d0zingcat/gocryptotrader
1
0
Fork 0
mirror of https://github.com/d0zingcat/gocryptotrader.git synced 2026-06-02 15:10:46 +00:00
Code Issues Packages Projects Releases Wiki Activity
Files
4a50a72e4afbcf324132dfebaeeea2bfbbee7e87
gocryptotrader/backtester/eventhandlers/statistics/currencystatistics.go
Ryan O'Hara-Reid d2561402c4 common: update Errors type (#1129) 
* common: adjust common error slice to allow multi errors.Is matching and conform to interface better

* zb: forgot to save?

* linties: fixies

* linties: word change as well.

* nitters: glorious

* buts

* nitters: fix glorious bug

* Update common/common.go

Co-authored-by: Scott <gloriousCode@users.noreply.github.com>

* nitters: shifty

---------

Co-authored-by: Ryan O'Hara-Reid <ryan.oharareid@thrasher.io>
Co-authored-by: Scott <gloriousCode@users.noreply.github.com>
2023-02-20 10:48:24 +11:00

196 lines
6.7 KiB
Go
Raw Blame History

package statistics
import (
"errors"
"fmt"
"github.com/shopspring/decimal"
"github.com/thrasher-corp/gocryptotrader/backtester/data"
gctcommon "github.com/thrasher-corp/gocryptotrader/common"
gctmath "github.com/thrasher-corp/gocryptotrader/common/math"
"github.com/thrasher-corp/gocryptotrader/exchanges/asset"
gctorder "github.com/thrasher-corp/gocryptotrader/exchanges/order"
)
// CalculateResults calculates all statistics for the exchange, asset, currency pair
func (c *CurrencyPairStatistic) CalculateResults(riskFreeRate decimal.Decimal) error {
first := c.Events[0]
sep := fmt.Sprintf("%v %v %v |\t", first.DataEvent.GetExchange(), first.DataEvent.GetAssetType(), first.DataEvent.Pair())
firstPrice := first.ClosePrice
last := c.Events[len(c.Events)-1]
if last.ComplianceSnapshot == nil {
return errMissingSnapshots
}
lastPrice := last.ClosePrice
for i := range last.ComplianceSnapshot.Orders {
if last.ComplianceSnapshot.Orders[i].Order.Side.IsLong() {
c.BuyOrders++
} else {
c.SellOrders++
}
}
for i := range c.Events {
price := c.Events[i].ClosePrice
if (price.LessThan(c.LowestClosePrice.Value) || !c.LowestClosePrice.Set) && !price.IsZero() {
c.LowestClosePrice.Value = price
c.LowestClosePrice.Time = c.Events[i].Time
c.LowestClosePrice.Set = true
}
if price.GreaterThan(c.HighestClosePrice.Value) {
c.HighestClosePrice.Value = price
c.HighestClosePrice.Time = c.Events[i].Time
c.HighestClosePrice.Set = true
}
}
oneHundred := decimal.NewFromInt(100)
if !firstPrice.IsZero() {
c.MarketMovement = lastPrice.Sub(firstPrice).Div(firstPrice).Mul(oneHundred)
}
if !first.Holdings.TotalValue.IsZero() {
c.StrategyMovement = last.Holdings.TotalValue.Sub(first.Holdings.TotalValue).Div(first.Holdings.TotalValue).Mul(oneHundred)
}
c.analysePNLGrowth()
err := c.calculateHighestCommittedFunds()
if err != nil {
return err
}
returnsPerCandle := make([]decimal.Decimal, len(c.Events))
benchmarkRates := make([]decimal.Decimal, len(c.Events))
allDataEvents := make([]data.Event, len(c.Events))
for i := range c.Events {
returnsPerCandle[i] = c.Events[i].Holdings.ChangeInTotalValuePercent
allDataEvents[i] = c.Events[i].DataEvent
if i == 0 {
continue
}
if c.Events[i].SignalEvent != nil && c.Events[i].SignalEvent.GetDirection() == gctorder.MissingData {
c.ShowMissingDataWarning = true
}
if c.Events[i].ClosePrice.IsZero() || c.Events[i-1].ClosePrice.IsZero() {
// closing price for the current candle or previous candle is zero, use the previous
// benchmark rate to allow some consistency
c.ShowMissingDataWarning = true
benchmarkRates[i] = benchmarkRates[i-1]
continue
}
benchmarkRates[i] = c.Events[i].ClosePrice.Sub(
c.Events[i-1].ClosePrice).Div(
c.Events[i-1].ClosePrice)
}
// remove the first entry as its zero and impacts
// ratio calculations as no movement has been made
benchmarkRates = benchmarkRates[1:]
returnsPerCandle = returnsPerCandle[1:]
var errs error
c.MaxDrawdown, err = CalculateBiggestEventDrawdown(allDataEvents)
if err != nil {
errs = gctcommon.AppendError(errs, err)
}
interval := first.DataEvent.GetInterval()
intervalsPerYear := interval.IntervalsPerYear()
riskFreeRatePerCandle := riskFreeRate.Div(decimal.NewFromFloat(intervalsPerYear))
c.ArithmeticRatios, c.GeometricRatios, err = CalculateRatios(benchmarkRates, returnsPerCandle, riskFreeRatePerCandle, &c.MaxDrawdown, sep)
if err != nil {
return err
}
if !last.Holdings.QuoteInitialFunds.IsZero() {
var cagr decimal.Decimal
cagr, err = gctmath.DecimalCompoundAnnualGrowthRate(
last.Holdings.QuoteInitialFunds,
last.Holdings.TotalValue,
decimal.NewFromFloat(intervalsPerYear),
decimal.NewFromInt(int64(len(c.Events))),
)
if err != nil && !errors.Is(err, gctmath.ErrPowerDifferenceTooSmall) {
errs = gctcommon.AppendError(errs, err)
}
c.CompoundAnnualGrowthRate = cagr
}
c.IsStrategyProfitable = last.Holdings.TotalValue.GreaterThan(first.Holdings.TotalValue)
c.DoesPerformanceBeatTheMarket = c.StrategyMovement.GreaterThan(c.MarketMovement)
c.TotalFees = last.Holdings.TotalFees.Round(8)
c.TotalValueLostToVolumeSizing = last.Holdings.TotalValueLostToVolumeSizing.Round(2)
c.TotalValueLost = last.Holdings.TotalValueLost.Round(2)
c.TotalValueLostToSlippage = last.Holdings.TotalValueLostToSlippage.Round(2)
c.TotalAssetValue = last.Holdings.BaseValue.Round(8)
if last.PNL != nil {
c.UnrealisedPNL = last.PNL.GetUnrealisedPNL().PNL
c.RealisedPNL = last.PNL.GetRealisedPNL().PNL
}
return errs
}
func (c *CurrencyPairStatistic) calculateHighestCommittedFunds() error {
switch {
case c.Asset == asset.Spot:
for i := range c.Events {
if c.Events[i].Holdings.CommittedFunds.GreaterThan(c.HighestCommittedFunds.Value) || !c.HighestCommittedFunds.Set {
c.HighestCommittedFunds.Value = c.Events[i].Holdings.CommittedFunds
c.HighestCommittedFunds.Time = c.Events[i].Time
c.HighestCommittedFunds.Set = true
}
}
case c.Asset.IsFutures():
for i := range c.Events {
valueAtTime := c.Events[i].Holdings.BaseSize.Mul(c.Events[i].ClosePrice)
if valueAtTime.GreaterThan(c.HighestCommittedFunds.Value) || !c.HighestCommittedFunds.Set {
c.HighestCommittedFunds.Value = valueAtTime
c.HighestCommittedFunds.Time = c.Events[i].Time
c.HighestCommittedFunds.Set = true
}
}
default:
return fmt.Errorf("%v %w", c.Asset, asset.ErrNotSupported)
}
return nil
}
func (c *CurrencyPairStatistic) analysePNLGrowth() {
if !c.Asset.IsFutures() {
return
}
var lowestUnrealised, highestUnrealised, lowestRealised, highestRealised ValueAtTime
for i := range c.Events {
if c.Events[i].PNL == nil {
continue
}
unrealised := c.Events[i].PNL.GetUnrealisedPNL()
realised := c.Events[i].PNL.GetRealisedPNL()
if unrealised.PNL.LessThan(lowestUnrealised.Value) ||
(!lowestUnrealised.Set && !unrealised.PNL.IsZero()) {
lowestUnrealised.Value = unrealised.PNL
lowestUnrealised.Time = unrealised.Time
lowestUnrealised.Set = true
}
if unrealised.PNL.GreaterThan(highestUnrealised.Value) ||
(!highestUnrealised.Set && !unrealised.PNL.IsZero()) {
highestUnrealised.Value = unrealised.PNL
highestUnrealised.Time = unrealised.Time
highestUnrealised.Set = true
}
if realised.PNL.LessThan(lowestRealised.Value) ||
(!lowestRealised.Set && !realised.PNL.IsZero()) {
lowestRealised.Value = realised.PNL
lowestRealised.Time = realised.Time
lowestRealised.Set = true
}
if realised.PNL.GreaterThan(highestRealised.Value) ||
(!highestRealised.Set && !realised.PNL.IsZero()) {
highestRealised.Value = realised.PNL
highestRealised.Time = realised.Time
highestRealised.Set = true
}
}
c.LowestRealisedPNL = lowestRealised
c.LowestUnrealisedPNL = lowestUnrealised
c.HighestUnrealisedPNL = highestUnrealised
c.HighestRealisedPNL = highestRealised
}
Reference in New Issue View Git Blame Copy Permalink