Esempio n. 1
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 def warmUp(self):
     u = userVals()
     mydata = open(self.filename)
     dataread = csv.reader(mydata, delimiter=',')
     self.csvData = list(dataread)
     self.warmUpDataOpen = []
     self.warmUpDataHigh = []
     self.warmUpDataLow = []
     self.warmUpDataClose = []
     self.warmUpDataVolume = []
     self.warmUpDate = []
     for x in range(0, u.warmUpPeriod-1):
         open_ = self.csvData[x][2]
         high = self.csvData[x][3]
         low = self.csvData[x][4]
         close = self.csvData[x][5]
         volume = self.csvData[x][1]
         date = self.csvData[x][0]
         self.warmUpDataOpen.append(float(open_))
         self.warmUpDataHigh.append(float(high))
         self.warmUpDataLow.append(float(low))
         self.warmUpDataClose.append(float(close))
         self.warmUpDataVolume.append(float(volume))
         self.warmUpDate.append(date)
     return self.warmUpDataOpen, self.warmUpDataHigh, self.warmUpDataLow, self.warmUpDataClose, self.warmUpDataVolume, self.warmUpDate
Esempio n. 2
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 def feedData(self, data):
     u = userVals()
     mydata = open(self.filename)
     dataread = csv.reader(mydata, delimiter=',')
     self.csvData = list(dataread)
     self.wO = self.warmUp()[0]
     self.wH = self.warmUp()[1]
     self.wL = self.warmUp()[2]
     self.wC = self.warmUp()[3]
     self.wV = self.warmUp()[4]
     self.wD = self.warmUp()[5]
     for x in range(u.warmUpPeriod, data):
         open_ = self.csvData[x][2]
         high = self.csvData[x][3]
         low = self.csvData[x][4]
         close = self.csvData[x][5]
         volume = self.csvData[x][1]
         date = self.csvData[x][0]
         self.wO.append(float(open_))
         self.wH.append(float(high))
         self.wL.append(float(low))
         self.wC.append(float(close))
         self.wV.append(float(volume))
         self.wD.append(date)
     return self.wO, self.wH, self.wL, self.wC, self.wV, self.wD
Esempio n. 3
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 def __init__(self):
     u = userVals()
     self.initialCash = 5000
     self.totalTrades = 0
     self.tradeWins = 0
     self.tradeLosses = 0
     self.tradeLots = 0
     self.entryPrice = 0
     self.profit = 0
     self.loss = 0
     self.currentPosition = "None"
     self.initialPoint = u.warmUpPeriod
     self.status = True
     self.accountHistory = [self.initialCash]
     self.filename = "./Data/Forex/USDCAD_Hist_M15.csv"
Esempio n. 4
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    def main(self):
        u = userVals()
        mydata = open(self.filename)
        dataread = csv.reader(mydata, delimiter=',')
        self.csvData = list(dataread)
        for x in range(u.warmUpPeriod, len(self.csvData)):
            feed = self.feedData(x)
            open_= feed[0]
            high = feed[1]
            low = feed[2]
            close = feed[3]
            self.volume = feed[4]
            date = feed[5]

            # Create indicators here
            self.SMA1 = talib.SMA(np.array(self.close), timeperiod=15)
            self.SMA2 = talib.SMA(np.array(self.close), timeperiod=30)
            self.SMAHigh = talib.SMA(np.array(self.high), timeperiod=5)
            self.SMALow = talib.SMA(np.array(self.low), timeperiod=5)

            # Trade Logic 
            if self.currentPosition == "None":
                # Entry Signals
                if (self.tradeLong() == True ):
                    self.entryPrice = close[-1]
                    self.totalTrades = self.totalTrades + 1
                    self.tradeLots = abs((self.initialCash *userVals.risk)/abs(self.entryPrice - low[-2]))
                    self.currentPosition = "Long"

                elif (self.tradeShort() == True ):
                    self.entryPrice = close[-1]
                    self.totalTrades = self.totalTrades + 1
                    self.tradeLots = abs((self.initialCash *userVals.risk)/abs(self.entryPrice - high[-2]))
                    self.currentPosition = "Short"

            elif self.currentPosition != "None":
                # Exit Signals
                if self.currentPosition == "Long":
                    # Exit Long Position 
                    if (self.close[-1] < self.SMALow[-1]):                    
                        exitClose = close[-1]
                        pips = exitClose - self.entryPrice
                        pipValue = 1/exitClose/10
                        newCash = self.initialCash + (pipValue*pips*(self.tradeLots))

                        # Decide if trade was win or loss
                        if exitClose > self.entryPrice:
                            self.tradeWins = self.tradeWins +1
                            self.profit = (newCash - self.initialCash) + self.profit

                        elif exitClose < self.entryPrice:
                            self.tradeLosses = self.tradeLosses + 1
                            self.loss = (self.initialCash - newCash) + self.loss

                        self.initialCash = newCash
                        self.currentPosition = "None"
                        self.accountHistory.append(self.initialCash)

                elif self.currentPosition == "Short":

                    if (self.close[-1] > self.SMAhigh[-1]):
                        exitClose = close[-1]
                        pips = exitClose - self.entryPrice
                        pipValue = 1/exitClose/10
                        newCash = self.initialCash + (pipValue*pips*(self.tradeLots))

                        # Decide if trade was win or loss
                        if exitClose < self.entryPrice:
                            self.tradeWins = self.tradeWins +1
                            self.loss = (self.initialCash - newCash) + self.loss

                        elif exitClose > self.entryPrice:
                            self.tradeLosses = self.tradeLosses + 1
                            self.profit = (newCash - self.initialCash) + self.profit

                        self.initialCash = newCash
                        self.currentPosition = "None"
                        self.accountHistory.append(self.initialCash)

        print "Account:", self.initialCash, "Total Trades:", self.totalTrades, "Wins:", self.tradeWins, "Losses:", self.tradeLosses, "Profit:", self.profit, "Losses:", self.loss
        plt.xlabel('Total Trades')
        plt.ylabel('Balance')
        plt.plot(np.array([x for x in range(len(self.accountHistory))]), np.array(self.accountHistory))
        plt.savefig('BacktestForex.png')
Esempio n. 5
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    def main(self):
        u = userVals()
        mydata = open(self.filename)
        dataread = csv.reader(mydata, delimiter=',')
        self.csvData = list(dataread)
        for x in range(u.warmUpPeriod, len(self.csvData)):
            feed = self.feedData(x)
            open_ = feed[0]
            self.high = feed[1]
            self.low = feed[2]
            self.close = feed[3]
            self.volume = feed[4]
            date = feed[5]

            # Create indicators here
            self.SMA1 = talib.SMA(np.array(self.close), timeperiod=15)
            self.SMA2 = talib.SMA(np.array(self.close), timeperiod=30)
            self.SMAHigh = talib.SMA(np.array(self.high), timeperiod=5)
            self.SMALow = talib.SMA(np.array(self.low), timeperiod=5)

            # Trade Logic
            if self.currentPosition == "None":
                #Entry Signals
                if (self.tradeLong() == True):
                    self.entryPrice = self.close[-1]
                    self.totalTrades = self.totalTrades + 1
                    self.tradeLots = int(self.initialCash / self.entryPrice)
                    self.currentPosition = "Long"

                elif (self.tradeShort() == True):
                    self.entryPrice = self.close[-1]
                    self.totalTrades = self.totalTrades + 1
                    self.tradeLots = int(self.initialCash / self.entryPrice)
                    self.currentPosition = "Short"

            elif self.currentPosition != "None":
                #Exit Signals
                if self.currentPosition == "Short":
                    if self.close[-1] > self.SMAHigh[-1]:
                        exitClose = self.close[-1]
                        prof = (self.tradeLots *
                                self.entryPrice) - (self.tradeLots * exitClose)
                        newCash = self.initialCash + prof

                        if exitClose < self.entryPrice:
                            self.tradeWins = self.tradeWins + 1
                            self.profit = prof + self.profit

                        elif exitClose > self.entryPrice:
                            self.tradeLosses = self.tradeLosses + 1
                            self.loss = abs(prof) + self.loss

                        self.initialCash = newCash
                        self.currentPosition = "None"
                        self.accountHistory.append(self.initialCash)

                elif self.currentPosition == "Long":

                    if (self.close[-1] < self.SMALow[-1]):
                        exitClose = self.close[-1]
                        prof = (self.tradeLots * exitClose) - (self.tradeLots *
                                                               self.entryPrice)
                        newCash = self.initialCash + prof

                        if exitClose > self.entryPrice:
                            self.tradeWins = self.tradeWins + 1
                            self.profit = prof + self.profit

                        elif exitClose < self.entryPrice:
                            self.tradeLosses = self.tradeLosses + 1
                            self.loss = abs(prof) + self.loss

                        self.initialCash = newCash
                        self.currentPosition = "None"
                        self.accountHistory.append(self.initialCash)

        print "Account:", self.initialCash, "Total Trades:", self.totalTrades, "Wins:", self.tradeWins, "Losses:", self.tradeLosses, "Profit:", self.profit, "Losses:", self.loss
        plt.xlabel('Total Trades')
        plt.ylabel('Balance')
        plt.plot(np.array([x for x in range(len(self.accountHistory))]),
                 np.array(self.accountHistory))
        plt.savefig('BacktestStocks.png')