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Chan.py
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Chan.py
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import copy
import datetime
from collections import defaultdict
from typing import Dict, Iterable, List, Optional, Union
from BuySellPoint.BS_Point import CBS_Point
from ChanConfig import CChanConfig
from Common.CEnum import AUTYPE, DATA_SRC, KL_TYPE
from Common.ChanException import CChanException, ErrCode
from Common.CTime import CTime
from Common.func_util import check_kltype_order, kltype_lte_day
from DataAPI.CommonStockAPI import CCommonStockApi
from KLine.KLine_List import CKLine_List
from KLine.KLine_Unit import CKLine_Unit
class CChan:
def __init__(
self,
code,
begin_time=None,
end_time=None,
data_src: Union[DATA_SRC, str] = DATA_SRC.BAO_STOCK,
lv_list=None,
config=None,
autype: AUTYPE = AUTYPE.QFQ,
):
if lv_list is None:
lv_list = [KL_TYPE.K_DAY, KL_TYPE.K_60M]
check_kltype_order(lv_list) # lv_list顺序从高到低
self.code = code
self.begin_time = str(begin_time) if isinstance(begin_time, datetime.date) else begin_time
self.end_time = str(end_time) if isinstance(end_time, datetime.date) else end_time
self.autype = autype
self.data_src = data_src
self.lv_list: List[KL_TYPE] = lv_list
if config is None:
config = CChanConfig()
self.conf = config
self.kl_misalign_cnt = 0
self.kl_inconsistent_detail = defaultdict(list)
self.g_kl_iter = defaultdict(list)
self.do_init()
if not config.trigger_step:
for _ in self.load():
...
def __deepcopy__(self, memo):
cls = self.__class__
obj: CChan = cls.__new__(cls)
memo[id(self)] = obj
obj.code = self.code
obj.begin_time = self.begin_time
obj.end_time = self.end_time
obj.autype = self.autype
obj.data_src = self.data_src
obj.lv_list = copy.deepcopy(self.lv_list, memo)
obj.conf = copy.deepcopy(self.conf, memo)
obj.kl_misalign_cnt = self.kl_misalign_cnt
obj.kl_inconsistent_detail = copy.deepcopy(self.kl_inconsistent_detail, memo)
obj.g_kl_iter = copy.deepcopy(self.g_kl_iter, memo)
if hasattr(self, 'klu_cache'):
obj.klu_cache = copy.deepcopy(self.klu_cache, memo)
if hasattr(self, 'klu_last_t'):
obj.klu_last_t = copy.deepcopy(self.klu_last_t, memo)
obj.kl_datas = {}
for kl_type, ckline in self.kl_datas.items():
obj.kl_datas[kl_type] = copy.deepcopy(ckline, memo)
for kl_type, ckline in self.kl_datas.items():
for klc in ckline:
for klu in klc.lst:
assert id(klu) in memo
if klu.sup_kl:
memo[id(klu)].sup_kl = memo[id(klu.sup_kl)]
memo[id(klu)].sub_kl_list = [memo[id(sub_kl)] for sub_kl in klu.sub_kl_list]
return obj
def do_init(self):
self.kl_datas: Dict[KL_TYPE, CKLine_List] = {}
for idx in range(len(self.lv_list)):
self.kl_datas[self.lv_list[idx]] = CKLine_List(self.lv_list[idx], conf=self.conf)
def load_stock_data(self, stockapi_instance: CCommonStockApi, lv) -> Iterable[CKLine_Unit]:
for KLU_IDX, klu in enumerate(stockapi_instance.get_kl_data()):
klu.set_idx(KLU_IDX)
klu.kl_type = lv
yield klu
def get_load_stock_iter(self, stockapi_cls, lv):
stockapi_instance = stockapi_cls(code=self.code, k_type=lv, begin_date=self.begin_time, end_date=self.end_time, autype=self.autype)
return self.load_stock_data(stockapi_instance, lv)
def add_lv_iter(self, lv_idx, iter):
if isinstance(lv_idx, int):
self.g_kl_iter[self.lv_list[lv_idx]].append(iter)
else:
self.g_kl_iter[lv_idx].append(iter)
def get_next_lv_klu(self, lv_idx):
if isinstance(lv_idx, int):
lv_idx = self.lv_list[lv_idx]
if len(self.g_kl_iter[lv_idx]) == 0:
raise StopIteration
try:
return self.g_kl_iter[lv_idx][0].__next__()
except StopIteration:
self.g_kl_iter[lv_idx] = self.g_kl_iter[lv_idx][1:]
if len(self.g_kl_iter[lv_idx]) != 0:
return self.get_next_lv_klu(lv_idx)
else:
raise
def step_load(self):
assert self.conf.trigger_step
self.do_init() # 清空数据,防止再次重跑没有数据
yielded = False # 是否曾经返回过结果
for idx, snapshot in enumerate(self.load(self.conf.trigger_step)):
if idx < self.conf.skip_step:
continue
yield snapshot
yielded = True
if not yielded:
yield self
def trigger_load(self, inp):
# {type: [klu, ...]}
if not hasattr(self, 'klu_cache'):
self.klu_cache: List[Optional[CKLine_Unit]] = [None for _ in self.lv_list]
if not hasattr(self, 'klu_last_t'):
self.klu_last_t = [CTime(1980, 1, 1, 0, 0) for _ in self.lv_list]
for lv_idx, lv in enumerate(self.lv_list):
if lv not in inp:
if lv_idx == 0:
raise CChanException(f"最高级别{lv}没有传入数据", ErrCode.NO_DATA)
continue
for klu in inp[lv]:
klu.kl_type = lv
assert isinstance(inp[lv], list)
self.add_lv_iter(lv, iter(inp[lv]))
for _ in self.load_iterator(lv_idx=0, parent_klu=None, step=False):
...
if not self.conf.trigger_step: # 非回放模式全部算完之后才算一次中枢和线段
for lv in self.lv_list:
self.kl_datas[lv].cal_seg_and_zs()
def init_lv_klu_iter(self, stockapi_cls):
# 为了跳过一些获取数据失败的级别
lv_klu_iter = []
valid_lv_list = []
for lv in self.lv_list:
try:
lv_klu_iter.append(self.get_load_stock_iter(stockapi_cls, lv))
valid_lv_list.append(lv)
except CChanException as e:
if e.errcode == ErrCode.SRC_DATA_NOT_FOUND and self.conf.auto_skip_illegal_sub_lv:
if self.conf.print_warning:
print(f"[WARNING-{self.code}]{lv}级别获取数据失败,跳过")
del self.kl_datas[lv]
continue
raise e
self.lv_list = valid_lv_list
return lv_klu_iter
def GetStockAPI(self):
_dict = {}
if self.data_src == DATA_SRC.BAO_STOCK:
from DataAPI.BaoStockAPI import CBaoStock
_dict[DATA_SRC.BAO_STOCK] = CBaoStock
elif self.data_src == DATA_SRC.CCXT:
from DataAPI.ccxt import CCXT
_dict[DATA_SRC.CCXT] = CCXT
elif self.data_src == DATA_SRC.CSV:
from DataAPI.csvAPI import CSV_API
_dict[DATA_SRC.CSV] = CSV_API
if self.data_src in _dict:
return _dict[self.data_src]
assert isinstance(self.data_src, str)
if self.data_src.find("custom:") < 0:
raise CChanException("load src type error", ErrCode.SRC_DATA_TYPE_ERR)
package_info = self.data_src.split(":")[1]
package_name, cls_name = package_info.split(".")
exec(f"from DataAPI.{package_name} import {cls_name}")
return eval(cls_name)
def load(self, step=False):
stockapi_cls = self.GetStockAPI()
try:
stockapi_cls.do_init()
for lv_idx, klu_iter in enumerate(self.init_lv_klu_iter(stockapi_cls)):
self.add_lv_iter(lv_idx, klu_iter)
self.klu_cache: List[Optional[CKLine_Unit]] = [None for _ in self.lv_list]
self.klu_last_t = [CTime(1980, 1, 1, 0, 0) for _ in self.lv_list]
yield from self.load_iterator(lv_idx=0, parent_klu=None, step=step) # 计算入口
if not step: # 非回放模式全部算完之后才算一次中枢和线段
for lv in self.lv_list:
self.kl_datas[lv].cal_seg_and_zs()
except Exception:
raise
finally:
stockapi_cls.do_close()
if len(self[0]) == 0:
raise CChanException("最高级别没有获得任何数据", ErrCode.NO_DATA)
def set_klu_parent_relation(self, parent_klu, kline_unit, cur_lv, lv_idx):
if self.conf.kl_data_check and kltype_lte_day(cur_lv) and kltype_lte_day(self.lv_list[lv_idx-1]):
self.check_kl_consitent(parent_klu, kline_unit)
parent_klu.add_children(kline_unit)
kline_unit.set_parent(parent_klu)
def add_new_kl(self, cur_lv: KL_TYPE, kline_unit):
try:
self.kl_datas[cur_lv].add_single_klu(kline_unit)
except Exception:
if self.conf.print_err_time:
print(f"[ERROR-{self.code}]在计算{kline_unit.time}K线时发生错误!")
raise
def try_set_klu_idx(self, lv_idx: int, kline_unit: CKLine_Unit):
if kline_unit.idx >= 0:
return
if len(self[lv_idx]) == 0:
kline_unit.set_idx(0)
else:
kline_unit.set_idx(self[lv_idx][-1][-1].idx + 1)
def load_iterator(self, lv_idx, parent_klu, step):
# K线时间天级别以下描述的是结束时间,如60M线,每天第一根是10点30的
# 天以上是当天日期
cur_lv = self.lv_list[lv_idx]
pre_klu = self[lv_idx][-1][-1] if len(self[lv_idx]) > 0 and len(self[lv_idx][-1]) > 0 else None
while True:
if self.klu_cache[lv_idx]:
kline_unit = self.klu_cache[lv_idx]
assert kline_unit is not None
self.klu_cache[lv_idx] = None
else:
try:
kline_unit = self.get_next_lv_klu(lv_idx)
self.try_set_klu_idx(lv_idx, kline_unit)
if not kline_unit.time > self.klu_last_t[lv_idx]:
raise CChanException(f"kline time err, cur={kline_unit.time}, last={self.klu_last_t[lv_idx]}", ErrCode.KL_NOT_MONOTONOUS)
self.klu_last_t[lv_idx] = kline_unit.time
except StopIteration:
break
if parent_klu and kline_unit.time > parent_klu.time:
self.klu_cache[lv_idx] = kline_unit
break
kline_unit.set_pre_klu(pre_klu)
pre_klu = kline_unit
self.add_new_kl(cur_lv, kline_unit)
if parent_klu:
self.set_klu_parent_relation(parent_klu, kline_unit, cur_lv, lv_idx)
if lv_idx != len(self.lv_list)-1:
for _ in self.load_iterator(lv_idx+1, kline_unit, step):
...
self.check_kl_align(kline_unit, lv_idx)
if lv_idx == 0 and step:
yield self
def check_kl_consitent(self, parent_klu, sub_klu):
if parent_klu.time.year != sub_klu.time.year or \
parent_klu.time.month != sub_klu.time.month or \
parent_klu.time.day != sub_klu.time.day:
self.kl_inconsistent_detail[str(parent_klu.time)].append(sub_klu.time)
if self.conf.print_warning:
print(f"[WARNING-{self.code}]父级别时间是{parent_klu.time},次级别时间却是{sub_klu.time}")
if len(self.kl_inconsistent_detail) >= self.conf.max_kl_inconsistent_cnt:
raise CChanException(f"父&子级别K线时间不一致条数超过{self.conf.max_kl_inconsistent_cnt}!!", ErrCode.KL_TIME_INCONSISTENT)
def check_kl_align(self, kline_unit, lv_idx):
if self.conf.kl_data_check and len(kline_unit.sub_kl_list) == 0:
self.kl_misalign_cnt += 1
if self.conf.print_warning:
print(f"[WARNING-{self.code}]当前{kline_unit.time}没在次级别{self.lv_list[lv_idx+1]}找到K线!!")
if self.kl_misalign_cnt >= self.conf.max_kl_misalgin_cnt:
raise CChanException(f"在次级别找不到K线条数超过{self.conf.max_kl_misalgin_cnt}!!", ErrCode.KL_DATA_NOT_ALIGN)
def __getitem__(self, n) -> CKLine_List:
if isinstance(n, KL_TYPE):
return self.kl_datas[n]
elif isinstance(n, int):
return self.kl_datas[self.lv_list[n]]
else:
raise CChanException("unspoourt query type", ErrCode.COMMON_ERROR)
def get_bsp(self, idx=None) -> List[CBS_Point]:
if idx is not None:
return sorted(self[idx].bs_point_lst.lst, key=lambda x: x.klu.time)
assert len(self.lv_list) == 1
return sorted(self[0].bs_point_lst.lst, key=lambda x: x.klu.time)