internal/telemetry/metric/metric.go - tools - Git at Google

 // Copyright 2019 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 // Package metric aggregates stats into metrics that can be exported.
 package metric

 import (
 	"context"
 	"sort"
 	"time"

 	"golang.org/x/tools/internal/telemetry"
 	"golang.org/x/tools/internal/telemetry/export"
 	"golang.org/x/tools/internal/telemetry/stats"
 	"golang.org/x/tools/internal/telemetry/tag"
 )

 // Scalar represents the construction information for a scalar metric.
 type Scalar struct {
 	// Name is the unique name of this metric.
 	Name string
 	// Description can be used by observers to describe the metric to users.
 	Description string
 	// Keys is the set of tags that collectively describe rows of the metric.
 	Keys []interface{}
 }

 // HistogramInt64 represents the construction information for an int64 histogram metric.
 type HistogramInt64 struct {
 	// Name is the unique name of this metric.
 	Name string
 	// Description can be used by observers to describe the metric to users.
 	Description string
 	// Keys is the set of tags that collectively describe rows of the metric.
 	Keys []interface{}
 	// Buckets holds the inclusive upper bound of each bucket in the histogram.
 	Buckets []int64
 }

 // HistogramFloat64 represents the construction information for an float64 histogram metric.
 type HistogramFloat64 struct {
 	// Name is the unique name of this metric.
 	Name string
 	// Description can be used by observers to describe the metric to users.
 	Description string
 	// Keys is the set of tags that collectively describe rows of the metric.
 	Keys []interface{}
 	// Buckets holds the inclusive upper bound of each bucket in the histogram.
 	Buckets []float64
 }

 // CountInt64 creates a new metric based on the Scalar information that counts
 // the number of times the supplied int64 measure is set.
 // Metrics of this type will use Int64Data.
 func (info Scalar) CountInt64(measure *stats.Int64Measure) string {
 	data := &Int64Data{Info: &info}
 	measure.Subscribe(data.countInt64)
 	return info.Name
 }

 // SumInt64 creates a new metric based on the Scalar information that sums all
 // the values recorded on the int64 measure.
 // Metrics of this type will use Int64Data.
 func (info Scalar) SumInt64(measure *stats.Int64Measure) string {
 	data := &Int64Data{Info: &info}
 	measure.Subscribe(data.sum)
 	_ = data
 	return info.Name
 }

 // LatestInt64 creates a new metric based on the Scalar information that tracks
 // the most recent value recorded on the int64 measure.
 // Metrics of this type will use Int64Data.
 func (info Scalar) LatestInt64(measure *stats.Int64Measure) string {
 	data := &Int64Data{Info: &info, IsGauge: true}
 	measure.Subscribe(data.latest)
 	return info.Name
 }

 // CountFloat64 creates a new metric based on the Scalar information that counts
 // the number of times the supplied float64 measure is set.
 // Metrics of this type will use Int64Data.
 func (info Scalar) CountFloat64(measure *stats.Float64Measure) string {
 	data := &Int64Data{Info: &info}
 	measure.Subscribe(data.countFloat64)
 	return info.Name
 }

 // SumFloat64 creates a new metric based on the Scalar information that sums all
 // the values recorded on the float64 measure.
 // Metrics of this type will use Float64Data.
 func (info Scalar) SumFloat64(measure *stats.Float64Measure) string {
 	data := &Float64Data{Info: &info}
 	measure.Subscribe(data.sum)
 	return info.Name
 }

 // LatestFloat64 creates a new metric based on the Scalar information that tracks
 // the most recent value recorded on the float64 measure.
 // Metrics of this type will use Float64Data.
 func (info Scalar) LatestFloat64(measure *stats.Float64Measure) string {
 	data := &Float64Data{Info: &info, IsGauge: true}
 	measure.Subscribe(data.latest)
 	return info.Name
 }

 // Record creates a new metric based on the HistogramInt64 information that
 // tracks the bucketized counts of values recorded on the int64 measure.
 // Metrics of this type will use HistogramInt64Data.
 func (info HistogramInt64) Record(measure *stats.Int64Measure) string {
 	data := &HistogramInt64Data{Info: &info}
 	measure.Subscribe(data.record)
 	return info.Name
 }

 // Record creates a new metric based on the HistogramFloat64 information that
 // tracks the bucketized counts of values recorded on the float64 measure.
 // Metrics of this type will use HistogramFloat64Data.
 func (info HistogramFloat64) Record(measure *stats.Float64Measure) string {
 	data := &HistogramFloat64Data{Info: &info}
 	measure.Subscribe(data.record)
 	return info.Name
 }

 // Int64Data is a concrete implementation of Data for int64 scalar metrics.
 type Int64Data struct {
 	// Info holds the original consruction information.
 	Info *Scalar
 	// IsGauge is true for metrics that track values, rather than increasing over time.
 	IsGauge bool
 	// Rows holds the per group values for the metric.
 	Rows []int64
 	// End is the last time this metric was updated.
 	EndTime *time.Time

 	groups []telemetry.TagList
 }

 // Float64Data is a concrete implementation of Data for float64 scalar metrics.
 type Float64Data struct {
 	// Info holds the original consruction information.
 	Info *Scalar
 	// IsGauge is true for metrics that track values, rather than increasing over time.
 	IsGauge bool
 	// Rows holds the per group values for the metric.
 	Rows []float64
 	// End is the last time this metric was updated.
 	EndTime *time.Time

 	groups []telemetry.TagList
 }

 // HistogramInt64Data is a concrete implementation of Data for int64 histogram metrics.
 type HistogramInt64Data struct {
 	// Info holds the original consruction information.
 	Info *HistogramInt64
 	// Rows holds the per group values for the metric.
 	Rows []*HistogramInt64Row
 	// End is the last time this metric was updated.
 	EndTime *time.Time

 	groups []telemetry.TagList
 }

 // HistogramInt64Row holds the values for a single row of a HistogramInt64Data.
 type HistogramInt64Row struct {
 	// Values is the counts per bucket.
 	Values []int64
 	// Count is the total count.
 	Count int64
 	// Sum is the sum of all the values recorded.
 	Sum int64
 	// Min is the smallest recorded value.
 	Min int64
 	// Max is the largest recorded value.
 	Max int64
 }

 // HistogramFloat64Data is a concrete implementation of Data for float64 histogram metrics.
 type HistogramFloat64Data struct {
 	// Info holds the original consruction information.
 	Info *HistogramFloat64
 	// Rows holds the per group values for the metric.
 	Rows []*HistogramFloat64Row
 	// End is the last time this metric was updated.
 	EndTime *time.Time

 	groups []telemetry.TagList
 }

 // HistogramFloat64Row holds the values for a single row of a HistogramFloat64Data.
 type HistogramFloat64Row struct {
 	// Values is the counts per bucket.
 	Values []int64
 	// Count is the total count.
 	Count int64
 	// Sum is the sum of all the values recorded.
 	Sum float64
 	// Min is the smallest recorded value.
 	Min float64
 	// Max is the largest recorded value.
 	Max float64
 }

 func getGroup(ctx context.Context, g *[]telemetry.TagList, keys []interface{}) (int, bool) {
 	group := tag.Get(ctx, keys...)
 	old := *g
 	index := sort.Search(len(old), func(i int) bool {
 		return !old[i].Less(group)
 	})
 	if index < len(old) && group.Equal(old[index]) {
 		// not a new group
 		return index, false
 	}
 	*g = make([]telemetry.TagList, len(old)+1)
 	copy(*g, old[:index])
 	copy((*g)[index+1:], old[index:])
 	(*g)[index] = group
 	return index, true
 }

 func (data *Int64Data) Handle() string              { return data.Info.Name }
 func (data *Int64Data) Groups() []telemetry.TagList { return data.groups }

 func (data *Int64Data) modify(ctx context.Context, at time.Time, f func(v int64) int64) {
 	index, insert := getGroup(ctx, &data.groups, data.Info.Keys)
 	old := data.Rows
 	if insert {
 		data.Rows = make([]int64, len(old)+1)
 		copy(data.Rows, old[:index])
 		copy(data.Rows[index+1:], old[index:])
 	} else {
 		data.Rows = make([]int64, len(old))
 		copy(data.Rows, old)
 	}
 	data.Rows[index] = f(data.Rows[index])
 	data.EndTime = &at
 	frozen := *data
 	export.Metric(ctx, &frozen)
 }

 func (data *Int64Data) countInt64(ctx context.Context, measure *stats.Int64Measure, value int64, at time.Time) {
 	data.modify(ctx, at, func(v int64) int64 { return v + 1 })
 }

 func (data *Int64Data) countFloat64(ctx context.Context, measure *stats.Float64Measure, value float64, at time.Time) {
 	data.modify(ctx, at, func(v int64) int64 { return v + 1 })
 }

 func (data *Int64Data) sum(ctx context.Context, measure *stats.Int64Measure, value int64, at time.Time) {
 	data.modify(ctx, at, func(v int64) int64 { return v + value })
 }

 func (data *Int64Data) latest(ctx context.Context, measure *stats.Int64Measure, value int64, at time.Time) {
 	data.modify(ctx, at, func(v int64) int64 { return value })
 }

 func (data *Float64Data) Handle() string              { return data.Info.Name }
 func (data *Float64Data) Groups() []telemetry.TagList { return data.groups }

 func (data *Float64Data) modify(ctx context.Context, at time.Time, f func(v float64) float64) {
 	index, insert := getGroup(ctx, &data.groups, data.Info.Keys)
 	old := data.Rows
 	if insert {
 		data.Rows = make([]float64, len(old)+1)
 		copy(data.Rows, old[:index])
 		copy(data.Rows[index+1:], old[index:])
 	} else {
 		data.Rows = make([]float64, len(old))
 		copy(data.Rows, old)
 	}
 	data.Rows[index] = f(data.Rows[index])
 	data.EndTime = &at
 	frozen := *data
 	export.Metric(ctx, &frozen)
 }

 func (data *Float64Data) sum(ctx context.Context, measure *stats.Float64Measure, value float64, at time.Time) {
 	data.modify(ctx, at, func(v float64) float64 { return v + value })
 }

 func (data *Float64Data) latest(ctx context.Context, measure *stats.Float64Measure, value float64, at time.Time) {
 	data.modify(ctx, at, func(v float64) float64 { return value })
 }

 func (data *HistogramInt64Data) Handle() string              { return data.Info.Name }
 func (data *HistogramInt64Data) Groups() []telemetry.TagList { return data.groups }

 func (data *HistogramInt64Data) modify(ctx context.Context, at time.Time, f func(v *HistogramInt64Row)) {
 	index, insert := getGroup(ctx, &data.groups, data.Info.Keys)
 	old := data.Rows
 	var v HistogramInt64Row
 	if insert {
 		data.Rows = make([]*HistogramInt64Row, len(old)+1)
 		copy(data.Rows, old[:index])
 		copy(data.Rows[index+1:], old[index:])
 	} else {
 		data.Rows = make([]*HistogramInt64Row, len(old))
 		copy(data.Rows, old)
 		v = *data.Rows[index]
 	}
 	oldValues := v.Values
 	v.Values = make([]int64, len(data.Info.Buckets))
 	copy(v.Values, oldValues)
 	f(&v)
 	data.Rows[index] = &v
 	data.EndTime = &at
 	frozen := *data
 	export.Metric(ctx, &frozen)
 }

 func (data *HistogramInt64Data) record(ctx context.Context, measure *stats.Int64Measure, value int64, at time.Time) {
 	data.modify(ctx, at, func(v *HistogramInt64Row) {
 		v.Sum += value
 		if v.Min > value || v.Count == 0 {
 			v.Min = value
 		}
 		if v.Max < value || v.Count == 0 {
 			v.Max = value
 		}
 		v.Count++
 		for i, b := range data.Info.Buckets {
 			if value <= b {
 				v.Values[i]++
 			}
 		}
 	})
 }

 func (data *HistogramFloat64Data) Handle() string              { return data.Info.Name }
 func (data *HistogramFloat64Data) Groups() []telemetry.TagList { return data.groups }

 func (data *HistogramFloat64Data) modify(ctx context.Context, at time.Time, f func(v *HistogramFloat64Row)) {
 	index, insert := getGroup(ctx, &data.groups, data.Info.Keys)
 	old := data.Rows
 	var v HistogramFloat64Row
 	if insert {
 		data.Rows = make([]*HistogramFloat64Row, len(old)+1)
 		copy(data.Rows, old[:index])
 		copy(data.Rows[index+1:], old[index:])
 	} else {
 		data.Rows = make([]*HistogramFloat64Row, len(old))
 		copy(data.Rows, old)
 		v = *data.Rows[index]
 	}
 	oldValues := v.Values
 	v.Values = make([]int64, len(data.Info.Buckets))
 	copy(v.Values, oldValues)
 	f(&v)
 	data.Rows[index] = &v
 	data.EndTime = &at
 	frozen := *data
 	export.Metric(ctx, &frozen)
 }

 func (data *HistogramFloat64Data) record(ctx context.Context, measure *stats.Float64Measure, value float64, at time.Time) {
 	data.modify(ctx, at, func(v *HistogramFloat64Row) {
 		v.Sum += value
 		if v.Min > value || v.Count == 0 {
 			v.Min = value
 		}
 		if v.Max < value || v.Count == 0 {
 			v.Max = value
 		}
 		v.Count++
 		for i, b := range data.Info.Buckets {
 			if value <= b {
 				v.Values[i]++
 			}
 		}
 	})
 }
	// Copyright 2019 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	// Package metric aggregates stats into metrics that can be exported.
	package metric

	import (
	"context"
	"sort"
	"time"

	"golang.org/x/tools/internal/telemetry"
	"golang.org/x/tools/internal/telemetry/export"
	"golang.org/x/tools/internal/telemetry/stats"
	"golang.org/x/tools/internal/telemetry/tag"
	)

	// Scalar represents the construction information for a scalar metric.
	type Scalar struct {
	// Name is the unique name of this metric.
	Name string
	// Description can be used by observers to describe the metric to users.
	Description string
	// Keys is the set of tags that collectively describe rows of the metric.
	Keys []interface{}
	}

	// HistogramInt64 represents the construction information for an int64 histogram metric.
	type HistogramInt64 struct {
	// Name is the unique name of this metric.
	Name string
	// Description can be used by observers to describe the metric to users.
	Description string
	// Keys is the set of tags that collectively describe rows of the metric.
	Keys []interface{}
	// Buckets holds the inclusive upper bound of each bucket in the histogram.
	Buckets []int64
	}

	// HistogramFloat64 represents the construction information for an float64 histogram metric.
	type HistogramFloat64 struct {
	// Name is the unique name of this metric.
	Name string
	// Description can be used by observers to describe the metric to users.
	Description string
	// Keys is the set of tags that collectively describe rows of the metric.
	Keys []interface{}
	// Buckets holds the inclusive upper bound of each bucket in the histogram.
	Buckets []float64
	}

	// CountInt64 creates a new metric based on the Scalar information that counts
	// the number of times the supplied int64 measure is set.
	// Metrics of this type will use Int64Data.
	func (info Scalar) CountInt64(measure *stats.Int64Measure) string {
	data := &Int64Data{Info: &info}
	measure.Subscribe(data.countInt64)
	return info.Name
	}

	// SumInt64 creates a new metric based on the Scalar information that sums all
	// the values recorded on the int64 measure.
	// Metrics of this type will use Int64Data.
	func (info Scalar) SumInt64(measure *stats.Int64Measure) string {
	data := &Int64Data{Info: &info}
	measure.Subscribe(data.sum)
	_ = data
	return info.Name
	}

	// LatestInt64 creates a new metric based on the Scalar information that tracks
	// the most recent value recorded on the int64 measure.
	// Metrics of this type will use Int64Data.
	func (info Scalar) LatestInt64(measure *stats.Int64Measure) string {
	data := &Int64Data{Info: &info, IsGauge: true}
	measure.Subscribe(data.latest)
	return info.Name
	}

	// CountFloat64 creates a new metric based on the Scalar information that counts
	// the number of times the supplied float64 measure is set.
	// Metrics of this type will use Int64Data.
	func (info Scalar) CountFloat64(measure *stats.Float64Measure) string {
	data := &Int64Data{Info: &info}
	measure.Subscribe(data.countFloat64)
	return info.Name
	}

	// SumFloat64 creates a new metric based on the Scalar information that sums all
	// the values recorded on the float64 measure.
	// Metrics of this type will use Float64Data.
	func (info Scalar) SumFloat64(measure *stats.Float64Measure) string {
	data := &Float64Data{Info: &info}
	measure.Subscribe(data.sum)
	return info.Name
	}

	// LatestFloat64 creates a new metric based on the Scalar information that tracks
	// the most recent value recorded on the float64 measure.
	// Metrics of this type will use Float64Data.
	func (info Scalar) LatestFloat64(measure *stats.Float64Measure) string {
	data := &Float64Data{Info: &info, IsGauge: true}
	measure.Subscribe(data.latest)
	return info.Name
	}

	// Record creates a new metric based on the HistogramInt64 information that
	// tracks the bucketized counts of values recorded on the int64 measure.
	// Metrics of this type will use HistogramInt64Data.
	func (info HistogramInt64) Record(measure *stats.Int64Measure) string {
	data := &HistogramInt64Data{Info: &info}
	measure.Subscribe(data.record)
	return info.Name
	}

	// Record creates a new metric based on the HistogramFloat64 information that
	// tracks the bucketized counts of values recorded on the float64 measure.
	// Metrics of this type will use HistogramFloat64Data.
	func (info HistogramFloat64) Record(measure *stats.Float64Measure) string {
	data := &HistogramFloat64Data{Info: &info}
	measure.Subscribe(data.record)
	return info.Name
	}

	// Int64Data is a concrete implementation of Data for int64 scalar metrics.
	type Int64Data struct {
	// Info holds the original consruction information.
	Info *Scalar
	// IsGauge is true for metrics that track values, rather than increasing over time.
	IsGauge bool
	// Rows holds the per group values for the metric.
	Rows []int64
	// End is the last time this metric was updated.
	EndTime *time.Time

	groups []telemetry.TagList
	}

	// Float64Data is a concrete implementation of Data for float64 scalar metrics.
	type Float64Data struct {
	// Info holds the original consruction information.
	Info *Scalar
	// IsGauge is true for metrics that track values, rather than increasing over time.
	IsGauge bool
	// Rows holds the per group values for the metric.
	Rows []float64
	// End is the last time this metric was updated.
	EndTime *time.Time

	groups []telemetry.TagList
	}

	// HistogramInt64Data is a concrete implementation of Data for int64 histogram metrics.
	type HistogramInt64Data struct {
	// Info holds the original consruction information.
	Info *HistogramInt64
	// Rows holds the per group values for the metric.
	Rows []*HistogramInt64Row
	// End is the last time this metric was updated.
	EndTime *time.Time

	groups []telemetry.TagList
	}

	// HistogramInt64Row holds the values for a single row of a HistogramInt64Data.
	type HistogramInt64Row struct {
	// Values is the counts per bucket.
	Values []int64
	// Count is the total count.
	Count int64
	// Sum is the sum of all the values recorded.
	Sum int64
	// Min is the smallest recorded value.
	Min int64
	// Max is the largest recorded value.
	Max int64
	}

	// HistogramFloat64Data is a concrete implementation of Data for float64 histogram metrics.
	type HistogramFloat64Data struct {
	// Info holds the original consruction information.
	Info *HistogramFloat64
	// Rows holds the per group values for the metric.
	Rows []*HistogramFloat64Row
	// End is the last time this metric was updated.
	EndTime *time.Time

	groups []telemetry.TagList
	}

	// HistogramFloat64Row holds the values for a single row of a HistogramFloat64Data.
	type HistogramFloat64Row struct {
	// Values is the counts per bucket.
	Values []int64
	// Count is the total count.
	Count int64
	// Sum is the sum of all the values recorded.
	Sum float64
	// Min is the smallest recorded value.
	Min float64
	// Max is the largest recorded value.
	Max float64
	}

	func getGroup(ctx context.Context, g *[]telemetry.TagList, keys []interface{}) (int, bool) {
	group := tag.Get(ctx, keys...)
	old := *g
	index := sort.Search(len(old), func(i int) bool {
	return !old[i].Less(group)
	})
	if index < len(old) && group.Equal(old[index]) {
	// not a new group
	return index, false
	}
	*g = make([]telemetry.TagList, len(old)+1)
	copy(*g, old[:index])
	copy((*g)[index+1:], old[index:])
	(*g)[index] = group
	return index, true
	}

	func (data *Int64Data) Handle() string { return data.Info.Name }
	func (data *Int64Data) Groups() []telemetry.TagList { return data.groups }

	func (data *Int64Data) modify(ctx context.Context, at time.Time, f func(v int64) int64) {
	index, insert := getGroup(ctx, &data.groups, data.Info.Keys)
	old := data.Rows
	if insert {
	data.Rows = make([]int64, len(old)+1)
	copy(data.Rows, old[:index])
	copy(data.Rows[index+1:], old[index:])
	} else {
	data.Rows = make([]int64, len(old))
	copy(data.Rows, old)
	}
	data.Rows[index] = f(data.Rows[index])
	data.EndTime = &at
	frozen := *data
	export.Metric(ctx, &frozen)
	}

	func (data Int64Data) countInt64(ctx context.Context, measure stats.Int64Measure, value int64, at time.Time) {
	data.modify(ctx, at, func(v int64) int64 { return v + 1 })
	}

	func (data Int64Data) countFloat64(ctx context.Context, measure stats.Float64Measure, value float64, at time.Time) {
	data.modify(ctx, at, func(v int64) int64 { return v + 1 })
	}

	func (data Int64Data) sum(ctx context.Context, measure stats.Int64Measure, value int64, at time.Time) {
	data.modify(ctx, at, func(v int64) int64 { return v + value })
	}

	func (data Int64Data) latest(ctx context.Context, measure stats.Int64Measure, value int64, at time.Time) {
	data.modify(ctx, at, func(v int64) int64 { return value })
	}

	func (data *Float64Data) Handle() string { return data.Info.Name }
	func (data *Float64Data) Groups() []telemetry.TagList { return data.groups }

	func (data *Float64Data) modify(ctx context.Context, at time.Time, f func(v float64) float64) {
	index, insert := getGroup(ctx, &data.groups, data.Info.Keys)
	old := data.Rows
	if insert {
	data.Rows = make([]float64, len(old)+1)
	copy(data.Rows, old[:index])
	copy(data.Rows[index+1:], old[index:])
	} else {
	data.Rows = make([]float64, len(old))
	copy(data.Rows, old)
	}
	data.Rows[index] = f(data.Rows[index])
	data.EndTime = &at
	frozen := *data
	export.Metric(ctx, &frozen)
	}

	func (data Float64Data) sum(ctx context.Context, measure stats.Float64Measure, value float64, at time.Time) {
	data.modify(ctx, at, func(v float64) float64 { return v + value })
	}

	func (data Float64Data) latest(ctx context.Context, measure stats.Float64Measure, value float64, at time.Time) {
	data.modify(ctx, at, func(v float64) float64 { return value })
	}

	func (data *HistogramInt64Data) Handle() string { return data.Info.Name }
	func (data *HistogramInt64Data) Groups() []telemetry.TagList { return data.groups }

	func (data HistogramInt64Data) modify(ctx context.Context, at time.Time, f func(v HistogramInt64Row)) {
	index, insert := getGroup(ctx, &data.groups, data.Info.Keys)
	old := data.Rows
	var v HistogramInt64Row
	if insert {
	data.Rows = make([]*HistogramInt64Row, len(old)+1)
	copy(data.Rows, old[:index])
	copy(data.Rows[index+1:], old[index:])
	} else {
	data.Rows = make([]*HistogramInt64Row, len(old))
	copy(data.Rows, old)
	v = *data.Rows[index]
	}
	oldValues := v.Values
	v.Values = make([]int64, len(data.Info.Buckets))
	copy(v.Values, oldValues)
	f(&v)
	data.Rows[index] = &v
	data.EndTime = &at
	frozen := *data
	export.Metric(ctx, &frozen)
	}

	func (data HistogramInt64Data) record(ctx context.Context, measure stats.Int64Measure, value int64, at time.Time) {
	data.modify(ctx, at, func(v *HistogramInt64Row) {
	v.Sum += value
	if v.Min > value \|\| v.Count == 0 {
	v.Min = value
	}
	if v.Max < value \|\| v.Count == 0 {
	v.Max = value
	}
	v.Count++
	for i, b := range data.Info.Buckets {
	if value <= b {
	v.Values[i]++
	}
	}
	})
	}

	func (data *HistogramFloat64Data) Handle() string { return data.Info.Name }
	func (data *HistogramFloat64Data) Groups() []telemetry.TagList { return data.groups }

	func (data HistogramFloat64Data) modify(ctx context.Context, at time.Time, f func(v HistogramFloat64Row)) {
	index, insert := getGroup(ctx, &data.groups, data.Info.Keys)
	old := data.Rows
	var v HistogramFloat64Row
	if insert {
	data.Rows = make([]*HistogramFloat64Row, len(old)+1)
	copy(data.Rows, old[:index])
	copy(data.Rows[index+1:], old[index:])
	} else {
	data.Rows = make([]*HistogramFloat64Row, len(old))
	copy(data.Rows, old)
	v = *data.Rows[index]
	}
	oldValues := v.Values
	v.Values = make([]int64, len(data.Info.Buckets))
	copy(v.Values, oldValues)
	f(&v)
	data.Rows[index] = &v
	data.EndTime = &at
	frozen := *data
	export.Metric(ctx, &frozen)
	}

	func (data HistogramFloat64Data) record(ctx context.Context, measure stats.Float64Measure, value float64, at time.Time) {
	data.modify(ctx, at, func(v *HistogramFloat64Row) {
	v.Sum += value
	if v.Min > value \|\| v.Count == 0 {
	v.Min = value
	}
	if v.Max < value \|\| v.Count == 0 {
	v.Max = value
	}
	v.Count++
	for i, b := range data.Info.Buckets {
	if value <= b {
	v.Values[i]++
	}
	}
	})
	}