package indicator import ( "time" "git.qtrade.icu/lychiyu/bbgo/pkg/datatype/floats" "git.qtrade.icu/lychiyu/bbgo/pkg/types" ) // vwma implements the volume weighted moving average (VWMA) indicator: // // Calculation: // pv = element-wise multiplication of close prices and volumes // VWMA = SMA(pv, window) / SMA(volumes, window) // // Volume Weighted Moving Average // - https://www.motivewave.com/studies/volume_weighted_moving_average.htm // // The Volume Weighted Moving Average (VWMA) is a technical analysis indicator that is used to smooth price data and reduce the lag // associated with traditional moving averages. It is calculated by taking the weighted moving average of the input data, with the // weighting factors determined by the volume of the security. This resulting average is then plotted on the price chart as a line, // which can be used to make predictions about future price movements. The VWMA is typically more accurate than other simple moving // averages, as it takes into account the volume of the security, but may be less reliable in markets with low trading volume. //go:generate callbackgen -type VWMA type VWMA struct { types.SeriesBase types.IntervalWindow Values floats.Slice PriceVolumeSMA *SMA VolumeSMA *SMA EndTime time.Time updateCallbacks []func(value float64) } func (inc *VWMA) Last(i int) float64 { return inc.Values.Last(i) } func (inc *VWMA) Index(i int) float64 { return inc.Last(i) } func (inc *VWMA) Length() int { return len(inc.Values) } var _ types.SeriesExtend = &VWMA{} func (inc *VWMA) Update(price, volume float64) { if inc.PriceVolumeSMA == nil { inc.PriceVolumeSMA = &SMA{IntervalWindow: inc.IntervalWindow} inc.SeriesBase.Series = inc } if inc.VolumeSMA == nil { inc.VolumeSMA = &SMA{IntervalWindow: inc.IntervalWindow} } inc.PriceVolumeSMA.Update(price * volume) inc.VolumeSMA.Update(volume) pv := inc.PriceVolumeSMA.Last(0) v := inc.VolumeSMA.Last(0) vwma := pv / v inc.Values.Push(vwma) } func (inc *VWMA) PushK(k types.KLine) { if inc.EndTime != zeroTime && k.EndTime.Before(inc.EndTime) { return } inc.Update(k.Close.Float64(), k.Volume.Float64()) } func (inc *VWMA) CalculateAndUpdate(allKLines []types.KLine) { if len(allKLines) < inc.Window { return } var last = allKLines[len(allKLines)-1] if inc.VolumeSMA == nil { for _, k := range allKLines { if inc.EndTime != zeroTime && k.EndTime.Before(inc.EndTime) { return } inc.Update(k.Close.Float64(), k.Volume.Float64()) } } else { inc.Update(last.Close.Float64(), last.Volume.Float64()) } inc.EndTime = last.EndTime.Time() inc.EmitUpdate(inc.Values.Last(0)) } func (inc *VWMA) handleKLineWindowUpdate(interval types.Interval, window types.KLineWindow) { if inc.Interval != interval { return } inc.CalculateAndUpdate(window) } func (inc *VWMA) Bind(updater KLineWindowUpdater) { updater.OnKLineWindowUpdate(inc.handleKLineWindowUpdate) }