bbgo_origin/pkg/bbgo/account_value_calc_test.go

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package bbgo
import (
"context"
"testing"
"github.com/stretchr/testify/assert"
"go.uber.org/mock/gomock"
"github.com/c9s/bbgo/pkg/fixedpoint"
"github.com/c9s/bbgo/pkg/pricesolver"
. "github.com/c9s/bbgo/pkg/testing/testhelper"
"github.com/c9s/bbgo/pkg/types"
"github.com/c9s/bbgo/pkg/types/mocks"
)
func TestAccountValueCalculator_NetValue(t *testing.T) {
symbol := "BTCUSDT"
markets := AllMarkets()
t.Run("borrow and available", func(t *testing.T) {
mockCtrl := gomock.NewController(t)
defer mockCtrl.Finish()
ticker := Ticker(symbol)
mockEx := mocks.NewMockExchange(mockCtrl)
// for market data stream and user data stream
mockEx.EXPECT().NewStream().Return(&types.StandardStream{}).Times(2)
mockEx.EXPECT().QueryTicker(gomock.Any(), symbol).Return(&ticker, nil).AnyTimes()
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session := NewExchangeSession("test", mockEx)
session.Account.UpdateBalances(types.BalanceMap{
"BTC": {
Currency: "BTC",
Available: fixedpoint.NewFromFloat(2.0),
Locked: fixedpoint.Zero,
Borrowed: fixedpoint.NewFromFloat(1.0),
Interest: fixedpoint.Zero,
NetAsset: fixedpoint.Zero,
},
"USDT": {
Currency: "USDT",
Available: fixedpoint.NewFromFloat(1000.0),
Locked: fixedpoint.Zero,
Borrowed: fixedpoint.Zero,
Interest: fixedpoint.Zero,
NetAsset: fixedpoint.Zero,
},
})
assert.NotNil(t, session)
priceSolver := pricesolver.NewSimplePriceResolver(markets)
priceSolver.Update(symbol, ticker.GetValidPrice())
cal := NewAccountValueCalculator(session, priceSolver, "USDT")
netValue := cal.NetValue()
assert.Equal(t, "20000", netValue.String())
})
t.Run("borrowed and sold", func(t *testing.T) {
mockCtrl := gomock.NewController(t)
defer mockCtrl.Finish()
ticker := Ticker(symbol)
mockEx := mocks.NewMockExchange(mockCtrl)
// for market data stream and user data stream
mockEx.EXPECT().NewStream().Return(&types.StandardStream{}).Times(2)
mockEx.EXPECT().QueryTicker(gomock.Any(), symbol).Return(&ticker, nil).AnyTimes()
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session := NewExchangeSession("test", mockEx)
session.Account.UpdateBalances(types.BalanceMap{
"BTC": {
Currency: "BTC",
Available: fixedpoint.Zero,
Locked: fixedpoint.Zero,
Borrowed: fixedpoint.NewFromFloat(1.0),
Interest: fixedpoint.Zero,
NetAsset: fixedpoint.Zero,
},
"USDT": {
Currency: "USDT",
Available: fixedpoint.NewFromFloat(21000.0),
Locked: fixedpoint.Zero,
Borrowed: fixedpoint.Zero,
Interest: fixedpoint.Zero,
NetAsset: fixedpoint.Zero,
},
})
priceSolver := pricesolver.NewSimplePriceResolver(markets)
priceSolver.Update(symbol, ticker.GetValidPrice())
cal := NewAccountValueCalculator(session, priceSolver, "USDT")
netValue := cal.NetValue()
assert.Equal(t, "2000", netValue.String()) // 21000-19000
})
}
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func TestNewAccountValueCalculator_MarginLevel(t *testing.T) {
mockCtrl := gomock.NewController(t)
defer mockCtrl.Finish()
symbol := "BTCUSDT"
ticker := Ticker(symbol)
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mockEx := mocks.NewMockExchange(mockCtrl)
// for market data stream and user data stream
mockEx.EXPECT().NewStream().Return(&types.StandardStream{}).Times(2)
mockEx.EXPECT().QueryTicker(gomock.Any(), symbol).Return(&ticker, nil).AnyTimes()
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session := NewExchangeSession("test", mockEx)
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session.Account.UpdateBalances(types.BalanceMap{
"BTC": {
Currency: "BTC",
Available: fixedpoint.Zero,
Locked: fixedpoint.Zero,
Borrowed: fixedpoint.NewFromFloat(1.0),
Interest: fixedpoint.NewFromFloat(0.003),
NetAsset: fixedpoint.Zero,
},
"USDT": Balance("USDT", Number(21000.0)),
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})
assert.NotNil(t, session)
ctx := context.Background()
markets := AllMarkets()
priceSolver := pricesolver.NewSimplePriceResolver(markets)
err := priceSolver.UpdateFromTickers(ctx, mockEx, symbol)
assert.NoError(t, err)
cal := NewAccountValueCalculator(session, priceSolver, "USDT")
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assert.NotNil(t, cal)
marginLevel, err := cal.MarginLevel()
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assert.NoError(t, err)
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// expected (21000 / 19000 * 1.003)
assert.Equal(t,
fixedpoint.NewFromFloat(21000.0).Div(fixedpoint.NewFromFloat(19000.0).Mul(fixedpoint.NewFromFloat(1.003))).FormatString(6),
marginLevel.FormatString(6))
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}
func number(n float64) fixedpoint.Value {
return fixedpoint.NewFromFloat(n)
}
func Test_aggregateUsdValue(t *testing.T) {
type args struct {
balances types.BalanceMap
}
tests := []struct {
name string
args args
want fixedpoint.Value
}{
{
name: "mixed",
args: args{
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balances: BalancesFromText(`
USDC, 150.0
USDT, 100.0
BTC, 0.01
`),
},
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want: Number(250.0),
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
assert.Equalf(t, tt.want, aggregateUsdNetValue(tt.args.balances), "aggregateUsdNetValue(%v)", tt.args.balances)
})
}
}
func Test_usdFiatBalances(t *testing.T) {
type args struct {
balances types.BalanceMap
}
tests := []struct {
name string
args args
wantFiats types.BalanceMap
wantRest types.BalanceMap
}{
{
args: args{
balances: BalancesFromText(`
USDC, 150.0
USDT, 100.0
BTC, 0.01
`),
},
wantFiats: BalancesFromText(`
USDC, 150.0
USDT, 100.0
`),
wantRest: BalancesFromText(`
BTC, 0.01
`),
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
gotFiats, gotRest := usdFiatBalances(tt.args.balances)
assert.Equalf(t, tt.wantFiats, gotFiats, "usdFiatBalances(%v)", tt.args.balances)
assert.Equalf(t, tt.wantRest, gotRest, "usdFiatBalances(%v)", tt.args.balances)
})
}
}
func Test_calculateNetValueInQuote(t *testing.T) {
type args struct {
balances types.BalanceMap
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prices types.PriceMap
quoteCurrency string
}
tests := []struct {
name string
args args
wantAccountValue fixedpoint.Value
}{
{
name: "positive asset",
args: args{
balances: types.BalanceMap{
"USDC": types.Balance{Currency: "USDC", Available: number(70.0 + 80.0)},
"USDT": types.Balance{Currency: "USDT", Available: number(100.0)},
"BTC": types.Balance{Currency: "BTC", Available: number(0.01)},
},
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prices: types.PriceMap{
"USDCUSDT": Number(1.0),
"BTCUSDT": Number(19000.0),
},
quoteCurrency: "USDT",
},
wantAccountValue: Number(19000.0*0.01 + 100.0 + 80.0 + 70.0),
},
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{
name: "reversed usdt price",
args: args{
balances: types.BalanceMap{
"USDC": types.Balance{Currency: "USDC", Available: Number(70.0 + 80.0)},
"TWD": types.Balance{Currency: "TWD", Available: Number(3000.0)},
"USDT": types.Balance{Currency: "USDT", Available: Number(100.0)},
"BTC": types.Balance{Currency: "BTC", Available: Number(0.01)},
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},
prices: types.PriceMap{
"USDTTWD": Number(30.0),
"USDCUSDT": Number(1.0),
"BTCUSDT": Number(19000.0),
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},
quoteCurrency: "USDT",
},
wantAccountValue: Number(19000.0*0.01 + 100.0 + 80.0 + 70.0 + (3000.0 / 30.0)),
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},
{
name: "borrow base asset",
args: args{
balances: types.BalanceMap{
"USDT": types.Balance{Currency: "USDT", Available: Number(20000.0*2 + 80.0)},
"USDC": types.Balance{Currency: "USDC", Available: Number(70.0)},
"BTC": types.Balance{Currency: "BTC", Available: Number(0), Borrowed: Number(2.0)},
},
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prices: types.PriceMap{
"USDCUSDT": number(1.0),
"BTCUSDT": number(19000.0),
},
quoteCurrency: "USDT",
},
wantAccountValue: number(19000.0*-2.0 + 20000.0*2 + 80.0 + 70.0),
},
{
name: "multi base asset",
args: args{
balances: types.BalanceMap{
"USDT": types.Balance{Currency: "USDT", Available: Number(20000.0*2 + 80.0)},
"USDC": types.Balance{Currency: "USDC", Available: Number(70.0)},
"ETH": types.Balance{Currency: "ETH", Available: Number(10.0)},
"BTC": types.Balance{Currency: "BTC", Available: Number(0), Borrowed: Number(2.0)},
},
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prices: types.PriceMap{
"USDCUSDT": Number(1.0),
"BTCUSDT": Number(19000.0),
"ETHUSDT": Number(1700.0),
},
quoteCurrency: "USDT",
},
wantAccountValue: Number(19000.0*-2.0 + 1700.0*10.0 + 20000.0*2 + 80.0 + 70.0),
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
markets := AllMarkets()
priceSolver := pricesolver.NewSimplePriceResolver(markets)
for symbol, price := range tt.args.prices {
priceSolver.Update(symbol, price)
}
assert.InDeltaf(t,
tt.wantAccountValue.Float64(),
calculateNetValueInQuote(tt.args.balances, priceSolver, tt.args.quoteCurrency).Float64(),
0.01,
"calculateNetValueInQuote(%v, %v, %v)", tt.args.balances, tt.args.prices, tt.args.quoteCurrency)
})
}
}