python实现马丁策略的实例详解
(编辑:jimmy 日期: 2024/11/16 浏览:3 次 )
马丁策略本来是一种赌博方法,但在投资界应用也很广泛,不过对于投资者来说马丁策略过于简单,所以本文将其改进并使得其在震荡市中获利,以下说明如何实现马丁策略。
策略
逢跌加仓,间隔由自己决定,每次加仓是当前仓位的一倍。
连续跌两次卖出,且卖出一半仓位。
如果爆仓则全仓卖出止损。
初始持仓设置为10%~25%,则可进行2到3次补仓。
初始化马丁策略类属性
def __init__(self,startcash, start, end): self.cash = startcash #初始化现金 self.hold = 0 #初始化持仓金额 self.holdper = self.hold /startcash #初始化仓位 self.log = [] #初始化日志 self.cost = 0 #成本价 self.stock_num = 0 #股票数量 self.starttime = start #起始时间 self.endtime = end #终止时间 self.quantlog = [] #交易量记录 self.earn = [] #总资产记录 self.num_log = [] self.droplog = [0]
为了记录每次买卖仓位的变化初始化了各种列表。
交易函数
首先导入需要的模块
import pandas as pd import numpy as np import tushare as ts import matplotlib.pyplot as plt
def buy(self, currentprice, count): self.cash -= currentprice*count self.log.append('buy') self.hold += currentprice*count self.holdper = self.hold / (self.cash+ self.hold) self.stock_num += count self.cost = self.hold / self.stock_num self.quantlog.append(count//100) print('买入价:%.2f,手数:%d,现在成本价:%.2f,现在持仓:%.2f,现在筹码:%d' %(currentprice ,count//100, self.cost, self.holdper, self.stock_num//100)) self.earn.append(self.cash+ currentprice*self.stock_num) self.num_log.append(self.stock_num) self.droplog = [0] def sell(self, currentprice, count): self.cash += currentprice*count self.stock_num -= count self.log.append('sell') self.hold = self.stock_num*self.cost self.holdper = self.hold / (self.cash + self.hold) #self.cost = self.hold / self.stock_num print('卖出价:%.2f,手数:%d,现在成本价:%.2f,现在持仓:%.2f,现在筹码:%d' %(currentprice ,count//100, self.cost, self.holdper, self.stock_num//100)) self.quantlog.append(count//100) self.earn.append(self.cash+ currentprice*self.stock_num) self.num_log.append(self.stock_num) def holdstock(self,currentprice): self.log.append('hold') #print('持有,现在仓位为:%.2f。现在成本:%.2f' %(self.holdper,self.cost)) self.quantlog.append(0) self.earn.append(self.cash+ currentprice*self.stock_num) self.num_log.append(self.stock_num)
持仓成本的计算方式是利用总持仓金额除以总手数,卖出时不改变持仓成本。持有则是不做任何操作只记录日志
数据接口
def get_stock(self, code): df=ts.get_k_data(code,autype='qfq',start= self.starttime ,end= self.endtime) df.index=pd.to_datetime(df.date) df=df[['open','high','low','close','volume']] return df
数据接口使用tushare,也可使用pro接口,到官网注册领取token。
token = '输入你的token' pro = ts.pro_api() ts.set_token(token) def get_stock_pro(self, code): code = code + '.SH' df = pro.daily(ts_code= code, start_date = self.starttime, end_date= self.endtime) return df
数据结构:
回测函数
def startback(self, data, everyChange, accDropday): """ 回测函数 """ for i in range(len(data)): if i < 1: continue if i < accDropday: drop = backtesting.accumulateVar(everyChange, i, i) #print('现在累计涨跌幅度为:%.2f'%(drop)) self.martin(data[i], data[i-1], drop, everyChange,i) elif i < len(data)-2: drop = backtesting.accumulateVar(everyChange, i, accDropday) #print('现在累计涨跌幅度为:%.2f'%(drop)) self.martin(data[i],data[i-1], drop, everyChange,i) else: if self.stock_num > 0: self.sell(data[-1],self.stock_num) else: self.holdstock(data[i])
因为要计算每日涨跌幅,要计算差分,所以第一天的数据不能计算在for循环中跳过,accDropday是累计跌幅的最大计算天数,用来控制入场,当累计跌幅大于某个数值且仓位为0%时可再次入场。以下是入场函数:
def enter(self, currentprice,ex_price,accuDrop): if accuDrop < -0.01:#and ex_price > currentprice: count = (self.cash+self.hold) *0.24 // currentprice //100 * 100 print('再次入场') self.buy(currentprice, count) else: self.holdstock(currentprice)
入场仓位选择0.24则可进行两次抄底,如果抄底间隔为7%可承受最大跌幅为14%。
策略函数
def martin(self, currentprice, ex_price, accuDrop,everyChange,i): diff = (ex_price - currentprice)/ex_price self.droplog.append(diff) if sum(self.droplog) <= 0: self.droplog = [0] if self.stock_num//100 > 1: if sum(self.droplog) >= 0.04: if self.holdper*2 < 0.24: count =(self.cash+self.hold) *(0.25-self.holdper) // currentprice //100 * 100 self.buy(currentprice, count) elif self.holdper*2 < 1 and (self.hold/currentprice)//100 *100 > 0 and backtesting.computeCon(self.log) < 5: self.buy(currentprice, (self.hold/currentprice)//100 *100) else: self.sell(currentprice, self.stock_num//100 *100);print('及时止损') elif (everyChange[i-2] < 0 and everyChange[i-1] <0 and self.cost < currentprice):# or (everyChange[i-1] < -0.04 and self.cost < currentprice): if (self.stock_num > 0) and ((self.stock_num*(1/2)//100*100) > 0): self.sell(currentprice, self.stock_num*(1/2)//100*100 ) #print("现在累计涨跌幅为: %.3f" %(accuDrop)) elif self.stock_num == 100: self.sell(currentprice, 100) else: self.holdstock(currentprice) else: self.holdstock(currentprice) else: self.enter(currentprice,ex_price,accuDrop)
首先构建了droplog专门用于计算累计涨跌幅,当其大于0时重置为0,每次购买后也将其重置为0。当跌幅大于0.04则买入,一下为流程图(因为作图软件Visustin为试用版所以有水印,两个图可以结合来看):
此策略函数可以改成其他策略甚至是反马丁,因为交易函数可以通用。
作图和输出结果
buylog = pd.Series(broker.log) close = data.copy() buy = np.zeros(len(close)) sell = np.zeros(len(close)) for i in range(len(buylog)): if buylog[i] == 'buy': buy[i] = close[i] elif buylog[i] == 'sell': sell[i] = close[i] buy = pd.Series(buy) sell = pd.Series(sell) buy.index = close.index sell.index = close.index quantlog = pd.Series(broker.quantlog) quantlog.index = close.index earn = pd.Series(broker.earn) earn.index = close.index buy = buy.loc[buy > 0] sell = sell.loc[sell>0] plt.plot(close) plt.scatter(buy.index,buy,label = 'buy') plt.scatter(sell.index,sell, label = 'sell') plt.title('马丁策略') plt.legend() #画图 plt.rcParams['font.sans-serif'] = ['SimHei'] fig, (ax1, ax2, ax3) = plt.subplots(3,figsize=(15,8)) ax1.plot(close) ax1.scatter(buy.index,buy,label = 'buy',color = 'red') ax1.scatter(sell.index,sell, label = 'sell',color = 'green') ax1.set_ylabel('Price') ax1.grid(True) ax1.legend() ax1.xaxis_date() ax2.bar(quantlog.index, quantlog, width = 5) ax2.set_ylabel('Volume') ax2.xaxis_date() ax2.grid(True) ax3.xaxis_date() ax3.plot(earn) ax3.set_ylabel('总资产包括浮盈') plt.show()
交易日志
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