import numpy as np
def initialize(context):
g.up_price = {} #向上碎形最高价
g.low_price = {} #向下碎形最低价
g.up_fractal_exists = {} #判断有效向上碎形
g.down_fractal_exists = {} #判断有效向下碎形
g.AO_index = {} #存放连续的AO指标数据
g.cal_AC_index = {} #计算AC指标中转存储
g.AC_index = {} #存放连续的AC指标数据
g.amount = {} #满仓仓位
g.stock = get_index_stocks('000300.XSHG')
g.buy_stock = []
set_benchmark('000300.XSHG')
g.month = context.current_dt.month
run_monthly(select_universe,1,'open')
#重置全局变量
def reset_global():
g.up_price = {} #向上碎形最高价
g.low_price = {} #向下碎形最低价
g.up_fractal_exists = {} #判断有效向上碎形
g.down_fractal_exists = {} #判断有效向下碎形
g.AO_index = {} #存放连续的AO指标数据
g.cal_AC_index = {} #计算AC指标中转存储
g.AC_index = {} #存放连续的AC指标数据
g.amount = {} #满仓仓位
g.buy_stock = []
def initial_stock_global(stock):
g.up_price[stock] = 0
g.low_price[stock] = 0
g.up_fractal_exists[stock] = False
g.down_fractal_exists[stock] = False #判断有效向下碎形
g.AO_index[stock] = [0] #存放连续的AO指标数据
g.cal_AC_index[stock] = [0] #计算AC指标中转存储
g.AC_index[stock] = [0] #存放连续的AC指标数据
g.amount[stock] = 0 #满仓仓位
#轮换选股后清空持仓
def reset_position(context):
for stock in g.buy_stock:
order_target(stock,0)
log.info("sell %s for reset position"%stock)
#选股
def select_universe(context):
#每三个月操作一次
month = context.current_dt.month
if month%6 != g.month%6:
return
#清空全局变量
reset_position(context)
reset_global()
hist = history(30,'1d','close',g.stock,df = False)
for stock in g.stock:
if is_sleeping_alligator(stock,hist,20):
g.buy_stock.append(stock)
#初始化该股票全局变量
initial_stock_global(stock)
print g.buy_stock
return None
#睡着的鳄鱼
def is_sleeping_alligator(stock,hist,nday):
for i in range(nday):
if is_struggle(stock,hist,i) == False:
return False
return True
#均线纠缠,BRG三线非常接近
def is_struggle(stock,hist,delta):
blue_line = hist[stock][-21-delta:-8-delta].mean()
red_line = hist[stock][-13-delta:-5-delta].mean()
green_line = hist[stock][-8-delta:-3-delta].mean()
if abs(blue_line/red_line-1)<0.02 and abs(red_line/green_line-1)<0.02:
return True
else:
return False
#判断 向上 或 向下 碎形
def is_fractal(stock,direction):
hist = history(5,'1d',direction,[stock],df = False)
if direction == 'high'\
and hist[stock][2] > hist[stock][0]\
and hist[stock][2] > hist[stock][1]\
and hist[stock][2] > hist[stock][3]\
and hist[stock][2] > hist[stock][4]:
g.up_price[stock] = hist[stock][2]
return True
elif direction == 'low'\
and hist[stock][2] < hist[stock][0]\
and hist[stock][2] < hist[stock][1]\
and hist[stock][2] < hist[stock][3]\
and hist[stock][2] < hist[stock][4]:
g.low_price[stock] = hist[stock][2]
return True
return False
#通过比较碎形与红线位置,判断碎形是否有效
def is_effective_fractal(stock, direction):
if is_fractal(stock,direction):
hist = history(13,'1d','close',[stock],df = False)
red_line = hist[stock][:-5].mean()
close_price = hist[stock][-1]
if direction == 'high':
if close_price > red_line:
g.up_fractal_exists[stock] = True
else:
g.up_fractal_exists[stock] = False
elif direction == 'low':
if close_price < red_line:
g.down_fractal_exists[stock] = True
else:
g.down_fractal_exists[stock] = False
#N日内最高价格的N日线
def nday_high_point(stock,n):
hist = history(2*n,'1d','high',[stock],df = False)[stock]
high_point = []
for i in range(n):
high_point.append(max(hist[-5-i:-1-i]))
return np.array(high_point).mean()
#N日内最低价格的N日线
def nday_low_point(stock,n):
hist = history(2*n,'1d','low',[stock],df = False)[stock]
low_point = []
for i in range(n):
low_point.append(max(hist[-5-i:-1-i]))
return np.array(low_point).mean()
#AO=5日内(最高-最低)/2的5日移动平均-34日内(最高-最低)/2的34日移动平均
def AO_index(stock):
g.AO_index[stock].append(nday_high_point(stock,5)/2 + nday_low_point(stock,5)/2\
- nday_high_point(stock,34)/2 - nday_low_point(stock,34)/2)
return None
#AO-AO的5日平均值的5日平均
def AC_index(stock):
AO_index(stock)
if len(g.AO_index[stock]) >= 5:
g.cal_AC_index[stock].append(g.AO_index[stock][-1] - np.array(g.AO_index[stock][-5:]).mean())
if len(g.cal_AC_index[stock]) >=5:
g.AC_index[stock].append(np.array(g.cal_AC_index[stock][-5:]).mean())
#判断序列n日上行
def is_up_going(alist,n):
if len(alist) < n:
return False
for i in range(n-1):
if alist[-(1+i)] <= alist[-(2+i)]:
return False
return True
#判断序列n日下行
def is_down_going(alist,n):
if len(alist) < n:
return False
for i in range(n-1):
if alist[-(1+i)] >= alist[-(2+i)]:
return False
return True
#碎形被突破
def active_fractal(stock,direction):
close_price = history(1,'1d','close',[stock],df=False)[stock][0]
if direction == 'up' and close_price > g.up_price[stock]:
return True
elif direction == 'down' and close_price < g.low_price[stock]:
return True
return False
#进场,初始仓位
def set_initial_position(stock,context):
close_price = history(1,'1d','close',[stock],df=False)[stock][0]
g.amount[stock] = context.portfolio.cash/close_price/len(g.buy_stock)*3
order(stock, g.amount[stock])
log.info("buying %s 股数为 %s"%(stock,g.amount[stock]))
g.down_fractal_exists[stock] = False
#卖出
def sell_all_stock(stock,context):
order_target(stock,0)
log.info("selling %s"%stock)
g.up_fractal_exists[stock] = False
#加仓
def adjust_position(stock,context,position):
order(stock,g.amount[stock]*position)
log.info("adjust position buying %s 股数为 %s"%(stock,g.amount[stock]*position))
# 计算股票前n日收益率
def security_return(days,security_code):
hist1 = attribute_history(security_code, days + 1, '1d', 'close',df=False)
security_returns = (hist1['close'][-1]-hist1['close'][0])/hist1['close'][0]
return security_returns
# 止损,根据前n日收益率
def conduct_nday_stoploss(context,security_code,days,bench):
if security_return(days,security_code)<= bench:
for stock in g.buy_stock:
order_target_value(stock,0)
log.info("Sell %s for stoploss" %stock)
return True
else:
return False
# 计算股票累计收益率(从建仓至今)
def security_accumulate_return(context,data,stock):
current_price = data[stock].price
cost = context.portfolio.positions[stock].avg_cost
if cost != 0:
return (current_price-cost)/cost
else:
return None
# 个股止损,根据累计收益
def conduct_accumulate_stoploss(context,data,stock,bench):
if security_accumulate_return(context,data,stock) != None\
and security_accumulate_return(context,data,stock) < bench:
order_target_value(stock,0)
log.info("Sell %s for stoploss" %stock)
return True
else:
return False
# 个股止盈,根据累计收益
def conduct_accumulate_stopwin(context,data,stock,bench):
if security_accumulate_return(context,data,stock) != None\
and security_accumulate_return(context,data,stock) > bench:
order_target_value(stock,0)
log.info("Sell %s for stopwin" %stock)
return True
else:
return False
def handle_data(context,data):
#大盘止损
if conduct_nday_stoploss(context,'000300.XSHG',3,-0.03):
return
for stock in g.buy_stock:
#个股止损
if conduct_accumulate_stopwin(context,data,stock,0.3)\
or conduct_accumulate_stoploss(context,data,stock,-0.1):
return
#计算AO,AC指标
AC_index(stock)
#空仓时,寻找机会入场
if context.portfolio.positions[stock].amount == 0:
#计算向上碎形
is_effective_fractal(stock,'high')
#有效向上碎形存在,并被突破,买入
if g.up_fractal_exists and active_fractal(stock,'up'):
close_price = history(5, '1d', 'close', [stock],df = False)
if is_up_going(g.AO_index[stock],5)\
and is_up_going(g.AC_index[stock],3)\
and is_up_going(close_price[stock],2):
set_initial_position(stock,context)
#有持仓时,加仓或离场
else:
#计算向下碎形
is_effective_fractal(stock,'low')
#出场条件1:有效向下碎形存在,并被突破,卖出
if g.down_fractal_exists and active_fractal(stock,'down'):
sell_all_stock(stock,context)
return
#出场条件2:
#加仓10%:AO,AC同时5日上行,且收盘价走高
# if is_up_going(g.AO_index[stock],5)\
# and is_up_going(g.AC_index[stock],3)\
# and is_up_going(close_price[stock],2):
# adjust_position(stock,context,0.1)
# #减仓10%:AO,AC同时3日下行,且收盘价走低
# if is_down_going(g.AO_index[stock],5)\
# and is_down_going(g.AC_index[stock],3)\
# and is_down_going(close_price[stock],2):
# adjust_position(stock,context,-0.1)
转载自原文链接, 如需删除请联系管理员。
原文链接:鳄鱼法则,转载请注明来源!
相关推荐