Esempio n. 1
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 def __init__(self, inRate, terms, ulInvest, dayCount, id_plan, taxRate):
     threading.Thread.__init__(self)
     self.__flag = threading.Event()  # 用于暂停线程的标识
     self.__flag.set()  # 设置为True
     self.__running = threading.Event()  # 用于停止线程的标识
     self.__running.set()  # 将running设置为True
     self.inRate = inRate
     self.terms = terms
     self.ulInvest = ulInvest
     self.dayCount = dayCount
     self.id_plan = id_plan
     self.taxRate = taxRate
     self.Isflag = 1
     #确定投资哪只股票
     reRate = 0  # 股票的收益率
     i = 0  # 循环指针
     j = 0  # 选择的股票脚标
     for stock in SD.stock:
         res = ml.MaLearning(stock, dayCount)  # 返回值是列表
         res = res[0]  # 收益增长率
         if res > reRate:
             reRate = res
             j = i
         i = i + 1
     self.stock = SD.stock[j]
     self.stock_id = SD.stock_id[j]
Esempio n. 2
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def calculate(inRate, terms, ulInvest, dayCount, stock, id_plan, stock_id,
              taxRate):  #计算价值目标,参数:投资增长率,总期数,总额度,时间间隔,股指,对应投资计划的id,股指基金代码
    #输出的时候数据要转化成字符串
    print "获取的数据   inRate:" + str(inRate) + "  terms:" + str(
        terms) + "  ulInvest:" + str(ulInvest) + "  dayCount:" + str(
            dayCount) + "  stock:" + str(stock) + "  id_plan:" + str(
                id_plan) + "  stock_id:" + str(stock_id)
    reRate = ml.MaLearning(stock, dayCount)[0]  #是个数组
    inRate = float(inRate)  #投资增长率,注意获取的数据需要转化成可用的形式
    terms = int(terms)  #总期数
    ulInvest = float(ulInvest)  #总额度
    taxRate = float(taxRate)

    if reRate > 0:
        data = DA.Data(id_plan)
        alInvest = float(data[0][0])  #已经投资的总额
        alVolume = float(data[0][1])  #已经投资的份数
        alterms = int(data[0][2])  #已经投资的次数
        term = alterms + 1  #本次是第几次投资
        tempDate = time.strftime('%Y-%m-%d', time.localtime(time.time()))
        print "ccc   " + str(alInvest) + "  " + str(alInvest) + "  " + str(
            alVolume)
        if alterms >= terms:
            return "over"
        else:
            R = (reRate + inRate) / 2
            A = pow((1 + R), terms)
            Invest = ulInvest / (terms * A)  # 每期投资的价值目标C
            TInvest = Invest * term * pow((1 + R), term)  #账户此时应该拥有的总价值

            fd = ts.get_realtime_quotes(stock_id)
            price = float(fd['price'])  #每股的价格
            NeedInvest = TInvest - alVolume * price  #本次投资的金额
            NeedVolume = NeedInvest / price  #本次投资的份额

            #只对卖出所得的实际收入进行收税
            #if NeedInvest<0:
            #    NeedInvest=NeedInvest*(1-taxRate)

            alVolume = alVolume + NeedVolume  #在计划表中重新计算已经投资的总份额
            alInvest = alInvest + NeedInvest  #在计划表中重新记录已经投资的总金额
            n = 0
            m = 0
            print "投资数据   NeedInvest:" + str(
                NeedInvest) + "  NeedVolume:" + str(
                    NeedVolume) + "  alInvest:" + str(
                        alInvest) + "  alVolume:" + str(alVolume)
            try:
                conn = MySQLdb.Connect(host='localhost',
                                       user='******',
                                       passwd='888212',
                                       db='economic',
                                       port=3306,
                                       charset='utf8')
                cur = conn.cursor()
                sql1 = "insert into record (date,term,invest,volume,id_plan,stock) values (%s,%s,%s,%s,%s,%s)"
                n = cur.execute(
                    sql1,
                    (tempDate, term, NeedInvest, NeedVolume, id_plan, stock))
                conn.commit()
                sql2 = "update valueplan set alInvest=%s,alterms=%s,volume=%s where id=%s"
                m = cur.execute(sql2, (alInvest, term, alVolume, id_plan))
                conn.commit()
                cur.close()
                conn.close()
            except:
                print '投资记录 MySQL connect fail...'
            print m, n
            if (n == 1) & (m == 1):
                return "ok"
            else:
                return "error"
    else:
        return "not proper"
Esempio n. 3
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def change_AFinal(request):
    if request.POST:
        ulInvest = request.POST['FulInvest']  #最终价值目标
        alInvest = request.POST['FalInvest']  #账户已有值
        terms = request.POST['Fterms']  #将要总期数
        inRate = request.POST['FinRate']  #投资增长率
        taxRate = request.POST['FtaxRate']  #税率
        dayCount = request.POST['FdayCount']  #时间间隔
        id_user = request.session['userid']  #用户id
        stock_id = request.POST['Fstock']

        inRate = float(inRate)
        terms = int(terms)
        dayCount = int(dayCount)
        taxRate = float(taxRate)
        ulInvest = float(ulInvest)
        alInvest = float(alInvest)
        stock_id = int(stock_id)

        stock = SD.stock[stock_id]
        stock_id = SD.stock_id[stock_id]
        reRate = ml.MaLearning(stock, dayCount)[0]  # 股票的收益率,返回值是列表

        R = (reRate + inRate) / 2

        n = terms  #目前和最终之间的期数差
        A = pow((1 + R), n)
        B = alInvest / ulInvest
        T = n / (1 - B * A)
        t = T - n  #目前的时间
        fd = ts.get_realtime_quotes(stock_id)
        price = float(fd['price'])  # 每股的价格
        #price=random.uniform(0.9,1.2)#模拟计算的
        alVolume = alInvest / price

        tempTime = time.strftime('%Y-%m-%d %H:%M:%S',
                                 time.localtime(time.time()))
        #暂时存储一些默认值
        tempClass = 2
        tempAlterms = 0
        tempVolume = alVolume
        tempAlInvest = alInvest  #已经投资的金额
        tempIV = alInvest
        tempover = 1
        n = 0
        try:
            conn = MySQLdb.Connect(host='localhost',
                                   user='******',
                                   passwd='888212',
                                   db='economic',
                                   port=3306,
                                   charset='utf8')
            cur = conn.cursor()
            #插入到计划表中
            sql1 = "insert into valueplan (ultimateInvest,rateInvest,terms,dayCount,id_user,class,time,alterms,volume,alInvest,over,rateTax,IVInvest) values (%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s)"
            n = cur.execute(sql1,
                            (ulInvest, inRate, terms, dayCount, id_user,
                             tempClass, tempTime, tempAlterms, tempVolume,
                             tempAlInvest, tempover, taxRate, tempIV))
            conn.commit()
            #获取计划的id
            sql2 = "select id from valueplan where time = %s"
            cur.execute(sql2, (tempTime))
            data = cur.fetchall()
            id_plan = data[0][0]
            cur.close()
            conn.close()
            print id_plan
            threadRE = threadRecord(inRate, T, t, ulInvest, dayCount, id_plan,
                                    taxRate, stock, stock_id)
            # 调用子线程来执行定时任务,定投
            threadRE.start()
        except:
            print '制定投资计划 MySQL connect fail...'
        if n != 1:
            print "插入错误"
            return HttpResponse("false")
        else:
            return HttpResponse("true")
    else:
        print "未获取到数据"
        return HttpResponse("no data")
Esempio n. 4
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def change_initial(request):
    if request.POST:
        dayCount = request.POST['FdayCount']  #时间间隔
        inInvest = request.POST['FinInvest']  #最终价值目标
        terms = request.POST['Fterms']  #总期数
        inRate = request.POST['FinRate']  #投资增长率
        taxRate = request.POST['FtaxRate']  #税率

        id_user = request.session['userid']  #用户id
        inRate = float(inRate)
        terms = int(terms)
        dayCount = int(dayCount)
        taxRate = float(taxRate)
        inInvest = float(inInvest)
        # 确定投资哪只股票
        reRate = 0  # 股票的收益率
        i = 0  # 循环指针
        j = 0  # 选择的股票脚标
        for stock in SD.stock:
            print dayCount
            res = ml.MaLearning(stock, dayCount)  # 返回值是列表
            res = res[0]  # 收益增长率
            if res > reRate:
                reRate = res
                j = i
            i = i + 1
        stock = SD.stock[j]
        stock_id = SD.stock_id[j]
        R = (reRate + inRate) / 2
        A = pow((1 + R), terms)
        ulInvest = inInvest * (terms * A)  # 最终投资价值目标

        print taxRate
        tempTime = time.strftime('%Y-%m-%d %H:%M:%S',
                                 time.localtime(time.time()))
        #暂时存储一些默认值
        tempClass = 0
        tempAlterms = 0
        tempVolume = 0
        tempAlInvest = 0
        tempover = 1
        n = 0
        try:
            conn = MySQLdb.Connect(host='localhost',
                                   user='******',
                                   passwd='888212',
                                   db='economic',
                                   port=3306,
                                   charset='utf8')
            cur = conn.cursor()
            #插入到计划表中
            sql1 = "insert into valueplan (initiateInvest,ultimateInvest,rateInvest,terms,dayCount,id_user,class,time,alterms,volume,alInvest,over,rateTax) values (%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s)"
            n = cur.execute(sql1,
                            (inInvest, ulInvest, inRate, terms, dayCount,
                             id_user, tempClass, tempTime, tempAlterms,
                             tempVolume, tempAlInvest, tempover, taxRate))
            conn.commit()
            #获取计划的id
            sql2 = "select id from valueplan where time = %s"
            cur.execute(sql2, (tempTime))
            data = cur.fetchall()
            id_plan = data[0][0]
            cur.close()
            conn.close()
            print id_plan
            threadRE = threadRecord(inRate, terms, ulInvest, dayCount, id_plan,
                                    taxRate, stock, stock_id)
            # 调用子线程来执行定时任务,定投
            threadRE.start()
        except:
            print '制定投资计划 MySQL connect fail...'
        if n != 1:
            print "插入错误"
            return HttpResponse("false")
        else:
            return HttpResponse("true")
    else:
        print "未获取到数据"
        return HttpResponse("no data")