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testutils.go
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testutils.go
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package techan
import (
"fmt"
"math"
"math/rand"
"testing"
"time"
"strconv"
"github.com/sdcoffey/big"
"github.com/stretchr/testify/assert"
)
var candleIndex int
var mockedTimeSeries = mockTimeSeriesFl(
64.75, 63.79, 63.73,
63.73, 63.55, 63.19,
63.91, 63.85, 62.95,
63.37, 61.33, 61.51)
func randomTimeSeries(size int) *TimeSeries {
vals := make([]string, size)
rand.Seed(time.Now().Unix())
for i := 0; i < size; i++ {
val := rand.Float64() * 100
if i == 0 {
vals[i] = fmt.Sprint(val)
} else {
last, _ := strconv.ParseFloat(vals[i-1], 64)
if i%2 == 0 {
vals[i] = fmt.Sprint(last + (val / 10))
} else {
vals[i] = fmt.Sprint(last - (val / 10))
}
}
}
return mockTimeSeries(vals...)
}
func mockTimeSeriesOCHL(values ...[]float64) *TimeSeries {
ts := NewTimeSeries()
for i, ochl := range values {
candle := NewCandle(NewTimePeriod(time.Unix(int64(i), 0), time.Second))
candle.OpenPrice = big.NewDecimal(ochl[0])
candle.ClosePrice = big.NewDecimal(ochl[1])
candle.MaxPrice = big.NewDecimal(ochl[2])
candle.MinPrice = big.NewDecimal(ochl[3])
candle.Volume = big.NewDecimal(float64(i))
ts.AddCandle(candle)
}
return ts
}
func mockTimeSeries(values ...string) *TimeSeries {
ts := NewTimeSeries()
for _, val := range values {
candle := NewCandle(NewTimePeriod(time.Unix(int64(candleIndex), 0), time.Second))
candle.OpenPrice = big.NewFromString(val)
candle.ClosePrice = big.NewFromString(val)
candle.MaxPrice = big.NewFromString(val).Add(big.ONE)
candle.MinPrice = big.NewFromString(val).Sub(big.ONE)
candle.Volume = big.NewFromString(val)
ts.AddCandle(candle)
candleIndex++
}
return ts
}
func mockTimeSeriesFl(values ...float64) *TimeSeries {
strVals := make([]string, len(values))
for i, val := range values {
strVals[i] = fmt.Sprint(val)
}
return mockTimeSeries(strVals...)
}
func decimalEquals(t *testing.T, expected float64, actual big.Decimal) {
assert.Equal(t, fmt.Sprintf("%.4f", expected), fmt.Sprintf("%.4f", actual.Float()))
}
func dump(indicator Indicator) (values []float64) {
precision := 4.0
m := math.Pow(10, precision)
defer func() {
recover()
}()
var index int
for {
values = append(values, math.Round(indicator.Calculate(index).Float()*m)/m)
index++
}
return
}
func indicatorEquals(t *testing.T, expected []float64, indicator Indicator) {
actualValues := dump(indicator)
assert.EqualValues(t, expected, actualValues)
}