package main import ( "fmt" "math" "math/rand" "sort" "sync" "testing" "time" "github.com/stieneee/mumble-discord-bridge/pkg/sleepct" "github.com/stieneee/tickerct" ) const testCount int64 = 10000 const maxSleepInterval time.Duration = 15 * time.Millisecond const tickerInterval time.Duration = 10 * time.Millisecond const testDuration time.Duration = time.Duration(testCount * 10 * int64(time.Millisecond)) func testTickerBaseCase(wg *sync.WaitGroup) { wg.Add(1) go func(interval time.Duration) { now := time.Now() start := now // start the ticker t := time.NewTicker(interval) var i int64 for i = 0; i < testCount; i++ { now = <-t.C // fmt.Println(now) } t.Stop() fmt.Println("Ticker (unloaded) after", testDuration, "drifts", time.Since(start)-testDuration) wg.Done() }(tickerInterval) } func TestTickerBaseCase(t *testing.T) { wg := sync.WaitGroup{} testTickerBaseCase(&wg) wg.Wait() } func testTickerLoaded(wg *sync.WaitGroup) { wg.Add(1) go func(interval time.Duration) { now := time.Now() start := now // start the ticker t := time.NewTicker(interval) var i int64 for i = 0; i < testCount; i++ { if i+1 < testCount { time.Sleep(time.Duration(float64(maxSleepInterval) * rand.Float64())) } now = <-t.C // fmt.Println(now) } t.Stop() fmt.Println("Ticker (loaded) after", testDuration, "drifts", time.Since(start)-testDuration) wg.Done() }(tickerInterval) } func TestTicker(t *testing.T) { wg := sync.WaitGroup{} testTickerLoaded(&wg) wg.Wait() } func testTickerCT(wg *sync.WaitGroup) { wg.Add(1) go func(interval time.Duration) { now := time.Now() start := now // start the ticker t := tickerct.NewTickerCT(interval) var i int64 for i = 0; i < testCount; i++ { if i+1 < testCount { time.Sleep(time.Duration(float64(maxSleepInterval) * rand.Float64())) } now = <-t.C // fmt.Println(now) } t.Stop() fmt.Println("TickerCT (loaded) after", testDuration, "drifts", time.Since(start)-testDuration) wg.Done() }(tickerInterval) } func TestTickerCT(t *testing.T) { wg := sync.WaitGroup{} testTickerCT(&wg) wg.Wait() } func testSleepCT(wg *sync.WaitGroup) { wg.Add(1) go func(interval time.Duration) { now := time.Now() start := now // start the ticker s := sleepct.SleepCT{} s.Start(interval) var i int64 for i = 0; i < testCount; i++ { if i+1 < testCount { time.Sleep(time.Duration(float64(maxSleepInterval) * rand.Float64())) } s.SleepNextTarget() } fmt.Println("SleepCT (loaded) after", testDuration, "drifts", time.Since(start)-testDuration) wg.Done() }(tickerInterval) } func TestSleepCT(t *testing.T) { wg := sync.WaitGroup{} testSleepCT(&wg) wg.Wait() } func TestIdleJitter(t *testing.T) { wg := sync.WaitGroup{} const testSize = 100000 const sleepTarget = time.Millisecond res := make([]time.Duration, testSize) for i := 0; i < testSize; i++ { start := time.Now() target := start.Add(sleepTarget) time.Sleep(sleepTarget) res[i] = time.Since(target) } sort.Slice(res, func(i, j int) bool { return res[i] < res[j] }) var total float64 = 0 for i := 0; i < testSize; i++ { total += float64(res[i]) } avg := time.Duration(total / testSize) nineFive := int64(math.Round(testSize * 0.95)) nineNine := int64(math.Round(testSize * 0.99)) nineNineNine := int64(math.Round(testSize * 0.999)) fmt.Println("IdleJitter test", testSize, sleepTarget) fmt.Println("IdleJitter results min/avg/95/99/99.9/max", res[0], avg, res[nineFive], res[nineNine], res[nineNineNine], res[testSize-1]) wg.Wait() }