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macd_signal_test.go
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package ma_test
import (
"math/big"
"testing"
"github.com/MicahParks/go-ma"
)
func BenchmarkMACDSignalBig_Calculate(b *testing.B) {
_, shortSMA := ma.NewBigSMA(bigPrices[:ma.DefaultShortMACDPeriod])
shortEMA := ma.NewBigEMA(ma.DefaultShortMACDPeriod, shortSMA, nil)
for _, p := range bigPrices[ma.DefaultShortMACDPeriod:ma.DefaultLongMACDPeriod] {
shortEMA.Calculate(p)
}
_, signalSMA := ma.NewBigSMA(bigPrices[:ma.DefaultSignalEMAPeriod])
signalEMA := ma.NewBigEMA(ma.DefaultSignalEMAPeriod, signalSMA, nil)
for _, p := range bigPrices[ma.DefaultSignalEMAPeriod:ma.DefaultLongMACDPeriod] {
signalEMA.Calculate(p)
}
_, longSMA := ma.NewBigSMA(bigPrices[:ma.DefaultLongMACDPeriod])
longEMA := ma.NewBigEMA(ma.DefaultLongMACDPeriod, longSMA, nil)
macd := ma.NewBigMACD(longEMA, shortEMA)
signal, _ := ma.NewBigMACDSignal(macd, signalEMA, bigPrices[ma.DefaultLongMACDPeriod+1])
for _, p := range bigPrices[ma.DefaultLongMACDPeriod+2:] {
signal.Calculate(p)
}
}
func BenchmarkMACDSignalFloat_Calculate(b *testing.B) {
_, shortSMA := ma.NewSMA(prices[:ma.DefaultShortMACDPeriod])
shortEMA := ma.NewEMA(ma.DefaultShortMACDPeriod, shortSMA, 0)
for _, p := range prices[ma.DefaultShortMACDPeriod:ma.DefaultLongMACDPeriod] {
shortEMA.Calculate(p)
}
_, signalSMA := ma.NewSMA(prices[:ma.DefaultSignalEMAPeriod])
signalEMA := ma.NewEMA(ma.DefaultSignalEMAPeriod, signalSMA, 0)
for _, p := range prices[ma.DefaultSignalEMAPeriod:ma.DefaultLongMACDPeriod] {
signalEMA.Calculate(p)
}
_, longSMA := ma.NewSMA(prices[:ma.DefaultLongMACDPeriod])
longEMA := ma.NewEMA(ma.DefaultLongMACDPeriod, longSMA, 0)
macd := ma.NewMACD(longEMA, shortEMA)
signal, _ := ma.NewMACDSignal(macd, signalEMA, prices[ma.DefaultLongMACDPeriod+1])
for _, p := range prices[ma.DefaultLongMACDPeriod+2:] {
signal.Calculate(p)
}
}
func TestMACDSignalBig_Calculate(t *testing.T) {
var latestShortEMA *big.Float
_, shortSMA := ma.NewBigSMA(bigPrices[:ma.DefaultShortMACDPeriod])
shortEMA := ma.NewBigEMA(ma.DefaultShortMACDPeriod, shortSMA, nil)
for _, p := range bigPrices[ma.DefaultShortMACDPeriod:ma.DefaultLongMACDPeriod] {
latestShortEMA = shortEMA.Calculate(p)
}
_, longSMA := ma.NewBigSMA(bigPrices[:ma.DefaultLongMACDPeriod])
longEMA := ma.NewBigEMA(ma.DefaultLongMACDPeriod, longSMA, nil)
firstMACDResult := new(big.Float).Sub(latestShortEMA, longSMA)
macd := ma.NewBigMACD(longEMA, shortEMA)
signalEMA, _, _ := macd.SignalEMA(firstMACDResult, bigPrices[ma.DefaultLongMACDPeriod:ma.RequiredSamplesForDefaultMACDSignal-1], nil)
signal, _ := ma.NewBigMACDSignal(macd, signalEMA, bigPrices[ma.RequiredSamplesForDefaultMACDSignal-1])
for i, p := range bigPrices[ma.RequiredSamplesForDefaultMACDSignal:] {
actual := signal.Calculate(p).BuySignal
expected := signalResults[i]
if actual != expected {
if actual == nil || expected == nil || *actual != *expected {
t.FailNow()
}
}
}
}
func TestMACDSignal_Calculate(t *testing.T) {
var latestShortEMA float64
_, shortSMA := ma.NewSMA(prices[:ma.DefaultShortMACDPeriod])
shortEMA := ma.NewEMA(ma.DefaultShortMACDPeriod, shortSMA, 0)
for _, p := range prices[ma.DefaultShortMACDPeriod:ma.DefaultLongMACDPeriod] {
latestShortEMA = shortEMA.Calculate(p)
}
_, longSMA := ma.NewSMA(prices[:ma.DefaultLongMACDPeriod])
longEMA := ma.NewEMA(ma.DefaultLongMACDPeriod, longSMA, 0)
firstMACDResult := latestShortEMA - longSMA
macd := ma.NewMACD(longEMA, shortEMA)
signalEMA, _, _ := macd.SignalEMA(firstMACDResult, prices[ma.DefaultLongMACDPeriod:ma.RequiredSamplesForDefaultMACDSignal-1], 0)
signal, _ := ma.NewMACDSignal(macd, signalEMA, prices[ma.RequiredSamplesForDefaultMACDSignal-1])
for i, p := range prices[ma.RequiredSamplesForDefaultMACDSignal:] {
actual := signal.Calculate(p).BuySignal
expected := signalResults[i]
if actual != expected {
if actual == nil || expected == nil || *actual != *expected {
t.FailNow()
}
}
}
}
func TestDefaultMACDSignal(t *testing.T) {
signal := ma.DefaultMACDSignal(prices[:ma.RequiredSamplesForDefaultMACDSignal])
for i, p := range prices[ma.RequiredSamplesForDefaultMACDSignal:] {
actual := signal.Calculate(p).BuySignal
expected := signalResults[i]
if actual != expected {
if actual == nil || expected == nil || *actual != *expected {
t.FailNow()
}
}
}
}
func TestDefaultMACDSignalBig(t *testing.T) {
signal := ma.DefaultBigMACDSignal(bigPrices[:ma.RequiredSamplesForDefaultMACDSignal])
for i, p := range bigPrices[ma.RequiredSamplesForDefaultMACDSignal:] {
actual := signal.Calculate(p).BuySignal
expected := signalResults[i]
if actual != expected {
if actual == nil || expected == nil || *actual != *expected {
t.FailNow()
}
}
}
}
func TestDefaultMACDSignalNil(t *testing.T) {
signal := ma.DefaultMACDSignal(nil)
if signal != nil {
t.FailNow()
}
}
func TestDefaultMACDSignalBigNil(t *testing.T) {
signal := ma.DefaultBigMACDSignal(nil)
if signal != nil {
t.FailNow()
}
}
func TestDefaultMACDSignalCatchUp(t *testing.T) {
const catchUp = 5
signal := ma.DefaultMACDSignal(prices[:ma.RequiredSamplesForDefaultMACDSignal+catchUp])
for i, p := range prices[ma.RequiredSamplesForDefaultMACDSignal+catchUp:] {
actual := signal.Calculate(p).BuySignal
expected := signalResults[i+catchUp]
if actual != expected {
if actual == nil || expected == nil || *actual != *expected {
t.FailNow()
}
}
}
}
func TestDefaultMACDSignalCatchUpBig(t *testing.T) {
const catchUp = 5
signal := ma.DefaultBigMACDSignal(bigPrices[:ma.RequiredSamplesForDefaultMACDSignal+catchUp])
for i, p := range bigPrices[ma.RequiredSamplesForDefaultMACDSignal+catchUp:] {
actual := signal.Calculate(p).BuySignal
expected := signalResults[i+catchUp]
if actual != expected {
if actual == nil || expected == nil || *actual != *expected {
t.FailNow()
}
}
}
}