ALL_MARKET_END_HOUR, 0))
if qry_start_date > end_date:
qry_start_date = end_date
self.write_log('{}开始下载tdx:{} {}数据, {} to {}.'.format(
datetime.now(), tdx_symbol, period, qry_start_date, end_date))
# print('{}开始下载tdx:{} {}数据, {} to {}.'.format(datetime.now(), tdx_symbol, tdx_period, last_date, end_date))
try:
_start_date = end_date
_bars = []
_pos = 0
while _start_date > qry_start_date:
_res = self.api.get_instrument_bars(
PERIOD_MAPPING[period],
self.symbol_market_dict.get(tdx_index_symbol, 0),
tdx_symbol, _pos, QSIZE)
if _res is not None:
_bars = _res + _bars
_pos += QSIZE
if _res is not None and len(_res) > 0:
_start_date = _res[0]['datetime']
_start_date = datetime.strptime(_start_date,
'%Y-%m-%d %H:%M')
self.write_log(u'分段取数据开始:{}'.format(_start_date))
else:
break
if len(_bars) == 0:
self.write_error('{} Handling {}, len1={}..., continue'.format(
str(datetime.now()), tdx_symbol, len(_bars)))
return False, ret_bars
current_datetime = datetime.now()
data = self.api.to_df(_bars)
data = data.assign(datetime=to_datetime(data['datetime']))
data = data.assign(ticker=symbol)
data['instrument_id'] = data['ticker']
# if future['market'] == 28 or future['market'] == 47:
# # 大写字母: 郑州商品 or 中金所期货
# data['instrument_id'] = data['ticker']
# else:
# data['instrument_id'] = data['ticker'].apply(lambda x: x.lower())
data['symbol'] = symbol
data = data.drop([
'year', 'month', 'day', 'hour', 'minute', 'price', 'amount',
'ticker'
],
errors='ignore',
axis=1)
data = data.rename(index=str,
columns={
'position': 'open_interest',
'trade': 'volume',
})
if len(data) == 0:
print('{} Handling {}, len2={}..., continue'.format(
str(datetime.now()), tdx_symbol, len(data)))
return False, ret_bars
data['total_turnover'] = data['volume']
data["limit_down"] = 0
data["limit_up"] = 999999
data['trading_date'] = data['datetime']
data['trading_date'] = data['trading_date'].apply(
lambda x: (x.strftime('%Y-%m-%d')))
monday_ts = data['datetime'].dt.weekday == 0 # 星期一
night_ts1 = data['datetime'].dt.hour > ALL_MARKET_END_HOUR
night_ts2 = data['datetime'].dt.hour < ALL_MARKET_BEGIN_HOUR
data.loc[night_ts1, 'datetime'] -= timedelta(
days=1) # 所有日期的夜盘(21:00~24:00), 减一天
monday_ts1 = monday_ts & night_ts1 # 星期一的夜盘(21:00~24:00), 再减两天
data.loc[monday_ts1, 'datetime'] -= timedelta(days=2)
monday_ts2 = monday_ts & night_ts2 # 星期一的夜盘(00:00~04:00), 再减两天
data.loc[monday_ts2, 'datetime'] -= timedelta(days=2)
# data['datetime'] -= timedelta(minutes=1) # 直接给Strategy使用, RiceQuant格式, 不需要减1分钟
data['dt_datetime'] = data['datetime']
data['date'] = data['datetime'].apply(lambda x:
(x.strftime('%Y-%m-%d')))
data['time'] = data['datetime'].apply(lambda x:
(x.strftime('%H:%M:%S')))
data['datetime'] = data['datetime'].apply(
lambda x: float(x.strftime('%Y%m%d%H%M%S')))
data = data.set_index('dt_datetime', drop=False)
# data = data[int(last_date.strftime('%Y%m%d%H%M%S')):int(end_date.strftime('%Y%m%d%H%M%S'))]
# data = data[str(last_date):str(end_date)]
for index, row in data.iterrows():
add_bar = BarData()
try:
add_bar.symbol = row['symbol']
add_bar.datetime = index
add_bar.date = row['date']
add_bar.time = row['time']
add_bar.trading_date = row['trading_date']
add_bar.open = float(row['open'])
add_bar.high = float(row['high'])
add_bar.low = float(row['low'])
add_bar.close = float(row['close'])
add_bar.volume = float(row['volume'])
add_bar.openInterest = float(row['open_interest'])
except Exception as ex:
self.write_error(
'error when convert bar:{},ex:{},t:{}'.format(
row, str(ex), traceback.format_exc()))
# print('error when convert bar:{},ex:{},t:{}'.format(row, str(ex), traceback.format_exc()))
return False
if start_dt is not None and index < start_dt:
continue
ret_bars.append(add_bar)
if callback is not None:
freq = bar_freq
bar_is_completed = True
if period != '1min' and index == data['dt_datetime'][-1]:
# 最后一个bar,可能是不完整的,强制修改
# - 5min修改后freq基本正确
# - 1day在VNPY合成时不关心已经收到多少Bar, 所以影响也不大
# - 但其它分钟周期因为不好精确到每个品种, 修改后的freq可能有错
if index > current_datetime:
bar_is_completed = False
# 根据秒数算的话,要+1,例如13:31,freq=31,第31根bar
freq = NUM_MINUTE_MAPPING[period] - int(
(index - current_datetime).total_seconds() /
60)
callback(add_bar, bar_is_completed, freq)
return True, ret_bars
except Exception as ex:
self.write_error('exception in get:{},{},{}'.format(
tdx_symbol, str(ex), traceback.format_exc()))
# print('exception in get:{},{},{}'.format(tdx_symbol,str(ex), traceback.format_exc()))
self.write_log(u'重置连接')
self.api = None
self.connect(is_reconnect=True)
return False, ret_bars