package backtest import ( "fmt" "sync" "sync/atomic" "time" "github.com/c9s/bbgo/pkg/fixedpoint" "github.com/c9s/bbgo/pkg/types" "github.com/pkg/errors" ) // DefaultFeeRate set the fee rate for most cases // BINANCE uses 0.1% for both maker and taker // for BNB holders, it's 0.075% for both maker and taker // MAX uses 0.050% for maker and 0.15% for taker const DefaultFeeRate = 0.075 * 0.01 var orderID uint64 = 1 var tradeID uint64 = 1 func incOrderID() uint64 { return atomic.AddUint64(&orderID, 1) } func incTradeID() uint64 { return atomic.AddUint64(&tradeID, 1) } // SimplePriceMatching implements a simple kline data driven matching engine for backtest //go:generate callbackgen -type SimplePriceMatching type SimplePriceMatching struct { Symbol string Market types.Market mu sync.Mutex bidOrders []types.Order askOrders []types.Order LastPrice fixedpoint.Value LastKLine types.KLine CurrentTime time.Time Account *types.Account MakerFeeRate fixedpoint.Value `json:"makerFeeRate"` TakerFeeRate fixedpoint.Value `json:"takerFeeRate"` tradeUpdateCallbacks []func(trade types.Trade) orderUpdateCallbacks []func(order types.Order) balanceUpdateCallbacks []func(balances types.BalanceMap) } func (m *SimplePriceMatching) CancelOrder(o types.Order) (types.Order, error) { found := false switch o.Side { case types.SideTypeBuy: m.mu.Lock() var orders []types.Order for _, order := range m.bidOrders { if o.OrderID == order.OrderID { found = true continue } orders = append(orders, order) } m.bidOrders = orders m.mu.Unlock() case types.SideTypeSell: m.mu.Lock() var orders []types.Order for _, order := range m.askOrders { if o.OrderID == order.OrderID { found = true continue } orders = append(orders, order) } m.askOrders = orders m.mu.Unlock() } if !found { return o, fmt.Errorf("cancel order failed, order %d not found: %+v", o.OrderID, o) } switch o.Side { case types.SideTypeBuy: if err := m.Account.UnlockBalance(m.Market.QuoteCurrency, fixedpoint.NewFromFloat(o.Price*o.Quantity)); err != nil { return o, err } case types.SideTypeSell: if err := m.Account.UnlockBalance(m.Market.BaseCurrency, fixedpoint.NewFromFloat(o.Quantity)); err != nil { return o, err } } o.Status = types.OrderStatusCanceled m.EmitOrderUpdate(o) m.EmitBalanceUpdate(m.Account.Balances()) return o, nil } func (m *SimplePriceMatching) PlaceOrder(o types.SubmitOrder) (closedOrders *types.Order, trades *types.Trade, err error) { // price for checking account balance price := o.Price switch o.Type { case types.OrderTypeMarket: price = m.LastPrice.Float64() case types.OrderTypeLimit: price = o.Price } switch o.Side { case types.SideTypeBuy: quote := price * o.Quantity if err := m.Account.LockBalance(m.Market.QuoteCurrency, fixedpoint.NewFromFloat(quote)); err != nil { return nil, nil, err } case types.SideTypeSell: baseQuantity := o.Quantity if err := m.Account.LockBalance(m.Market.BaseCurrency, fixedpoint.NewFromFloat(baseQuantity)); err != nil { return nil, nil, err } } m.EmitBalanceUpdate(m.Account.Balances()) // start from one orderID := incOrderID() order := m.newOrder(o, orderID) if o.Type == types.OrderTypeMarket { m.EmitOrderUpdate(order) // emit trade before we publish order trade := m.newTradeFromOrder(order, false) m.executeTrade(trade) // update the order status order.Status = types.OrderStatusFilled order.ExecutedQuantity = order.Quantity order.Price = price m.EmitOrderUpdate(order) m.EmitBalanceUpdate(m.Account.Balances()) return &order, &trade, nil } // for limit maker orders switch o.Side { case types.SideTypeBuy: m.mu.Lock() m.bidOrders = append(m.bidOrders, order) m.mu.Unlock() case types.SideTypeSell: m.mu.Lock() m.askOrders = append(m.askOrders, order) m.mu.Unlock() } m.EmitOrderUpdate(order) return &order, nil, nil } func (m *SimplePriceMatching) executeTrade(trade types.Trade) { var err error // execute trade, update account balances if trade.IsBuyer { err = m.Account.UseLockedBalance(m.Market.QuoteCurrency, fixedpoint.NewFromFloat(trade.Price*trade.Quantity)) _ = m.Account.AddBalance(m.Market.BaseCurrency, fixedpoint.NewFromFloat(trade.Quantity)) } else { err = m.Account.UseLockedBalance(m.Market.BaseCurrency, fixedpoint.NewFromFloat(trade.Quantity)) _ = m.Account.AddBalance(m.Market.QuoteCurrency, fixedpoint.NewFromFloat(trade.Quantity*trade.Price)) } if err != nil { panic(errors.Wrapf(err, "executeTrade exception, wanted to use more than the locked balance")) } m.EmitTradeUpdate(trade) m.EmitBalanceUpdate(m.Account.Balances()) return } func (m *SimplePriceMatching) newTradeFromOrder(order types.Order, isMaker bool) types.Trade { // BINANCE uses 0.1% for both maker and taker // MAX uses 0.050% for maker and 0.15% for taker var feeRate = DefaultFeeRate if isMaker { if m.MakerFeeRate > 0 { feeRate = m.MakerFeeRate.Float64() } } else { if m.TakerFeeRate > 0 { feeRate = m.TakerFeeRate.Float64() } } var fee float64 var feeCurrency string switch order.Side { case types.SideTypeBuy: fee = order.Quantity * feeRate feeCurrency = m.Market.BaseCurrency case types.SideTypeSell: fee = order.Quantity * order.Price * feeRate feeCurrency = m.Market.QuoteCurrency } var id = incTradeID() return types.Trade{ ID: int64(id), OrderID: order.OrderID, Exchange: "backtest", Price: order.Price, Quantity: order.Quantity, QuoteQuantity: order.Quantity * order.Price, Symbol: order.Symbol, Side: order.Side, IsBuyer: order.Side == types.SideTypeBuy, IsMaker: isMaker, Time: types.Time(m.CurrentTime), Fee: fee, FeeCurrency: feeCurrency, } } func (m *SimplePriceMatching) BuyToPrice(price fixedpoint.Value) (closedOrders []types.Order, trades []types.Trade) { var priceF = price.Float64() var askOrders []types.Order for _, o := range m.askOrders { switch o.Type { case types.OrderTypeStopMarket: // should we trigger the order if priceF <= o.StopPrice { // not triggering it, put it back askOrders = append(askOrders, o) break } o.Type = types.OrderTypeMarket o.ExecutedQuantity = o.Quantity o.Price = priceF o.Status = types.OrderStatusFilled closedOrders = append(closedOrders, o) trade := m.newTradeFromOrder(o, false) m.executeTrade(trade) trades = append(trades, trade) m.EmitOrderUpdate(o) case types.OrderTypeStopLimit: // should we trigger the order? if priceF <= o.StopPrice { askOrders = append(askOrders, o) break } o.Type = types.OrderTypeLimit // is it a taker order? if priceF >= o.Price { o.ExecutedQuantity = o.Quantity o.Status = types.OrderStatusFilled closedOrders = append(closedOrders, o) trade := m.newTradeFromOrder(o, false) m.executeTrade(trade) trades = append(trades, trade) m.EmitOrderUpdate(o) } else { // maker order askOrders = append(askOrders, o) } case types.OrderTypeLimit: if priceF >= o.Price { o.ExecutedQuantity = o.Quantity o.Status = types.OrderStatusFilled closedOrders = append(closedOrders, o) trade := m.newTradeFromOrder(o, true) m.executeTrade(trade) trades = append(trades, trade) m.EmitOrderUpdate(o) } else { askOrders = append(askOrders, o) } default: askOrders = append(askOrders, o) } } m.askOrders = askOrders m.LastPrice = price return closedOrders, trades } func (m *SimplePriceMatching) SellToPrice(price fixedpoint.Value) (closedOrders []types.Order, trades []types.Trade) { var sellPrice = price.Float64() var bidOrders []types.Order for _, o := range m.bidOrders { switch o.Type { case types.OrderTypeStopMarket: // should we trigger the order if sellPrice <= o.StopPrice { o.ExecutedQuantity = o.Quantity o.Price = sellPrice o.Status = types.OrderStatusFilled closedOrders = append(closedOrders, o) trade := m.newTradeFromOrder(o, false) m.executeTrade(trade) trades = append(trades, trade) m.EmitOrderUpdate(o) } else { bidOrders = append(bidOrders, o) } case types.OrderTypeStopLimit: // should we trigger the order if sellPrice <= o.StopPrice { o.Type = types.OrderTypeLimit if sellPrice <= o.Price { o.ExecutedQuantity = o.Quantity o.Status = types.OrderStatusFilled closedOrders = append(closedOrders, o) trade := m.newTradeFromOrder(o, false) m.executeTrade(trade) trades = append(trades, trade) m.EmitOrderUpdate(o) } else { bidOrders = append(bidOrders, o) } } else { bidOrders = append(bidOrders, o) } case types.OrderTypeLimit: if sellPrice <= o.Price { o.ExecutedQuantity = o.Quantity o.Status = types.OrderStatusFilled closedOrders = append(closedOrders, o) trade := m.newTradeFromOrder(o, true) m.executeTrade(trade) trades = append(trades, trade) m.EmitOrderUpdate(o) } else { bidOrders = append(bidOrders, o) } default: bidOrders = append(bidOrders, o) } } m.bidOrders = bidOrders m.LastPrice = price return closedOrders, trades } func (m *SimplePriceMatching) processKLine(kline types.KLine) { m.CurrentTime = kline.EndTime m.LastKLine = kline switch kline.Direction() { case types.DirectionDown: if kline.High > kline.Open { m.BuyToPrice(fixedpoint.NewFromFloat(kline.High)) } if kline.Low > kline.Close { m.SellToPrice(fixedpoint.NewFromFloat(kline.Low)) m.BuyToPrice(fixedpoint.NewFromFloat(kline.Close)) } else { m.SellToPrice(fixedpoint.NewFromFloat(kline.Close)) } case types.DirectionUp: if kline.Low < kline.Open { m.SellToPrice(fixedpoint.NewFromFloat(kline.Low)) } if kline.High > kline.Close { m.BuyToPrice(fixedpoint.NewFromFloat(kline.High)) m.SellToPrice(fixedpoint.NewFromFloat(kline.Close)) } else { m.BuyToPrice(fixedpoint.NewFromFloat(kline.Close)) } } } func (m *SimplePriceMatching) newOrder(o types.SubmitOrder, orderID uint64) types.Order { return types.Order{ OrderID: orderID, SubmitOrder: o, Exchange: types.ExchangeBacktest, Status: types.OrderStatusNew, ExecutedQuantity: 0, IsWorking: true, CreationTime: types.Time(m.CurrentTime), UpdateTime: types.Time(m.CurrentTime), } }