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mirror of https://github.com/microsoft/qlib.git synced 2026-07-10 14:26:56 +08:00

Merge pull request #374 from bxdd/qlib_loaderhandler

Add DataLoader Based on DataHandler & Add Rolling Process Example & Restructure the Config & Setup_data
This commit is contained in:
you-n-g
2021-03-30 13:37:55 +08:00
committed by GitHub
8 changed files with 378 additions and 77 deletions

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@@ -27,12 +27,11 @@ from qlib.tests.data import GetData
from highfreq_ops import get_calendar_day, DayLast, FFillNan, BFillNan, Date, Select, IsNull, Cut
class HighfreqWorkflow(object):
class HighfreqWorkflow:
SPEC_CONF = {"custom_ops": [DayLast, FFillNan, BFillNan, Date, Select, IsNull, Cut], "expression_cache": None}
MARKET = "all"
BENCHMARK = "SH000300"
start_time = "2020-09-15 00:00:00"
end_time = "2021-01-18 16:00:00"
@@ -146,35 +145,40 @@ class HighfreqWorkflow(object):
self._prepare_calender_cache()
##=============reinit dataset=============
dataset.init(
dataset.config(
handler_kwargs={
"start_time": "2021-01-19 00:00:00",
"end_time": "2021-01-25 16:00:00",
},
segments={
"test": (
"2021-01-19 00:00:00",
"2021-01-25 16:00:00",
),
},
)
dataset.setup_data(
handler_kwargs={
"init_type": DataHandlerLP.IT_LS,
"start_time": "2021-01-19 00:00:00",
"end_time": "2021-01-25 16:00:00",
},
segment_kwargs={
"test": (
"2021-01-19 00:00:00",
"2021-01-25 16:00:00",
),
},
)
dataset_backtest.init(
dataset_backtest.config(
handler_kwargs={
"start_time": "2021-01-19 00:00:00",
"end_time": "2021-01-25 16:00:00",
},
segment_kwargs={
segments={
"test": (
"2021-01-19 00:00:00",
"2021-01-25 16:00:00",
),
},
)
dataset_backtest.setup_data(handler_kwargs={})
##=============get data=============
xtest = dataset.prepare(["test"])
backtest_test = dataset_backtest.prepare(["test"])
xtest = dataset.prepare("test")
backtest_test = dataset_backtest.prepare("test")
print(xtest, backtest_test)
return

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@@ -0,0 +1,17 @@
# Rolling Process Data
This workflow is an example for `Rolling Process Data`.
## Background
When rolling train the models, data also needs to be generated in the different rolling windows. When the rolling window moves, the training data will change, and the processor's learnable state (such as standard deviation, mean, etc.) will also change.
In order to avoid regenerating data, this example uses the `DataHandler-based DataLoader` to load the raw features that are not related to the rolling window, and then used Processors to generate processed-features related to the rolling window.
## Run the Code
Run the example by running the following command:
```bash
python workflow.py rolling_process
```

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@@ -0,0 +1,32 @@
from qlib.data.dataset.handler import DataHandlerLP
from qlib.data.dataset.loader import DataLoaderDH
from qlib.contrib.data.handler import check_transform_proc
class RollingDataHandler(DataHandlerLP):
def __init__(
self,
start_time=None,
end_time=None,
infer_processors=[],
learn_processors=[],
fit_start_time=None,
fit_end_time=None,
data_loader_kwargs={},
):
infer_processors = check_transform_proc(infer_processors, fit_start_time, fit_end_time)
learn_processors = check_transform_proc(learn_processors, fit_start_time, fit_end_time)
data_loader = {
"class": "DataLoaderDH",
"kwargs": {**data_loader_kwargs},
}
super().__init__(
instruments=None,
start_time=start_time,
end_time=end_time,
data_loader=data_loader,
infer_processors=infer_processors,
learn_processors=learn_processors,
)

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@@ -0,0 +1,141 @@
# Copyright (c) Microsoft Corporation.
# Licensed under the MIT License.
import qlib
import fire
import pickle
import pandas as pd
from datetime import datetime
from qlib.config import REG_CN
from qlib.data.dataset.handler import DataHandlerLP
from qlib.contrib.data.handler import Alpha158
from qlib.utils import exists_qlib_data, init_instance_by_config
from qlib.tests.data import GetData
class RollingDataWorkflow:
MARKET = "csi300"
start_time = "2010-01-01"
end_time = "2019-12-31"
rolling_cnt = 5
def _init_qlib(self):
"""initialize qlib"""
# use yahoo_cn_1min data
provider_uri = "~/.qlib/qlib_data/cn_data" # target_dir
if not exists_qlib_data(provider_uri):
print(f"Qlib data is not found in {provider_uri}")
GetData().qlib_data(target_dir=provider_uri, region=REG_CN)
qlib.init(provider_uri=provider_uri, region=REG_CN)
def _dump_pre_handler(self, path):
handler_config = {
"class": "Alpha158",
"module_path": "qlib.contrib.data.handler",
"kwargs": {
"start_time": self.start_time,
"end_time": self.end_time,
"instruments": self.MARKET,
"infer_processors": [],
"learn_processors": [],
},
}
pre_handler = init_instance_by_config(handler_config)
pre_handler.config(dump_all=True)
pre_handler.to_pickle(path)
def _load_pre_handler(self, path):
with open(path, "rb") as file_dataset:
pre_handler = pickle.load(file_dataset)
return pre_handler
def rolling_process(self):
self._init_qlib()
self._dump_pre_handler("pre_handler.pkl")
pre_handler = self._load_pre_handler("pre_handler.pkl")
train_start_time = (2010, 1, 1)
train_end_time = (2012, 12, 31)
valid_start_time = (2013, 1, 1)
valid_end_time = (2013, 12, 31)
test_start_time = (2014, 1, 1)
test_end_time = (2014, 12, 31)
dataset_config = {
"class": "DatasetH",
"module_path": "qlib.data.dataset",
"kwargs": {
"handler": {
"class": "RollingDataHandler",
"module_path": "rolling_handler",
"kwargs": {
"start_time": datetime(*train_start_time),
"end_time": datetime(*test_end_time),
"fit_start_time": datetime(*train_start_time),
"fit_end_time": datetime(*train_end_time),
"infer_processors": [
{"class": "RobustZScoreNorm", "kwargs": {"fields_group": "feature"}},
],
"learn_processors": [
{"class": "DropnaLabel"},
{"class": "CSZScoreNorm", "kwargs": {"fields_group": "label"}},
],
"data_loader_kwargs": {
"handler_config": pre_handler,
},
},
},
"segments": {
"train": (datetime(*train_start_time), datetime(*train_end_time)),
"valid": (datetime(*valid_start_time), datetime(*valid_end_time)),
"test": (datetime(*test_start_time), datetime(*test_end_time)),
},
},
}
dataset = init_instance_by_config(dataset_config)
for rolling_offset in range(self.rolling_cnt):
print(f"===========rolling{rolling_offset} start===========")
if rolling_offset:
dataset.config(
handler_kwargs={
"start_time": datetime(train_start_time[0] + rolling_offset, *train_start_time[1:]),
"end_time": datetime(test_end_time[0] + rolling_offset, *test_end_time[1:]),
"processor_kwargs": {
"fit_start_time": datetime(train_start_time[0] + rolling_offset, *train_start_time[1:]),
"fit_end_time": datetime(train_end_time[0] + rolling_offset, *train_end_time[1:]),
},
},
segments={
"train": (
datetime(train_start_time[0] + rolling_offset, *train_start_time[1:]),
datetime(train_end_time[0] + rolling_offset, *train_end_time[1:]),
),
"valid": (
datetime(valid_start_time[0] + rolling_offset, *valid_start_time[1:]),
datetime(valid_end_time[0] + rolling_offset, *valid_end_time[1:]),
),
"test": (
datetime(test_start_time[0] + rolling_offset, *test_start_time[1:]),
datetime(test_end_time[0] + rolling_offset, *test_end_time[1:]),
),
},
)
dataset.setup_data(
handler_kwargs={
"init_type": DataHandlerLP.IT_FIT_SEQ,
}
)
dtrain, dvalid, dtest = dataset.prepare(["train", "valid", "test"])
print(dtrain, dvalid, dtest)
## print or dump data
print(f"===========rolling{rolling_offset} end===========")
if __name__ == "__main__":
fire.Fire(RollingDataWorkflow)