package rsmaker import ( "context" "fmt" "math" "github.com/c9s/bbgo/pkg/indicator" "github.com/pkg/errors" "github.com/sirupsen/logrus" "github.com/muesli/clusters" "github.com/muesli/kmeans" "github.com/c9s/bbgo/pkg/bbgo" "github.com/c9s/bbgo/pkg/fixedpoint" "github.com/c9s/bbgo/pkg/types" ) const ID = "rsmaker" var notionModifier = fixedpoint.NewFromFloat(1.1) var log = logrus.WithField("strategy", ID) func init() { bbgo.RegisterStrategy(ID, &Strategy{}) } type Strategy struct { Environment *bbgo.Environment StandardIndicatorSet *bbgo.StandardIndicatorSet Market types.Market // Symbol is the market symbol you want to trade Symbol string `json:"symbol"` // Interval is how long do you want to update your order price and quantity Interval types.Interval `json:"interval"` bbgo.QuantityOrAmount // Spread is the price spread from the middle price. // For ask orders, the ask price is ((bestAsk + bestBid) / 2 * (1.0 + spread)) // For bid orders, the bid price is ((bestAsk + bestBid) / 2 * (1.0 - spread)) // Spread can be set by percentage or floating number. e.g., 0.1% or 0.001 Spread fixedpoint.Value `json:"spread"` // BidSpread overrides the spread setting, this spread will be used for the buy order BidSpread fixedpoint.Value `json:"bidSpread,omitempty"` // AskSpread overrides the spread setting, this spread will be used for the sell order AskSpread fixedpoint.Value `json:"askSpread,omitempty"` // MinProfitSpread is the minimal order price spread from the current average cost. // For long position, you will only place sell order above the price (= average cost * (1 + minProfitSpread)) // For short position, you will only place buy order below the price (= average cost * (1 - minProfitSpread)) MinProfitSpread fixedpoint.Value `json:"minProfitSpread"` // UseTickerPrice use the ticker api to get the mid price instead of the closed kline price. // The back-test engine is kline-based, so the ticker price api is not supported. // Turn this on if you want to do real trading. UseTickerPrice bool `json:"useTickerPrice"` // MaxExposurePosition is the maximum position you can hold // +10 means you can hold 10 ETH long position by maximum // -10 means you can hold -10 ETH short position by maximum MaxExposurePosition fixedpoint.Value `json:"maxExposurePosition"` // DynamicExposurePositionScale is used to define the exposure position range with the given percentage // when DynamicExposurePositionScale is set, // your MaxExposurePosition will be calculated dynamically according to the bollinger band you set. DynamicExposurePositionScale *bbgo.PercentageScale `json:"dynamicExposurePositionScale"` // Long means your position will be long position // Currently not used yet Long *bool `json:"long,omitempty"` // Short means your position will be long position // Currently not used yet Short *bool `json:"short,omitempty"` // DisableShort means you can don't want short position during the market making // Set to true if you want to hold more spot during market making. DisableShort bool `json:"disableShort"` // BuyBelowNeutralSMA if true, the market maker will only place buy order when the current price is below the neutral band SMA. BuyBelowNeutralSMA bool `json:"buyBelowNeutralSMA"` // NeutralBollinger is the smaller range of the bollinger band // If price is in this band, it usually means the price is oscillating. // If price goes out of this band, we tend to not place sell orders or buy orders NeutralBollinger *types.BollingerSetting `json:"neutralBollinger"` // DefaultBollinger is the wide range of the bollinger band // for controlling your exposure position DefaultBollinger *types.BollingerSetting `json:"defaultBollinger"` // DowntrendSkew is the order quantity skew for normal downtrend band. // The price is still in the default bollinger band. // greater than 1.0 means when placing buy order, place sell order with less quantity // less than 1.0 means when placing sell order, place buy order with less quantity DowntrendSkew fixedpoint.Value `json:"downtrendSkew"` // UptrendSkew is the order quantity skew for normal uptrend band. // The price is still in the default bollinger band. // greater than 1.0 means when placing buy order, place sell order with less quantity // less than 1.0 means when placing sell order, place buy order with less quantity UptrendSkew fixedpoint.Value `json:"uptrendSkew"` // TradeInBand // When this is on, places orders only when the current price is in the bollinger band. TradeInBand bool `json:"tradeInBand"` // ShadowProtection is used to avoid placing bid order when price goes down strongly (without shadow) ShadowProtection bool `json:"shadowProtection"` ShadowProtectionRatio fixedpoint.Value `json:"shadowProtectionRatio"` Position *types.Position `persistence:"position"` ProfitStats *types.ProfitStats `persistence:"profit_stats"` TradeStats *types.TradeStats `persistence:"trade_stats"` session *bbgo.ExchangeSession orderExecutor *bbgo.GeneralOrderExecutor book *types.StreamOrderBook groupID uint32 // defaultBoll is the BOLLINGER indicator we used for predicting the price. defaultBoll *indicator.BOLL // neutralBoll is the neutral price section neutralBoll *indicator.BOLL // StrategyController status types.StrategyStatus } func (s *Strategy) ID() string { return ID } func (s *Strategy) Subscribe(session *bbgo.ExchangeSession) { session.Subscribe(types.KLineChannel, s.Symbol, types.SubscribeOptions{ Interval: s.Interval, }) } func (s *Strategy) Validate() error { if len(s.Symbol) == 0 { return errors.New("symbol is required") } return nil } func (s *Strategy) CurrentPosition() *types.Position { return s.Position } func (s *Strategy) ClosePosition(ctx context.Context, percentage fixedpoint.Value) error { return s.orderExecutor.ClosePosition(ctx, percentage) } // StrategyController func (s *Strategy) GetStatus() types.StrategyStatus { return s.status } func (s *Strategy) Suspend(ctx context.Context) error { s.status = types.StrategyStatusStopped if err := s.orderExecutor.GracefulCancel(ctx); err != nil { log.WithError(err).Errorf("graceful cancel order error") } bbgo.Sync(ctx, s) return nil } func (s *Strategy) Resume(ctx context.Context) error { s.status = types.StrategyStatusRunning return nil } func (s *Strategy) getCurrentAllowedExposurePosition(bandPercentage float64) (fixedpoint.Value, error) { if s.DynamicExposurePositionScale != nil { v, err := s.DynamicExposurePositionScale.Scale(bandPercentage) if err != nil { return fixedpoint.Zero, err } return fixedpoint.NewFromFloat(v), nil } return s.MaxExposurePosition, nil } func (s *Strategy) placeOrders(ctx context.Context, midPrice fixedpoint.Value, klines []*types.KLine) { // preprocessing max := 0. min := 100000. mv := 0. for x := 0; x < 50; x++ { if klines[x].High.Float64() > max { max = klines[x].High.Float64() } if klines[x].Low.Float64() < min { min = klines[x].High.Float64() } mv += klines[x].Volume.Float64() } mv = mv / 50 // logrus.Info(max, min) // set up a random two-dimensional data set (float64 values between 0.0 and 1.0) var d clusters.Observations for x := 0; x < 50; x++ { // if klines[x].High.Float64() < max || klines[x].Low.Float64() > min { if klines[x].Volume.Float64() > mv*0.3 { d = append(d, clusters.Coordinates{ klines[x].High.Float64(), klines[x].Low.Float64(), // klines[x].Open.Float64(), // klines[x].Close.Float64(), // klines[x].Volume.Float64(), }) } // } } log.Info(len(d)) // Partition the data points into 2 clusters km := kmeans.New() clusters, err := km.Partition(d, 3) // for _, c := range clusters { // fmt.Printf("Centered at x: %.2f y: %.2f\n", c.Center[0], c.Center[1]) // fmt.Printf("Matching data points: %+v\n\n", c.Observations) // } // clustered virtual kline_1's mid price // vk1mp := fixedpoint.NewFromFloat((clusters[0].Center[0] + clusters[0].Center[1]) / 2.) // clustered virtual kline_2's mid price // vk2mp := fixedpoint.NewFromFloat((clusters[1].Center[0] + clusters[1].Center[1]) / 2.) // clustered virtual kline_3's mid price // vk3mp := fixedpoint.NewFromFloat((clusters[2].Center[0] + clusters[2].Center[1]) / 2.) // clustered virtual kline_1's high price vk1hp := fixedpoint.NewFromFloat(clusters[0].Center[0]) // clustered virtual kline_2's high price vk2hp := fixedpoint.NewFromFloat(clusters[1].Center[0]) // clustered virtual kline_3's high price vk3hp := fixedpoint.NewFromFloat(clusters[2].Center[0]) // clustered virtual kline_1's low price vk1lp := fixedpoint.NewFromFloat(clusters[0].Center[1]) // clustered virtual kline_2's low price vk2lp := fixedpoint.NewFromFloat(clusters[1].Center[1]) // clustered virtual kline_3's low price vk3lp := fixedpoint.NewFromFloat(clusters[2].Center[1]) askPrice := fixedpoint.NewFromFloat(math.Max(math.Max(vk1hp.Float64(), vk2hp.Float64()), vk3hp.Float64())) // fixedpoint.NewFromFloat(math.Max(math.Max(vk1mp.Float64(), vk2mp.Float64()), vk3mp.Float64())) bidPrice := fixedpoint.NewFromFloat(math.Min(math.Min(vk1lp.Float64(), vk2lp.Float64()), vk3lp.Float64())) // fixedpoint.NewFromFloat(math.Min(math.Min(vk1mp.Float64(), vk2mp.Float64()), vk3mp.Float64())) // if vk1mp.Compare(vk2mp) > 0 { // askPrice = vk1mp //.Mul(fixedpoint.NewFromFloat(1.001)) // bidPrice = vk2mp //.Mul(fixedpoint.NewFromFloat(0.999)) // } else if vk1mp.Compare(vk2mp) < 0 { // askPrice = vk2mp //.Mul(fixedpoint.NewFromFloat(1.001)) // bidPrice = vk1mp //.Mul(fixedpoint.NewFromFloat(0.999)) // } // midPrice.Mul(fixedpoint.One.Add(askSpread)) // midPrice.Mul(fixedpoint.One.Sub(bidSpread)) base := s.Position.GetBase() // balances := s.session.GetAccount().Balances() canSell := true canBuy := true // predMidPrice := (askPrice + bidPrice) / 2. // if midPrice.Float64() > predMidPrice.Float64() { // bidPrice = predMidPrice.Mul(fixedpoint.NewFromFloat(0.999)) // } // // if midPrice.Float64() < predMidPrice.Float64() { // askPrice = predMidPrice.Mul(fixedpoint.NewFromFloat(1.001)) // } // // if midPrice.Float64() > askPrice.Float64() { // canBuy = false // askPrice = midPrice.Mul(fixedpoint.NewFromFloat(1.001)) // } // // if midPrice.Float64() < bidPrice.Float64() { // canSell = false // bidPrice = midPrice.Mul(fixedpoint.NewFromFloat(0.999)) // } sellQuantity := s.QuantityOrAmount.CalculateQuantity(askPrice) buyQuantity := s.QuantityOrAmount.CalculateQuantity(bidPrice) sellOrder := types.SubmitOrder{ Symbol: s.Symbol, Side: types.SideTypeSell, Type: types.OrderTypeLimitMaker, Quantity: sellQuantity, Price: askPrice, Market: s.Market, GroupID: s.groupID, } buyOrder := types.SubmitOrder{ Symbol: s.Symbol, Side: types.SideTypeBuy, Type: types.OrderTypeLimitMaker, Quantity: buyQuantity, Price: bidPrice, Market: s.Market, GroupID: s.groupID, } var submitBuyOrders []types.SubmitOrder var submitSellOrders []types.SubmitOrder // baseBalance, hasBaseBalance := balances[s.Market.BaseCurrency] // quoteBalance, hasQuoteBalance := balances[s.Market.QuoteCurrency] downBand := s.defaultBoll.DownBand.Last(0) upBand := s.defaultBoll.UpBand.Last(0) sma := s.defaultBoll.SMA.Last(0) log.Infof("bollinger band: up %f sma %f down %f", upBand, sma, downBand) bandPercentage := calculateBandPercentage(upBand, downBand, sma, midPrice.Float64()) log.Infof("mid price band percentage: %v", bandPercentage) maxExposurePosition, err := s.getCurrentAllowedExposurePosition(bandPercentage) if err != nil { log.WithError(err).Errorf("can not calculate CurrentAllowedExposurePosition") return } log.Infof("calculated max exposure position: %v", maxExposurePosition) if maxExposurePosition.Sign() > 0 && base.Compare(maxExposurePosition) > 0 { canBuy = false } if maxExposurePosition.Sign() > 0 { if s.Long != nil && *s.Long && base.Sign() < 0 { canSell = false } else if base.Compare(maxExposurePosition.Neg()) < 0 { canSell = false } } if canSell { submitSellOrders = append(submitSellOrders, sellOrder) } if canBuy { submitBuyOrders = append(submitBuyOrders, buyOrder) } for i := range submitBuyOrders { submitBuyOrders[i] = s.adjustOrderQuantity(submitBuyOrders[i]) } for i := range submitSellOrders { submitSellOrders[i] = s.adjustOrderQuantity(submitSellOrders[i]) } if _, err := s.orderExecutor.SubmitOrders(ctx, submitBuyOrders...); err != nil { log.WithError(err).Errorf("can not place orders") } if _, err := s.orderExecutor.SubmitOrders(ctx, submitSellOrders...); err != nil { log.WithError(err).Errorf("can not place orders") } } func (s *Strategy) adjustOrderQuantity(submitOrder types.SubmitOrder) types.SubmitOrder { if submitOrder.Quantity.Mul(submitOrder.Price).Compare(s.Market.MinNotional) < 0 { submitOrder.Quantity = bbgo.AdjustFloatQuantityByMinAmount(submitOrder.Quantity, submitOrder.Price, s.Market.MinNotional.Mul(notionModifier)) } if submitOrder.Quantity.Compare(s.Market.MinQuantity) < 0 { submitOrder.Quantity = fixedpoint.Max(submitOrder.Quantity, s.Market.MinQuantity) } return submitOrder } func (s *Strategy) Run(ctx context.Context, _ bbgo.OrderExecutor, session *bbgo.ExchangeSession) error { instanceID := fmt.Sprintf("%s-%s", ID, s.Symbol) s.status = types.StrategyStatusRunning if s.Position == nil { s.Position = types.NewPositionFromMarket(s.Market) } if s.ProfitStats == nil { s.ProfitStats = types.NewProfitStats(s.Market) } if s.TradeStats == nil { s.TradeStats = types.NewTradeStats(s.Symbol) } // initial required information s.session = session s.orderExecutor = bbgo.NewGeneralOrderExecutor(session, s.Symbol, ID, instanceID, s.Position) s.orderExecutor.BindEnvironment(s.Environment) s.orderExecutor.BindProfitStats(s.ProfitStats) s.orderExecutor.BindTradeStats(s.TradeStats) s.orderExecutor.TradeCollector().OnPositionUpdate(func(position *types.Position) { bbgo.Sync(ctx, s) }) s.orderExecutor.Bind() s.neutralBoll = s.StandardIndicatorSet.BOLL(s.NeutralBollinger.IntervalWindow, s.NeutralBollinger.BandWidth) s.defaultBoll = s.StandardIndicatorSet.BOLL(s.DefaultBollinger.IntervalWindow, s.DefaultBollinger.BandWidth) var klines []*types.KLine session.MarketDataStream.OnKLineClosed(func(kline types.KLine) { // StrategyController if s.status != types.StrategyStatusRunning { return } // if kline.Symbol != s.Symbol || kline.Interval != s.Interval { // return // } if kline.Interval == s.Interval { klines = append(klines, &kline) } if len(klines) > 50 { if kline.Interval == s.Interval { if err := s.orderExecutor.GracefulCancel(ctx); err != nil { log.WithError(err).Errorf("graceful cancel order error") } s.placeOrders(ctx, kline.Close, klines[len(klines)-50:]) } } }) return nil } func calculateBandPercentage(up, down, sma, midPrice float64) float64 { if midPrice < sma { // should be negative percentage return (midPrice - sma) / math.Abs(sma-down) } else if midPrice > sma { // should be positive percentage return (midPrice - sma) / math.Abs(up-sma) } return 0.0 } func inBetween(x, a, b float64) bool { return a < x && x < b }