Overall Statistics |
Total Trades 1554 Average Win 3.70% Average Loss -1.88% Compounding Annual Return 31.374% Drawdown 75.600% Expectancy 0.147 Net Profit 464.889% Sharpe Ratio 0.838 Probabilistic Sharpe Ratio 20.257% Loss Rate 61% Win Rate 39% Profit-Loss Ratio 1.97 Alpha 0.189 Beta 1.693 Annual Standard Deviation 0.484 Annual Variance 0.234 Information Ratio 0.675 Tracking Error 0.412 Treynor Ratio 0.239 Total Fees $25945.95 Estimated Strategy Capacity $1400.00 |
# 31732_buy class Roboto(QCAlgorithm): # bubble signal FAST = 3 # for EMA, lower values >> higher risk, higher returns SLOW = 30 # for EMA MAGNITUDE = 2.00 # magnitude of the bubble # position configuration for opening in CheckForEntries FREE_CASH = 0.03 # adjust based on risk tolerance for FreePortfolioValuePercentage in Initialize DYN_POSITION_SIZE = 0.50 # variable affecting dynamic position sizing for next short positions MAX_POSITION_SIZE = 0.15 # maximum individual position size. has a big effect on total returns (more negative values >> larger returns) MIN_BP = 0.08 # liquidate most profitable position if buying power (= MarginRemaining / PortfolioValue) is too low OF_TOTAL_DV = 0.02 # max share of daily dollar volume for order size MAX_POS = 9 # max number of open positions USE_BULL = False # position configuration for liquidation in CheckForExits CUT_LOSS = -0.10 # -10% = -0.10 !!! TCL_GET_EVEN = 0.00 # how fast is TCL trailing until break even (0.0 for none) !!! TCL_TRAIL = 0.00 # how fast is TCL trailing after break even (0.0 for none, if larger than TCL_GET_EVEN, overrides it) !!! TAKE_PROFIT = 0.55 # 55% = 0.55 !!! MAX_POSITION_AGE = 45 # 45 days optimal TP_TRAIL = 0.5 # decreases TP with age up to 0.55 * (1 - 0.5) at MAX_POSITION_AGE (0.0 for none) !!! TP_KICK_IN = 0.7 # decreases TP with age kicking in at 80% of MAX_POSITION_AGE (never 1.0) # liquidity configuration MIN_Price = 5. # min price !!! MAX_Price = 50. # max price !!! MIN_VOLUME = 1e6 # min volume !!! MIN_DOLLAR_VOLUME = 1e5 # min dollar volume #MIN_TIME_OF_HISTORY = 0 # only include if there is a min of x days of history data (currently unused) MIN_TIME_IN_UNIVERSE = SLOW # min amount of time a security must remain in the universe before being removed (drives the speed of the backtest) # funnel N_COARSE = MAX_POS # max number of coarse securities # portfolio configuration STARTING_CASH = 100000 # for backtest in Initialize # debugging level #MSGS = ['main', 'filter', 'logic', 'order', 'debug'] MSGS = [] class SecurityData: # access yesterday's close via self.universe[Symbol].close def __init__(self, symbol, history): self.symbol = symbol self.close = 0 self.ratio = 0 self.isAntiBubble = False self.fast = ExponentialMovingAverage(Roboto.FAST) self.slow = ExponentialMovingAverage(Roboto.SLOW) self.vol = ExponentialMovingAverage(Roboto.SLOW) # update all but the last day, as this will be updated after adding a new obj for bar in history[:history.size-1].itertuples(): self.fast.Update(bar.Index[1], bar.close) self.slow.Update(bar.Index[1], bar.close) self.vol.Update(bar.Index[1], ((bar.open + bar.close)/2.0) * bar.volume) # we need to init with DollarVolume def update(self, time, price, volume, magnitude): self.close = price self.ratio = 0 self.isAntiBubble = False if self.fast.Update(time, price) and self.slow.Update(time, price) and self.vol.Update(time, volume): self.ratio = self.fast.Current.Value / self.slow.Current.Value self.isAntiBubble = (self.ratio < magnitude) and (price / self.slow.Current.Value < magnitude) def Initialize(self): self.Debug("*** Roboto is initializing ***") self.SetTimeZone("America/New_York") # backtest self.SetBrokerageModel(BrokerageName.AlphaStreams) self.SetStartDate(2015, 1, 1) # self.SetEndDate(2019,1,5) # live settings if self.LiveMode: self.minutes = 15 res = Resolution.Minute else: self.minutes = 60 res = Resolution.Hour # portfolio self.SetCash(Roboto.STARTING_CASH) self.Settings.FreePortfolioValuePercentage = Roboto.FREE_CASH self.min_dollar_vol = Roboto.MIN_DOLLAR_VOLUME # universe selection self.UniverseSettings.Resolution = res self.UniverseSettings.MinimumTimeInUniverse = Roboto.MIN_TIME_IN_UNIVERSE # min amount of time a security must remain in the universe before being removed # self.AddUniverse(self.CoarseFilter) self.AddUniverse(self.CoarseFilter) self.universe = {} # contains all tracked securities in the universe self.open = [] # positions to open based on signal # set security symbols self.market = self.AddEquity("SPY", res).Symbol self.bull = self.AddEquity("QQQ", res).Symbol self.excl_smbls = [self.market, self.bull] self.magnitude = Roboto.MAGNITUDE # further vars self.expiry = {} # contains age of position self.trail_cut_loss = {} # contains trailing max of unrealized profit pct for cut loss self.bp = 1.0 # buying power # schedule our CheckForExits check for liquidation of positions using range(start, stop, step), NYSE 9:30 .. 16:00 for i in range(0, 389, self.minutes): self.Schedule.On(self.DateRules.EveryDay(), self.TimeRules.AfterMarketOpen(self.bull, i), self.CheckForExits) # schedule our CheckForEntries check for shorting and entering bull security for i in range(60, 389, 60): self.Schedule.On(self.DateRules.EveryDay(), self.TimeRules.AfterMarketOpen(self.bull, i), self.CheckForEntries) def CustomFilter(self,coarse): cf_selected = [x for x in coarse if x.Symbol.Value == "RRC" ] for cf in cf_selected: if (cf.Symbol not in self.universe): history = self.History(cf.Symbol, Roboto.SLOW, Resolution.Daily) self.universe[cf.Symbol] = Roboto.SecurityData(cf.Symbol, history) self.universe[cf.Symbol].update(cf.EndTime, cf.AdjustedPrice, cf.DollarVolume, self.magnitude) values = [x for x in self.universe.values()] symbols = [x.symbol for x in values[:Roboto.N_COARSE]] return symbols def CoarseFilter(self, coarse): # for CoarseFundamental see https://www.quantconnect.com/docs/algorithm-reference/universes# if ('main' in Roboto.MSGS): self.Debug("{} CoarseFilter".format(self.Time)) # ensure a minimum dollar volume corresponding to orders of 2 x our maximum fill rate self.min_dollar_vol = max(Roboto.MIN_DOLLAR_VOLUME, (self.Portfolio.TotalPortfolioValue * (1-Roboto.FREE_CASH) * abs(Roboto.MAX_POSITION_SIZE)) / (2. * Roboto.OF_TOTAL_DV)) # 1st filter for hard and soft criteria cf_selected = [x for x in coarse if x.Market == "usa" and x.HasFundamentalData and x.Volume > Roboto.MIN_VOLUME and x.DollarVolume > self.min_dollar_vol and float(x.Price) >= Roboto.MIN_Price and float(x.Price) <= Roboto.MAX_Price ] if 'filter' in Roboto.MSGS: self.Debug("{} CoarseFilter-1 len:{}".format(self.Time, len(cf_selected))) # approx 500 securities # collect symbols which are new to our universe new_universe = {} for cf in cf_selected: # for every new symbol, create an entry in our universe with a SecurityData object (including initial population of our indicators with daily history) if (cf.Symbol not in self.universe): history = self.History(cf.Symbol, Roboto.SLOW, Resolution.Daily) self.universe[cf.Symbol] = Roboto.SecurityData(cf.Symbol, history) # for our complete universe, update our indicators with the data of the last trading day self.universe[cf.Symbol].update(cf.EndTime, cf.AdjustedPrice, cf.DollarVolume, self.magnitude) # for all cf_selected securities (and not the dropped ones), based on our newly created or updated universe entries, new_universe[cf.Symbol] = self.universe[cf.Symbol] self.universe = new_universe # 2nd filter the values of our SecurityData dict to those who are over their bubble values = [x for x in self.universe.values() if x.isAntiBubble] if 'filter' in Roboto.MSGS: self.Debug("{} CoarseFilter-2 len:{}".format(self.Time, len(values))) # 3rd filter for n_coarse sorted by the highest ratio values.sort(key = lambda x: x.ratio, reverse = False) # highest ratios first # we need to return only our array of Symbol objects symbols = [x.symbol for x in values[:Roboto.N_COARSE]] if 'filter' in Roboto.MSGS: self.Debug("{} CoarseFilter-3 len:{}".format(self.Time, len(symbols))) return symbols def OnSecuritiesChanged(self, changes): # is called whenever the universe changes if 'main' in Roboto.MSGS: self.Debug("{} Securities changed".format(self.Time)) # remember all changed securities so they can be opened, and cancel all their orders self.open = [] for security in changes.AddedSecurities: self.CancelAllOrders(security.Symbol) if not security.Invested and (security.Symbol not in self.excl_smbls): if 'logic' in Roboto.MSGS: self.Debug("{} Identified bubble for security {}".format(self.Time, security.Symbol)) self.open.append(security.Symbol) def CheckForEntries(self): # once per day, check for entering new short positions for added securities from UniverseSelection if 'main' in Roboto.MSGS: self.Debug("{} CheckForEntries".format(self.Time)) num_pos = len([f.Key for f in self.ActiveSecurities if f.Value.Invested]) # positions incl. bullish stock # open new positions based on self.open which is populated in OnSecuritiesChanged new_pos=0 for symb in self.open: if (num_pos+new_pos) < Roboto.MAX_POS: new_pos += 1 dynamic = Roboto.DYN_POSITION_SIZE/(num_pos + new_pos) # negtive target = max(Roboto.MAX_POSITION_SIZE, dynamic) # max of negative = min of positive tag = "New pos. target allocation {}".format(round(target, 4)) self.Buy(symb, target, tag) self.open.remove(symb) # set some portion of portfolio to hold bullish index if Roboto.USE_BULL: remaining_allocation = max(1.0 - self.MIN_BP - (num_pos * (-1 * Roboto.MAX_POSITION_SIZE)), Roboto.MAX_POSITION_SIZE) if 'order' in Roboto.MSGS: self.Debug("{} *** Entering: bull security with {}".format(self.Time, remaining_allocation)) self.SetHoldings([PortfolioTarget(self.bull, remaining_allocation)]) self.Plot("Buying Power", "Bull", remaining_allocation) self.bp = self.Portfolio.MarginRemaining/self.Portfolio.TotalPortfolioValue self.Plot("Buying Power", "BP", self.bp) self.Plot("# Positions", "pos", num_pos) def Buy(self, symbol, target, tag = "No Tag Provided"): # handle entry position sizing, target = negative # get close of yesterday, mean close of last 30 minutes, and price of last minute close_yesterday = self.universe[symbol].close price = float(self.Securities[symbol].Close) # price of last bar according to res if 'logic' in Roboto.MSGS: self.Debug("{} Short check {} @ yest:{}, price:{}".format(self.Time, symbol, close_yesterday, price)) # enter buy if price is decreasing if price > 0: # calc target order quantity from target percent (quantity is calculated based on current price and is adjusted for the fee model attached to that security) q_target = self.CalculateOrderQuantity(symbol, target) # calc maximum order quantity based on max allowed securities dollar volume q_max = float(Roboto.OF_TOTAL_DV * self.universe[symbol].vol.Current.Value) / price # enter buy with allowed quantity q = int(min(q_target, q_max)) # max of negative = min of positive if q > 0: if 'order' in Roboto.MSGS: self.Debug("{} *** Entering: buy for {} @ {}".format(self.Time, q, symbol, price)) self.EmitInsights(Insight.Price(symbol, timedelta(days = Roboto.MAX_POSITION_AGE), InsightDirection.Up, None, None, None, target)) self.LimitOrder(symbol, q, price, tag) else: if q != 0: if 'error' in Roboto.MSGS: self.Error("{} Received negative quantity for buy order: {} {} @ {} (Target: {})".format(self.Time, q, symbol, price, target)) else: if 'logic' in Roboto.MSGS: self.Debug("{} Buying skipped for {} @ {}".format(self.Time, symbol, price)) def CheckForExits(self): # every OnDate event, check for liquidation of portfolio positions based on loss, profit, age, and buying power if 'main' in Roboto.MSGS: self.Debug("{} CheckForExits".format(self.Time)) closing = set() invested = [f.Key for f in self.ActiveSecurities if (f.Value.Invested and (f.Value.Symbol not in self.excl_smbls))] # liquidate loss positions or old positions or take profit for symb in invested: holding = self.Portfolio[symb] # update cut loss, limited to UnrealizedProfitPercent = 0 self.trail_cut_loss[symb] = min(-Roboto.CUT_LOSS, max(self.trail_cut_loss[symb], holding.UnrealizedProfitPercent * Roboto.TCL_GET_EVEN)) # update cut loss, not limited self.trail_cut_loss[symb] = max(self.trail_cut_loss[symb], holding.UnrealizedProfitPercent * Roboto.TCL_TRAIL) take_profit = Roboto.TAKE_PROFIT # update trailing profit decrease, kicking in at 70% of the days, decreasing up to Roboto.TP_TRAIL tp_decrease = 1 - max(0, ( (1+(self.Time - self.expiry[symb]).days) - Roboto.MAX_POSITION_AGE*Roboto.TP_KICK_IN) / (Roboto.MAX_POSITION_AGE - Roboto.MAX_POSITION_AGE*Roboto.TP_KICK_IN)) * Roboto.TP_TRAIL # exit positions with a large loss quickly with a market order if (holding.UnrealizedProfitPercent < (self.trail_cut_loss[symb] + Roboto.CUT_LOSS)) and ((self.Time - self.expiry[symb]).days > 1): if 'order' in Roboto.MSGS: self.Debug("{} *** Liquidating: Market Order for Cutting Losses on {} at {} days, {}%".format(self.Time, holding.Symbol, (self.Time - self.expiry[holding.Symbol]).days, round(holding.UnrealizedProfitPercent, 4) * 100)) self.CancelAllOrders(holding.Symbol) tag = "Cutting loss, age {} days, result {}%".format((self.Time - self.expiry[holding.Symbol]).days, round(holding.UnrealizedProfitPercent, 4) * 100) self.MarketOrderExit(holding.Symbol, tag) closing.add(holding.Symbol) # exit positions that have a large profit with a limit order elif (holding.UnrealizedProfitPercent > take_profit * tp_decrease): if 'order' in Roboto.MSGS: self.Debug("{} *** Liquidating: Limit Order for Taking Profit on {} at {} days, {}%".format(self.Time, holding.Symbol, (self.Time - self.expiry[holding.Symbol]).days, round(holding.UnrealizedProfitPercent, 4) * 100)) self.CancelAllOrders(holding.Symbol) tag = "Taking profit, age {} days, result {}%".format((self.Time - self.expiry[holding.Symbol]).days, round(holding.UnrealizedProfitPercent, 4) * 100) self.LimitOrderExit(holding.Symbol, tag) closing.add(holding.Symbol) # exit old positions with a limit order elif (self.Time - self.expiry[holding.Symbol]).days > Roboto.MAX_POSITION_AGE: if 'order' in Roboto.MSGS: self.Debug("{} *** Liquidating: Limit Order for Expired {} at {} days, {}%".format(self.Time, holding.Symbol, (self.Time - self.expiry[holding.Symbol]).days, round(holding.UnrealizedProfitPercent, 4) * 100)) self.CancelAllOrders(holding.Symbol) tag = "Expired, age {} days, result {}%".format((self.Time - self.expiry[holding.Symbol]).days, round(holding.UnrealizedProfitPercent, 4) * 100) #self.MarketOrderExit(holding.Symbol, tag) self.LimitOrderExit(holding.Symbol, tag) closing.add(holding.Symbol) # liquidate most profitable position if buying power is too low self.bp = self.Portfolio.MarginRemaining / self.Portfolio.TotalPortfolioValue if self.bp < Roboto.MIN_BP: if 'logic' in Roboto.MSGS: self.Debug("{} Buying Power too low: {}".format(self.Time, self.bp)) class Factor: def __init__(self, holding): self.holding = holding self.unrealized = self.holding.UnrealizedProfitPercent track = {} for symb in invested: holding = self.Portfolio[symb] track[holding.Symbol] = Factor(holding) values = list(set(track.values()) - set(closing)) # remove any symbols already beeing closed above (loss positions or old positions or take profit) if len(values) > 0: values.sort(key=lambda f: f.unrealized, reverse=True) if 'order' in Roboto.MSGS: self.Debug("{} *** Liquidating: Limit Order for Buying Power {} @ {}".format(self.Time, values[0].holding.Symbol, values[0].unrealized)) self.CancelAllOrders(values[0].holding.Symbol) tag = "Liquidating, age {} days, result {}%".format((self.Time - self.expiry[holding.Symbol]).days, round(holding.UnrealizedProfitPercent, 4) * 100) self.LimitOrderExit(values[0].holding.Symbol, tag) else: if 'error' in Roboto.MSGS: self.Error("{} Unable to liquidate: {} {}".format(self.Time, len(values), len(closing))) def MarketOrderExit(self, symbol, tag = "No Tag Provided"): q = int(self.Portfolio[symbol].Quantity) if 'debug' in Roboto.MSGS: self.Debug("{} Rapid Exit {} {}".format(self.Time, q, symbol)) self.EmitInsights(Insight.Price(symbol, timedelta(days = Roboto.MAX_POSITION_AGE), InsightDirection.Down, None, None, None, 0.00)) self.MarketOrder(symbol, -q, False, tag) def LimitOrderExit(self, symbol, tag = "No Tag Provided"): q = int(self.Portfolio[symbol].Quantity) price = self.Securities[symbol].Close if 'debug' in Roboto.MSGS: self.Debug("{} LimitOrderExit {} {} @ {}".format(self.Time, q, symbol, price)) self.EmitInsights(Insight.Price(symbol, timedelta(days = Roboto.MAX_POSITION_AGE), InsightDirection.Flat, None, None, None, 0.00)) self.LimitOrder(symbol, -q, price, tag) def CancelAllOrders(self, symbol): if 'debug' in Roboto.MSGS: self.Debug("{} Cancelling all orders for {}".format(self.Time, symbol)) openOrders = self.Transactions.CancelOpenOrders(symbol) for oo in openOrders: if not (oo.Status == OrderStatus.CancelPending): r = oo.Cancel() if not r.IsSuccess: if 'error' in Roboto.MSGS: self.Error("{} Failed to cancel open order {} of {} for reason: {}, {}".format(self.Time, oo.Quantity, oo.Symbol, r.ErrorMessage, r.ErrorCode)) def OnOrderEvent(self, orderEvent): if orderEvent.Status == OrderStatus.Filled: order = self.Transactions.GetOrderById(orderEvent.OrderId) if 'debug' in Roboto.MSGS: self.Debug("{} Filled {} of {} at {}".format(self.Time, order.Quantity, order.Symbol, order.Price)) # if completely liquidating position, stop tracking position age if not self.Portfolio[order.Symbol].Invested: try: del self.expiry[order.Symbol] del self.trail_cut_loss[order.Symbol] if 'debug' in Roboto.MSGS: self.Debug("{} No longer tracking {}".format(self.Time, order.Symbol)) except Error: if 'error' in Roboto.MSGS: self.Error("{} Key deletion failed for {}".format(self.Time, order.Symbol)) # if position is completely new, start tracking position age else: if (order.Symbol not in self.expiry): self.expiry[order.Symbol] = self.Time else: if 'error' in Roboto.MSGS: self.Error("{} Key already existed for {}".format(self.Time, order.Symbol)) if (order.Symbol not in self.trail_cut_loss): self.trail_cut_loss[order.Symbol] = 0 else: if 'error' in Roboto.MSGS: self.Error("{} Key already existed for {}".format(self.Time, order.Symbol))