//go:build !dnum package grid2 import ( "context" "testing" "github.com/sirupsen/logrus" "github.com/stretchr/testify/assert" "github.com/c9s/bbgo/pkg/backtest" "github.com/c9s/bbgo/pkg/bbgo" "github.com/c9s/bbgo/pkg/exchange" "github.com/c9s/bbgo/pkg/fixedpoint" "github.com/c9s/bbgo/pkg/service" "github.com/c9s/bbgo/pkg/types" ) func TestStrategy_checkRequiredInvestmentByQuantity(t *testing.T) { s := &Strategy{ logger: logrus.NewEntry(logrus.New()), Market: types.Market{ BaseCurrency: "BTC", QuoteCurrency: "USDT", }, } t.Run("quote to base balance conversion check", func(t *testing.T) { _, requiredQuote, err := s.checkRequiredInvestmentByQuantity(number(0.0), number(10_000.0), number(0.1), number(13_500.0), []Pin{ Pin(number(10_000.0)), // 0.1 * 10_000 = 1000 USD (buy) Pin(number(11_000.0)), // 0.1 * 11_000 = 1100 USD (buy) Pin(number(12_000.0)), // 0.1 * 12_000 = 1200 USD (buy) Pin(number(13_000.0)), // 0.1 * 13_000 = 1300 USD (buy) Pin(number(14_000.0)), // 0.1 * 14_000 = 1400 USD (buy) Pin(number(15_000.0)), // 0.1 * 15_000 = 1500 USD }) assert.NoError(t, err) assert.Equal(t, number(6000.0), requiredQuote) }) t.Run("quote to base balance conversion not enough", func(t *testing.T) { _, requiredQuote, err := s.checkRequiredInvestmentByQuantity(number(0.0), number(5_000.0), number(0.1), number(13_500.0), []Pin{ Pin(number(10_000.0)), // 0.1 * 10_000 = 1000 USD (buy) Pin(number(11_000.0)), // 0.1 * 11_000 = 1100 USD (buy) Pin(number(12_000.0)), // 0.1 * 12_000 = 1200 USD (buy) Pin(number(13_000.0)), // 0.1 * 13_000 = 1300 USD (buy) Pin(number(14_000.0)), // 0.1 * 14_000 = 1400 USD (buy) Pin(number(15_000.0)), // 0.1 * 15_000 = 1500 USD }) assert.EqualError(t, err, "quote balance (5000.000000 USDT) is not enough, required = quote 6000.000000") assert.Equal(t, number(6000.0), requiredQuote) }) } type PriceSideAssert struct { Price fixedpoint.Value Side types.SideType } func assertPriceSide(t *testing.T, priceSideAsserts []PriceSideAssert, orders []types.SubmitOrder) { for i, a := range priceSideAsserts { assert.Equalf(t, a.Price, orders[i].Price, "order #%d price should be %f", i+1, a.Price.Float64()) assert.Equalf(t, a.Side, orders[i].Side, "order at price %f should be %s", a.Price.Float64(), a.Side) } } func TestStrategy_generateGridOrders(t *testing.T) { t.Run("quote only", func(t *testing.T) { s := newTestStrategy() s.grid = NewGrid(s.LowerPrice, s.UpperPrice, fixedpoint.NewFromInt(s.GridNum), s.Market.TickSize) s.grid.CalculateArithmeticPins() s.QuantityOrAmount.Quantity = number(0.01) lastPrice := number(15300) orders, err := s.generateGridOrders(number(10000.0), number(0), lastPrice) assert.NoError(t, err) if !assert.Equal(t, 10, len(orders)) { for _, o := range orders { t.Logf("- %s %s", o.Price.String(), o.Side) } } assertPriceSide(t, []PriceSideAssert{ {number(19000.0), types.SideTypeBuy}, {number(18000.0), types.SideTypeBuy}, {number(17000.0), types.SideTypeBuy}, {number(16000.0), types.SideTypeBuy}, {number(15000.0), types.SideTypeBuy}, {number(14000.0), types.SideTypeBuy}, {number(13000.0), types.SideTypeBuy}, {number(12000.0), types.SideTypeBuy}, {number(11000.0), types.SideTypeBuy}, {number(10000.0), types.SideTypeBuy}, }, orders) }) t.Run("base + quote", func(t *testing.T) { s := newTestStrategy() s.grid = NewGrid(s.LowerPrice, s.UpperPrice, fixedpoint.NewFromInt(s.GridNum), s.Market.TickSize) s.grid.CalculateArithmeticPins() s.QuantityOrAmount.Quantity = number(0.01) lastPrice := number(15300) orders, err := s.generateGridOrders(number(10000.0), number(0.021), lastPrice) assert.NoError(t, err) if !assert.Equal(t, 10, len(orders)) { for _, o := range orders { t.Logf("- %s %s", o.Price.String(), o.Side) } } assertPriceSide(t, []PriceSideAssert{ {number(20000.0), types.SideTypeSell}, {number(19000.0), types.SideTypeSell}, {number(17000.0), types.SideTypeBuy}, {number(16000.0), types.SideTypeBuy}, {number(15000.0), types.SideTypeBuy}, {number(14000.0), types.SideTypeBuy}, {number(13000.0), types.SideTypeBuy}, {number(12000.0), types.SideTypeBuy}, {number(11000.0), types.SideTypeBuy}, {number(10000.0), types.SideTypeBuy}, }, orders) }) t.Run("enough base + quote", func(t *testing.T) { s := newTestStrategy() s.grid = NewGrid(s.LowerPrice, s.UpperPrice, fixedpoint.NewFromInt(s.GridNum), s.Market.TickSize) s.grid.CalculateArithmeticPins() s.QuantityOrAmount.Quantity = number(0.01) lastPrice := number(15300) orders, err := s.generateGridOrders(number(10000.0), number(1.0), lastPrice) assert.NoError(t, err) if !assert.Equal(t, 10, len(orders)) { for _, o := range orders { t.Logf("- %s %s", o.Price.String(), o.Side) } } assertPriceSide(t, []PriceSideAssert{ {number(20000.0), types.SideTypeSell}, {number(19000.0), types.SideTypeSell}, {number(18000.0), types.SideTypeSell}, {number(17000.0), types.SideTypeSell}, {number(16000.0), types.SideTypeSell}, {number(14000.0), types.SideTypeBuy}, {number(13000.0), types.SideTypeBuy}, {number(12000.0), types.SideTypeBuy}, {number(11000.0), types.SideTypeBuy}, {number(10000.0), types.SideTypeBuy}, }, orders) }) t.Run("enough base + quote + profitSpread", func(t *testing.T) { s := newTestStrategy() s.ProfitSpread = number(1_000) s.grid = NewGrid(s.LowerPrice, s.UpperPrice, fixedpoint.NewFromInt(s.GridNum), s.Market.TickSize) s.grid.CalculateArithmeticPins() s.QuantityOrAmount.Quantity = number(0.01) lastPrice := number(15300) orders, err := s.generateGridOrders(number(10000.0), number(1.0), lastPrice) assert.NoError(t, err) if !assert.Equal(t, 11, len(orders)) { for _, o := range orders { t.Logf("- %s %s", o.Price.String(), o.Side) } } assertPriceSide(t, []PriceSideAssert{ {number(21000.0), types.SideTypeSell}, {number(20000.0), types.SideTypeSell}, {number(19000.0), types.SideTypeSell}, {number(18000.0), types.SideTypeSell}, {number(17000.0), types.SideTypeSell}, {number(15000.0), types.SideTypeBuy}, {number(14000.0), types.SideTypeBuy}, {number(13000.0), types.SideTypeBuy}, {number(12000.0), types.SideTypeBuy}, {number(11000.0), types.SideTypeBuy}, {number(10000.0), types.SideTypeBuy}, }, orders) }) } func TestStrategy_checkRequiredInvestmentByAmount(t *testing.T) { s := &Strategy{ logger: logrus.NewEntry(logrus.New()), Market: types.Market{ BaseCurrency: "BTC", QuoteCurrency: "USDT", }, } t.Run("quote to base balance conversion", func(t *testing.T) { _, requiredQuote, err := s.checkRequiredInvestmentByAmount( number(0.0), number(3_000.0), number(1000.0), number(13_500.0), []Pin{ Pin(number(10_000.0)), Pin(number(11_000.0)), Pin(number(12_000.0)), Pin(number(13_000.0)), Pin(number(14_000.0)), Pin(number(15_000.0)), }) assert.EqualError(t, err, "quote balance (3000.000000 USDT) is not enough, required = quote 4999.999890") assert.InDelta(t, 4999.999890, requiredQuote.Float64(), number(0.001).Float64()) }) } func TestStrategy_calculateQuoteInvestmentQuantity(t *testing.T) { t.Run("quote quantity", func(t *testing.T) { // quoteInvestment = (10,000 + 11,000 + 12,000 + 13,000 + 14,000) * q // q = quoteInvestment / (10,000 + 11,000 + 12,000 + 13,000 + 14,000) // q = 12_000 / (10,000 + 11,000 + 12,000 + 13,000 + 14,000) // q = 0.2 s := newTestStrategy() lastPrice := number(13_500.0) quantity, err := s.calculateQuoteInvestmentQuantity(number(12_000.0), lastPrice, []Pin{ Pin(number(10_000.0)), // buy Pin(number(11_000.0)), // buy Pin(number(12_000.0)), // buy Pin(number(13_000.0)), // buy Pin(number(14_000.0)), // buy Pin(number(15_000.0)), }) assert.NoError(t, err) assert.Equal(t, number(0.2).String(), quantity.String()) }) t.Run("profit spread", func(t *testing.T) { // quoteInvestment = (10,000 + 11,000 + 12,000 + 13,000 + 14,000 + 15,000) * q // q = quoteInvestment / (10,000 + 11,000 + 12,000 + 13,000 + 14,000 + 15,000) // q = 7500 / (10,000 + 11,000 + 12,000 + 13,000 + 14,000 + 15,000) // q = 0.1 s := newTestStrategy() s.ProfitSpread = number(2000.0) lastPrice := number(13_500.0) quantity, err := s.calculateQuoteInvestmentQuantity(number(7500.0), lastPrice, []Pin{ Pin(number(10_000.0)), // sell order @ 12_000 Pin(number(11_000.0)), // sell order @ 13_000 Pin(number(12_000.0)), // sell order @ 14_000 Pin(number(13_000.0)), // sell order @ 15_000 Pin(number(14_000.0)), // sell order @ 16_000 Pin(number(15_000.0)), // sell order @ 17_000 }) assert.NoError(t, err) assert.Equal(t, number(0.1).String(), quantity.String()) }) } func newTestStrategy() *Strategy { market := types.Market{ BaseCurrency: "BTC", QuoteCurrency: "USDT", TickSize: number(0.01), } s := &Strategy{ logger: logrus.NewEntry(logrus.New()), Market: market, GridProfitStats: newGridProfitStats(market), UpperPrice: number(20_000), LowerPrice: number(10_000), GridNum: 10, } return s } func TestStrategy_calculateProfit(t *testing.T) { t.Run("earn quote without compound", func(t *testing.T) { s := newTestStrategy() profit := s.calculateProfit(types.Order{ SubmitOrder: types.SubmitOrder{ Price: number(13_000), Quantity: number(1.0), }, }, number(12_000), number(1.0)) assert.NotNil(t, profit) assert.Equal(t, "USDT", profit.Currency) assert.InDelta(t, 1000.0, profit.Profit.Float64(), 0.1) }) t.Run("earn quote with compound", func(t *testing.T) { s := newTestStrategy() s.Compound = true profit := s.calculateProfit(types.Order{ SubmitOrder: types.SubmitOrder{ Price: number(13_000), Quantity: number(1.0), }, }, number(12_000), number(1.0)) assert.NotNil(t, profit) assert.Equal(t, "USDT", profit.Currency) assert.InDelta(t, 1000.0, profit.Profit.Float64(), 0.1) }) t.Run("earn base without compound", func(t *testing.T) { s := newTestStrategy() s.EarnBase = true s.Compound = false quoteQuantity := number(12_000).Mul(number(1.0)) sellQuantity := quoteQuantity.Div(number(13_000.0)) buyOrder := types.SubmitOrder{ Price: number(12_000.0), Quantity: number(1.0), } profit := s.calculateProfit(types.Order{ SubmitOrder: types.SubmitOrder{ Price: number(13_000.0), Quantity: sellQuantity, }, }, buyOrder.Price, buyOrder.Quantity) assert.NotNil(t, profit) assert.Equal(t, "BTC", profit.Currency) assert.InDelta(t, sellQuantity.Float64()-buyOrder.Quantity.Float64(), profit.Profit.Float64(), 0.001) }) } func TestBacktestStrategy(t *testing.T) { startTime, err := types.ParseLooseFormatTime("2021-06-01") assert.NoError(t, err) endTime, err := types.ParseLooseFormatTime("2021-06-30") assert.NoError(t, err) backtestConfig := &bbgo.Backtest{ StartTime: startTime, EndTime: &endTime, RecordTrades: false, FeeMode: bbgo.BacktestFeeModeToken, Accounts: map[string]bbgo.BacktestAccount{ "binance": { MakerFeeRate: number(0.075 * 0.01), TakerFeeRate: number(0.075 * 0.01), Balances: bbgo.BacktestAccountBalanceMap{ "USDT": number(10_000.0), "BTC": number(1.0), }, }, }, Symbols: []string{"BTCUSDT"}, Sessions: []string{"binance"}, SyncSecKLines: false, } t.Logf("backtestConfig: %+v", backtestConfig) ctx := context.Background() environ := bbgo.NewEnvironment() err = environ.ConfigureDatabaseDriver(ctx, "sqlite3", "../../../data/bbgo_test.sqlite3") assert.NoError(t, err) backtestService := &service.BacktestService{DB: environ.DatabaseService.DB} defer func() { err := environ.DatabaseService.DB.Close() assert.NoError(t, err) }() environ.BacktestService = backtestService bbgo.SetBackTesting(backtestService) defer bbgo.SetBackTesting(nil) exName, err := types.ValidExchangeName("binance") if !assert.NoError(t, err) { return } publicExchange, err := exchange.NewPublic(exName) if !assert.NoError(t, err) { return } backtestExchange, err := backtest.NewExchange(publicExchange.Name(), publicExchange, backtestService, backtestConfig) if !assert.NoError(t, err) { return } session := environ.AddExchange(exName.String(), backtestExchange) assert.NotNil(t, session) err = environ.Init(ctx) assert.NoError(t, err) for _, ses := range environ.Sessions() { userDataStream := ses.UserDataStream.(types.StandardStreamEmitter) backtestEx := ses.Exchange.(*backtest.Exchange) backtestEx.MarketDataStream = ses.MarketDataStream.(types.StandardStreamEmitter) backtestEx.BindUserData(userDataStream) } trader := bbgo.NewTrader(environ) if assert.NotNil(t, trader) { trader.DisableLogging() } // TODO: add grid2 to the user config and run backtest }