package drift import ( "bytes" "context" "errors" "fmt" "math" "os" "strconv" "sync" "time" "github.com/sirupsen/logrus" "go.uber.org/multierr" "github.com/c9s/bbgo/pkg/bbgo" "github.com/c9s/bbgo/pkg/datatype/floats" "github.com/c9s/bbgo/pkg/dynamic" "github.com/c9s/bbgo/pkg/fixedpoint" "github.com/c9s/bbgo/pkg/indicator" "github.com/c9s/bbgo/pkg/interact" "github.com/c9s/bbgo/pkg/types" "github.com/c9s/bbgo/pkg/util" ) const ID = "drift" var log = logrus.WithField("strategy", ID) var Four fixedpoint.Value = fixedpoint.NewFromInt(4) var Three fixedpoint.Value = fixedpoint.NewFromInt(3) var Two fixedpoint.Value = fixedpoint.NewFromInt(2) var Delta fixedpoint.Value = fixedpoint.NewFromFloat(0.01) var Fee = 0.0008 // taker fee % * 2, for upper bound func init() { bbgo.RegisterStrategy(ID, &Strategy{}) } func filterErrors(errs []error) (es []error) { for _, e := range errs { if _, ok := e.(types.ZeroAssetError); ok { continue } if bbgo.ErrExceededSubmitOrderRetryLimit == e { continue } es = append(es, e) } return es } type Strategy struct { Symbol string `json:"symbol"` bbgo.OpenPositionOptions bbgo.StrategyController types.Market types.IntervalWindow bbgo.SourceSelector *bbgo.Environment *types.Position `persistence:"position"` *types.ProfitStats `persistence:"profit_stats"` *types.TradeStats `persistence:"trade_stats"` MinInterval types.Interval `json:"MinInterval"` // minimum interval referred for doing stoploss/trailing exists and updating highest/lowest elapsed *types.Queue priceLines *types.Queue trendLine types.UpdatableSeriesExtend ma types.UpdatableSeriesExtend stdevHigh *indicator.StdDev stdevLow *indicator.StdDev drift *DriftMA atr *indicator.ATR midPrice fixedpoint.Value // the midPrice is the average of bestBid and bestAsk in public orderbook lock sync.RWMutex `ignore:"true"` // lock for midPrice positionLock sync.RWMutex `ignore:"true"` // lock for highest/lowest and p pendingLock sync.Mutex `ignore:"true"` startTime time.Time // trading start time maxCounterBuyCanceled int // the largest counter of the order on the buy side been cancelled. meaning the latest cancelled buy order. maxCounterSellCanceled int // the largest counter of the order on the sell side been cancelled. meaning the latest cancelled sell order. orderPendingCounter map[uint64]int // records the timepoint when the orders are created, using the counter at the time. frameKLine *types.KLine // last kline in Interval klineMin *types.KLine // last kline in MinInterval beta float64 // last beta value from trendline's linear regression (previous slope of the trendline) Debug bool `json:"debug" modifiable:"true"` // to print debug message or not UseStopLoss bool `json:"useStopLoss" modifiable:"true"` // whether to use stoploss rate to do stoploss UseAtr bool `json:"useAtr" modifiable:"true"` // use atr as stoploss StopLoss fixedpoint.Value `json:"stoploss" modifiable:"true"` // stoploss rate PredictOffset int `json:"predictOffset"` // the lookback length for the prediction using linear regression HighLowVarianceMultiplier float64 `json:"hlVarianceMultiplier" modifiable:"true"` // modifier to set the limit order price NoTrailingStopLoss bool `json:"noTrailingStopLoss" modifiable:"true"` // turn off the trailing exit and stoploss HLRangeWindow int `json:"hlRangeWindow"` // ma window for kline high/low changes SmootherWindow int `json:"smootherWindow"` // window that controls the smoothness of drift FisherTransformWindow int `json:"fisherTransformWindow"` // fisher transform window to filter drift's negative signals ATRWindow int `json:"atrWindow"` // window for atr indicator PendingMinInterval int `json:"pendingMinInterval" modifiable:"true"` // if order not be traded for pendingMinInterval of time, cancel it. NoRebalance bool `json:"noRebalance" modifiable:"true"` // disable rebalance TrendWindow int `json:"trendWindow"` // trendLine is used for rebalancing the position. When trendLine goes up, hold base, otherwise hold quote RebalanceFilter float64 `json:"rebalanceFilter" modifiable:"true"` // beta filter on the Linear Regression of trendLine TrailingCallbackRate []float64 `json:"trailingCallbackRate" modifiable:"true"` TrailingActivationRatio []float64 `json:"trailingActivationRatio" modifiable:"true"` buyPrice float64 `persistence:"buy_price"` // price when a long position is opened sellPrice float64 `persistence:"sell_price"` // price when a short position is opened highestPrice float64 `persistence:"highest_price"` // highestPrice when the position is opened lowestPrice float64 `persistence:"lowest_price"` // lowestPrice when the position is opened // This is not related to trade but for statistics graph generation // Will deduct fee in percentage from every trade GraphPNLDeductFee bool `json:"graphPNLDeductFee"` CanvasPath string `json:"canvasPath"` // backtest related. the path to store the indicator graph GraphPNLPath string `json:"graphPNLPath"` // backtest related. the path to store the pnl % graph per trade graph. GraphCumPNLPath string `json:"graphCumPNLPath"` // backtest related. the path to store the asset changes in graph GraphElapsedPath string `json:"graphElapsedPath"` // the path to store the elapsed time in ms GenerateGraph bool `json:"generateGraph"` // whether to generate graph when shutdown ExitMethods bbgo.ExitMethodSet `json:"exits"` Session *bbgo.ExchangeSession *bbgo.FastOrderExecutor getLastPrice func() fixedpoint.Value } func (s *Strategy) ID() string { return ID } func (s *Strategy) InstanceID() string { return fmt.Sprintf("%s:%s:%v", ID, s.Symbol, bbgo.IsBackTesting) } func (s *Strategy) Subscribe(session *bbgo.ExchangeSession) { // by default, bbgo only pre-subscribe 1000 klines. // this is not enough if we're subscribing 30m intervals using SerialMarketDataStore if !bbgo.IsBackTesting { session.Subscribe(types.BookTickerChannel, s.Symbol, types.SubscribeOptions{}) session.Subscribe(types.MarketTradeChannel, s.Symbol, types.SubscribeOptions{}) // able to preload if s.MinInterval.Milliseconds() >= types.Interval1s.Milliseconds() && s.MinInterval.Milliseconds()%types.Interval1s.Milliseconds() == 0 { maxWindow := (s.Window + s.SmootherWindow + s.FisherTransformWindow) * (s.Interval.Milliseconds() / s.MinInterval.Milliseconds()) bbgo.KLinePreloadLimit = int64((maxWindow/1000 + 1) * 1000) session.Subscribe(types.KLineChannel, s.Symbol, types.SubscribeOptions{ Interval: s.MinInterval, }) } else { bbgo.KLinePreloadLimit = 0 } } else { maxWindow := (s.Window + s.SmootherWindow + s.FisherTransformWindow) * (s.Interval.Milliseconds() / s.MinInterval.Milliseconds()) bbgo.KLinePreloadLimit = int64((maxWindow/1000 + 1) * 1000) // gave up preload if s.Interval.Milliseconds() < s.MinInterval.Milliseconds() { bbgo.KLinePreloadLimit = 0 } log.Errorf("set kLinePreloadLimit to %d, %d %d", bbgo.KLinePreloadLimit, s.Interval.Milliseconds()/s.MinInterval.Milliseconds(), maxWindow) if bbgo.KLinePreloadLimit > 0 { session.Subscribe(types.KLineChannel, s.Symbol, types.SubscribeOptions{ Interval: s.MinInterval, }) } } s.ExitMethods.SetAndSubscribe(session, s) } func (s *Strategy) CurrentPosition() *types.Position { return s.Position } func (s *Strategy) SubmitOrder(ctx context.Context, submitOrder types.SubmitOrder) (*types.Order, error) { formattedOrder, err := s.Session.FormatOrder(submitOrder) if err != nil { return nil, err } createdOrders, errIdx, err := bbgo.BatchPlaceOrder(ctx, s.Session.Exchange, nil, formattedOrder) if len(errIdx) > 0 { return nil, err } return &createdOrders[0], err } const closeOrderRetryLimit = 5 func (s *Strategy) ClosePosition(ctx context.Context, percentage fixedpoint.Value) error { order := s.Position.NewMarketCloseOrder(percentage) if order == nil { return nil } order.Tag = "close" order.TimeInForce = "" order.MarginSideEffect = types.SideEffectTypeAutoRepay for i := 0; i < closeOrderRetryLimit; i++ { price := s.getLastPrice() balances := s.Session.GetAccount().Balances() baseBalance := balances[s.Market.BaseCurrency].Total() if order.Side == types.SideTypeBuy { quoteAmount := balances[s.Market.QuoteCurrency].Total().Div(price) if order.Quantity.Compare(quoteAmount) > 0 { order.Quantity = quoteAmount } } else if order.Side == types.SideTypeSell && order.Quantity.Compare(baseBalance) > 0 { order.Quantity = baseBalance } if s.Market.IsDustQuantity(order.Quantity, price) { return nil } o, err := s.SubmitOrder(ctx, *order) if err != nil { order.Quantity = order.Quantity.Mul(fixedpoint.One.Sub(Delta)) continue } if o != nil { if o.Status == types.OrderStatusNew || o.Status == types.OrderStatusPartiallyFilled { log.Errorf("created Order when Close: %v", o) } } return nil } return errors.New("exceed retry limit") } func (s *Strategy) initIndicators(store *bbgo.SerialMarketDataStore) error { s.ma = &indicator.SMA{IntervalWindow: types.IntervalWindow{Interval: s.Interval, Window: s.HLRangeWindow}} s.stdevHigh = &indicator.StdDev{IntervalWindow: types.IntervalWindow{Interval: s.Interval, Window: s.HLRangeWindow}} s.stdevLow = &indicator.StdDev{IntervalWindow: types.IntervalWindow{Interval: s.Interval, Window: s.HLRangeWindow}} s.drift = &DriftMA{ drift: &indicator.WeightedDrift{ MA: &indicator.SMA{IntervalWindow: s.IntervalWindow}, IntervalWindow: s.IntervalWindow, }, ma1: &indicator.EWMA{ IntervalWindow: types.IntervalWindow{Interval: s.Interval, Window: s.SmootherWindow}, }, ma2: &indicator.FisherTransform{ IntervalWindow: types.IntervalWindow{Interval: s.Interval, Window: s.FisherTransformWindow}, }, } s.drift.SeriesBase.Series = s.drift s.atr = &indicator.ATR{IntervalWindow: types.IntervalWindow{Interval: s.Interval, Window: s.ATRWindow}} s.trendLine = &indicator.EWMA{IntervalWindow: types.IntervalWindow{Interval: s.Interval, Window: s.TrendWindow}} if bbgo.KLinePreloadLimit == 0 { return nil } klines, ok := store.KLinesOfInterval(s.Interval) klinesLength := len(*klines) if !ok || klinesLength == 0 { return errors.New("klines not exists") } log.Infof("loaded %d klines", klinesLength) for _, kline := range *klines { source := s.GetSource(&kline).Float64() high := kline.High.Float64() low := kline.Low.Float64() s.ma.Update(source) s.stdevHigh.Update(high - s.ma.Last()) s.stdevLow.Update(s.ma.Last() - low) s.drift.Update(source, kline.Volume.Abs().Float64()) s.trendLine.Update(source) s.atr.PushK(kline) s.priceLines.Update(source) } if s.frameKLine != nil && klines != nil { s.frameKLine.Set(&(*klines)[len(*klines)-1]) } klines, ok = store.KLinesOfInterval(s.MinInterval) klinesLength = len(*klines) if !ok || klinesLength == 0 { return errors.New("klines not exists") } log.Infof("loaded %d klines%s", klinesLength, s.MinInterval) if s.klineMin != nil && klines != nil { s.klineMin.Set(&(*klines)[len(*klines)-1]) } return nil } func (s *Strategy) smartCancel(ctx context.Context, pricef, atr float64, syscounter int) (int, error) { nonTraded := s.FastOrderExecutor.ActiveMakerOrders().Orders() if len(nonTraded) > 0 { if len(nonTraded) > 1 { log.Errorf("should only have one order to cancel, got %d", len(nonTraded)) } toCancel := false for _, order := range nonTraded { if order.Status != types.OrderStatusNew && order.Status != types.OrderStatusPartiallyFilled { continue } s.pendingLock.Lock() counter := s.orderPendingCounter[order.OrderID] s.pendingLock.Unlock() log.Warnf("%v | counter: %d, system: %d", order, counter, syscounter) if syscounter-counter > s.PendingMinInterval { toCancel = true } else if order.Side == types.SideTypeBuy { // 75% of the probability if order.Price.Float64()+atr*2 <= pricef { toCancel = true } } else if order.Side == types.SideTypeSell { // 75% of the probability if order.Price.Float64()-atr*2 >= pricef { toCancel = true } } else { panic("not supported side for the order") } } if toCancel { err := s.FastOrderExecutor.Cancel(ctx) s.pendingLock.Lock() counters := s.orderPendingCounter s.orderPendingCounter = make(map[uint64]int) s.pendingLock.Unlock() // TODO: clean orderPendingCounter on cancel/trade for _, order := range nonTraded { counter := counters[order.OrderID] if order.Side == types.SideTypeSell { if s.maxCounterSellCanceled < counter { s.maxCounterSellCanceled = counter } } else { if s.maxCounterBuyCanceled < counter { s.maxCounterBuyCanceled = counter } } } log.Warnf("cancel all %v", err) return 0, err } } return len(nonTraded), nil } func (s *Strategy) trailingCheck(price float64, direction string) bool { if s.highestPrice > 0 && s.highestPrice < price { s.highestPrice = price } if s.lowestPrice > 0 && s.lowestPrice > price { s.lowestPrice = price } isShort := direction == "short" if isShort && s.sellPrice == 0 || !isShort && s.buyPrice == 0 { return false } for i := len(s.TrailingCallbackRate) - 1; i >= 0; i-- { trailingCallbackRate := s.TrailingCallbackRate[i] trailingActivationRatio := s.TrailingActivationRatio[i] if isShort { if (s.sellPrice-s.lowestPrice)/s.lowestPrice > trailingActivationRatio { return (price-s.lowestPrice)/s.lowestPrice > trailingCallbackRate } } else { if (s.highestPrice-s.buyPrice)/s.buyPrice > trailingActivationRatio { return (s.highestPrice-price)/s.buyPrice > trailingCallbackRate } } } return false } func (s *Strategy) initTickerFunctions(ctx context.Context) { if s.IsBackTesting() { s.getLastPrice = func() fixedpoint.Value { lastPrice, ok := s.Session.LastPrice(s.Symbol) if !ok { log.Error("cannot get lastprice") } return lastPrice } } else { s.Session.MarketDataStream.OnBookTickerUpdate(func(ticker types.BookTicker) { bestBid := ticker.Buy bestAsk := ticker.Sell if !util.TryLock(&s.lock) { return } if !bestAsk.IsZero() && !bestBid.IsZero() { s.midPrice = bestAsk.Add(bestBid).Div(Two) } else if !bestAsk.IsZero() { s.midPrice = bestAsk } else { s.midPrice = bestBid } s.lock.Unlock() // we removed realtime stoploss and trailingStop. }) s.getLastPrice = func() (lastPrice fixedpoint.Value) { var ok bool s.lock.RLock() defer s.lock.RUnlock() if s.midPrice.IsZero() { lastPrice, ok = s.Session.LastPrice(s.Symbol) if !ok { log.Error("cannot get lastprice") return lastPrice } } else { lastPrice = s.midPrice } return lastPrice } } } // Sending new rebalance orders cost too much. // Modify the position instead to expect the strategy itself rebalance on Close func (s *Strategy) Rebalance(ctx context.Context) { price := s.getLastPrice() _, beta := types.LinearRegression(s.trendLine, 3) if math.Abs(beta) > s.RebalanceFilter && math.Abs(s.beta) > s.RebalanceFilter || math.Abs(s.beta) < s.RebalanceFilter && math.Abs(beta) < s.RebalanceFilter { return } balances := s.FastOrderExecutor.Session().GetAccount().Balances() baseBalance := balances[s.Market.BaseCurrency].Total() quoteBalance := balances[s.Market.QuoteCurrency].Total() total := baseBalance.Add(quoteBalance.Div(price)) percentage := fixedpoint.One.Sub(Delta) log.Infof("rebalance beta %f %v", beta, s.Position) if beta > s.RebalanceFilter { if total.Mul(percentage).Compare(baseBalance) > 0 { q := total.Mul(percentage).Sub(baseBalance) s.Position.Lock() defer s.Position.Unlock() s.Position.Base = q.Neg() s.Position.Quote = q.Mul(price) s.Position.AverageCost = price } } else if beta <= -s.RebalanceFilter { if total.Mul(percentage).Compare(quoteBalance.Div(price)) > 0 { q := total.Mul(percentage).Sub(quoteBalance.Div(price)) s.Position.Lock() defer s.Position.Unlock() s.Position.Base = q s.Position.Quote = q.Mul(price).Neg() s.Position.AverageCost = price } } else { if total.Div(Two).Compare(quoteBalance.Div(price)) > 0 { q := total.Div(Two).Sub(quoteBalance.Div(price)) s.Position.Lock() defer s.Position.Unlock() s.Position.Base = q s.Position.Quote = q.Mul(price).Neg() s.Position.AverageCost = price } else if total.Div(Two).Compare(baseBalance) > 0 { q := total.Div(Two).Sub(baseBalance) s.Position.Lock() defer s.Position.Unlock() s.Position.Base = q.Neg() s.Position.Quote = q.Mul(price) s.Position.AverageCost = price } else { s.Position.Lock() defer s.Position.Unlock() s.Position.Reset() } } log.Infof("rebalanceafter %v %v %v", baseBalance, quoteBalance, s.Position) s.beta = beta } func (s *Strategy) CalcAssetValue(price fixedpoint.Value) fixedpoint.Value { balances := s.Session.GetAccount().Balances() return balances[s.Market.BaseCurrency].Total().Mul(price).Add(balances[s.Market.QuoteCurrency].Total()) } func (s *Strategy) klineHandlerMin(ctx context.Context, kline types.KLine, counter int) { s.klineMin.Set(&kline) if s.Status != types.StrategyStatusRunning { return } // for doing the trailing stoploss during backtesting atr := s.atr.Last() price := s.getLastPrice() pricef := price.Float64() lowf := math.Min(kline.Low.Float64(), pricef) highf := math.Max(kline.High.Float64(), pricef) s.positionLock.Lock() if s.lowestPrice > 0 && lowf < s.lowestPrice { s.lowestPrice = lowf } if s.highestPrice > 0 && highf > s.highestPrice { s.highestPrice = highf } s.positionLock.Unlock() numPending := 0 var err error if numPending, err = s.smartCancel(ctx, pricef, atr, counter); err != nil { log.WithError(err).Errorf("cannot cancel orders") return } if numPending > 0 { return } if s.NoTrailingStopLoss { return } exitCondition := s.CheckStopLoss() || s.trailingCheck(highf, "short") || s.trailingCheck(lowf, "long") if exitCondition { _ = s.ClosePosition(ctx, fixedpoint.One) } } func (s *Strategy) klineHandler(ctx context.Context, kline types.KLine, counter int) { start := time.Now() defer func() { end := time.Now() elapsed := end.Sub(start) s.elapsed.Update(float64(elapsed) / 1000000) }() s.frameKLine.Set(&kline) source := s.GetSource(&kline) sourcef := source.Float64() s.priceLines.Update(sourcef) s.ma.Update(sourcef) s.trendLine.Update(sourcef) s.drift.Update(sourcef, kline.Volume.Abs().Float64()) s.atr.PushK(kline) atr := s.atr.Last() price := kline.Close // s.getLastPrice() pricef := price.Float64() lowf := math.Min(kline.Low.Float64(), pricef) highf := math.Max(kline.High.Float64(), pricef) lowdiff := pricef - lowf s.stdevLow.Update(lowdiff) highdiff := highf - pricef s.stdevHigh.Update(highdiff) drift := s.drift.Array(2) if len(drift) < 2 || len(drift) < s.PredictOffset { return } ddrift := s.drift.drift.Array(2) if len(ddrift) < 2 || len(ddrift) < s.PredictOffset { return } if s.Status != types.StrategyStatusRunning { return } log.Infof("highdiff: %3.2f open: %8v, close: %8v, high: %8v, low: %8v, time: %v %v", s.stdevHigh.Last(), kline.Open, kline.Close, kline.High, kline.Low, kline.StartTime, kline.EndTime) s.positionLock.Lock() if s.lowestPrice > 0 && lowf < s.lowestPrice { s.lowestPrice = lowf } if s.highestPrice > 0 && highf > s.highestPrice { s.highestPrice = highf } s.positionLock.Unlock() if !s.NoRebalance { s.Rebalance(ctx) } if s.Debug { balances := s.FastOrderExecutor.Session().GetAccount().Balances() bbgo.Notify("source: %.4f, price: %.4f, drift[0]: %.4f, ddrift[0]: %.4f, lowf %.4f, highf: %.4f lowest: %.4f highest: %.4f sp %.4f bp %.4f", sourcef, pricef, drift[0], ddrift[0], atr, lowf, highf, s.lowestPrice, s.highestPrice, s.sellPrice, s.buyPrice) // Notify will parse args to strings and process separately bbgo.Notify("balances: [Total] %v %s [Base] %s(%v %s) [Quote] %s", s.CalcAssetValue(price), s.Market.QuoteCurrency, balances[s.Market.BaseCurrency].String(), balances[s.Market.BaseCurrency].Total().Mul(price), s.Market.QuoteCurrency, balances[s.Market.QuoteCurrency].String(), ) } shortCondition := drift[1] >= 0 && drift[0] <= 0 || (drift[1] >= drift[0] && drift[1] <= 0) || ddrift[1] >= 0 && ddrift[0] <= 0 || (ddrift[1] >= ddrift[0] && ddrift[1] <= 0) longCondition := drift[1] <= 0 && drift[0] >= 0 || (drift[1] <= drift[0] && drift[1] >= 0) || ddrift[1] <= 0 && ddrift[0] >= 0 || (ddrift[1] <= ddrift[0] && ddrift[1] >= 0) if shortCondition && longCondition { if s.priceLines.Index(1) > s.priceLines.Last() { longCondition = false } else { shortCondition = false } } exitCondition := !s.NoTrailingStopLoss && (s.CheckStopLoss() || s.trailingCheck(pricef, "short") || s.trailingCheck(pricef, "long")) if exitCondition || longCondition || shortCondition { var err error var hold int if hold, err = s.smartCancel(ctx, pricef, atr, counter); err != nil { log.WithError(err).Errorf("cannot cancel orders") } if hold > 0 { return } } else { if _, err := s.smartCancel(ctx, pricef, atr, counter); err != nil { log.WithError(err).Errorf("cannot cancel orders") } return } if exitCondition { _ = s.ClosePosition(ctx, fixedpoint.One) return } if longCondition { source = source.Sub(fixedpoint.NewFromFloat(s.stdevLow.Last() * s.HighLowVarianceMultiplier)) if source.Compare(price) > 0 { source = price } opt := s.OpenPositionOptions opt.Long = true opt.LimitOrder = true // force to use market taker if counter-s.maxCounterBuyCanceled <= s.PendingMinInterval && s.maxCounterBuyCanceled > s.maxCounterSellCanceled { opt.LimitOrder = false source = price } opt.Price = source opt.Tags = []string{"long"} submitOrder, err := s.FastOrderExecutor.NewOrderFromOpenPosition(ctx, &opt) if err != nil { errs := filterErrors(multierr.Errors(err)) if len(errs) > 0 { log.Errorf("%v", errs) log.WithError(err).Errorf("cannot place buy order") } return } if submitOrder == nil { return } log.Infof("source in long %v %v %f", source, price, s.stdevLow.Last()) o, err := s.SubmitOrder(ctx, *submitOrder) if err != nil { log.WithError(err).Errorf("cannot place buy order") return } log.Infof("order %v", o) if o != nil { if o.Status == types.OrderStatusNew || o.Status == types.OrderStatusPartiallyFilled { s.pendingLock.Lock() if _, ok := s.orderPendingCounter[o.OrderID]; !ok { s.orderPendingCounter[o.OrderID] = counter } s.pendingLock.Unlock() } } return } if shortCondition { source = source.Add(fixedpoint.NewFromFloat(s.stdevHigh.Last() * s.HighLowVarianceMultiplier)) if source.Compare(price) < 0 { source = price } log.Infof("source in short: %v %v %f", source, price, s.stdevLow.Last()) opt := s.OpenPositionOptions opt.Short = true opt.LimitOrder = true if counter-s.maxCounterSellCanceled <= s.PendingMinInterval && s.maxCounterSellCanceled > s.maxCounterBuyCanceled { opt.LimitOrder = false source = price } opt.Price = source opt.Tags = []string{"short"} submitOrder, err := s.FastOrderExecutor.NewOrderFromOpenPosition(ctx, &opt) if err != nil { errs := filterErrors(multierr.Errors(err)) if len(errs) > 0 { log.WithError(err).Errorf("cannot place sell order") } return } if submitOrder == nil { return } o, err := s.SubmitOrder(ctx, *submitOrder) if err != nil { log.WithError(err).Errorf("cannot place sell order") return } log.Infof("order %v", o) if o != nil { if o.Status == types.OrderStatusNew || o.Status == types.OrderStatusPartiallyFilled { s.pendingLock.Lock() if _, ok := s.orderPendingCounter[o.OrderID]; !ok { s.orderPendingCounter[o.OrderID] = counter } s.pendingLock.Unlock() } } return } } func (s *Strategy) Run(ctx context.Context, orderExecutor bbgo.OrderExecutor, session *bbgo.ExchangeSession) error { if s.Leverage == fixedpoint.Zero { s.Leverage = fixedpoint.One } instanceID := s.InstanceID() // Will be set by persistence if there's any from DB if s.Position == nil { s.Position = types.NewPositionFromMarket(s.Market) } if s.Session.MakerFeeRate.Sign() > 0 || s.Session.TakerFeeRate.Sign() > 0 { s.Position.SetExchangeFeeRate(s.Session.ExchangeName, types.ExchangeFee{ MakerFeeRate: s.Session.MakerFeeRate, TakerFeeRate: s.Session.TakerFeeRate, }) } if s.ProfitStats == nil { s.ProfitStats = types.NewProfitStats(s.Market) } if s.TradeStats == nil { s.TradeStats = types.NewTradeStats(s.Symbol) } // StrategyController s.Status = types.StrategyStatusRunning s.OnSuspend(func() { _ = s.FastOrderExecutor.GracefulCancel(ctx) }) s.OnEmergencyStop(func() { _ = s.FastOrderExecutor.GracefulCancel(ctx) _ = s.ClosePosition(ctx, fixedpoint.One) }) profitChart := floats.Slice{1., 1.} price, _ := s.Session.LastPrice(s.Symbol) initAsset := s.CalcAssetValue(price).Float64() cumProfit := floats.Slice{initAsset, initAsset} modify := func(p float64) float64 { return p } if s.GraphPNLDeductFee { modify = func(p float64) float64 { return p * (1. - Fee) } } s.FastOrderExecutor = bbgo.NewFastOrderExecutor(session, s.Symbol, ID, instanceID, s.Position) s.FastOrderExecutor.DisableNotify() orderStore := s.FastOrderExecutor.OrderStore() orderStore.AddOrderUpdate = true orderStore.RemoveCancelled = true orderStore.RemoveFilled = true activeOrders := s.FastOrderExecutor.ActiveMakerOrders() tradeCollector := s.FastOrderExecutor.TradeCollector() tradeStore := tradeCollector.TradeStore() syscounter := 0 // Modify activeOrders to force write order updates s.Session.UserDataStream.OnOrderUpdate(func(order types.Order) { hasSymbol := len(activeOrders.Symbol) > 0 if hasSymbol && order.Symbol != activeOrders.Symbol { return } switch order.Status { case types.OrderStatusFilled: s.pendingLock.Lock() s.orderPendingCounter = make(map[uint64]int) s.pendingLock.Unlock() // make sure we have the order and we remove it activeOrders.Remove(order) case types.OrderStatusPartiallyFilled: s.pendingLock.Lock() if _, ok := s.orderPendingCounter[order.OrderID]; !ok { s.orderPendingCounter[order.OrderID] = syscounter } s.pendingLock.Unlock() activeOrders.Add(order) case types.OrderStatusNew: s.pendingLock.Lock() if _, ok := s.orderPendingCounter[order.OrderID]; !ok { s.orderPendingCounter[order.OrderID] = syscounter } s.pendingLock.Unlock() activeOrders.Add(order) case types.OrderStatusCanceled, types.OrderStatusRejected: log.Debugf("[ActiveOrderBook] order status %s, removing order %s", order.Status, order) s.pendingLock.Lock() s.orderPendingCounter = make(map[uint64]int) s.pendingLock.Unlock() activeOrders.Remove(order) default: log.Errorf("unhandled order status: %s", order.Status) } orderStore.HandleOrderUpdate(order) }) s.Session.UserDataStream.OnTradeUpdate(func(trade types.Trade) { if trade.Symbol != s.Symbol { return } profit, netProfit, madeProfit := s.Position.AddTrade(trade) tradeStore.Add(trade) if madeProfit { p := s.Position.NewProfit(trade, profit, netProfit) s.Environment.RecordPosition(s.Position, trade, &p) s.TradeStats.Add(&p) s.ProfitStats.AddTrade(trade) s.ProfitStats.AddProfit(p) bbgo.Notify(&p) bbgo.Notify(s.ProfitStats) } price := trade.Price.Float64() if s.buyPrice > 0 { profitChart.Update(modify(price / s.buyPrice)) cumProfit.Update(s.CalcAssetValue(trade.Price).Float64()) } else if s.sellPrice > 0 { profitChart.Update(modify(s.sellPrice / price)) cumProfit.Update(s.CalcAssetValue(trade.Price).Float64()) } s.positionLock.Lock() if s.Position.IsDust(trade.Price) { s.buyPrice = 0 s.sellPrice = 0 s.highestPrice = 0 s.lowestPrice = 0 } else if s.Position.IsLong() { s.buyPrice = s.Position.ApproximateAverageCost.Float64() s.sellPrice = 0 s.highestPrice = math.Max(s.buyPrice, s.highestPrice) s.lowestPrice = s.buyPrice } else if s.Position.IsShort() { s.sellPrice = s.Position.ApproximateAverageCost.Float64() s.buyPrice = 0 s.highestPrice = s.sellPrice if s.lowestPrice == 0 { s.lowestPrice = s.sellPrice } else { s.lowestPrice = math.Min(s.lowestPrice, s.sellPrice) } } s.positionLock.Unlock() }) s.orderPendingCounter = make(map[uint64]int) // Exit methods from config for _, method := range s.ExitMethods { method.Bind(session, s.GeneralOrderExecutor) } s.frameKLine = &types.KLine{} s.klineMin = &types.KLine{} s.priceLines = types.NewQueue(300) s.elapsed = types.NewQueue(60000) s.initTickerFunctions(ctx) s.startTime = s.Environment.StartTime() s.TradeStats.SetIntervalProfitCollector(types.NewIntervalProfitCollector(types.Interval1d, s.startTime)) s.TradeStats.SetIntervalProfitCollector(types.NewIntervalProfitCollector(types.Interval1w, s.startTime)) s.InitDrawCommands(&profitChart, &cumProfit) bbgo.RegisterCommand("/config", "Show latest config", func(reply interact.Reply) { var buffer bytes.Buffer s.Print(&buffer, false) reply.Message(buffer.String()) }) bbgo.RegisterCommand("/dump", "Dump internal params", func(reply interact.Reply) { reply.Message("Please enter series output length:") }).Next(func(length string, reply interact.Reply) { var buffer bytes.Buffer l, err := strconv.Atoi(length) if err != nil { dynamic.ParamDump(s, &buffer) } else { dynamic.ParamDump(s, &buffer, l) } reply.Message(buffer.String()) }) bbgo.RegisterModifier(s) // event trigger order: s.Interval => s.MinInterval store, ok := session.SerialMarketDataStore(ctx, s.Symbol, []types.Interval{s.Interval, s.MinInterval}, !bbgo.IsBackTesting) if !ok { panic("cannot get " + s.MinInterval + " history") } if err := s.initIndicators(store); err != nil { log.WithError(err).Errorf("initIndicator failed") return nil } store.OnKLineClosed(func(kline types.KLine) { counter := int(kline.StartTime.Time().Add(kline.Interval.Duration()).Sub(s.startTime).Milliseconds()) / s.MinInterval.Milliseconds() syscounter = counter if kline.Interval == s.Interval { s.klineHandler(ctx, kline, counter) } else if kline.Interval == s.MinInterval { s.klineHandlerMin(ctx, kline, counter) } }) bbgo.OnShutdown(ctx, func(ctx context.Context, wg *sync.WaitGroup) { if !bbgo.IsBackTesting { bbgo.Sync(ctx, s) } var buffer bytes.Buffer s.Print(&buffer, true, true) fmt.Fprintln(&buffer, "--- NonProfitable Dates ---") for _, daypnl := range s.TradeStats.IntervalProfits[types.Interval1d].GetNonProfitableIntervals() { fmt.Fprintf(&buffer, "%s\n", daypnl) } fmt.Fprintln(&buffer, s.TradeStats.BriefString()) fmt.Fprintf(&buffer, "%v\n", s.orderPendingCounter) os.Stdout.Write(buffer.Bytes()) if s.GenerateGraph { s.Draw(s.frameKLine.StartTime, &profitChart, &cumProfit) } wg.Done() }) return nil }