vendor/github.com/rcrowley/go-metrics/timer.go - voltha-openolt-adapter - Gitiles

 package metrics

 import (
 	"sync"
 	"time"
 )

 // Timers capture the duration and rate of events.
 type Timer interface {
 	Count() int64
 	Max() int64
 	Mean() float64
 	Min() int64
 	Percentile(float64) float64
 	Percentiles([]float64) []float64
 	Rate1() float64
 	Rate5() float64
 	Rate15() float64
 	RateMean() float64
 	Snapshot() Timer
 	StdDev() float64
 	Stop()
 	Sum() int64
 	Time(func())
 	Update(time.Duration)
 	UpdateSince(time.Time)
 	Variance() float64
 }

 // GetOrRegisterTimer returns an existing Timer or constructs and registers a
 // new StandardTimer.
 // Be sure to unregister the meter from the registry once it is of no use to
 // allow for garbage collection.
 func GetOrRegisterTimer(name string, r Registry) Timer {
 	if nil == r {
 		r = DefaultRegistry
 	}
 	return r.GetOrRegister(name, NewTimer).(Timer)
 }

 // NewCustomTimer constructs a new StandardTimer from a Histogram and a Meter.
 // Be sure to call Stop() once the timer is of no use to allow for garbage collection.
 func NewCustomTimer(h Histogram, m Meter) Timer {
 	if UseNilMetrics {
 		return NilTimer{}
 	}
 	return &StandardTimer{
 		histogram: h,
 		meter:     m,
 	}
 }

 // NewRegisteredTimer constructs and registers a new StandardTimer.
 // Be sure to unregister the meter from the registry once it is of no use to
 // allow for garbage collection.
 func NewRegisteredTimer(name string, r Registry) Timer {
 	c := NewTimer()
 	if nil == r {
 		r = DefaultRegistry
 	}
 	r.Register(name, c)
 	return c
 }

 // NewTimer constructs a new StandardTimer using an exponentially-decaying
 // sample with the same reservoir size and alpha as UNIX load averages.
 // Be sure to call Stop() once the timer is of no use to allow for garbage collection.
 func NewTimer() Timer {
 	if UseNilMetrics {
 		return NilTimer{}
 	}
 	return &StandardTimer{
 		histogram: NewHistogram(NewExpDecaySample(1028, 0.015)),
 		meter:     NewMeter(),
 	}
 }

 // NilTimer is a no-op Timer.
 type NilTimer struct {
 	h Histogram
 	m Meter
 }

 // Count is a no-op.
 func (NilTimer) Count() int64 { return 0 }

 // Max is a no-op.
 func (NilTimer) Max() int64 { return 0 }

 // Mean is a no-op.
 func (NilTimer) Mean() float64 { return 0.0 }

 // Min is a no-op.
 func (NilTimer) Min() int64 { return 0 }

 // Percentile is a no-op.
 func (NilTimer) Percentile(p float64) float64 { return 0.0 }

 // Percentiles is a no-op.
 func (NilTimer) Percentiles(ps []float64) []float64 {
 	return make([]float64, len(ps))
 }

 // Rate1 is a no-op.
 func (NilTimer) Rate1() float64 { return 0.0 }

 // Rate5 is a no-op.
 func (NilTimer) Rate5() float64 { return 0.0 }

 // Rate15 is a no-op.
 func (NilTimer) Rate15() float64 { return 0.0 }

 // RateMean is a no-op.
 func (NilTimer) RateMean() float64 { return 0.0 }

 // Snapshot is a no-op.
 func (NilTimer) Snapshot() Timer { return NilTimer{} }

 // StdDev is a no-op.
 func (NilTimer) StdDev() float64 { return 0.0 }

 // Stop is a no-op.
 func (NilTimer) Stop() {}

 // Sum is a no-op.
 func (NilTimer) Sum() int64 { return 0 }

 // Time is a no-op.
 func (NilTimer) Time(func()) {}

 // Update is a no-op.
 func (NilTimer) Update(time.Duration) {}

 // UpdateSince is a no-op.
 func (NilTimer) UpdateSince(time.Time) {}

 // Variance is a no-op.
 func (NilTimer) Variance() float64 { return 0.0 }

 // StandardTimer is the standard implementation of a Timer and uses a Histogram
 // and Meter.
 type StandardTimer struct {
 	histogram Histogram
 	meter     Meter
 	mutex     sync.Mutex
 }

 // Count returns the number of events recorded.
 func (t *StandardTimer) Count() int64 {
 	return t.histogram.Count()
 }

 // Max returns the maximum value in the sample.
 func (t *StandardTimer) Max() int64 {
 	return t.histogram.Max()
 }

 // Mean returns the mean of the values in the sample.
 func (t *StandardTimer) Mean() float64 {
 	return t.histogram.Mean()
 }

 // Min returns the minimum value in the sample.
 func (t *StandardTimer) Min() int64 {
 	return t.histogram.Min()
 }

 // Percentile returns an arbitrary percentile of the values in the sample.
 func (t *StandardTimer) Percentile(p float64) float64 {
 	return t.histogram.Percentile(p)
 }

 // Percentiles returns a slice of arbitrary percentiles of the values in the
 // sample.
 func (t *StandardTimer) Percentiles(ps []float64) []float64 {
 	return t.histogram.Percentiles(ps)
 }

 // Rate1 returns the one-minute moving average rate of events per second.
 func (t *StandardTimer) Rate1() float64 {
 	return t.meter.Rate1()
 }

 // Rate5 returns the five-minute moving average rate of events per second.
 func (t *StandardTimer) Rate5() float64 {
 	return t.meter.Rate5()
 }

 // Rate15 returns the fifteen-minute moving average rate of events per second.
 func (t *StandardTimer) Rate15() float64 {
 	return t.meter.Rate15()
 }

 // RateMean returns the meter's mean rate of events per second.
 func (t *StandardTimer) RateMean() float64 {
 	return t.meter.RateMean()
 }

 // Snapshot returns a read-only copy of the timer.
 func (t *StandardTimer) Snapshot() Timer {
 	t.mutex.Lock()
 	defer t.mutex.Unlock()
 	return &TimerSnapshot{
 		histogram: t.histogram.Snapshot().(*HistogramSnapshot),
 		meter:     t.meter.Snapshot().(*MeterSnapshot),
 	}
 }

 // StdDev returns the standard deviation of the values in the sample.
 func (t *StandardTimer) StdDev() float64 {
 	return t.histogram.StdDev()
 }

 // Stop stops the meter.
 func (t *StandardTimer) Stop() {
 	t.meter.Stop()
 }

 // Sum returns the sum in the sample.
 func (t *StandardTimer) Sum() int64 {
 	return t.histogram.Sum()
 }

 // Record the duration of the execution of the given function.
 func (t *StandardTimer) Time(f func()) {
 	ts := time.Now()
 	f()
 	t.Update(time.Since(ts))
 }

 // Record the duration of an event.
 func (t *StandardTimer) Update(d time.Duration) {
 	t.mutex.Lock()
 	defer t.mutex.Unlock()
 	t.histogram.Update(int64(d))
 	t.meter.Mark(1)
 }

 // Record the duration of an event that started at a time and ends now.
 func (t *StandardTimer) UpdateSince(ts time.Time) {
 	t.mutex.Lock()
 	defer t.mutex.Unlock()
 	t.histogram.Update(int64(time.Since(ts)))
 	t.meter.Mark(1)
 }

 // Variance returns the variance of the values in the sample.
 func (t *StandardTimer) Variance() float64 {
 	return t.histogram.Variance()
 }

 // TimerSnapshot is a read-only copy of another Timer.
 type TimerSnapshot struct {
 	histogram *HistogramSnapshot
 	meter     *MeterSnapshot
 }

 // Count returns the number of events recorded at the time the snapshot was
 // taken.
 func (t *TimerSnapshot) Count() int64 { return t.histogram.Count() }

 // Max returns the maximum value at the time the snapshot was taken.
 func (t *TimerSnapshot) Max() int64 { return t.histogram.Max() }

 // Mean returns the mean value at the time the snapshot was taken.
 func (t *TimerSnapshot) Mean() float64 { return t.histogram.Mean() }

 // Min returns the minimum value at the time the snapshot was taken.
 func (t *TimerSnapshot) Min() int64 { return t.histogram.Min() }

 // Percentile returns an arbitrary percentile of sampled values at the time the
 // snapshot was taken.
 func (t *TimerSnapshot) Percentile(p float64) float64 {
 	return t.histogram.Percentile(p)
 }

 // Percentiles returns a slice of arbitrary percentiles of sampled values at
 // the time the snapshot was taken.
 func (t *TimerSnapshot) Percentiles(ps []float64) []float64 {
 	return t.histogram.Percentiles(ps)
 }

 // Rate1 returns the one-minute moving average rate of events per second at the
 // time the snapshot was taken.
 func (t *TimerSnapshot) Rate1() float64 { return t.meter.Rate1() }

 // Rate5 returns the five-minute moving average rate of events per second at
 // the time the snapshot was taken.
 func (t *TimerSnapshot) Rate5() float64 { return t.meter.Rate5() }

 // Rate15 returns the fifteen-minute moving average rate of events per second
 // at the time the snapshot was taken.
 func (t *TimerSnapshot) Rate15() float64 { return t.meter.Rate15() }

 // RateMean returns the meter's mean rate of events per second at the time the
 // snapshot was taken.
 func (t *TimerSnapshot) RateMean() float64 { return t.meter.RateMean() }

 // Snapshot returns the snapshot.
 func (t *TimerSnapshot) Snapshot() Timer { return t }

 // StdDev returns the standard deviation of the values at the time the snapshot
 // was taken.
 func (t *TimerSnapshot) StdDev() float64 { return t.histogram.StdDev() }

 // Stop is a no-op.
 func (t *TimerSnapshot) Stop() {}

 // Sum returns the sum at the time the snapshot was taken.
 func (t *TimerSnapshot) Sum() int64 { return t.histogram.Sum() }

 // Time panics.
 func (*TimerSnapshot) Time(func()) {
 	panic("Time called on a TimerSnapshot")
 }

 // Update panics.
 func (*TimerSnapshot) Update(time.Duration) {
 	panic("Update called on a TimerSnapshot")
 }

 // UpdateSince panics.
 func (*TimerSnapshot) UpdateSince(time.Time) {
 	panic("UpdateSince called on a TimerSnapshot")
 }

 // Variance returns the variance of the values at the time the snapshot was
 // taken.
 func (t *TimerSnapshot) Variance() float64 { return t.histogram.Variance() }
	package metrics

	import (
	"sync"
	"time"
	)

	// Timers capture the duration and rate of events.
	type Timer interface {
	Count() int64
	Max() int64
	Mean() float64
	Min() int64
	Percentile(float64) float64
	Percentiles([]float64) []float64
	Rate1() float64
	Rate5() float64
	Rate15() float64
	RateMean() float64
	Snapshot() Timer
	StdDev() float64
	Stop()
	Sum() int64
	Time(func())
	Update(time.Duration)
	UpdateSince(time.Time)
	Variance() float64
	}

	// GetOrRegisterTimer returns an existing Timer or constructs and registers a
	// new StandardTimer.
	// Be sure to unregister the meter from the registry once it is of no use to
	// allow for garbage collection.
	func GetOrRegisterTimer(name string, r Registry) Timer {
	if nil == r {
	r = DefaultRegistry
	}
	return r.GetOrRegister(name, NewTimer).(Timer)
	}

	// NewCustomTimer constructs a new StandardTimer from a Histogram and a Meter.
	// Be sure to call Stop() once the timer is of no use to allow for garbage collection.
	func NewCustomTimer(h Histogram, m Meter) Timer {
	if UseNilMetrics {
	return NilTimer{}
	}
	return &StandardTimer{
	histogram: h,
	meter: m,
	}
	}

	// NewRegisteredTimer constructs and registers a new StandardTimer.
	// Be sure to unregister the meter from the registry once it is of no use to
	// allow for garbage collection.
	func NewRegisteredTimer(name string, r Registry) Timer {
	c := NewTimer()
	if nil == r {
	r = DefaultRegistry
	}
	r.Register(name, c)
	return c
	}

	// NewTimer constructs a new StandardTimer using an exponentially-decaying
	// sample with the same reservoir size and alpha as UNIX load averages.
	// Be sure to call Stop() once the timer is of no use to allow for garbage collection.
	func NewTimer() Timer {
	if UseNilMetrics {
	return NilTimer{}
	}
	return &StandardTimer{
	histogram: NewHistogram(NewExpDecaySample(1028, 0.015)),
	meter: NewMeter(),
	}
	}

	// NilTimer is a no-op Timer.
	type NilTimer struct {
	h Histogram
	m Meter
	}

	// Count is a no-op.
	func (NilTimer) Count() int64 { return 0 }

	// Max is a no-op.
	func (NilTimer) Max() int64 { return 0 }

	// Mean is a no-op.
	func (NilTimer) Mean() float64 { return 0.0 }

	// Min is a no-op.
	func (NilTimer) Min() int64 { return 0 }

	// Percentile is a no-op.
	func (NilTimer) Percentile(p float64) float64 { return 0.0 }

	// Percentiles is a no-op.
	func (NilTimer) Percentiles(ps []float64) []float64 {
	return make([]float64, len(ps))
	}

	// Rate1 is a no-op.
	func (NilTimer) Rate1() float64 { return 0.0 }

	// Rate5 is a no-op.
	func (NilTimer) Rate5() float64 { return 0.0 }

	// Rate15 is a no-op.
	func (NilTimer) Rate15() float64 { return 0.0 }

	// RateMean is a no-op.
	func (NilTimer) RateMean() float64 { return 0.0 }

	// Snapshot is a no-op.
	func (NilTimer) Snapshot() Timer { return NilTimer{} }

	// StdDev is a no-op.
	func (NilTimer) StdDev() float64 { return 0.0 }

	// Stop is a no-op.
	func (NilTimer) Stop() {}

	// Sum is a no-op.
	func (NilTimer) Sum() int64 { return 0 }

	// Time is a no-op.
	func (NilTimer) Time(func()) {}

	// Update is a no-op.
	func (NilTimer) Update(time.Duration) {}

	// UpdateSince is a no-op.
	func (NilTimer) UpdateSince(time.Time) {}

	// Variance is a no-op.
	func (NilTimer) Variance() float64 { return 0.0 }

	// StandardTimer is the standard implementation of a Timer and uses a Histogram
	// and Meter.
	type StandardTimer struct {
	histogram Histogram
	meter Meter
	mutex sync.Mutex
	}

	// Count returns the number of events recorded.
	func (t *StandardTimer) Count() int64 {
	return t.histogram.Count()
	}

	// Max returns the maximum value in the sample.
	func (t *StandardTimer) Max() int64 {
	return t.histogram.Max()
	}

	// Mean returns the mean of the values in the sample.
	func (t *StandardTimer) Mean() float64 {
	return t.histogram.Mean()
	}

	// Min returns the minimum value in the sample.
	func (t *StandardTimer) Min() int64 {
	return t.histogram.Min()
	}

	// Percentile returns an arbitrary percentile of the values in the sample.
	func (t *StandardTimer) Percentile(p float64) float64 {
	return t.histogram.Percentile(p)
	}

	// Percentiles returns a slice of arbitrary percentiles of the values in the
	// sample.
	func (t *StandardTimer) Percentiles(ps []float64) []float64 {
	return t.histogram.Percentiles(ps)
	}

	// Rate1 returns the one-minute moving average rate of events per second.
	func (t *StandardTimer) Rate1() float64 {
	return t.meter.Rate1()
	}

	// Rate5 returns the five-minute moving average rate of events per second.
	func (t *StandardTimer) Rate5() float64 {
	return t.meter.Rate5()
	}

	// Rate15 returns the fifteen-minute moving average rate of events per second.
	func (t *StandardTimer) Rate15() float64 {
	return t.meter.Rate15()
	}

	// RateMean returns the meter's mean rate of events per second.
	func (t *StandardTimer) RateMean() float64 {
	return t.meter.RateMean()
	}

	// Snapshot returns a read-only copy of the timer.
	func (t *StandardTimer) Snapshot() Timer {
	t.mutex.Lock()
	defer t.mutex.Unlock()
	return &TimerSnapshot{
	histogram: t.histogram.Snapshot().(*HistogramSnapshot),
	meter: t.meter.Snapshot().(*MeterSnapshot),
	}
	}

	// StdDev returns the standard deviation of the values in the sample.
	func (t *StandardTimer) StdDev() float64 {
	return t.histogram.StdDev()
	}

	// Stop stops the meter.
	func (t *StandardTimer) Stop() {
	t.meter.Stop()
	}

	// Sum returns the sum in the sample.
	func (t *StandardTimer) Sum() int64 {
	return t.histogram.Sum()
	}

	// Record the duration of the execution of the given function.
	func (t *StandardTimer) Time(f func()) {
	ts := time.Now()
	f()
	t.Update(time.Since(ts))
	}

	// Record the duration of an event.
	func (t *StandardTimer) Update(d time.Duration) {
	t.mutex.Lock()
	defer t.mutex.Unlock()
	t.histogram.Update(int64(d))
	t.meter.Mark(1)
	}

	// Record the duration of an event that started at a time and ends now.
	func (t *StandardTimer) UpdateSince(ts time.Time) {
	t.mutex.Lock()
	defer t.mutex.Unlock()
	t.histogram.Update(int64(time.Since(ts)))
	t.meter.Mark(1)
	}

	// Variance returns the variance of the values in the sample.
	func (t *StandardTimer) Variance() float64 {
	return t.histogram.Variance()
	}

	// TimerSnapshot is a read-only copy of another Timer.
	type TimerSnapshot struct {
	histogram *HistogramSnapshot
	meter *MeterSnapshot
	}

	// Count returns the number of events recorded at the time the snapshot was
	// taken.
	func (t *TimerSnapshot) Count() int64 { return t.histogram.Count() }

	// Max returns the maximum value at the time the snapshot was taken.
	func (t *TimerSnapshot) Max() int64 { return t.histogram.Max() }

	// Mean returns the mean value at the time the snapshot was taken.
	func (t *TimerSnapshot) Mean() float64 { return t.histogram.Mean() }

	// Min returns the minimum value at the time the snapshot was taken.
	func (t *TimerSnapshot) Min() int64 { return t.histogram.Min() }

	// Percentile returns an arbitrary percentile of sampled values at the time the
	// snapshot was taken.
	func (t *TimerSnapshot) Percentile(p float64) float64 {
	return t.histogram.Percentile(p)
	}

	// Percentiles returns a slice of arbitrary percentiles of sampled values at
	// the time the snapshot was taken.
	func (t *TimerSnapshot) Percentiles(ps []float64) []float64 {
	return t.histogram.Percentiles(ps)
	}

	// Rate1 returns the one-minute moving average rate of events per second at the
	// time the snapshot was taken.
	func (t *TimerSnapshot) Rate1() float64 { return t.meter.Rate1() }

	// Rate5 returns the five-minute moving average rate of events per second at
	// the time the snapshot was taken.
	func (t *TimerSnapshot) Rate5() float64 { return t.meter.Rate5() }

	// Rate15 returns the fifteen-minute moving average rate of events per second
	// at the time the snapshot was taken.
	func (t *TimerSnapshot) Rate15() float64 { return t.meter.Rate15() }

	// RateMean returns the meter's mean rate of events per second at the time the
	// snapshot was taken.
	func (t *TimerSnapshot) RateMean() float64 { return t.meter.RateMean() }

	// Snapshot returns the snapshot.
	func (t *TimerSnapshot) Snapshot() Timer { return t }

	// StdDev returns the standard deviation of the values at the time the snapshot
	// was taken.
	func (t *TimerSnapshot) StdDev() float64 { return t.histogram.StdDev() }

	// Stop is a no-op.
	func (t *TimerSnapshot) Stop() {}

	// Sum returns the sum at the time the snapshot was taken.
	func (t *TimerSnapshot) Sum() int64 { return t.histogram.Sum() }

	// Time panics.
	func (*TimerSnapshot) Time(func()) {
	panic("Time called on a TimerSnapshot")
	}

	// Update panics.
	func (*TimerSnapshot) Update(time.Duration) {
	panic("Update called on a TimerSnapshot")
	}

	// UpdateSince panics.
	func (*TimerSnapshot) UpdateSince(time.Time) {
	panic("UpdateSince called on a TimerSnapshot")
	}

	// Variance returns the variance of the values at the time the snapshot was
	// taken.
	func (t *TimerSnapshot) Variance() float64 { return t.histogram.Variance() }