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mirror of https://github.com/microsoft/qlib.git synced 2026-07-16 09:11:00 +08:00

add default executor config & update bug in indicator

This commit is contained in:
bxdd
2021-06-24 13:59:10 +00:00
parent ab97e82484
commit 1517a9eb91
8 changed files with 123 additions and 91 deletions

View File

@@ -64,22 +64,41 @@ class NestedDecisonExecutionWorkflow:
"class": "NestedExecutor", "class": "NestedExecutor",
"module_path": "qlib.backtest.executor", "module_path": "qlib.backtest.executor",
"kwargs": { "kwargs": {
"time_per_step": "week", "time_per_step": "day",
"inner_executor": { "inner_executor": {
"class": "SimulatorExecutor", "class": "NestedExecutor",
"module_path": "qlib.backtest.executor", "module_path": "qlib.backtest.executor",
"kwargs": { "kwargs": {
"time_per_step": "day", "time_per_step": "30min",
"inner_executor": {
"class": "SimulatorExecutor",
"module_path": "qlib.backtest.executor",
"kwargs": {
"time_per_step": "5min",
"generate_report": True,
"verbose": True,
"indicator_config": {
"show_indicator": True,
},
},
},
"inner_strategy": {
"class": "TWAPStrategy",
"module_path": "qlib.contrib.strategy.rule_strategy",
},
"generate_report": True, "generate_report": True,
"verbose": True,
"indicator_config": { "indicator_config": {
"show_indicator": True, "show_indicator": True,
}, },
}, },
}, },
"inner_strategy": { "inner_strategy": {
"class": "TWAPStrategy", "class": "SBBStrategyEMA",
"module_path": "qlib.contrib.strategy.rule_strategy", "module_path": "qlib.contrib.strategy.rule_strategy",
"kwargs": {
"instruments": market,
"freq": "1min",
},
}, },
"track_data": True, "track_data": True,
"generate_report": True, "generate_report": True,
@@ -92,9 +111,8 @@ class NestedDecisonExecutionWorkflow:
"start_time": "2020-01-01", "start_time": "2020-01-01",
"end_time": "2020-12-31", "end_time": "2020-12-31",
"account": 100000000, "account": 100000000,
"benchmark": benchmark,
"exchange_kwargs": { "exchange_kwargs": {
"freq": "day", "freq": "1min",
"limit_threshold": 0.095, "limit_threshold": 0.095,
"deal_price": "close", "deal_price": "close",
"open_cost": 0.0005, "open_cost": 0.0005,
@@ -106,14 +124,14 @@ class NestedDecisonExecutionWorkflow:
def _init_qlib(self): def _init_qlib(self):
"""initialize qlib""" """initialize qlib"""
provider_uri_day = "/data1/v-xiabi/qlib/qlib_data/cn_data" # target_dir # provider_uri_day = "/data/stock_data/huaxia/qlib"
# provider_uri_1min = "/data2/stock_data/huaxia_1min_qlib"
provider_uri_day = "~/.qlib/qlib_data/cn_data" # target_dir
GetData().qlib_data(target_dir=provider_uri_day, region=REG_CN, version="v2", exists_skip=True) GetData().qlib_data(target_dir=provider_uri_day, region=REG_CN, version="v2", exists_skip=True)
# provider_uri_1min = HIGH_FREQ_CONFIG.get("provider_uri") provider_uri_1min = HIGH_FREQ_CONFIG.get("provider_uri")
provider_uri_1min = "/data1/v-xiabi/qlib/qlib_data/cn_data_highfreq"
GetData().qlib_data( GetData().qlib_data(
target_dir=provider_uri_1min, interval="1min", region=REG_CN, version="v2", exists_skip=True target_dir=provider_uri_1min, interval="1min", region=REG_CN, version="v2", exists_skip=True
) )
provider_uri_day = "/data/csdesign/qlib"
provider_uri_map = {"1min": provider_uri_1min, "day": provider_uri_day} provider_uri_map = {"1min": provider_uri_1min, "day": provider_uri_day}
client_config = { client_config = {
"calendar_provider": { "calendar_provider": {
@@ -139,7 +157,7 @@ class NestedDecisonExecutionWorkflow:
}, },
}, },
} }
qlib.init(provider_uri=provider_uri_day, **client_config) qlib.init(provider_uri=provider_uri_day, **client_config, redis_port=-1)
def _train_model(self, model, dataset): def _train_model(self, model, dataset):
with R.start(experiment_name="train"): with R.start(experiment_name="train"):
@@ -177,8 +195,8 @@ class NestedDecisonExecutionWorkflow:
par = PortAnaRecord( par = PortAnaRecord(
recorder, recorder,
self.port_analysis_config, self.port_analysis_config,
risk_analysis_freq=["week", "day"], risk_analysis_freq=["day", "30min", "5min"],
indicator_analysis_freq=["week", "day"], indicator_analysis_freq=["day", "30min", "5min"],
indicator_analysis_method="value_weighted", indicator_analysis_method="value_weighted",
) )
par.generate() par.generate()

View File

@@ -166,6 +166,7 @@ class BaseExecutor:
return self.execute(trade_decision) return self.execute(trade_decision)
def get_report(self): def get_report(self):
"""get the history report and postions instance"""
if self.generate_report: if self.generate_report:
_report = self.trade_account.report.generate_report_dataframe() _report = self.trade_account.report.generate_report_dataframe()
_positions = self.trade_account.get_positions() _positions = self.trade_account.get_positions()
@@ -173,13 +174,14 @@ class BaseExecutor:
else: else:
raise ValueError("generate_report should be True if you want to generate report") raise ValueError("generate_report should be True if you want to generate report")
def get_all_executors(self):
"""Return all executors"""
return [self]
def get_trade_indicator(self): def get_trade_indicator(self):
"""get the trade indicator instance, which has pa/pos/ffr info."""
return self.trade_account.indicator return self.trade_account.indicator
def get_all_executors(self):
"""get all executors"""
return [self]
class NestedExecutor(BaseExecutor): class NestedExecutor(BaseExecutor):
""" """
@@ -295,7 +297,7 @@ class NestedExecutor(BaseExecutor):
return execute_result return execute_result
def get_all_executors(self): def get_all_executors(self):
"""Return all executors, including self and inner_executor.get_all_executors()""" """get all executors, including self and inner_executor.get_all_executors()"""
return [self, *self.inner_executor.get_all_executors()] return [self, *self.inner_executor.get_all_executors()]

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@@ -11,7 +11,7 @@ from pandas.core import groupby
from pandas.core.frame import DataFrame from pandas.core.frame import DataFrame
from ..utils.resam import parse_freq, resam_ts_data, get_higher_freq_feature from ..utils.resam import parse_freq, resam_ts_data, get_higher_eq_freq_feature
from ..data import D from ..data import D
from ..tests.config import CSI300_BENCH from ..tests.config import CSI300_BENCH
@@ -82,7 +82,7 @@ class Report:
raise ValueError("benchmark freq can't be None!") raise ValueError("benchmark freq can't be None!")
_codes = benchmark if isinstance(benchmark, list) else [benchmark] _codes = benchmark if isinstance(benchmark, list) else [benchmark]
fields = ["$close/Ref($close,1)-1"] fields = ["$close/Ref($close,1)-1"]
_temp_result, _ = get_higher_freq_feature(_codes, fields, start_time, end_time, freq=freq) _temp_result, _ = get_higher_eq_freq_feature(_codes, fields, start_time, end_time, freq=freq)
if len(_temp_result) == 0: if len(_temp_result) == 0:
raise ValueError(f"The benchmark {_codes} does not exist. Please provide the right benchmark") raise ValueError(f"The benchmark {_codes} does not exist. Please provide the right benchmark")
return _temp_result.groupby(level="datetime")[_temp_result.columns.tolist()[0]].mean().fillna(0) return _temp_result.groupby(level="datetime")[_temp_result.columns.tolist()[0]].mean().fillna(0)
@@ -308,6 +308,7 @@ class Indicator:
raise ValueError(f"base_price {base_price} is not supported!") raise ValueError(f"base_price {base_price} is not supported!")
self.order_indicator["pa"] = self.order_indicator["trade_price"] / self.order_indicator["base_price"] - 1 self.order_indicator["pa"] = self.order_indicator["trade_price"] / self.order_indicator["base_price"] - 1
# print("trade_price", self.order_indicator["trade_price"], "base_price", self.order_indicator["base_price"], "pa", self.order_indicator["pa"]* (2 * (self.order_indicator["amount"] < 0).astype(int) - 1))
def _cal_trade_fulfill_rate(self, method="mean"): def _cal_trade_fulfill_rate(self, method="mean"):
if method == "mean": if method == "mean":
@@ -322,8 +323,7 @@ class Indicator:
raise ValueError(f"method {method} is not supported!") raise ValueError(f"method {method} is not supported!")
def _cal_trade_price_advantage(self, method="mean"): def _cal_trade_price_advantage(self, method="mean"):
pa_order = self.order_indicator["pa"] * (2 * (self.order_indicator["amount"] < 0).astype(int) - 1)
pa_order = self.order_indicator["pa"] * (self.order_indicator["amount"] < 0).astype(int)
if method == "mean": if method == "mean":
return pa_order.mean() return pa_order.mean()
elif method == "amount_weighted": elif method == "amount_weighted":
@@ -336,8 +336,8 @@ class Indicator:
raise ValueError(f"method {method} is not supported!") raise ValueError(f"method {method} is not supported!")
def _cal_trade_positive_rate(self): def _cal_trade_positive_rate(self):
pa_order = self.order_indicator["pa"] * (self.order_indicator["amount"] < 0).astype(int) pa_order = self.order_indicator["pa"] * (2 * (self.order_indicator["amount"] < 0).astype(int) - 1)
return (pa_order > 0).astype(int).sum() / len(pa_order) return (pa_order > 0).astype(int).sum() / pa_order.count()
def _cal_trade_amount(self): def _cal_trade_amount(self):
return self.order_indicator["deal_amount"].abs().sum() return self.order_indicator["deal_amount"].abs().sum()
@@ -345,6 +345,9 @@ class Indicator:
def _cal_trade_value(self): def _cal_trade_value(self):
return self.order_indicator["trade_value"].abs().sum() return self.order_indicator["trade_value"].abs().sum()
def _cal_trade_order_count(self):
return self.order_indicator["amount"].count()
def update_order_indicators(self, trade_start_time, trade_end_time, trade_info, trade_exchange): def update_order_indicators(self, trade_start_time, trade_end_time, trade_info, trade_exchange):
self._update_order_trade_info(trade_info=trade_info) self._update_order_trade_info(trade_info=trade_info)
self._update_order_fulfill_rate() self._update_order_fulfill_rate()
@@ -365,11 +368,13 @@ class Indicator:
positive_rate = self._cal_trade_positive_rate() positive_rate = self._cal_trade_positive_rate()
trade_amount = self._cal_trade_amount() trade_amount = self._cal_trade_amount()
trade_value = self._cal_trade_value() trade_value = self._cal_trade_value()
order_count = self._cal_trade_order_count()
self.trade_indicator["ffr"] = fulfill_rate self.trade_indicator["ffr"] = fulfill_rate
self.trade_indicator["pa"] = price_advantage self.trade_indicator["pa"] = price_advantage
self.trade_indicator["pos"] = positive_rate self.trade_indicator["pos"] = positive_rate
self.trade_indicator["amount"] = trade_amount self.trade_indicator["amount"] = trade_amount
self.trade_indicator["value"] = trade_value self.trade_indicator["value"] = trade_value
self.trade_indicator["count"] = order_count
if show_indicator: if show_indicator:
print( print(
"[Indicator({}) {:%Y-%m-%d %H:%M:%S}]: FFR: {}, PA: {}, POS: {}".format( "[Indicator({}) {:%Y-%m-%d %H:%M:%S}]: FFR: {}, PA: {}, POS: {}".format(

View File

@@ -84,29 +84,33 @@ def indicator_analysis(df, method="mean"):
index: Index(datetime) index: Index(datetime)
method : str, optional method : str, optional
statistics method, by default "mean" statistics method of pa/ffr, by default "mean"
- if method is 'mean', count the mean statistical value of each trade indicator - if method is 'mean', count the mean statistical value of each trade indicator
- if method is 'amount_weighted', count the amount weighted mean statistical value of each trade indicator - if method is 'amount_weighted', count the amount weighted mean statistical value of each trade indicator
- if method is 'value_weighted', count the value weighted mean statistical value of each trade indicator - if method is 'value_weighted', count the value weighted mean statistical value of each trade indicator
Note: statistics method of pos is always "mean"
Returns Returns
------- -------
pd.DataFrame pd.DataFrame
statistical value of each trade indicator statistical value of each trade indicators
""" """
indicators_df = df[["pa", "pos", "ffr"]] weights_dict = {
"mean": df["count"],
if method == "mean": "amount_weighted": df["amount"].abs(),
res = indicators_df.mean() "value_weighted": df["value"].abs(),
elif method == "amount_weighted": }
weights = df["amount"].abs() if method not in weights_dict:
res = indicators_df.mul(weights, axis=0).sum() / weights.sum()
elif method == "value_weighted":
weights = df["value"].abs()
res = indicators_df.mul(weights, axis=0).sum() / weights.sum()
else:
raise ValueError(f"indicator_analysis method {method} is not supported!") raise ValueError(f"indicator_analysis method {method} is not supported!")
# statistic pa/ffr indicator
indicators_df = df[["ffr", "pa"]]
weights = weights_dict.get(method)
res = indicators_df.mul(weights, axis=0).sum() / weights.sum()
# statistic pos
weights = weights_dict.get("mean")
res.loc["pos"] = df["pos"].mul(weights).sum() / weights.sum()
res = res.to_frame("value") res = res.to_frame("value")
return res return res

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@@ -414,12 +414,12 @@ class SBBStrategyEMA(SBBStrategyBase):
# if EMA signal > 0, return long trend # if EMA signal > 0, return long trend
elif _sample_signal.iloc[0] > 0: elif _sample_signal.iloc[0] > 0:
return self.TREND_LONG return self.TREND_LONG
# if EMA signal > 0, return short trend # if EMA signal < 0, return short trend
else: else:
return self.TREND_SHORT return self.TREND_SHORT
class VAStrategy(BaseStrategy): class ACStrategy(BaseStrategy):
def __init__( def __init__(
self, self,
lamb: float = 1e-6, lamb: float = 1e-6,
@@ -451,7 +451,7 @@ class VAStrategy(BaseStrategy):
if isinstance(instruments, str): if isinstance(instruments, str):
self.instruments = D.instruments(instruments) self.instruments = D.instruments(instruments)
self.freq = freq self.freq = freq
super(VAStrategy, self).__init__(outer_trade_decision, level_infra, common_infra, **kwargs) super(ACStrategy, self).__init__(outer_trade_decision, level_infra, common_infra, **kwargs)
if trade_exchange is not None: if trade_exchange is not None:
self.trade_exchange = trade_exchange self.trade_exchange = trade_exchange
@@ -483,7 +483,7 @@ class VAStrategy(BaseStrategy):
- It should include `trade_account`, used to get position - It should include `trade_account`, used to get position
- It should include `trade_exchange`, used to provide market info - It should include `trade_exchange`, used to provide market info
""" """
super(VAStrategy, self).reset_common_infra(common_infra) super(ACStrategy, self).reset_common_infra(common_infra)
if common_infra.has("trade_exchange"): if common_infra.has("trade_exchange"):
self.trade_exchange = common_infra.get("trade_exchange") self.trade_exchange = common_infra.get("trade_exchange")
@@ -508,7 +508,7 @@ class VAStrategy(BaseStrategy):
---------- ----------
outer_trade_decision : List[Order], optional outer_trade_decision : List[Order], optional
""" """
super(VAStrategy, self).reset(outer_trade_decision=outer_trade_decision, **kwargs) super(ACStrategy, self).reset(outer_trade_decision=outer_trade_decision, **kwargs)
if outer_trade_decision is not None: if outer_trade_decision is not None:
self.trade_amount = {} self.trade_amount = {}
# init the trade amount of order and predicted trade trend # init the trade amount of order and predicted trade trend

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@@ -210,33 +210,12 @@ def get_resam_calendar(
return _calendar, freq, freq_sam return _calendar, freq, freq_sam
def get_higher_freq_feature(instruments, fields, start_time=None, end_time=None, freq="day", disk_cache=1): def get_higher_eq_freq_feature(instruments, fields, start_time=None, end_time=None, freq="day", disk_cache=1):
"""[summary] """get the feature with higher or equal frequency than `freq`.
Parameters
----------
instruments : [type]
[description]
fields : [type]
[description]
start_time : [type], optional
[description], by default None
end_time : [type], optional
[description], by default None
freq : str, optional
[description], by default "day"
disk_cache : int, optional
[description], by default 1
Returns Returns
------- -------
[type] pd.DataFrame
[description] the feature with higher or equal frequency
Raises
------
ValueError
[description]
""" """
from ..data.data import D from ..data.data import D
@@ -331,13 +310,12 @@ def resam_ts_data(
sample method, apply method function to each stock series data, by default "last" sample method, apply method function to each stock series data, by default "last"
- If type(method) is str or callable function, it should be an attribute of SeriesGroupBy or DataFrameGroupby, and applies groupy.method for the sliced time-series data - If type(method) is str or callable function, it should be an attribute of SeriesGroupBy or DataFrameGroupby, and applies groupy.method for the sliced time-series data
- If method is None, do nothing for the sliced time-series data. - If method is None, do nothing for the sliced time-series data.
- Only when the index `feature` is MultiIndex[instrument, datetime], the method is valid.
method_kwargs : dict, optional method_kwargs : dict, optional
arguments of method, by default {} arguments of method, by default {}
Returns Returns
------- -------
The Resampled DataFrame/Series/Value The resampled DataFrame/Series/value, return None when the resampled data is empty.
""" """
selector_datetime = slice(start_time, end_time) selector_datetime = slice(start_time, end_time)

View File

@@ -299,8 +299,8 @@ class PortAnaRecord(RecordTemp):
self, self,
recorder, recorder,
config, config,
risk_analysis_freq: Union[List, str] = [], risk_analysis_freq: Union[List, str] = None,
indicator_analysis_freq: Union[List, str] = [], indicator_analysis_freq: Union[List, str] = None,
indicator_analysis_method=None, indicator_analysis_method=None,
**kwargs, **kwargs,
): ):
@@ -321,8 +321,23 @@ class PortAnaRecord(RecordTemp):
super().__init__(recorder=recorder, **kwargs) super().__init__(recorder=recorder, **kwargs)
self.strategy_config = config["strategy"] self.strategy_config = config["strategy"]
self.executor_config = config["executor"] _default_executor_config = {
"class": "SimulatorExecutor",
"module_path": "qlib.backtest.executor",
"kwargs": {
"time_per_step": "day",
"generate_report": True,
},
}
self.executor_config = config.get("executor", _default_executor_config)
self.backtest_config = config["backtest"] self.backtest_config = config["backtest"]
self.all_freq = self._get_report_freq(self.executor_config)
if risk_analysis_freq is None:
risk_analysis_freq = [self.all_freq[0]]
if indicator_analysis_freq is None:
indicator_analysis_freq = [self.all_freq[0]]
if isinstance(risk_analysis_freq, str): if isinstance(risk_analysis_freq, str):
risk_analysis_freq = [risk_analysis_freq] risk_analysis_freq = [risk_analysis_freq]
if isinstance(indicator_analysis_freq, str): if isinstance(indicator_analysis_freq, str):
@@ -335,7 +350,6 @@ class PortAnaRecord(RecordTemp):
"{0}{1}".format(*parse_freq(_analysis_freq)) for _analysis_freq in indicator_analysis_freq "{0}{1}".format(*parse_freq(_analysis_freq)) for _analysis_freq in indicator_analysis_freq
] ]
self.indicator_analysis_method = indicator_analysis_method self.indicator_analysis_method = indicator_analysis_method
self.all_freq = self._get_report_freq(self.executor_config)
def _get_report_freq(self, executor_config): def _get_report_freq(self, executor_config):
ret_freq = [] ret_freq = []
@@ -399,21 +413,26 @@ class PortAnaRecord(RecordTemp):
pprint(analysis["excess_return_with_cost"]) pprint(analysis["excess_return_with_cost"])
for _analysis_freq in self.indicator_analysis_freq: for _analysis_freq in self.indicator_analysis_freq:
indicators_normal = indicator_dict.get(_analysis_freq) if _analysis_freq not in indicator_dict:
if self.indicator_analysis_method is None: warnings.warn(f"the freq {_analysis_freq} indicator is not found")
analysis_df = indicator_analysis(indicators_normal)
else: else:
analysis_df = indicator_analysis(indicators_normal, method=self.indicator_analysis_method) indicators_normal = indicator_dict.get(_analysis_freq)
if self.indicator_analysis_method is None:
# log metrics analysis_df = indicator_analysis(indicators_normal)
analysis_dict = analysis_df["value"].to_dict() else:
self.recorder.log_metrics(**{f"{_analysis_freq}.{k}": v for k, v in analysis_dict.items()}) analysis_df = indicator_analysis(indicators_normal, method=self.indicator_analysis_method)
# save results # log metrics
self.recorder.save_objects( analysis_dict = analysis_df["value"].to_dict()
**{f"indicator_analysis_{_analysis_freq}.pkl": analysis_df}, artifact_path=PortAnaRecord.get_path() self.recorder.log_metrics(**{f"{_analysis_freq}.{k}": v for k, v in analysis_dict.items()})
) # save results
pprint(f"The following are analysis results of indicators({_analysis_freq}).") self.recorder.save_objects(
pprint(analysis_df) **{f"indicator_analysis_{_analysis_freq}.pkl": analysis_df}, artifact_path=PortAnaRecord.get_path()
)
logger.info(
f"Indicator analysis record 'indicator_analysis_{_analysis_freq}.pkl' has been saved as the artifact of the Experiment {self.recorder.experiment_id}"
)
pprint(f"The following are analysis results of indicators({_analysis_freq}).")
pprint(analysis_df)
def list(self): def list(self):
list_path = [] list_path = []
@@ -424,10 +443,16 @@ class PortAnaRecord(RecordTemp):
PortAnaRecord.get_path(f"positions_normal_{_freq}.pkl"), PortAnaRecord.get_path(f"positions_normal_{_freq}.pkl"),
] ]
) )
for _analysis_freq in self.risk_analysis_freq: for _analysis_freq in self.risk_analysis_freq:
if _analysis_freq in self.all_freq: if _analysis_freq in self.all_freq:
list_path.append(PortAnaRecord.get_path(f"port_analysis_{_analysis_freq}.pkl")) list_path.append(PortAnaRecord.get_path(f"port_analysis_{_analysis_freq}.pkl"))
else: else:
warnings.warn(f"{_analysis_freq} is not found") warnings.warn(f"risk_analysis freq {_analysis_freq} is not found")
for _analysis_freq in self.indicator_analysis_freq:
if _analysis_freq in self.all_freq:
list_path.append(PortAnaRecord.get_path(f"indicator_analysis_{_analysis_freq}.pkl"))
else:
warnings.warn(f"indicator_analysis freq {_analysis_freq} is not found")
return list_path return list_path

View File

@@ -45,7 +45,7 @@ REQUIRED = [
"statsmodels", "statsmodels",
"xlrd>=1.0.0", "xlrd>=1.0.0",
"plotly==4.12.0", "plotly==4.12.0",
"matplotlib==3.1.3", "matplotlib==3.3",
"tables>=3.6.1", "tables>=3.6.1",
"pyyaml>=5.3.1", "pyyaml>=5.3.1",
"mlflow>=1.12.1", "mlflow>=1.12.1",