package drift import ( "bytes" "fmt" "os" "github.com/wcharczuk/go-chart/v2" "github.com/c9s/bbgo/pkg/bbgo" "github.com/c9s/bbgo/pkg/interact" "github.com/c9s/bbgo/pkg/types" ) func (s *Strategy) InitDrawCommands(profit, cumProfit types.Series) { bbgo.RegisterCommand("/draw", "Draw Indicators", func(reply interact.Reply) { go func() { canvas := s.DrawIndicators(s.frameKLine.StartTime) var buffer bytes.Buffer if err := canvas.Render(chart.PNG, &buffer); err != nil { log.WithError(err).Errorf("cannot render indicators in drift") return } bbgo.SendPhoto(&buffer) }() }) bbgo.RegisterCommand("/pnl", "Draw PNL(%) per trade", func(reply interact.Reply) { go func() { canvas := s.DrawPNL(profit) var buffer bytes.Buffer if err := canvas.Render(chart.PNG, &buffer); err != nil { log.WithError(err).Errorf("cannot render pnl in drift") return } bbgo.SendPhoto(&buffer) }() }) bbgo.RegisterCommand("/cumpnl", "Draw Cummulative PNL(Quote)", func(reply interact.Reply) { go func() { canvas := s.DrawCumPNL(cumProfit) var buffer bytes.Buffer if err := canvas.Render(chart.PNG, &buffer); err != nil { log.WithError(err).Errorf("cannot render cumpnl in drift") return } bbgo.SendPhoto(&buffer) }() }) bbgo.RegisterCommand("/elapsed", "Draw Elapsed time for handlers for each kline close event", func(reply interact.Reply) { go func() { canvas := s.DrawElapsed() var buffer bytes.Buffer if err := canvas.Render(chart.PNG, &buffer); err != nil { log.WithError(err).Errorf("cannot render elapsed in drift") return } bbgo.SendPhoto(&buffer) }() }) } func (s *Strategy) DrawIndicators(time types.Time) *types.Canvas { canvas := types.NewCanvas(s.InstanceID(), s.Interval) length := s.priceLines.Length() if length > 300 { length = 300 } log.Infof("draw indicators with %d data", length) mean := s.priceLines.Mean(length) highestPrice := s.priceLines.Minus(mean).Abs().Highest(length) highestDrift := s.drift.Abs().Highest(length) hi := s.drift.drift.Abs().Highest(length) ratio := highestPrice / highestDrift // canvas.Plot("upband", s.ma.Add(s.stdevHigh), time, length) canvas.Plot("ma", s.ma, time, length) // canvas.Plot("downband", s.ma.Sub(s.stdevLow), time, length) fmt.Printf("%f %f\n", highestPrice, hi) canvas.Plot("trend", s.trendLine, time, length) canvas.Plot("drift", s.drift.Mul(ratio).Add(mean), time, length) canvas.Plot("driftOrig", s.drift.drift.Mul(highestPrice/hi).Add(mean), time, length) canvas.Plot("zero", types.NumberSeries(mean), time, length) canvas.Plot("price", s.priceLines, time, length) return canvas } func (s *Strategy) DrawPNL(profit types.Series) *types.Canvas { canvas := types.NewCanvas(s.InstanceID()) log.Errorf("pnl Highest: %f, Lowest: %f", types.Highest(profit, profit.Length()), types.Lowest(profit, profit.Length())) length := profit.Length() if s.GraphPNLDeductFee { canvas.PlotRaw("pnl % (with Fee Deducted)", profit, length) } else { canvas.PlotRaw("pnl %", profit, length) } canvas.YAxis = chart.YAxis{ ValueFormatter: func(v interface{}) string { if vf, isFloat := v.(float64); isFloat { return fmt.Sprintf("%.4f", vf) } return "" }, } canvas.PlotRaw("1", types.NumberSeries(1), length) return canvas } func (s *Strategy) DrawCumPNL(cumProfit types.Series) *types.Canvas { canvas := types.NewCanvas(s.InstanceID()) canvas.PlotRaw("cummulative pnl", cumProfit, cumProfit.Length()) canvas.YAxis = chart.YAxis{ ValueFormatter: func(v interface{}) string { if vf, isFloat := v.(float64); isFloat { return fmt.Sprintf("%.4f", vf) } return "" }, } return canvas } func (s *Strategy) DrawElapsed() *types.Canvas { canvas := types.NewCanvas(s.InstanceID()) canvas.PlotRaw("elapsed time(ms)", s.elapsed, s.elapsed.Length()) return canvas } func (s *Strategy) Draw(time types.Time, profit types.Series, cumProfit types.Series) { canvas := s.DrawIndicators(time) f, err := os.Create(s.CanvasPath) if err != nil { log.WithError(err).Errorf("cannot create on %s", s.CanvasPath) return } if err := canvas.Render(chart.PNG, f); err != nil { log.WithError(err).Errorf("cannot render in drift") } f.Close() canvas = s.DrawPNL(profit) f, err = os.Create(s.GraphPNLPath) if err != nil { log.WithError(err).Errorf("open pnl") return } if err := canvas.Render(chart.PNG, f); err != nil { log.WithError(err).Errorf("render pnl") } f.Close() canvas = s.DrawCumPNL(cumProfit) f, err = os.Create(s.GraphCumPNLPath) if err != nil { log.WithError(err).Errorf("open cumpnl") return } if err := canvas.Render(chart.PNG, f); err != nil { log.WithError(err).Errorf("render cumpnl") } f.Close() canvas = s.DrawElapsed() f, err = os.Create(s.GraphElapsedPath) if err != nil { log.WithError(err).Errorf("open elapsed") return } if err := canvas.Render(chart.PNG, f); err != nil { log.WithError(err).Errorf("render elapsed") } f.Close() }