package audacitymaker import ( "context" "github.com/c9s/bbgo/pkg/bbgo" "github.com/c9s/bbgo/pkg/datatype/floats" "github.com/c9s/bbgo/pkg/fixedpoint" "github.com/c9s/bbgo/pkg/types" "gonum.org/v1/gonum/stat" ) type PerTrade struct { Symbol string Market types.Market `json:"-"` types.IntervalWindow // MarketOrder is the option to enable market order short. MarketOrder bool `json:"marketOrder"` Quantity fixedpoint.Value `json:"quantity"` orderExecutor *bbgo.GeneralOrderExecutor session *bbgo.ExchangeSession activeOrders *bbgo.ActiveOrderBook StreamBook *types.StreamOrderBook midPrice fixedpoint.Value bbgo.QuantityOrAmount } func (s *PerTrade) Bind(session *bbgo.ExchangeSession, orderExecutor *bbgo.GeneralOrderExecutor) { s.session = session s.orderExecutor = orderExecutor position := orderExecutor.Position() symbol := position.Symbol // ger best bid/ask, not used yet s.StreamBook = types.NewStreamBook(symbol) s.StreamBook.BindStream(session.MarketDataStream) // use queue to do time-series rolling buyTradeSize := types.NewQueue(200) sellTradeSize := types.NewQueue(200) buyTradesNumber := types.NewQueue(200) sellTradesNumber := types.NewQueue(200) // [WIP] Order Aggressiveness refers to the percentage of orders that are submitted at market prices, as opposed to limit prices. // Order flow is the difference between buyer-initiated and seller-initiated trading volume or number of trades. var orderFlowSize floats.Slice var orderFlowNumber floats.Slice var orderFlowSizeMinMax floats.Slice var orderFlowNumberMinMax floats.Slice threshold := 3. session.MarketDataStream.OnMarketTrade(func(trade types.Trade) { //log.Infof("%s trade @ %f", trade.Side, trade.Price.Float64()) ctx := context.Background() if trade.Side == types.SideTypeBuy { // accumulating trading volume from buyer buyTradeSize.Update(trade.Quantity.Float64()) sellTradeSize.Update(0) // counting trades of number from seller buyTradesNumber.Update(1) sellTradesNumber.Update(0) } else if trade.Side == types.SideTypeSell { // accumulating trading volume from buyer buyTradeSize.Update(0) sellTradeSize.Update(trade.Quantity.Float64()) // counting trades of number from seller buyTradesNumber.Update(0) sellTradesNumber.Update(1) } //canceled := s.orderExecutor.GracefulCancel(ctx) //if canceled != nil { // _ = s.orderExecutor.GracefulCancel(ctx) //} sizeFraction := buyTradeSize.Sum() / sellTradeSize.Sum() numberFraction := buyTradesNumber.Sum() / sellTradesNumber.Sum() orderFlowSize.Push(sizeFraction) if orderFlowSize.Length() > 100 { // min-max scaling ofsMax := orderFlowSize.Tail(100).Max() ofsMin := orderFlowSize.Tail(100).Min() ofsMinMax := (orderFlowSize.Last(0) - ofsMin) / (ofsMax - ofsMin) // preserves temporal dependency via polar encoded angles orderFlowSizeMinMax.Push(ofsMinMax) } orderFlowNumber.Push(numberFraction) if orderFlowNumber.Length() > 100 { // min-max scaling ofnMax := orderFlowNumber.Tail(100).Max() ofnMin := orderFlowNumber.Tail(100).Min() ofnMinMax := (orderFlowNumber.Last(0) - ofnMin) / (ofnMax - ofnMin) // preserves temporal dependency via polar encoded angles orderFlowNumberMinMax.Push(ofnMinMax) } if orderFlowSizeMinMax.Length() > 100 && orderFlowNumberMinMax.Length() > 100 { bid, ask, _ := s.StreamBook.BestBidAndAsk() if outlier(orderFlowSizeMinMax.Tail(100), threshold) > 0 && outlier(orderFlowNumberMinMax.Tail(100), threshold) > 0 { _ = s.orderExecutor.GracefulCancel(ctx) log.Infof("long!!") //_ = s.placeTrade(ctx, types.SideTypeBuy, s.Quantity, symbol) _ = s.placeOrder(ctx, types.SideTypeBuy, s.Quantity, bid.Price, symbol) //_ = s.placeOrder(ctx, types.SideTypeSell, s.Quantity, ask.Price.Mul(fixedpoint.NewFromFloat(1.0005)), symbol) } else if outlier(orderFlowSizeMinMax.Tail(100), threshold) < 0 && outlier(orderFlowNumberMinMax.Tail(100), threshold) < 0 { _ = s.orderExecutor.GracefulCancel(ctx) log.Infof("short!!") //_ = s.placeTrade(ctx, types.SideTypeSell, s.Quantity, symbol) _ = s.placeOrder(ctx, types.SideTypeSell, s.Quantity, ask.Price, symbol) //_ = s.placeOrder(ctx, types.SideTypeBuy, s.Quantity, bid.Price.Mul(fixedpoint.NewFromFloat(0.9995)), symbol) } } }) session.MarketDataStream.OnKLineClosed(types.KLineWith(symbol, s.Interval, func(kline types.KLine) { log.Info(kline.NumberOfTrades) })) if !bbgo.IsBackTesting { session.MarketDataStream.OnMarketTrade(func(trade types.Trade) { }) } } func (s *PerTrade) placeOrder(ctx context.Context, side types.SideType, quantity fixedpoint.Value, price fixedpoint.Value, symbol string) error { market, _ := s.session.Market(symbol) _, err := s.orderExecutor.SubmitOrders(ctx, types.SubmitOrder{ Symbol: symbol, Market: market, Side: side, Type: types.OrderTypeLimitMaker, Quantity: quantity, Price: price, Tag: "audacity-limit", }) return err } func (s *PerTrade) placeTrade(ctx context.Context, side types.SideType, quantity fixedpoint.Value, symbol string) error { market, _ := s.session.Market(symbol) _, err := s.orderExecutor.SubmitOrders(ctx, types.SubmitOrder{ Symbol: symbol, Market: market, Side: side, Type: types.OrderTypeMarket, Quantity: quantity, Tag: "audacity-market", }) return err } func outlier(fs floats.Slice, multiplier float64) int { stddev := stat.StdDev(fs, nil) if fs.Last(0) > fs.Mean()+multiplier*stddev { return 1 } else if fs.Last(0) < fs.Mean()-multiplier*stddev { return -1 } return 0 }