package bbgo import ( "fmt" "github.com/c9s/bbgo/pkg/indicator" "github.com/c9s/bbgo/pkg/types" ) type StandardIndicatorSet struct { Symbol string // Standard indicators // interval -> window sma map[types.IntervalWindow]*indicator.SMA ewma map[types.IntervalWindow]*indicator.EWMA boll map[types.IntervalWindow]*indicator.BOLL store *MarketDataStore } func NewStandardIndicatorSet(symbol string, store *MarketDataStore) *StandardIndicatorSet { set := &StandardIndicatorSet{ Symbol: symbol, sma: make(map[types.IntervalWindow]*indicator.SMA), ewma: make(map[types.IntervalWindow]*indicator.EWMA), boll: make(map[types.IntervalWindow]*indicator.BOLL), store: store, } // let us pre-defined commonly used intervals for interval := range types.SupportedIntervals { for _, window := range []int{7, 25, 99} { iw := types.IntervalWindow{Interval: interval, Window: window} set.sma[iw] = &indicator.SMA{IntervalWindow: iw} set.sma[iw].Bind(store) set.ewma[iw] = &indicator.EWMA{IntervalWindow: iw} set.ewma[iw].Bind(store) } // setup boll indicator, we may refactor boll indicator by subscribing SMA indicator, // however, since general used BOLLINGER band use window 21, which is not in the existing SMA indicator sets. // Pull out the bandwidth configuration as the boll Key iw := types.IntervalWindow{Interval: interval, Window: 21} set.boll[iw] = &indicator.BOLL{IntervalWindow: iw, K: 2.0} set.boll[iw].Bind(store) } return set } // BOLL returns the bollinger band indicator of the given interval and the window, // Please note that the K for std dev is fixed and defaults to 2.0 func (set *StandardIndicatorSet) BOLL(iw types.IntervalWindow, bandWidth float64) *indicator.BOLL { inc, ok := set.boll[iw] if !ok { inc := &indicator.BOLL{IntervalWindow: iw, K: bandWidth} inc.Bind(set.store) set.boll[iw] = inc } return inc } // SMA returns the simple moving average indicator of the given interval and the window size. func (set *StandardIndicatorSet) SMA(iw types.IntervalWindow) *indicator.SMA { inc, ok := set.sma[iw] if !ok { inc := &indicator.SMA{IntervalWindow: iw} inc.Bind(set.store) set.sma[iw] = inc } return inc } // GetEWMA returns the exponential weighed moving average indicator of the given interval and the window size. func (set *StandardIndicatorSet) EWMA(iw types.IntervalWindow) *indicator.EWMA { inc, ok := set.ewma[iw] if !ok { inc := &indicator.EWMA{IntervalWindow: iw} inc.Bind(set.store) set.ewma[iw] = inc } return inc } // ExchangeSession presents the exchange connection Session // It also maintains and collects the data returned from the stream. type ExchangeSession struct { // exchange Session based notification system // we make it as a value field so that we can configure it separately Notifiability // Exchange Session name Name string // The exchange account states Account *types.Account // Stream is the connection stream of the exchange Stream types.Stream Subscriptions map[types.Subscription]types.Subscription Exchange types.Exchange // markets defines market configuration of a symbol markets map[string]types.Market // startPrices is used for backtest startPrices map[string]float64 lastPrices map[string]float64 // Trades collects the executed trades from the exchange // map: symbol -> []trade Trades map[string][]types.Trade // marketDataStores contains the market data store of each market marketDataStores map[string]*MarketDataStore positions map[string]*Position // standard indicators of each market standardIndicatorSets map[string]*StandardIndicatorSet loadedSymbols map[string]struct{} IsMargin bool IsIsolatedMargin bool IsolatedMarginSymbol string } func NewExchangeSession(name string, exchange types.Exchange) *ExchangeSession { return &ExchangeSession{ Notifiability: Notifiability{ SymbolChannelRouter: NewPatternChannelRouter(nil), SessionChannelRouter: NewPatternChannelRouter(nil), ObjectChannelRouter: NewObjectChannelRouter(), }, Name: name, Exchange: exchange, Stream: exchange.NewStream(), Subscriptions: make(map[types.Subscription]types.Subscription), Account: &types.Account{}, Trades: make(map[string][]types.Trade), markets: make(map[string]types.Market), startPrices: make(map[string]float64), lastPrices: make(map[string]float64), positions: make(map[string]*Position), marketDataStores: make(map[string]*MarketDataStore), standardIndicatorSets: make(map[string]*StandardIndicatorSet), loadedSymbols: make(map[string]struct{}), } } func (session *ExchangeSession) StandardIndicatorSet(symbol string) (*StandardIndicatorSet, bool) { set, ok := session.standardIndicatorSets[symbol] return set, ok } func (session *ExchangeSession) Position(symbol string) (pos *Position, ok bool) { pos, ok = session.positions[symbol] return pos, ok } // MarketDataStore returns the market data store of a symbol func (session *ExchangeSession) MarketDataStore(symbol string) (s *MarketDataStore, ok bool) { s, ok = session.marketDataStores[symbol] return s, ok } func (session *ExchangeSession) StartPrice(symbol string) (price float64, ok bool) { price, ok = session.startPrices[symbol] return price, ok } func (session *ExchangeSession) LastPrice(symbol string) (price float64, ok bool) { price, ok = session.lastPrices[symbol] return price, ok } func (session *ExchangeSession) Market(symbol string) (market types.Market, ok bool) { market, ok = session.markets[symbol] return market, ok } // Subscribe save the subscription info, later it will be assigned to the stream func (session *ExchangeSession) Subscribe(channel types.Channel, symbol string, options types.SubscribeOptions) *ExchangeSession { sub := types.Subscription{ Channel: channel, Symbol: symbol, Options: options, } // add to the loaded symbol table session.loadedSymbols[symbol] = struct{}{} session.Subscriptions[sub] = sub return session } func (session *ExchangeSession) FormatOrder(order types.SubmitOrder) (types.SubmitOrder, error) { market, ok := session.Market(order.Symbol) if !ok { return order, fmt.Errorf("market is not defined: %s", order.Symbol) } order.Market = market switch order.Type { case types.OrderTypeStopMarket, types.OrderTypeStopLimit: order.StopPriceString = market.FormatPrice(order.StopPrice) } switch order.Type { case types.OrderTypeMarket, types.OrderTypeStopMarket: order.Price = 0.0 order.PriceString = "" default: order.PriceString = market.FormatPrice(order.Price) } order.QuantityString = market.FormatQuantity(order.Quantity) return order, nil }