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ad0f7a5305
Upgrade to Go 1.20.5, Hydra v2 SDK, rules-go v0.44.2 (with proper resolves), protobuf v25.3 and mass upgrade of Go dependencies.
337 lines
9.1 KiB
Go
337 lines
9.1 KiB
Go
// Copyright 2017, OpenCensus Authors
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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//
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package view
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import (
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"math"
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"time"
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"go.opencensus.io/metric/metricdata"
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)
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// AggregationData represents an aggregated value from a collection.
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// They are reported on the view data during exporting.
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// Mosts users won't directly access aggregration data.
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type AggregationData interface {
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isAggregationData() bool
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addSample(v float64, attachments map[string]interface{}, t time.Time)
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clone() AggregationData
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equal(other AggregationData) bool
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toPoint(t metricdata.Type, time time.Time) metricdata.Point
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StartTime() time.Time
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}
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const epsilon = 1e-9
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// CountData is the aggregated data for the Count aggregation.
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// A count aggregation processes data and counts the recordings.
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//
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// Most users won't directly access count data.
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type CountData struct {
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Start time.Time
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Value int64
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}
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func (a *CountData) isAggregationData() bool { return true }
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func (a *CountData) addSample(_ float64, _ map[string]interface{}, _ time.Time) {
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a.Value = a.Value + 1
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}
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func (a *CountData) clone() AggregationData {
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return &CountData{Value: a.Value, Start: a.Start}
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}
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func (a *CountData) equal(other AggregationData) bool {
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a2, ok := other.(*CountData)
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if !ok {
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return false
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}
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return a.Start.Equal(a2.Start) && a.Value == a2.Value
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}
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func (a *CountData) toPoint(metricType metricdata.Type, t time.Time) metricdata.Point {
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switch metricType {
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case metricdata.TypeCumulativeInt64:
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return metricdata.NewInt64Point(t, a.Value)
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default:
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panic("unsupported metricdata.Type")
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}
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}
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// StartTime returns the start time of the data being aggregated by CountData.
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func (a *CountData) StartTime() time.Time {
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return a.Start
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}
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// SumData is the aggregated data for the Sum aggregation.
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// A sum aggregation processes data and sums up the recordings.
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//
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// Most users won't directly access sum data.
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type SumData struct {
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Start time.Time
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Value float64
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}
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func (a *SumData) isAggregationData() bool { return true }
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func (a *SumData) addSample(v float64, _ map[string]interface{}, _ time.Time) {
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a.Value += v
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}
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func (a *SumData) clone() AggregationData {
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return &SumData{Value: a.Value, Start: a.Start}
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}
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func (a *SumData) equal(other AggregationData) bool {
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a2, ok := other.(*SumData)
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if !ok {
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return false
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}
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return a.Start.Equal(a2.Start) && math.Pow(a.Value-a2.Value, 2) < epsilon
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}
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func (a *SumData) toPoint(metricType metricdata.Type, t time.Time) metricdata.Point {
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switch metricType {
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case metricdata.TypeCumulativeInt64:
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return metricdata.NewInt64Point(t, int64(a.Value))
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case metricdata.TypeCumulativeFloat64:
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return metricdata.NewFloat64Point(t, a.Value)
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default:
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panic("unsupported metricdata.Type")
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}
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}
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// StartTime returns the start time of the data being aggregated by SumData.
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func (a *SumData) StartTime() time.Time {
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return a.Start
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}
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// DistributionData is the aggregated data for the
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// Distribution aggregation.
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//
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// Most users won't directly access distribution data.
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//
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// For a distribution with N bounds, the associated DistributionData will have
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// N+1 buckets.
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type DistributionData struct {
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Count int64 // number of data points aggregated
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Min float64 // minimum value in the distribution
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Max float64 // max value in the distribution
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Mean float64 // mean of the distribution
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SumOfSquaredDev float64 // sum of the squared deviation from the mean
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CountPerBucket []int64 // number of occurrences per bucket
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// ExemplarsPerBucket is slice the same length as CountPerBucket containing
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// an exemplar for the associated bucket, or nil.
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ExemplarsPerBucket []*metricdata.Exemplar
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bounds []float64 // histogram distribution of the values
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Start time.Time
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}
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func newDistributionData(agg *Aggregation, t time.Time) *DistributionData {
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bucketCount := len(agg.Buckets) + 1
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return &DistributionData{
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CountPerBucket: make([]int64, bucketCount),
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ExemplarsPerBucket: make([]*metricdata.Exemplar, bucketCount),
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bounds: agg.Buckets,
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Min: math.MaxFloat64,
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Max: math.SmallestNonzeroFloat64,
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Start: t,
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}
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}
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// Sum returns the sum of all samples collected.
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func (a *DistributionData) Sum() float64 { return a.Mean * float64(a.Count) }
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func (a *DistributionData) variance() float64 {
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if a.Count <= 1 {
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return 0
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}
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return a.SumOfSquaredDev / float64(a.Count-1)
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}
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func (a *DistributionData) isAggregationData() bool { return true }
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// TODO(songy23): support exemplar attachments.
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func (a *DistributionData) addSample(v float64, attachments map[string]interface{}, t time.Time) {
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if v < a.Min {
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a.Min = v
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}
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if v > a.Max {
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a.Max = v
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}
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a.Count++
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a.addToBucket(v, attachments, t)
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if a.Count == 1 {
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a.Mean = v
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return
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}
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oldMean := a.Mean
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a.Mean = a.Mean + (v-a.Mean)/float64(a.Count)
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a.SumOfSquaredDev = a.SumOfSquaredDev + (v-oldMean)*(v-a.Mean)
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}
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func (a *DistributionData) addToBucket(v float64, attachments map[string]interface{}, t time.Time) {
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var count *int64
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var i int
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var b float64
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for i, b = range a.bounds {
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if v < b {
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count = &a.CountPerBucket[i]
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break
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}
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}
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if count == nil { // Last bucket.
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i = len(a.bounds)
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count = &a.CountPerBucket[i]
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}
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*count++
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if exemplar := getExemplar(v, attachments, t); exemplar != nil {
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a.ExemplarsPerBucket[i] = exemplar
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}
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}
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func getExemplar(v float64, attachments map[string]interface{}, t time.Time) *metricdata.Exemplar {
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if len(attachments) == 0 {
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return nil
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}
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return &metricdata.Exemplar{
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Value: v,
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Timestamp: t,
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Attachments: attachments,
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}
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}
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func (a *DistributionData) clone() AggregationData {
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c := *a
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c.CountPerBucket = append([]int64(nil), a.CountPerBucket...)
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c.ExemplarsPerBucket = append([]*metricdata.Exemplar(nil), a.ExemplarsPerBucket...)
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return &c
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}
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func (a *DistributionData) equal(other AggregationData) bool {
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a2, ok := other.(*DistributionData)
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if !ok {
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return false
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}
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if a2 == nil {
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return false
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}
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if len(a.CountPerBucket) != len(a2.CountPerBucket) {
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return false
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}
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for i := range a.CountPerBucket {
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if a.CountPerBucket[i] != a2.CountPerBucket[i] {
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return false
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}
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}
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return a.Start.Equal(a2.Start) &&
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a.Count == a2.Count &&
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a.Min == a2.Min &&
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a.Max == a2.Max &&
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math.Pow(a.Mean-a2.Mean, 2) < epsilon && math.Pow(a.variance()-a2.variance(), 2) < epsilon
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}
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func (a *DistributionData) toPoint(metricType metricdata.Type, t time.Time) metricdata.Point {
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switch metricType {
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case metricdata.TypeCumulativeDistribution:
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buckets := []metricdata.Bucket{}
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for i := 0; i < len(a.CountPerBucket); i++ {
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buckets = append(buckets, metricdata.Bucket{
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Count: a.CountPerBucket[i],
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Exemplar: a.ExemplarsPerBucket[i],
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})
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}
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bucketOptions := &metricdata.BucketOptions{Bounds: a.bounds}
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val := &metricdata.Distribution{
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Count: a.Count,
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Sum: a.Sum(),
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SumOfSquaredDeviation: a.SumOfSquaredDev,
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BucketOptions: bucketOptions,
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Buckets: buckets,
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}
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return metricdata.NewDistributionPoint(t, val)
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default:
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// TODO: [rghetia] when we have a use case for TypeGaugeDistribution.
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panic("unsupported metricdata.Type")
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}
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}
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// StartTime returns the start time of the data being aggregated by DistributionData.
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func (a *DistributionData) StartTime() time.Time {
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return a.Start
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}
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// LastValueData returns the last value recorded for LastValue aggregation.
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type LastValueData struct {
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Value float64
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}
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func (l *LastValueData) isAggregationData() bool {
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return true
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}
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func (l *LastValueData) addSample(v float64, _ map[string]interface{}, _ time.Time) {
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l.Value = v
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}
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func (l *LastValueData) clone() AggregationData {
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return &LastValueData{l.Value}
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}
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func (l *LastValueData) equal(other AggregationData) bool {
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a2, ok := other.(*LastValueData)
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if !ok {
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return false
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}
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return l.Value == a2.Value
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}
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func (l *LastValueData) toPoint(metricType metricdata.Type, t time.Time) metricdata.Point {
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switch metricType {
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case metricdata.TypeGaugeInt64:
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return metricdata.NewInt64Point(t, int64(l.Value))
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case metricdata.TypeGaugeFloat64:
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return metricdata.NewFloat64Point(t, l.Value)
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default:
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panic("unsupported metricdata.Type")
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}
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}
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// StartTime returns an empty time value as start time is not recorded when using last value
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// aggregation.
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func (l *LastValueData) StartTime() time.Time {
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return time.Time{}
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}
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// ClearStart clears the Start field from data if present. Useful for testing in cases where the
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// start time will be nondeterministic.
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func ClearStart(data AggregationData) {
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switch data := data.(type) {
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case *CountData:
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data.Start = time.Time{}
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case *SumData:
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data.Start = time.Time{}
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case *DistributionData:
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data.Start = time.Time{}
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}
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}
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