mirror of
https://github.com/octoleo/syncthing.git
synced 2024-11-10 07:11:08 +00:00
65aaa607ab
Change made by: - running "gvt fetch" on each of the packages mentioned in Godeps/Godeps.json - `rm -rf Godeps` - tweaking the build scripts to not mention Godeps - tweaking the build scripts to test `./lib/...`, `./cmd/...` explicitly (to avoid testing vendor) - tweaking the build scripts to not juggle GOPATH for Godeps and instead set GO15VENDOREXPERIMENT. This also results in some updated packages at the same time I bet. Building with Go 1.3 and 1.4 still *works* but won't use our vendored dependencies - the user needs to have the actual packages in their GOPATH then, which they'll get with a normal "go get". Building with Go 1.6+ will get our vendored dependencies by default even when not using our build script, which is nice. By doing this we gain some freedom in that we can pick and choose manually what to include in vendor, as it's not based on just dependency analysis of our own code. This is also a risk as we might pick up dependencies we are unaware of, as the build may work locally with those packages present in GOPATH. On the other hand the build server will detect this as it has no packages in it's GOPATH beyond what is included in the repo. Recommended tool to manage dependencies is github.com/FiloSottile/gvt.
312 lines
8.1 KiB
Go
312 lines
8.1 KiB
Go
package metrics
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import (
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"sync"
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"time"
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)
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// Timers capture the duration and rate of events.
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type Timer interface {
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Count() int64
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Max() int64
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Mean() float64
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Min() int64
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Percentile(float64) float64
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Percentiles([]float64) []float64
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Rate1() float64
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Rate5() float64
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Rate15() float64
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RateMean() float64
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Snapshot() Timer
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StdDev() float64
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Sum() int64
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Time(func())
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Update(time.Duration)
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UpdateSince(time.Time)
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Variance() float64
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}
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// GetOrRegisterTimer returns an existing Timer or constructs and registers a
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// new StandardTimer.
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func GetOrRegisterTimer(name string, r Registry) Timer {
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if nil == r {
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r = DefaultRegistry
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}
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return r.GetOrRegister(name, NewTimer).(Timer)
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}
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// NewCustomTimer constructs a new StandardTimer from a Histogram and a Meter.
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func NewCustomTimer(h Histogram, m Meter) Timer {
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if UseNilMetrics {
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return NilTimer{}
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}
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return &StandardTimer{
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histogram: h,
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meter: m,
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}
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}
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// NewRegisteredTimer constructs and registers a new StandardTimer.
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func NewRegisteredTimer(name string, r Registry) Timer {
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c := NewTimer()
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if nil == r {
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r = DefaultRegistry
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}
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r.Register(name, c)
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return c
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}
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// NewTimer constructs a new StandardTimer using an exponentially-decaying
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// sample with the same reservoir size and alpha as UNIX load averages.
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func NewTimer() Timer {
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if UseNilMetrics {
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return NilTimer{}
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}
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return &StandardTimer{
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histogram: NewHistogram(NewExpDecaySample(1028, 0.015)),
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meter: NewMeter(),
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}
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}
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// NilTimer is a no-op Timer.
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type NilTimer struct {
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h Histogram
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m Meter
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}
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// Count is a no-op.
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func (NilTimer) Count() int64 { return 0 }
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// Max is a no-op.
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func (NilTimer) Max() int64 { return 0 }
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// Mean is a no-op.
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func (NilTimer) Mean() float64 { return 0.0 }
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// Min is a no-op.
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func (NilTimer) Min() int64 { return 0 }
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// Percentile is a no-op.
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func (NilTimer) Percentile(p float64) float64 { return 0.0 }
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// Percentiles is a no-op.
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func (NilTimer) Percentiles(ps []float64) []float64 {
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return make([]float64, len(ps))
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}
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// Rate1 is a no-op.
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func (NilTimer) Rate1() float64 { return 0.0 }
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// Rate5 is a no-op.
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func (NilTimer) Rate5() float64 { return 0.0 }
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// Rate15 is a no-op.
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func (NilTimer) Rate15() float64 { return 0.0 }
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// RateMean is a no-op.
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func (NilTimer) RateMean() float64 { return 0.0 }
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// Snapshot is a no-op.
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func (NilTimer) Snapshot() Timer { return NilTimer{} }
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// StdDev is a no-op.
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func (NilTimer) StdDev() float64 { return 0.0 }
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// Sum is a no-op.
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func (NilTimer) Sum() int64 { return 0 }
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// Time is a no-op.
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func (NilTimer) Time(func()) {}
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// Update is a no-op.
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func (NilTimer) Update(time.Duration) {}
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// UpdateSince is a no-op.
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func (NilTimer) UpdateSince(time.Time) {}
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// Variance is a no-op.
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func (NilTimer) Variance() float64 { return 0.0 }
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// StandardTimer is the standard implementation of a Timer and uses a Histogram
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// and Meter.
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type StandardTimer struct {
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histogram Histogram
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meter Meter
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mutex sync.Mutex
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}
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// Count returns the number of events recorded.
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func (t *StandardTimer) Count() int64 {
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return t.histogram.Count()
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}
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// Max returns the maximum value in the sample.
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func (t *StandardTimer) Max() int64 {
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return t.histogram.Max()
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}
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// Mean returns the mean of the values in the sample.
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func (t *StandardTimer) Mean() float64 {
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return t.histogram.Mean()
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}
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// Min returns the minimum value in the sample.
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func (t *StandardTimer) Min() int64 {
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return t.histogram.Min()
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}
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// Percentile returns an arbitrary percentile of the values in the sample.
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func (t *StandardTimer) Percentile(p float64) float64 {
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return t.histogram.Percentile(p)
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}
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// Percentiles returns a slice of arbitrary percentiles of the values in the
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// sample.
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func (t *StandardTimer) Percentiles(ps []float64) []float64 {
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return t.histogram.Percentiles(ps)
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}
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// Rate1 returns the one-minute moving average rate of events per second.
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func (t *StandardTimer) Rate1() float64 {
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return t.meter.Rate1()
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}
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// Rate5 returns the five-minute moving average rate of events per second.
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func (t *StandardTimer) Rate5() float64 {
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return t.meter.Rate5()
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}
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// Rate15 returns the fifteen-minute moving average rate of events per second.
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func (t *StandardTimer) Rate15() float64 {
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return t.meter.Rate15()
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}
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// RateMean returns the meter's mean rate of events per second.
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func (t *StandardTimer) RateMean() float64 {
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return t.meter.RateMean()
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}
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// Snapshot returns a read-only copy of the timer.
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func (t *StandardTimer) Snapshot() Timer {
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t.mutex.Lock()
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defer t.mutex.Unlock()
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return &TimerSnapshot{
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histogram: t.histogram.Snapshot().(*HistogramSnapshot),
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meter: t.meter.Snapshot().(*MeterSnapshot),
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}
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}
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// StdDev returns the standard deviation of the values in the sample.
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func (t *StandardTimer) StdDev() float64 {
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return t.histogram.StdDev()
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}
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// Sum returns the sum in the sample.
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func (t *StandardTimer) Sum() int64 {
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return t.histogram.Sum()
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}
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// Record the duration of the execution of the given function.
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func (t *StandardTimer) Time(f func()) {
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ts := time.Now()
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f()
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t.Update(time.Since(ts))
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}
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// Record the duration of an event.
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func (t *StandardTimer) Update(d time.Duration) {
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t.mutex.Lock()
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defer t.mutex.Unlock()
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t.histogram.Update(int64(d))
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t.meter.Mark(1)
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}
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// Record the duration of an event that started at a time and ends now.
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func (t *StandardTimer) UpdateSince(ts time.Time) {
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t.mutex.Lock()
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defer t.mutex.Unlock()
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t.histogram.Update(int64(time.Since(ts)))
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t.meter.Mark(1)
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}
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// Variance returns the variance of the values in the sample.
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func (t *StandardTimer) Variance() float64 {
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return t.histogram.Variance()
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}
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// TimerSnapshot is a read-only copy of another Timer.
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type TimerSnapshot struct {
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histogram *HistogramSnapshot
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meter *MeterSnapshot
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}
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// Count returns the number of events recorded at the time the snapshot was
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// taken.
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func (t *TimerSnapshot) Count() int64 { return t.histogram.Count() }
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// Max returns the maximum value at the time the snapshot was taken.
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func (t *TimerSnapshot) Max() int64 { return t.histogram.Max() }
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// Mean returns the mean value at the time the snapshot was taken.
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func (t *TimerSnapshot) Mean() float64 { return t.histogram.Mean() }
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// Min returns the minimum value at the time the snapshot was taken.
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func (t *TimerSnapshot) Min() int64 { return t.histogram.Min() }
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// Percentile returns an arbitrary percentile of sampled values at the time the
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// snapshot was taken.
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func (t *TimerSnapshot) Percentile(p float64) float64 {
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return t.histogram.Percentile(p)
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}
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// Percentiles returns a slice of arbitrary percentiles of sampled values at
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// the time the snapshot was taken.
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func (t *TimerSnapshot) Percentiles(ps []float64) []float64 {
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return t.histogram.Percentiles(ps)
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}
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// Rate1 returns the one-minute moving average rate of events per second at the
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// time the snapshot was taken.
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func (t *TimerSnapshot) Rate1() float64 { return t.meter.Rate1() }
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// Rate5 returns the five-minute moving average rate of events per second at
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// the time the snapshot was taken.
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func (t *TimerSnapshot) Rate5() float64 { return t.meter.Rate5() }
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// Rate15 returns the fifteen-minute moving average rate of events per second
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// at the time the snapshot was taken.
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func (t *TimerSnapshot) Rate15() float64 { return t.meter.Rate15() }
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// RateMean returns the meter's mean rate of events per second at the time the
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// snapshot was taken.
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func (t *TimerSnapshot) RateMean() float64 { return t.meter.RateMean() }
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// Snapshot returns the snapshot.
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func (t *TimerSnapshot) Snapshot() Timer { return t }
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// StdDev returns the standard deviation of the values at the time the snapshot
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// was taken.
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func (t *TimerSnapshot) StdDev() float64 { return t.histogram.StdDev() }
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// Sum returns the sum at the time the snapshot was taken.
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func (t *TimerSnapshot) Sum() int64 { return t.histogram.Sum() }
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// Time panics.
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func (*TimerSnapshot) Time(func()) {
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panic("Time called on a TimerSnapshot")
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}
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// Update panics.
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func (*TimerSnapshot) Update(time.Duration) {
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panic("Update called on a TimerSnapshot")
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}
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// UpdateSince panics.
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func (*TimerSnapshot) UpdateSince(time.Time) {
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panic("UpdateSince called on a TimerSnapshot")
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}
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// Variance returns the variance of the values at the time the snapshot was
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// taken.
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func (t *TimerSnapshot) Variance() float64 { return t.histogram.Variance() }
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