hikyuu2/hikyuu/data/pytdx_to_h5.py
2022-09-07 22:56:49 +08:00

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# coding:utf-8
#
# The MIT License (MIT)
#
# Copyright (c) 2010-2019 fasiondog/hikyuu
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in all
# copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
import sys
import math
import datetime
import sqlite3
from pytdx.hq import TDXParams
from hikyuu.util.mylog import get_default_logger, hku_error, hku_debug
from hikyuu.data.common import *
from hikyuu.data.common_pytdx import to_pytdx_market
from hikyuu.data.common_sqlite3 import (
get_codepre_list, create_database, get_marketid, get_last_date, get_stock_list, update_last_date
)
from hikyuu.data.common_h5 import (
H5Record, H5Index, open_h5file, get_h5table, update_hdf5_extern_data, open_trans_file, get_trans_table,
update_hdf5_trans_index, open_time_file, get_time_table
)
from hikyuu.data.weight_to_sqlite import qianlong_import_weight
def ProgressBar(cur, total):
percent = '{:.0%}'.format(cur / total)
sys.stdout.write('\r')
sys.stdout.write("[%-50s] %s" % ('=' * int(math.floor(cur * 50 / total)), percent))
sys.stdout.flush()
@hku_catch(ret=0, trace=True)
def import_index_name(connect):
"""
:param connect: sqlite3实例
:return:
"""
index_list = get_index_code_name_list()
if not index_list:
return 0
cur = connect.cursor()
a = cur.execute("select stockid, marketid, code from stock where type={}".format(STOCKTYPE.INDEX))
a = a.fetchall()
oldStockDict = {}
for oldstock in a:
oldstockid = oldstock[0]
oldcode = "{}{}".format(MARKET.SH if oldstock[1] == MARKETID.SH else MARKET.SZ, oldstock[2])
oldStockDict[oldcode] = oldstockid
today = datetime.date.today()
today = today.year * 10000 + today.month * 100 + today.day
for index in index_list:
if index['market_code'] in oldStockDict:
cur.execute(
"update stock set valid=1, name='%s' where stockid=%i" %
(index['name'], oldStockDict[index['market_code']])
)
else:
marketid = MARKETID.SH if index['market_code'][:2] == MARKET.SH else MARKETID.SZ
sql = "insert into Stock(marketid, code, name, type, valid, startDate, endDate) \
values (%s, '%s', '%s', %s, %s, %s, %s)" \
% (marketid, index['market_code'][2:], index['name'], STOCKTYPE.INDEX, 1, today, 99999999)
cur.execute(sql)
connect.commit()
cur.close()
return len(index_list)
@hku_catch(ret=0, trace=True)
def import_stock_name(connect, api, market, quotations=None):
"""更新每只股票的名称、当前是否有效性、起始日期及结束日期
:param connect: sqlite3实例
:param api: pytdx接口
:param market: 'SH' | 'SZ'
:param quotations: 'stock' | 'fund' | 'bond' | None
"""
cur = connect.cursor()
newStockDict = {}
stk_list = get_stk_code_name_list(market)
if not stk_list:
hku_error("获取 {} 股票代码表失败", market)
return 0
if not quotations or 'fund' in [v.lower() for v in quotations]:
stk_list.extend(get_fund_code_name_list(market))
for stock in stk_list:
newStockDict[str(stock['code'])] = stock['name']
marketid = get_marketid(connect, market)
stktype_list = get_stktype_list(quotations)
stktype_list = list(stktype_list)
stktype_list.remove(STOCKTYPE.INDEX) #
stktype_list = tuple(stktype_list)
a = cur.execute(
"select stockid, code, name, valid from stock where marketid={} and type in {}".format(marketid, stktype_list)
)
a = a.fetchall()
oldStockDict = {}
for oldstock in a:
oldstockid, oldcode, oldname, oldvalid = oldstock[0], oldstock[1], oldstock[2], int(oldstock[3])
oldStockDict[oldcode] = oldstockid
# 新的代码表中无此股票,则置为无效
if (oldvalid == 1) and (oldcode not in newStockDict):
cur.execute("update stock set valid=0 where stockid=%i" % oldstockid)
# 股票名称发生变化,更新股票名称;如果原无效,则置为有效
if oldcode in newStockDict:
if oldname != newStockDict[oldcode]:
cur.execute("update stock set name='%s' where stockid=%i" % (newStockDict[oldcode], oldstockid))
if oldvalid == 0:
cur.execute("update stock set valid=1, endDate=99999999 where stockid=%i" % oldstockid)
# 处理新出现的股票
codepre_list = get_codepre_list(connect, marketid, quotations)
today = datetime.date.today()
today = today.year * 10000 + today.month * 100 + today.day
count = 0
for code in newStockDict:
if code not in oldStockDict:
for codepre in codepre_list:
length = len(codepre[0])
if code[:length] == codepre[0]:
count += 1
#print(market, code, newStockDict[code], codepre)
sql = "insert into Stock(marketid, code, name, type, valid, startDate, endDate) \
values (%s, '%s', '%s', %s, %s, %s, %s)" \
% (marketid, code, newStockDict[code], codepre[1], 1, today, 99999999)
cur.execute(sql)
break
#print('%s新增股票数%i' % (market.upper(), count))
connect.commit()
cur.close()
return count
def guess_day_n_step(last_datetime):
last_date = int(last_datetime // 10000)
today = datetime.date.today()
last_y = last_date // 10000
n = int((today.year - last_y + 1) * 250 // 800)
step = 800
if n < 1:
last_m = last_date // 100 - last_y * 100
last_d = last_date - (last_y * 10000 + last_m * 100)
step = (today - datetime.date(last_y, last_m, last_d)).days
return (n, step)
def guess_1min_n_step(last_datetime):
last_date = int(last_datetime // 10000)
today = datetime.date.today()
last_y = last_date // 10000
last_m = last_date // 100 - last_y * 100
last_d = last_date - (last_y * 10000 + last_m * 100)
n = int((today - datetime.date(last_y, last_m, last_d)).days * 240 // 800)
step = 800
if n < 1:
step = (today - datetime.date(last_y, last_m, last_d)).days * 240
elif n > 99:
n = 99
return (n, step)
def guess_5min_n_step(last_datetime):
last_date = int(last_datetime // 10000)
today = datetime.date.today()
last_y = last_date // 10000
last_m = last_date // 100 - last_y * 100
last_d = last_date - (last_y * 10000 + last_m * 100)
n = int((today - datetime.date(last_y, last_m, last_d)).days * 48 // 800)
step = 800
if n < 1:
step = (today - datetime.date(last_y, last_m, last_d)).days * 48
elif n > 99:
n = 99
return (n, step)
def import_one_stock_data(connect, api, h5file, market, ktype, stock_record, startDate=199012191500):
market = market.upper()
pytdx_market = to_pytdx_market(market)
stockid, marketid, code, valid, stktype = stock_record[0], stock_record[1], stock_record[2], stock_record[3], \
stock_record[4]
hku_debug("{}{} {}".format(market, code, ktype))
table = get_h5table(h5file, market, code)
if table is None:
hku_error("Can't get table({}{})".format(market, code))
return 0
last_datetime = table[-1]['datetime'] if table.nrows > 0 else startDate
today = datetime.date.today()
if ktype == 'DAY':
n, step = guess_day_n_step(last_datetime)
pytdx_kline_type = TDXParams.KLINE_TYPE_RI_K
today_datetime = (today.year * 10000 + today.month * 100 + today.day) * 10000
elif ktype == '1MIN':
n, step = guess_1min_n_step(last_datetime)
pytdx_kline_type = TDXParams.KLINE_TYPE_1MIN
today_datetime = (today.year * 10000 + today.month * 100 + today.day) * 10000 + 1500
elif ktype == '5MIN':
n, step = guess_5min_n_step(last_datetime)
pytdx_kline_type = TDXParams.KLINE_TYPE_5MIN
today_datetime = (today.year * 10000 + today.month * 100 + today.day) * 10000 + 1500
else:
return 0
if today_datetime <= last_datetime:
return 0
get_bars = api.get_index_bars if stktype == STOCKTYPE.INDEX else api.get_security_bars
add_record_count = 0
row = table.row
while n >= 0:
bar_list = get_bars(pytdx_kline_type, pytdx_market, code, n * 800, step)
n -= 1
if bar_list is None:
#print(code, "invalid!!")
continue
for bar in bar_list:
try:
tmp = datetime.date(bar['year'], bar['month'], bar['day'])
bar_datetime = (tmp.year * 10000 + tmp.month * 100 + tmp.day) * 10000
if ktype != 'DAY':
bar_datetime += bar['hour'] * 100 + bar['minute']
except Exception as e:
hku_error("Failed translate datetime: {}! {}".format(bar, e))
continue
if today_datetime >= bar_datetime > last_datetime \
and bar['high'] >= bar['open'] >= bar['low'] > 0 \
and bar['high'] >= bar['close'] >= bar['low'] > 0 \
and int(bar['vol']) != 0 and int(bar['amount']*0.001) != 0:
try:
row['datetime'] = bar_datetime
row['openPrice'] = bar['open'] * 1000
row['highPrice'] = bar['high'] * 1000
row['lowPrice'] = bar['low'] * 1000
row['closePrice'] = bar['close'] * 1000
row['transAmount'] = round(bar['amount'] * 0.001)
row['transCount'] = round(bar['vol'])
row.append()
add_record_count += 1
except Exception as e:
hku_error("Can't trans record: {}! {}".format(bar, e))
last_datetime = bar_datetime
if add_record_count > 0:
table.flush()
#print(market, stock_record)
if ktype == 'DAY':
# 更新基础信息数据库中股票对应的起止日期及其有效标志
#if valid == 0:
cur = connect.cursor()
cur.execute(
"update stock set valid=1, startdate=%i, enddate=%i where stockid=%i" %
(table[0]['datetime'] / 10000, 99999999, stockid)
)
connect.commit()
cur.close()
# 记录最新更新日期
if (code == '000001' and marketid == MARKETID.SH) \
or (code == '399001' and marketid == MARKETID.SZ):
update_last_date(connect, marketid, table[-1]['datetime'] / 10000)
elif table.nrows == 0:
#print(market, stock_record)
table.remove()
#table.close()
return add_record_count
def import_data(connect, market, ktype, quotations, api, dest_dir, startDate=199012190000, progress=ProgressBar):
"""导入通达信指定盘后数据路径中的K线数据。注只导入基础信息数据库中存在的股票。
:param connect : sqlit3链接
:param market : 'SH' | 'SZ'
:param ktype : 'DAY' | '1MIN' | '5MIN'
:param quotations: 'stock' | 'fund' | 'bond'
:param src_dir : K线数据路径5线D:\\Tdx\\vipdoc\\sh\\fzline
:param dest_dir : HDF5数据文件所在目录
:param progress :
:return:
"""
add_record_count = 0
market = market.upper()
h5file = open_h5file(dest_dir, market, ktype)
stock_list = get_stock_list(connect, market, quotations)
if not stock_list:
return 0
total = len(stock_list)
for i, stock in enumerate(stock_list):
if stock[3] == 0:
if progress:
progress(i, total)
continue
this_count = import_one_stock_data(connect, api, h5file, market, ktype, stock, startDate)
add_record_count += this_count
if this_count > 0:
if ktype == 'DAY':
update_hdf5_extern_data(h5file, market.upper() + stock[2], 'DAY')
elif ktype == '5MIN':
update_hdf5_extern_data(h5file, market.upper() + stock[2], '5MIN')
if progress:
progress(i, total)
connect.commit()
h5file.close()
return add_record_count
def pytdx_get_day_trans(api, pymarket, code, date):
buf = []
for i in range(21):
x = api.get_history_transaction_data(pymarket, code, i * 2000, 2000, date)
#x = api.get_transaction_data(TDXParams.MARKET_SZ, '000001', (9-i)*800, 800)
if not x:
break
buf = x + buf
return buf
def import_on_stock_trans(connect, api, h5file, market, stock_record, max_days):
market = market.upper()
pytdx_market = to_pytdx_market(market)
stockid, marketid, code, valid, stktype = stock_record[0], stock_record[1], stock_record[2], stock_record[3], \
stock_record[4]
hku_debug("{}{}".format(market, code))
table = get_trans_table(h5file, market, code)
if table is None:
hku_error("Failed get_trans_table({}{})!".format(market, code))
return 0
today = datetime.date.today()
if table.nrows > 0:
try:
last_datetime = int(table[-1]['datetime'] // 1000000)
last_y = int(last_datetime // 10000)
last_m = int(last_datetime // 100 - last_y * 100)
last_d = int(last_datetime - (last_y * 10000 + last_m * 100))
last_date = datetime.date(last_y, last_m, last_d)
need_days = (today - last_date).days
except Exception as e:
hku_error("Failed get last date from hdf5({}{}), remove this table! {}".format(market, code, e))
table.remove()
return 0
else:
need_days = max_days
date_list = []
for i in range(need_days):
cur_date = today - datetime.timedelta(i)
if cur_date.weekday() not in (5, 6):
date_list.append(cur_date.year * 10000 + cur_date.month * 100 + cur_date.day)
date_list.reverse()
add_record_count = 0
row = table.row
for cur_date in date_list:
buf = pytdx_get_day_trans(api, pytdx_market, stock_record[2], cur_date)
if not buf:
continue
second = 2
pre_minute = 900
for record in buf:
try:
minute = int(record['time'][0:2]) * 100 + int(record['time'][3:])
if minute != pre_minute:
second = 0 if minute == 1500 else 2
pre_minute = minute
else:
second += 3
if second > 59:
continue
row['datetime'] = cur_date * 1000000 + minute * 100 + second
row['price'] = int(record['price'] * 1000)
row['vol'] = record['vol']
row['buyorsell'] = record['buyorsell']
row.append()
add_record_count += 1
except Exception as e:
hku_error("Failed trans to record! {}", e)
if add_record_count > 0:
table.flush()
elif table.nrows == 0:
table.remove()
return add_record_count
def import_trans(connect, market, quotations, api, dest_dir, max_days=30, progress=ProgressBar):
add_record_count = 0
market = market.upper()
h5file = open_trans_file(dest_dir, market)
stock_list = get_stock_list(connect, market, quotations)
total = len(stock_list)
for i, stock in enumerate(stock_list):
if stock[3] == 0 or stock[4] not in (STOCKTYPE.A, STOCKTYPE.B, STOCKTYPE.GEM):
if progress:
progress(i, total)
continue
this_count = import_on_stock_trans(connect, api, h5file, market, stock, max_days)
add_record_count += this_count
#if add_record_count > 0:
# update_hdf5_trans_index(h5file, market.upper() + stock[2])
if progress:
progress(i, total)
connect.commit()
h5file.close()
return add_record_count
def import_on_stock_time(connect, api, h5file, market, stock_record, max_days):
market = market.upper()
pytdx_market = to_pytdx_market(market)
stockid, marketid, code, valid, stktype = stock_record[0], stock_record[1], stock_record[2], stock_record[3], \
stock_record[4]
hku_debug("{}{}".format(market, code))
table = get_time_table(h5file, market, code)
if table is None:
hku_error("Can't get table({}{})!".format(market, code))
return 0
today = datetime.date.today()
if table.nrows > 0:
try:
last_datetime = int(table[-1]['datetime'] // 10000)
last_y = int(last_datetime // 10000)
last_m = int(last_datetime // 100 - last_y * 100)
last_d = int(last_datetime - (last_y * 10000 + last_m * 100))
last_date = datetime.date(last_y, last_m, last_d)
need_days = (today - last_date).days
except Exception as e:
hku_error("Failed get last date from hdf5({}{}), remove this table! {}".format(market, code, e))
table.remove()
return 0
else:
need_days = max_days
date_list = []
for i in range(need_days):
cur_date = today - datetime.timedelta(i)
if cur_date.weekday() not in (5, 6):
date_list.append(cur_date.year * 10000 + cur_date.month * 100 + cur_date.day)
date_list.reverse()
add_record_count = 0
row = table.row
for cur_date in date_list:
buf = api.get_history_minute_time_data(pytdx_market, stock_record[2], cur_date)
if buf is None or len(buf) != 240:
#print(cur_date, "获取的分时线长度不为240!", stock_record[1], stock_record[2])
continue
this_date = cur_date * 10000
time = 930
for record in buf:
if time == 960:
time = 1000
elif time == 1060:
time = 1100
elif time == 1130:
time = 1300
elif time == 1360:
time = 1400
try:
row['datetime'] = this_date + time
row['price'] = int(record['price'] * 1000)
row['vol'] = record['vol']
row.append()
time += 1
add_record_count += 1
except Exception as e:
hku_error("Failed trans record {}! {}".format(record, e))
if add_record_count > 0:
table.flush()
elif table.nrows == 0:
table.remove()
return add_record_count
def import_time(connect, market, quotations, api, dest_dir, max_days=9000, progress=ProgressBar):
add_record_count = 0
market = market.upper()
h5file = open_time_file(dest_dir, market)
stock_list = get_stock_list(connect, market, quotations)
total = len(stock_list)
for i, stock in enumerate(stock_list):
if stock[3] == 0:
if progress:
progress(i, total)
continue
this_count = import_on_stock_time(connect, api, h5file, market, stock, max_days)
add_record_count += this_count
if progress:
progress(i, total)
connect.commit()
h5file.close()
return add_record_count
if __name__ == '__main__':
import os
import time
starttime = time.time()
dest_dir = "d:\\stock"
tdx_server = '119.147.212.81'
tdx_port = 7709
quotations = ['stock', 'fund']
connect = sqlite3.connect(dest_dir + "\\stock.db")
create_database(connect)
from pytdx.hq import TdxHq_API, TDXParams
api = TdxHq_API()
api.connect(tdx_server, tdx_port)
add_count = 0
"""
print("导入指数代码表")
add_count = import_index_name(connect)
print("指数个数:", add_count)
"""
print("导入股票代码表")
add_count = import_stock_name(connect, api, 'SH', quotations)
#add_count += import_stock_name(connect, api, 'SZ', quotations)
print("新增股票数:", add_count)
"""
print("\n导入上证日线数据")
add_count = import_data(connect, 'SH', 'DAY', quotations, api, dest_dir, progress=ProgressBar)
print("\n导入数量:", add_count)
print("\n导入深证日线数据")
add_count = import_data(connect, 'SZ', 'DAY', quotations, api, dest_dir, progress=ProgressBar)
print("\n导入数量:", add_count)
print("\n导入上证5分钟线数据")
add_count = import_data(connect, 'SH', '5MIN', quotations, api, dest_dir, progress=ProgressBar)
print("\n导入数量:", add_count)
print("\n导入深证5分钟线数据")
add_count = import_data(connect, 'SZ', '5MIN', quotations, api, dest_dir, progress=ProgressBar)
print("\n导入数量:", add_count)
print("\n导入上证分钟线数据")
add_count = import_data(connect, 'SH', '1MIN', quotations, api, dest_dir, progress=ProgressBar)
print("\n导入数量:", add_count)
print("\n导入深证分钟线数据")
add_count = import_data(connect, 'SZ', '1MIN', quotations, api, dest_dir, progress=ProgressBar)
print("\n导入数量:", add_count)
print("\n导入权息数据")
print("正在下载权息数据...")
import urllib.request
net_file = urllib.request.urlopen('http://www.qianlong.com.cn/download/history/weight.rar', timeout=60)
dest_filename = dest_dir + '/weight.rar'
with open(dest_filename, 'wb') as file:
file.write(net_file.read())
print("下载完成,正在解压...")
os.system('unrar x -o+ -inul {} {}'.format(dest_filename, dest_dir))
print("解压完成,正在导入...")
add_count = qianlong_import_weight(connect, dest_dir + '/weight', 'SH')
add_count += qianlong_import_weight(connect, dest_dir + '/weight', 'SZ')
print("导入数量:", add_count)
print("\n导入上证分笔数据")
#add_count = import_trans(connect, 'SH', quotations, api, dest_dir, max_days=2, progress=ProgressBar)
print("\n导入数量:", add_count)
print("\n导入上证分时数据")
add_count = import_time(connect, 'SZ', quotations, api, dest_dir, max_days=3, progress=ProgressBar)
print("\n导入数量:", add_count)
"""
api.disconnect()
connect.close()
endtime = time.time()
print("\nTotal time:")
print("%.2fs" % (endtime - starttime))
print("%.2fm" % ((endtime - starttime) / 60))