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490 lines
15 KiB
Go
490 lines
15 KiB
Go
package harmonic
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import (
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"context"
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"fmt"
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"os"
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"sync"
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"github.com/sirupsen/logrus"
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"github.com/c9s/bbgo/pkg/bbgo"
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"github.com/c9s/bbgo/pkg/data/tsv"
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"github.com/c9s/bbgo/pkg/datatype/floats"
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"github.com/c9s/bbgo/pkg/fixedpoint"
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"github.com/c9s/bbgo/pkg/indicator"
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"github.com/c9s/bbgo/pkg/pricesolver"
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"github.com/c9s/bbgo/pkg/types"
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)
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const ID = "harmonic"
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var log = logrus.WithField("strategy", ID)
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func init() {
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bbgo.RegisterStrategy(ID, &Strategy{})
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}
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type Strategy struct {
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Environment *bbgo.Environment
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Symbol string `json:"symbol"`
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Market types.Market
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types.IntervalWindow
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// bbgo.OpenPositionOptions
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// persistence fields
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Position *types.Position `persistence:"position"`
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ProfitStats *types.ProfitStats `persistence:"profit_stats"`
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TradeStats *types.TradeStats `persistence:"trade_stats"`
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ExitMethods bbgo.ExitMethodSet `json:"exits"`
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session *bbgo.ExchangeSession
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orderExecutor *bbgo.GeneralOrderExecutor
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bbgo.QuantityOrAmount
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// StrategyController
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bbgo.StrategyController
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shark *SHARK
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AccountValueCalculator *bbgo.AccountValueCalculator
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// whether to draw graph or not by the end of backtest
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DrawGraph bool `json:"drawGraph"`
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GraphPNLPath string `json:"graphPNLPath"`
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GraphCumPNLPath string `json:"graphCumPNLPath"`
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// for position
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buyPrice float64 `persistence:"buy_price"`
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sellPrice float64 `persistence:"sell_price"`
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highestPrice float64 `persistence:"highest_price"`
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lowestPrice float64 `persistence:"lowest_price"`
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// Accumulated profit report
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AccumulatedProfitReport *AccumulatedProfitReport `json:"accumulatedProfitReport"`
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}
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// AccumulatedProfitReport For accumulated profit report output
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type AccumulatedProfitReport struct {
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// AccumulatedProfitMAWindow Accumulated profit SMA window, in number of trades
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AccumulatedProfitMAWindow int `json:"accumulatedProfitMAWindow"`
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// IntervalWindow interval window, in days
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IntervalWindow int `json:"intervalWindow"`
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// NumberOfInterval How many intervals to output to TSV
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NumberOfInterval int `json:"NumberOfInterval"`
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// TsvReportPath The path to output report to
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TsvReportPath string `json:"tsvReportPath"`
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// AccumulatedDailyProfitWindow The window to sum up the daily profit, in days
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AccumulatedDailyProfitWindow int `json:"accumulatedDailyProfitWindow"`
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// Accumulated profit
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accumulatedProfit fixedpoint.Value
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accumulatedProfitPerDay floats.Slice
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previousAccumulatedProfit fixedpoint.Value
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// Accumulated profit MA
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accumulatedProfitMA *indicator.SMA
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accumulatedProfitMAPerDay floats.Slice
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// Daily profit
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dailyProfit floats.Slice
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// Accumulated fee
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accumulatedFee fixedpoint.Value
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accumulatedFeePerDay floats.Slice
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// Win ratio
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winRatioPerDay floats.Slice
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// Profit factor
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profitFactorPerDay floats.Slice
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// Trade number
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dailyTrades floats.Slice
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accumulatedTrades int
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previousAccumulatedTrades int
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}
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func (r *AccumulatedProfitReport) Initialize() {
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if r.AccumulatedProfitMAWindow <= 0 {
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r.AccumulatedProfitMAWindow = 60
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}
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if r.IntervalWindow <= 0 {
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r.IntervalWindow = 7
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}
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if r.AccumulatedDailyProfitWindow <= 0 {
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r.AccumulatedDailyProfitWindow = 7
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}
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if r.NumberOfInterval <= 0 {
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r.NumberOfInterval = 1
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}
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r.accumulatedProfitMA = &indicator.SMA{IntervalWindow: types.IntervalWindow{Interval: types.Interval1d, Window: r.AccumulatedProfitMAWindow}}
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}
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func (r *AccumulatedProfitReport) RecordProfit(profit fixedpoint.Value) {
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r.accumulatedProfit = r.accumulatedProfit.Add(profit)
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}
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func (r *AccumulatedProfitReport) RecordTrade(fee fixedpoint.Value) {
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r.accumulatedFee = r.accumulatedFee.Add(fee)
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r.accumulatedTrades += 1
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}
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func (r *AccumulatedProfitReport) DailyUpdate(tradeStats *types.TradeStats) {
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// Daily profit
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r.dailyProfit.Update(r.accumulatedProfit.Sub(r.previousAccumulatedProfit).Float64())
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r.previousAccumulatedProfit = r.accumulatedProfit
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// Accumulated profit
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r.accumulatedProfitPerDay.Update(r.accumulatedProfit.Float64())
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// Accumulated profit MA
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r.accumulatedProfitMA.Update(r.accumulatedProfit.Float64())
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r.accumulatedProfitMAPerDay.Update(r.accumulatedProfitMA.Last(0))
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// Accumulated Fee
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r.accumulatedFeePerDay.Update(r.accumulatedFee.Float64())
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// Win ratio
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r.winRatioPerDay.Update(tradeStats.WinningRatio.Float64())
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// Profit factor
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r.profitFactorPerDay.Update(tradeStats.ProfitFactor.Float64())
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// Daily trades
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r.dailyTrades.Update(float64(r.accumulatedTrades - r.previousAccumulatedTrades))
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r.previousAccumulatedTrades = r.accumulatedTrades
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}
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// Output Accumulated profit report to a TSV file
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func (r *AccumulatedProfitReport) Output(symbol string) {
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if r.TsvReportPath != "" {
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tsvwiter, err := tsv.AppendWriterFile(r.TsvReportPath)
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if err != nil {
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panic(err)
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}
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defer tsvwiter.Close()
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// Output symbol, total acc. profit, acc. profit 60MA, interval acc. profit, fee, win rate, profit factor
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_ = tsvwiter.Write([]string{"#", "Symbol", "accumulatedProfit", "accumulatedProfitMA", fmt.Sprintf("%dd profit", r.AccumulatedDailyProfitWindow), "accumulatedFee", "winRatio", "profitFactor", "60D trades"})
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for i := 0; i <= r.NumberOfInterval-1; i++ {
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accumulatedProfit := r.accumulatedProfitPerDay.Index(r.IntervalWindow * i)
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accumulatedProfitStr := fmt.Sprintf("%f", accumulatedProfit)
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accumulatedProfitMA := r.accumulatedProfitMAPerDay.Index(r.IntervalWindow * i)
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accumulatedProfitMAStr := fmt.Sprintf("%f", accumulatedProfitMA)
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intervalAccumulatedProfit := r.dailyProfit.Tail(r.AccumulatedDailyProfitWindow+r.IntervalWindow*i).Sum() - r.dailyProfit.Tail(r.IntervalWindow*i).Sum()
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intervalAccumulatedProfitStr := fmt.Sprintf("%f", intervalAccumulatedProfit)
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accumulatedFee := fmt.Sprintf("%f", r.accumulatedFeePerDay.Index(r.IntervalWindow*i))
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winRatio := fmt.Sprintf("%f", r.winRatioPerDay.Index(r.IntervalWindow*i))
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profitFactor := fmt.Sprintf("%f", r.profitFactorPerDay.Index(r.IntervalWindow*i))
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trades := r.dailyTrades.Tail(60+r.IntervalWindow*i).Sum() - r.dailyTrades.Tail(r.IntervalWindow*i).Sum()
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tradesStr := fmt.Sprintf("%f", trades)
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_ = tsvwiter.Write([]string{fmt.Sprintf("%d", i+1), symbol, accumulatedProfitStr, accumulatedProfitMAStr, intervalAccumulatedProfitStr, accumulatedFee, winRatio, profitFactor, tradesStr})
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}
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}
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}
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func (s *Strategy) Subscribe(session *bbgo.ExchangeSession) {
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session.Subscribe(types.KLineChannel, s.Symbol, types.SubscribeOptions{Interval: s.Interval})
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if !bbgo.IsBackTesting {
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session.Subscribe(types.MarketTradeChannel, s.Symbol, types.SubscribeOptions{})
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}
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s.ExitMethods.SetAndSubscribe(session, s)
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}
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func (s *Strategy) ID() string {
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return ID
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}
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func (s *Strategy) InstanceID() string {
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return fmt.Sprintf("%s:%s", ID, s.Symbol)
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}
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func (s *Strategy) CalcAssetValue(price fixedpoint.Value) fixedpoint.Value {
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balances := s.session.GetAccount().Balances()
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return balances[s.Market.BaseCurrency].Total().Mul(price).Add(balances[s.Market.QuoteCurrency].Total())
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}
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func (s *Strategy) Run(ctx context.Context, orderExecutor bbgo.OrderExecutor, session *bbgo.ExchangeSession) error {
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var instanceID = s.InstanceID()
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if s.Position == nil {
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s.Position = types.NewPositionFromMarket(s.Market)
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}
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if s.ProfitStats == nil {
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s.ProfitStats = types.NewProfitStats(s.Market)
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}
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if s.TradeStats == nil {
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s.TradeStats = types.NewTradeStats(s.Symbol)
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}
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// StrategyController
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s.Status = types.StrategyStatusRunning
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s.OnSuspend(func() {
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// Cancel active orders
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_ = s.orderExecutor.GracefulCancel(ctx)
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})
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s.OnEmergencyStop(func() {
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// Cancel active orders
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_ = s.orderExecutor.GracefulCancel(ctx)
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// Close 100% position
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// _ = s.ClosePosition(ctx, fixedpoint.One)
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})
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s.session = session
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// Set fee rate
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if s.session.MakerFeeRate.Sign() > 0 || s.session.TakerFeeRate.Sign() > 0 {
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s.Position.SetExchangeFeeRate(s.session.ExchangeName, types.ExchangeFee{
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MakerFeeRate: s.session.MakerFeeRate,
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TakerFeeRate: s.session.TakerFeeRate,
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})
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}
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s.orderExecutor = bbgo.NewGeneralOrderExecutor(session, s.Symbol, ID, instanceID, s.Position)
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s.orderExecutor.BindEnvironment(s.Environment)
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s.orderExecutor.BindProfitStats(s.ProfitStats)
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s.orderExecutor.BindTradeStats(s.TradeStats)
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// AccountValueCalculator
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priceSolver := pricesolver.NewSimplePriceResolver(session.Markets())
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priceSolver.BindStream(s.session.MarketDataStream)
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s.AccountValueCalculator = bbgo.NewAccountValueCalculator(s.session, priceSolver, s.Market.QuoteCurrency)
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if err := s.AccountValueCalculator.UpdatePrices(ctx); err != nil {
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return err
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}
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// Accumulated profit report
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if bbgo.IsBackTesting {
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if s.AccumulatedProfitReport == nil {
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s.AccumulatedProfitReport = &AccumulatedProfitReport{}
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}
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s.AccumulatedProfitReport.Initialize()
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s.orderExecutor.TradeCollector().OnProfit(func(trade types.Trade, profit *types.Profit) {
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if profit == nil {
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return
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}
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s.AccumulatedProfitReport.RecordProfit(profit.Profit)
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})
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// s.orderExecutor.TradeCollector().OnTrade(func(trade types.Trade, profit fixedpoint.Value, netProfit fixedpoint.Value) {
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// s.AccumulatedProfitReport.RecordTrade(trade.Fee)
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// })
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session.MarketDataStream.OnKLineClosed(types.KLineWith(s.Symbol, types.Interval1d, func(kline types.KLine) {
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s.AccumulatedProfitReport.DailyUpdate(s.TradeStats)
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}))
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}
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// For drawing
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profitSlice := floats.Slice{1., 1.}
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price, _ := session.LastPrice(s.Symbol)
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initAsset := s.CalcAssetValue(price).Float64()
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cumProfitSlice := floats.Slice{initAsset, initAsset}
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s.orderExecutor.TradeCollector().OnTrade(func(trade types.Trade, profit fixedpoint.Value, netProfit fixedpoint.Value) {
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if bbgo.IsBackTesting {
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s.AccumulatedProfitReport.RecordTrade(trade.Fee)
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}
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// For drawing/charting
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price := trade.Price.Float64()
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if s.buyPrice > 0 {
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profitSlice.Update(price / s.buyPrice)
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cumProfitSlice.Update(s.CalcAssetValue(trade.Price).Float64())
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} else if s.sellPrice > 0 {
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profitSlice.Update(s.sellPrice / price)
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cumProfitSlice.Update(s.CalcAssetValue(trade.Price).Float64())
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}
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if s.Position.IsDust(trade.Price) {
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s.buyPrice = 0
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s.sellPrice = 0
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s.highestPrice = 0
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s.lowestPrice = 0
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} else if s.Position.IsLong() {
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s.buyPrice = price
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s.sellPrice = 0
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s.highestPrice = s.buyPrice
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s.lowestPrice = 0
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} else {
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s.sellPrice = price
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s.buyPrice = 0
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s.highestPrice = 0
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s.lowestPrice = s.sellPrice
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}
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})
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s.InitDrawCommands(&profitSlice, &cumProfitSlice)
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s.orderExecutor.TradeCollector().OnPositionUpdate(func(position *types.Position) {
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bbgo.Sync(ctx, s)
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})
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s.orderExecutor.Bind()
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for _, method := range s.ExitMethods {
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method.Bind(session, s.orderExecutor)
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}
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kLineStore, _ := s.session.MarketDataStore(s.Symbol)
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s.shark = &SHARK{IntervalWindow: types.IntervalWindow{Window: s.Window, Interval: s.Interval}}
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s.shark.BindK(s.session.MarketDataStream, s.Symbol, s.shark.Interval)
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if klines, ok := kLineStore.KLinesOfInterval(s.shark.Interval); ok {
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s.shark.LoadK((*klines)[0:])
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}
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states := types.NewQueue(s.Window)
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states.Update(0)
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s.session.MarketDataStream.OnKLineClosed(types.KLineWith(s.Symbol, s.Interval, func(kline types.KLine) {
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log.Infof("shark score: %f, current price: %f", s.shark.Last(0), kline.Close.Float64())
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nextState := hmm(s.shark.Array(s.Window), states.Array(s.Window), s.Window)
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states.Update(nextState)
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log.Infof("Denoised signal via HMM: %f", states.Last(0))
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if states.Length() < s.Window {
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return
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}
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direction := 0.
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if s.Position.IsLong() {
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direction = 1.
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} else if s.Position.IsShort() {
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direction = -1.
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}
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if s.Position.IsOpened(kline.Close) && states.Mean(5) == 0 {
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s.orderExecutor.ClosePosition(ctx, fixedpoint.One)
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}
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if states.Mean(5) == 1 && direction != 1 {
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_, _ = s.orderExecutor.SubmitOrders(ctx, types.SubmitOrder{
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Symbol: s.Symbol,
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Side: types.SideTypeBuy,
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Quantity: s.Quantity,
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Type: types.OrderTypeMarket,
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Tag: "sharkLong",
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})
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} else if states.Mean(5) == -1 && direction != -1 {
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_, _ = s.orderExecutor.SubmitOrders(ctx, types.SubmitOrder{
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Symbol: s.Symbol,
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Side: types.SideTypeSell,
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Quantity: s.Quantity,
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Type: types.OrderTypeMarket,
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Tag: "sharkShort",
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})
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}
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}))
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bbgo.OnShutdown(ctx, func(ctx context.Context, wg *sync.WaitGroup) {
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defer wg.Done()
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// Output accumulated profit report
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if bbgo.IsBackTesting {
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defer s.AccumulatedProfitReport.Output(s.Symbol)
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if s.DrawGraph {
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if err := s.Draw(&profitSlice, &cumProfitSlice); err != nil {
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log.WithError(err).Errorf("cannot draw graph")
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}
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}
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}
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_, _ = fmt.Fprintln(os.Stderr, s.TradeStats.String())
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_ = s.orderExecutor.GracefulCancel(ctx)
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})
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return nil
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}
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// TODO: dirichlet distribution is a too naive solution
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func observeDistribution(y_t, x_t float64) float64 {
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if x_t == 0. && y_t == 0 {
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// observed zero value from indicator when in neutral state
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return 1.
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} else if x_t > 0. && y_t > 0. {
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// observed positive value from indicator when in long state
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return 1.
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} else if x_t < 0. && y_t < 0. {
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// observed negative value from indicator when in short state
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return 1.
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} else {
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return 0.
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}
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}
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func transitProbability(x_t0, x_t1 int) float64 {
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// stick to the same sate
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if x_t0 == x_t1 {
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return 0.99
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}
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// transit to next new state
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return 1 - 0.99
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}
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// HMM main function, ref: https://tr8dr.github.io/HMMFiltering/
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/*
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# initialize time step 0 using state priors and observation dist p(y | x = s)
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for si in states:
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alpha[t = 0, state = si] = pi[si] * p(y[0] | x = si)
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# determine alpha for t = 1 .. n
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for t in 1 .. n:
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for sj in states:
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alpha[t,sj] = max([alpha[t-1,si] * M[si,sj] for si in states]) * p(y[t] | x = sj)
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# determine current state at time t
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return argmax(alpha[t,si] over si)
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*/
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func hmm(y_t []float64, x_t []float64, l int) float64 {
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al := make([]float64, 0, l)
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an := make([]float64, 0, l)
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as := make([]float64, 0, l)
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long := 0.
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neut := 0.
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short := 0.
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// n is the incremental time steps
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for n := 2; n <= len(x_t); n++ {
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for j := -1; j <= 1; j++ {
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sil := make([]float64, 3)
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sin := make([]float64, 3)
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sis := make([]float64, 3)
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for i := -1; i <= 1; i++ {
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sil = append(sil, 0, x_t[n-1-1]*transitProbability(i, j))
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sin = append(sin, 0, x_t[n-1-1]*transitProbability(i, j))
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sis = append(sis, 0, x_t[n-1-1]*transitProbability(i, j))
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}
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if j > 0 {
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_, longArr := floats.MinMax(sil, 3)
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long = longArr[0] * observeDistribution(y_t[n-1], float64(j))
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al = append(al, long)
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} else if j == 0 {
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_, neutArr := floats.MinMax(sin, 3)
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neut = neutArr[0] * observeDistribution(y_t[n-1], float64(j))
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an = append(an, neut)
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} else if j < 0 {
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_, shortArr := floats.MinMax(sis, 3)
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short = shortArr[0] * observeDistribution(y_t[n-1], float64(j))
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as = append(as, short)
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}
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}
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}
|
|
_, maximum := floats.MinMax([]float64{long, neut, short}, 3)
|
|
if maximum[0] == long {
|
|
return 1
|
|
} else if maximum[0] == short {
|
|
return -1
|
|
}
|
|
return 0
|
|
}
|