class OnePiece(object):
env = Environment()
def __init__(self):
self.market_maker = MarketMaker()
self.order_checker = PendingOrderChecker()
self.cur_event = None
self.env.logger = logging.getLogger("OnePy")
def sunny(self, summary=True):
"""主循环,OnePy的核心"""
self._initialize_trading_system()
while True:
try:
self.cur_event = self.env.event_bus.get()
except queue.Empty:
try:
self.market_maker.update_market()
self.order_checker.run()
except BacktestFinished:
self.output.summary() if summary else None
break
else:
self._run_event_loop()
def _run_event_loop(self):
for element in self.env.event_loop:
if self._event_is_executed(**element):
break
def _event_is_executed(self, if_event, then_event, module_dict):
if self.cur_event.event_type == if_event:
[value.run() for value in module_dict.values()]
self.env.event_bus.put(Event(then_event)) if then_event else None
return True
def _initialize_trading_system(self):
self.env.refresh()
OnePyEnvBase.env = self.env
self.env.event_loop = EVENT_LOOP
self.market_maker.initialize()
if self.env.recorder:
self.env.recorder.initialize()
@property
def output(self):
return OutPut()
def show_log(self, file=False):
if file:
LoggerFactory("OnePy").logger
logging.basicConfig(level=logging.INFO)
def test_frequency_generate():
# 若不指定 frequency, 是否会产生新的 frequency
set_easy_context()
StockRecorder()
reader = CSVReader(data_path='./', file_name=TICKER, ticker=TICKER)
MarketMaker._initialize_feeds()
MarketMaker._initialize_calendar()
cleaner = SMA(rolling_window=10, buffer_day=20)
cleaner.initialize_buffer_data(TICKER, buffer_day=20)
assert cleaner.frequency == FREQUENCY
def func_test_update_cleaner(frequency):
set_easy_context()
StockRecorder()
reader = CSVReader(data_path='./', file_name=TICKER, ticker=TICKER)
cleaner = SMA(rolling_window=10, buffer_day=10, frequency=frequency)
cleaner2 = SMA(rolling_window=10, buffer_day=1, frequency=frequency)
env = reader.env
# 初始化
MarketMaker._initialize_feeds()
MarketMaker._initialize_calendar()
MarketMaker._initialize_cleaners() # 以sys_date初始化
# 以 sys_date 来进行初始化数据,因为一开始 sys_date 会比 fromdate 向前一步
# 测试开始回测时 buffer 数据最新一条是否为 Start 前一根 bar 的数据。
key = f'{TICKER}_{frequency}'
assert arrow.get(cleaner.data[key]['date'][-1]) <= arrow.get(env.sys_date)
# sys_date和cleaner中的数据都更新到和fromdate同步
MarketMaker.calendar.update_calendar()
MarketMaker._update_bar()
cleaner.run()
if INSTRUMENT == 'A_Shares': # 测试buffer_day是否会自动变化
assert cleaner2.buffer_day == 5
if cleaner.frequency == env.sys_frequency:
cur_bar = env.feeds[TICKER]
else:
cur_bar = env.cleaners_feeds[key + '_' + cleaner.name]
# cleaner run之后日期一切正常
latest_date = cleaner.data[key]['date'][-1]
assert latest_date == cur_bar.date, f'{latest_date} != {cur_bar.date}'
# 测试更新后是否成功
env.execute_on_close_or_next_open = 'open'
env.cur_suspended_tickers.clear()
MarketMaker.calendar.update_calendar()
MarketMaker._update_bar()
cleaner.run()
latest_date = cleaner.data[key]['date'][-1]
assert latest_date == cur_bar.date, f'{latest_date} != {cur_bar.date}'
assert cleaner.data[key]['open'][-1] == cur_bar.current_ohlc['open']
assert cleaner.data[key]['high'][-1] == cur_bar.current_ohlc['high']
assert cleaner.data[key]['low'][-1] == cur_bar.current_ohlc['low']
assert cleaner.data[key]['close'][-1] == cur_bar.current_ohlc['close']
assert cleaner.data[key]['volume'][-1] == cur_bar.current_ohlc['volume']
def _save_cleaners_feeds(self, ticker: str):
key = f'{ticker}_{self.frequency}_{self.name}'
value = MarketMaker.get_bar(ticker, self.frequency)
if value.initialize(7):
self.env.cleaners_feeds.update({key: value})
def func_test_reader(reader: op.ReaderBase):
def test_load(start, end, iter_data):
first_date = next(iter_data)['date']
assert isinstance(first_date, str), "it should be iterable"
if FREQUENCY == 'H1':
shift_num = 1 / 24
elif FREQUENCY == 'D':
shift_num = 1
next_date = shift_date(first_date, shift_num)
assert next(iter_data)['date'] == next_date
last_date = [i for i in iter_data][-1]['date']
assert arrow.get(last_date) <= arrow.get(
end), f"{last_date} can't more than {END}"
StockRecorder()
go = op.OnePiece()
go.set_date(START, END, FREQUENCY, INSTRUMENT)
test_iter_data = reader.load(START, END, FREQUENCY)
test_load(START, END, test_iter_data)
NEW_START = shift_date(START, -9)
NEW_END = shift_date(NEW_START, 10)
test_iter_data = reader.load_by_cleaner(NEW_START, NEW_END, FREQUENCY)
test_load(NEW_START, NEW_END, test_iter_data)
# 获取bar
bars = MarketMaker.get_bar(TICKER, FREQUENCY)
assert isinstance(bars, BarBase)
assert reader in reader.env.readers.values()
def test_different_frequency():
set_easy_context()
StockRecorder()
reader = CSVReader(data_path='./', file_name=TICKER, ticker=TICKER)
MarketMaker._initialize_feeds()
MarketMaker._initialize_calendar()
cleaner = SMA(rolling_window=10, buffer_day=20, frequency=FREQUENCY)
cleaner.initialize_buffer_data(TICKER, buffer_day=20)
key = f'{TICKER}_{FREQUENCY}'
# 测试不同 frequency 是否会新建 cleaner feed
assert key + '_' + cleaner.name in reader.env.cleaners_feeds
# 低 frequency 的 cleaners feed 中 bar 的更新不超过系统 bar 时间
MarketMaker.env.cur_suspended_tickers.clear()
MarketMaker.calendar.update_calendar()
MarketMaker._update_bar()
cleaner.run()
cleaner_latest_date = cleaner.data[key]['date'][-1]
bar_latest_date = cleaner.env.feeds[TICKER].date
assert arrow.get(cleaner_latest_date) == arrow.get(bar_latest_date)
assert arrow.get(cleaner_latest_date) <= arrow.get(cleaner.env.sys_date)
func_test_update_cleaner(FREQUENCY)
func_test_update_cleaner('H1')
def _pre_initialize_trading_system(self):
self.event_loop = EVENT_LOOP
self.market_maker = MarketMaker()
self.pending_order_checker = PendingOrderChecker()
class OnePiece(OnePyEnvBase):
def __init__(self):
# 内置模块
self.market_maker: MarketMaker = None
self.pending_order_checker: PendingOrderChecker = None
self.event_loop: list = None
# 其他模块
self.optimizer = Optimizer()
self.forward_analysis = ForwardAnalysis()
def _pre_initialize_trading_system(self):
self.event_loop = EVENT_LOOP
self.market_maker = MarketMaker()
self.pending_order_checker = PendingOrderChecker()
def initialize_trading_system(self): # 清空内存,便于参数优化
self._pre_initialize_trading_system()
self.env.initialize_env()
self.market_maker.initialize()
self.env.recorder.initialize()
def sunny(self, summary: bool = True, show_process: bool = False):
"""主循环,OnePy的核心"""
self.initialize_trading_system()
while True:
try:
if self.env.event_engine.is_empty():
self.market_maker.update_market()
self.pending_order_checker.run()
if show_process:
self._show_process()
else:
cur_event = self.env.event_engine.get()
self._run_event_loop(cur_event)
except BacktestFinished:
if summary:
print("\n")
self.output.summary()
break
def _run_event_loop(self, cur_event):
for element in self.event_loop:
if self._event_is_executed(cur_event, **element):
break
def _event_is_executed(self, cur_event, if_event: EVENT, then_event: EVENT,
module_dict: dict) -> bool:
if cur_event is None:
return True
elif cur_event == if_event:
[value.run() for value in module_dict.values()]
self.env.event_engine.put(then_event)
return True
else:
return False
def _show_process(self):
fromdate = arrow.get(self.env.fromdate)
todate = arrow.get(self.env.todate)
curdate = arrow.get(self.env.sys_date)
total_days = (todate - fromdate).days
finished_days = (curdate - fromdate).days
show_process(finished_days, total_days)
def set_date(self, fromdate: str, todate: str, frequency: str,
instrument: str):
"""
Instrument: A_shares, Forex
Frequency:
(S5, S10, S30, M1, M2, M4, M5) <- BAD Interval
M10, M15, M30, H1, H2, H3, H4, H6, H8, H12
"""
self.env.instrument = instrument
self.env.fromdate = fromdate
self.env.todate = todate
self.env.sys_frequency = frequency
def set_forex_live_trading(self, frequency: str):
"""
Frequency:
(S5, S10, S30, M1, M2, M4, M5) <- BAD Interval
M10, M15, M30, H1, H2, H3, H4, H6, H8, H12
"""
fromdate = arrow.utcnow().format("YYYY-MM-DD HH:mm:ss")
self.set_date(fromdate, None, frequency, "Forex")
self.env.sys_date = fromdate
self.env.is_live_trading = True
def show_today_signals(self):
"""
能够显示当天的最新信号,但是会导致回测结果不准确。
"""
self.env.is_show_today_signals = True
@classmethod
def show_log(cls, file=False, no_console=False):
if file:
LoggerFactory("OnePy")
if no_console:
logging.getLogger("OnePy").propagate = False
logging.basicConfig(level=logging.INFO)
@classmethod
def set_recursion_limit(cls, limit: int = 2000):
"""
突破递归次数限制,有时候信号太多会导致撮合引擎递归太多次而假死
"""
sys.setrecursionlimit(limit)
def save_original_signal(self):
self.env.is_save_original = True
@property
def output(self) -> OutPut:
return OutPut()
def __init__(self):
self.market_maker = MarketMaker()
self.order_checker = PendingOrderChecker()
self.cur_event = None
self.env.logger = logging.getLogger("OnePy")