protoc-gen-go-micro/vendor/github.com/go-kit/kit/metrics/generic/generic.go

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// Package generic implements generic versions of each of the metric types. They
// can be embedded by other implementations, and converted to specific formats
// as necessary.
package generic
import (
"fmt"
"io"
"math"
"sync"
"sync/atomic"
"github.com/VividCortex/gohistogram"
"github.com/go-kit/kit/metrics"
"github.com/go-kit/kit/metrics/internal/lv"
)
// Counter is an in-memory implementation of a Counter.
type Counter struct {
Name string
lvs lv.LabelValues
bits uint64
}
// NewCounter returns a new, usable Counter.
func NewCounter(name string) *Counter {
return &Counter{
Name: name,
}
}
// With implements Counter.
func (c *Counter) With(labelValues ...string) metrics.Counter {
return &Counter{
bits: atomic.LoadUint64(&c.bits),
lvs: c.lvs.With(labelValues...),
}
}
// Add implements Counter.
func (c *Counter) Add(delta float64) {
for {
var (
old = atomic.LoadUint64(&c.bits)
newf = math.Float64frombits(old) + delta
new = math.Float64bits(newf)
)
if atomic.CompareAndSwapUint64(&c.bits, old, new) {
break
}
}
}
// Value returns the current value of the counter.
func (c *Counter) Value() float64 {
return math.Float64frombits(atomic.LoadUint64(&c.bits))
}
// ValueReset returns the current value of the counter, and resets it to zero.
// This is useful for metrics backends whose counter aggregations expect deltas,
// like Graphite.
func (c *Counter) ValueReset() float64 {
for {
var (
old = atomic.LoadUint64(&c.bits)
newf = 0.0
new = math.Float64bits(newf)
)
if atomic.CompareAndSwapUint64(&c.bits, old, new) {
return math.Float64frombits(old)
}
}
}
// LabelValues returns the set of label values attached to the counter.
func (c *Counter) LabelValues() []string {
return c.lvs
}
// Gauge is an in-memory implementation of a Gauge.
type Gauge struct {
Name string
lvs lv.LabelValues
bits uint64
}
// NewGauge returns a new, usable Gauge.
func NewGauge(name string) *Gauge {
return &Gauge{
Name: name,
}
}
// With implements Gauge.
func (g *Gauge) With(labelValues ...string) metrics.Gauge {
return &Gauge{
bits: atomic.LoadUint64(&g.bits),
lvs: g.lvs.With(labelValues...),
}
}
// Set implements Gauge.
func (g *Gauge) Set(value float64) {
atomic.StoreUint64(&g.bits, math.Float64bits(value))
}
// Value returns the current value of the gauge.
func (g *Gauge) Value() float64 {
return math.Float64frombits(atomic.LoadUint64(&g.bits))
}
// LabelValues returns the set of label values attached to the gauge.
func (g *Gauge) LabelValues() []string {
return g.lvs
}
// Histogram is an in-memory implementation of a streaming histogram, based on
// VividCortex/gohistogram. It dynamically computes quantiles, so it's not
// suitable for aggregation.
type Histogram struct {
Name string
lvs lv.LabelValues
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h gohistogram.Histogram
}
// NewHistogram returns a numeric histogram based on VividCortex/gohistogram. A
// good default value for buckets is 50.
func NewHistogram(name string, buckets int) *Histogram {
return &Histogram{
Name: name,
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h: gohistogram.NewHistogram(buckets),
}
}
// With implements Histogram.
func (h *Histogram) With(labelValues ...string) metrics.Histogram {
return &Histogram{
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lvs: h.lvs.With(labelValues...),
h: h.h,
}
}
// Observe implements Histogram.
func (h *Histogram) Observe(value float64) {
h.h.Add(value)
}
// Quantile returns the value of the quantile q, 0.0 < q < 1.0.
func (h *Histogram) Quantile(q float64) float64 {
return h.h.Quantile(q)
}
// LabelValues returns the set of label values attached to the histogram.
func (h *Histogram) LabelValues() []string {
return h.lvs
}
// Print writes a string representation of the histogram to the passed writer.
// Useful for printing to a terminal.
func (h *Histogram) Print(w io.Writer) {
fmt.Fprintf(w, h.h.String())
}
// Bucket is a range in a histogram which aggregates observations.
type Bucket struct {
From, To, Count int64
}
// Quantile is a pair of a quantile (0..100) and its observed maximum value.
type Quantile struct {
Quantile int // 0..100
Value int64
}
// SimpleHistogram is an in-memory implementation of a Histogram. It only tracks
// an approximate moving average, so is likely too naïve for many use cases.
type SimpleHistogram struct {
mtx sync.RWMutex
lvs lv.LabelValues
avg float64
n uint64
}
// NewSimpleHistogram returns a SimpleHistogram, ready for observations.
func NewSimpleHistogram() *SimpleHistogram {
return &SimpleHistogram{}
}
// With implements Histogram.
func (h *SimpleHistogram) With(labelValues ...string) metrics.Histogram {
return &SimpleHistogram{
lvs: h.lvs.With(labelValues...),
avg: h.avg,
n: h.n,
}
}
// Observe implements Histogram.
func (h *SimpleHistogram) Observe(value float64) {
h.mtx.Lock()
defer h.mtx.Unlock()
h.n++
h.avg -= h.avg / float64(h.n)
h.avg += value / float64(h.n)
}
// ApproximateMovingAverage returns the approximate moving average of observations.
func (h *SimpleHistogram) ApproximateMovingAverage() float64 {
h.mtx.RLock()
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h.mtx.RUnlock()
return h.avg
}
// LabelValues returns the set of label values attached to the histogram.
func (h *SimpleHistogram) LabelValues() []string {
return h.lvs
}