mirror of
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183 lines
6.2 KiB
Go
183 lines
6.2 KiB
Go
package bbgo
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import (
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"github.com/sirupsen/logrus"
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"github.com/c9s/bbgo/pkg/indicator"
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"github.com/c9s/bbgo/pkg/types"
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"github.com/c9s/bbgo/pkg/util"
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)
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var (
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debugBOLL = false
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)
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func init() {
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// when using --dotenv option, the dotenv is loaded from command.PersistentPreRunE, not init.
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// hence here the env var won't enable the debug flag
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util.SetEnvVarBool("DEBUG_BOLL", &debugBOLL)
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}
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type MACDConfig struct {
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types.IntervalWindow
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}
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type StandardIndicatorSet struct {
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Symbol string
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// Standard indicators
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// interval -> window
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iwbIndicators map[types.IntervalWindowBandWidth]*indicator.BOLL
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iwIndicators map[indicatorKey]indicator.KLinePusher
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macdIndicators map[indicator.MACDConfig]*indicator.MACD
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stream types.Stream
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store *MarketDataStore
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}
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type indicatorKey struct {
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iw types.IntervalWindow
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id string
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}
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func NewStandardIndicatorSet(symbol string, stream types.Stream, store *MarketDataStore) *StandardIndicatorSet {
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return &StandardIndicatorSet{
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Symbol: symbol,
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store: store,
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stream: stream,
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iwIndicators: make(map[indicatorKey]indicator.KLinePusher),
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iwbIndicators: make(map[types.IntervalWindowBandWidth]*indicator.BOLL),
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macdIndicators: make(map[indicator.MACDConfig]*indicator.MACD),
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}
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}
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func (s *StandardIndicatorSet) initAndBind(inc indicator.KLinePusher, interval types.Interval) {
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if klines, ok := s.store.KLinesOfInterval(interval); ok {
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for _, k := range *klines {
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inc.PushK(k)
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}
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}
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s.stream.OnKLineClosed(types.KLineWith(s.Symbol, interval, inc.PushK))
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}
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func (s *StandardIndicatorSet) allocateSimpleIndicator(t indicator.KLinePusher, iw types.IntervalWindow, id string) indicator.KLinePusher {
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k := indicatorKey{
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iw: iw,
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id: id,
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}
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inc, ok := s.iwIndicators[k]
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if ok {
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return inc
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}
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inc = t
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s.initAndBind(inc, iw.Interval)
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s.iwIndicators[k] = inc
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return t
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}
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// SMA is a helper function that returns the simple moving average indicator of the given interval and the window size.
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func (s *StandardIndicatorSet) SMA(iw types.IntervalWindow) *indicator.SMA {
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inc := s.allocateSimpleIndicator(&indicator.SMA{IntervalWindow: iw}, iw, "sma")
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return inc.(*indicator.SMA)
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}
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// EWMA is a helper function that returns the exponential weighed moving average indicator of the given interval and the window size.
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func (s *StandardIndicatorSet) EWMA(iw types.IntervalWindow) *indicator.EWMA {
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inc := s.allocateSimpleIndicator(&indicator.EWMA{IntervalWindow: iw}, iw, "ewma")
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return inc.(*indicator.EWMA)
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}
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// VWMA
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func (s *StandardIndicatorSet) VWMA(iw types.IntervalWindow) *indicator.VWMA {
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inc := s.allocateSimpleIndicator(&indicator.VWMA{IntervalWindow: iw}, iw, "vwma")
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return inc.(*indicator.VWMA)
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}
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func (s *StandardIndicatorSet) PivotHigh(iw types.IntervalWindow) *indicator.PivotHigh {
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inc := s.allocateSimpleIndicator(&indicator.PivotHigh{IntervalWindow: iw}, iw, "pivothigh")
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return inc.(*indicator.PivotHigh)
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}
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func (s *StandardIndicatorSet) PivotLow(iw types.IntervalWindow) *indicator.PivotLow {
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inc := s.allocateSimpleIndicator(&indicator.PivotLow{IntervalWindow: iw}, iw, "pivotlow")
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return inc.(*indicator.PivotLow)
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}
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func (s *StandardIndicatorSet) ATR(iw types.IntervalWindow) *indicator.ATR {
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inc := s.allocateSimpleIndicator(&indicator.ATR{IntervalWindow: iw}, iw, "atr")
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return inc.(*indicator.ATR)
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}
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func (s *StandardIndicatorSet) ATRP(iw types.IntervalWindow) *indicator.ATRP {
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inc := s.allocateSimpleIndicator(&indicator.ATRP{IntervalWindow: iw}, iw, "atrp")
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return inc.(*indicator.ATRP)
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}
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func (s *StandardIndicatorSet) EMV(iw types.IntervalWindow) *indicator.EMV {
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inc := s.allocateSimpleIndicator(&indicator.EMV{IntervalWindow: iw}, iw, "emv")
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return inc.(*indicator.EMV)
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}
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func (s *StandardIndicatorSet) CCI(iw types.IntervalWindow) *indicator.CCI {
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inc := s.allocateSimpleIndicator(&indicator.CCI{IntervalWindow: iw}, iw, "cci")
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return inc.(*indicator.CCI)
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}
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func (s *StandardIndicatorSet) HULL(iw types.IntervalWindow) *indicator.HULL {
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inc := s.allocateSimpleIndicator(&indicator.HULL{IntervalWindow: iw}, iw, "hull")
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return inc.(*indicator.HULL)
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}
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func (s *StandardIndicatorSet) STOCH(iw types.IntervalWindow) *indicator.STOCH {
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inc := s.allocateSimpleIndicator(&indicator.STOCH{IntervalWindow: iw}, iw, "stoch")
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return inc.(*indicator.STOCH)
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}
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// BOLL returns the bollinger band indicator of the given interval, the window and bandwidth
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func (s *StandardIndicatorSet) BOLL(iw types.IntervalWindow, bandWidth float64) *indicator.BOLL {
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iwb := types.IntervalWindowBandWidth{IntervalWindow: iw, BandWidth: bandWidth}
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inc, ok := s.iwbIndicators[iwb]
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if !ok {
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inc = &indicator.BOLL{IntervalWindow: iw, K: bandWidth}
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s.initAndBind(inc, iw.Interval)
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inc.SMA = &indicator.SMA{IntervalWindow: iw}
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if debugBOLL {
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inc.OnUpdate(func(sma float64, upBand float64, downBand float64) {
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logrus.Infof("%s BOLL %s: sma=%f up=%f down=%f", s.Symbol, iw.String(), sma, upBand, downBand)
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})
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}
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s.iwbIndicators[iwb] = inc
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}
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return inc
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}
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func (s *StandardIndicatorSet) MACD(iw types.IntervalWindow, shortPeriod, longPeriod int) *indicator.MACD {
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config := indicator.MACDConfig{IntervalWindow: iw, ShortPeriod: shortPeriod, LongPeriod: longPeriod}
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inc, ok := s.macdIndicators[config]
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if ok {
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return inc
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}
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inc = &indicator.MACD{MACDConfig: config}
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s.macdIndicators[config] = inc
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s.initAndBind(inc, config.IntervalWindow.Interval)
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return inc
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}
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// GHFilter is a helper function that returns the G-H (alpha beta) digital filter of the given interval and the window size.
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func (s *StandardIndicatorSet) GHFilter(iw types.IntervalWindow) *indicator.GHFilter {
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inc := s.allocateSimpleIndicator(&indicator.GHFilter{IntervalWindow: iw}, iw, "ghfilter")
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return inc.(*indicator.GHFilter)
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}
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// KalmanFilter is a helper function that returns the Kalman digital filter of the given interval and the window size.
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// Note that the additional smooth window is set to zero in standard indicator set. Users have to create their own instance and push K-lines if a smoother filter is needed.
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func (s *StandardIndicatorSet) KalmanFilter(iw types.IntervalWindow) *indicator.KalmanFilter {
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inc := s.allocateSimpleIndicator(&indicator.KalmanFilter{IntervalWindow: iw, AdditionalSmoothWindow: 0}, iw, "kalmanfilter")
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return inc.(*indicator.KalmanFilter)
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}
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