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371 lines
9.7 KiB
371 lines
9.7 KiB
11 months ago
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// Copyright 2023 The Prometheus Authors
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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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package main
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import (
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"context"
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"errors"
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"fmt"
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"io"
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"math"
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"net/http"
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"net/url"
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"os"
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"sort"
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"strconv"
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"strings"
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"time"
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v1 "github.com/prometheus/client_golang/api/prometheus/v1"
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"github.com/prometheus/common/model"
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"github.com/prometheus/prometheus/model/labels"
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)
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var (
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errNotNativeHistogram = fmt.Errorf("not a native histogram")
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errNotEnoughData = fmt.Errorf("not enough data")
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outputHeader = `Bucket stats for each histogram series over time
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------------------------------------------------
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First the min, avg, and max number of populated buckets, followed by the total
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number of buckets (only if different from the max number of populated buckets
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which is typical for classic but not native histograms).`
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outputFooter = `Aggregated bucket stats
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-----------------------
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Each line shows min/avg/max over the series above.`
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)
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type QueryAnalyzeConfig struct {
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metricType string
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duration time.Duration
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time string
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matchers []string
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}
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// run retrieves metrics that look like conventional histograms (i.e. have _bucket
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// suffixes) or native histograms, depending on metricType flag.
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func (c *QueryAnalyzeConfig) run(url *url.URL, roundtripper http.RoundTripper) error {
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if c.metricType != "histogram" {
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return fmt.Errorf("analyze type is %s, must be 'histogram'", c.metricType)
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}
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ctx := context.Background()
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api, err := newAPI(url, roundtripper, nil)
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if err != nil {
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return err
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}
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var endTime time.Time
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if c.time != "" {
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endTime, err = parseTime(c.time)
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if err != nil {
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return fmt.Errorf("error parsing time '%s': %w", c.time, err)
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}
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} else {
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endTime = time.Now()
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}
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return c.getStatsFromMetrics(ctx, api, endTime, os.Stdout, c.matchers)
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}
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func (c *QueryAnalyzeConfig) getStatsFromMetrics(ctx context.Context, api v1.API, endTime time.Time, out io.Writer, matchers []string) error {
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fmt.Fprintf(out, "%s\n\n", outputHeader)
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metastatsNative := newMetaStatistics()
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metastatsClassic := newMetaStatistics()
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for _, matcher := range matchers {
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seriesSel := seriesSelector(matcher, c.duration)
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matrix, err := querySamples(ctx, api, seriesSel, endTime)
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if err != nil {
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return err
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}
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matrices := make(map[string]model.Matrix)
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for _, series := range matrix {
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// We do not handle mixed types. If there are float values, we assume it is a
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// classic histogram, otherwise we assume it is a native histogram, and we
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// ignore series with errors if they do not match the expected type.
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if len(series.Values) == 0 {
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stats, err := calcNativeBucketStatistics(series)
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if err != nil {
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if errors.Is(err, errNotNativeHistogram) || errors.Is(err, errNotEnoughData) {
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continue
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}
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return err
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}
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fmt.Fprintf(out, "- %s (native): %v\n", series.Metric, *stats)
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metastatsNative.update(stats)
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} else {
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lbs := model.LabelSet(series.Metric).Clone()
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if _, ok := lbs["le"]; !ok {
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continue
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}
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metricName := string(lbs[labels.MetricName])
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if !strings.HasSuffix(metricName, "_bucket") {
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continue
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}
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delete(lbs, labels.MetricName)
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delete(lbs, "le")
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key := formatSeriesName(metricName, lbs)
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matrices[key] = append(matrices[key], series)
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}
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}
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for key, matrix := range matrices {
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stats, err := calcClassicBucketStatistics(matrix)
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if err != nil {
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if errors.Is(err, errNotEnoughData) {
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continue
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}
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return err
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}
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fmt.Fprintf(out, "- %s (classic): %v\n", key, *stats)
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metastatsClassic.update(stats)
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}
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}
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fmt.Fprintf(out, "\n%s\n", outputFooter)
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if metastatsNative.Count() > 0 {
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fmt.Fprintf(out, "\nNative %s\n", metastatsNative)
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}
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if metastatsClassic.Count() > 0 {
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fmt.Fprintf(out, "\nClassic %s\n", metastatsClassic)
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}
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return nil
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}
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func seriesSelector(metricName string, duration time.Duration) string {
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builder := strings.Builder{}
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builder.WriteString(metricName)
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builder.WriteRune('[')
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builder.WriteString(duration.String())
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builder.WriteRune(']')
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return builder.String()
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}
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func formatSeriesName(metricName string, lbs model.LabelSet) string {
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builder := strings.Builder{}
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builder.WriteString(metricName)
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builder.WriteString(lbs.String())
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return builder.String()
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}
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func querySamples(ctx context.Context, api v1.API, query string, end time.Time) (model.Matrix, error) {
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values, _, err := api.Query(ctx, query, end)
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if err != nil {
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return nil, err
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}
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matrix, ok := values.(model.Matrix)
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if !ok {
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return nil, fmt.Errorf("query of buckets resulted in non-Matrix")
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}
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return matrix, nil
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}
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// minPop/avgPop/maxPop is for the number of populated (non-zero) buckets.
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// total is the total number of buckets across all samples in the series,
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// populated or not.
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type statistics struct {
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minPop, maxPop, total int
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avgPop float64
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}
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func (s statistics) String() string {
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if s.maxPop == s.total {
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return fmt.Sprintf("%d/%.3f/%d", s.minPop, s.avgPop, s.maxPop)
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}
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return fmt.Sprintf("%d/%.3f/%d/%d", s.minPop, s.avgPop, s.maxPop, s.total)
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}
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func calcClassicBucketStatistics(matrix model.Matrix) (*statistics, error) {
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numBuckets := len(matrix)
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stats := &statistics{
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minPop: math.MaxInt,
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total: numBuckets,
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}
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if numBuckets == 0 || len(matrix[0].Values) < 2 {
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return stats, errNotEnoughData
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}
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numSamples := len(matrix[0].Values)
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sortMatrix(matrix)
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totalPop := 0
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for timeIdx := 0; timeIdx < numSamples; timeIdx++ {
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curr, err := getBucketCountsAtTime(matrix, numBuckets, timeIdx)
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if err != nil {
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return stats, err
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}
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countPop := 0
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for _, b := range curr {
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if b != 0 {
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countPop++
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}
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}
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totalPop += countPop
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if stats.minPop > countPop {
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stats.minPop = countPop
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}
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if stats.maxPop < countPop {
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stats.maxPop = countPop
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}
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}
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stats.avgPop = float64(totalPop) / float64(numSamples)
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return stats, nil
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}
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func sortMatrix(matrix model.Matrix) {
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sort.SliceStable(matrix, func(i, j int) bool {
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return getLe(matrix[i]) < getLe(matrix[j])
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})
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}
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func getLe(series *model.SampleStream) float64 {
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lbs := model.LabelSet(series.Metric)
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le, _ := strconv.ParseFloat(string(lbs["le"]), 64)
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return le
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}
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func getBucketCountsAtTime(matrix model.Matrix, numBuckets, timeIdx int) ([]int, error) {
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counts := make([]int, numBuckets)
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if timeIdx >= len(matrix[0].Values) {
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// Just return zeroes instead of erroring out so we can get partial results.
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return counts, nil
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}
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counts[0] = int(matrix[0].Values[timeIdx].Value)
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for i, bucket := range matrix[1:] {
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if timeIdx >= len(bucket.Values) {
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// Just return zeroes instead of erroring out so we can get partial results.
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return counts, nil
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}
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curr := bucket.Values[timeIdx]
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prev := matrix[i].Values[timeIdx]
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// Assume the results are nicely aligned.
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if curr.Timestamp != prev.Timestamp {
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return counts, fmt.Errorf("matrix result is not time aligned")
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}
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counts[i+1] = int(curr.Value - prev.Value)
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}
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return counts, nil
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}
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type bucketBounds struct {
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boundaries int32
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upper, lower float64
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}
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func makeBucketBounds(b *model.HistogramBucket) bucketBounds {
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return bucketBounds{
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boundaries: b.Boundaries,
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upper: float64(b.Upper),
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lower: float64(b.Lower),
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}
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}
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func calcNativeBucketStatistics(series *model.SampleStream) (*statistics, error) {
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stats := &statistics{
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minPop: math.MaxInt,
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}
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overall := make(map[bucketBounds]struct{})
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totalPop := 0
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if len(series.Histograms) == 0 {
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return nil, errNotNativeHistogram
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}
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if len(series.Histograms) == 1 {
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return nil, errNotEnoughData
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}
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for _, histogram := range series.Histograms {
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for _, bucket := range histogram.Histogram.Buckets {
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bb := makeBucketBounds(bucket)
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overall[bb] = struct{}{}
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}
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countPop := len(histogram.Histogram.Buckets)
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totalPop += countPop
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if stats.minPop > countPop {
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stats.minPop = countPop
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}
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if stats.maxPop < countPop {
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stats.maxPop = countPop
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}
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}
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stats.avgPop = float64(totalPop) / float64(len(series.Histograms))
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stats.total = len(overall)
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return stats, nil
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}
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type distribution struct {
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min, max, count int
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avg float64
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}
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func newDistribution() distribution {
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return distribution{
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min: math.MaxInt,
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}
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}
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func (d *distribution) update(num int) {
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if d.min > num {
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d.min = num
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}
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if d.max < num {
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d.max = num
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}
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d.count++
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d.avg += float64(num)/float64(d.count) - d.avg/float64(d.count)
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}
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func (d distribution) String() string {
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return fmt.Sprintf("%d/%.3f/%d", d.min, d.avg, d.max)
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}
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type metaStatistics struct {
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minPop, avgPop, maxPop, total distribution
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}
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func newMetaStatistics() *metaStatistics {
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return &metaStatistics{
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minPop: newDistribution(),
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avgPop: newDistribution(),
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maxPop: newDistribution(),
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total: newDistribution(),
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}
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}
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func (ms metaStatistics) Count() int {
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return ms.minPop.count
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}
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func (ms metaStatistics) String() string {
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if ms.maxPop == ms.total {
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return fmt.Sprintf("histogram series (%d in total):\n- min populated: %v\n- avg populated: %v\n- max populated: %v", ms.Count(), ms.minPop, ms.avgPop, ms.maxPop)
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}
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return fmt.Sprintf("histogram series (%d in total):\n- min populated: %v\n- avg populated: %v\n- max populated: %v\n- total: %v", ms.Count(), ms.minPop, ms.avgPop, ms.maxPop, ms.total)
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}
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func (ms *metaStatistics) update(s *statistics) {
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ms.minPop.update(s.minPop)
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ms.avgPop.update(int(s.avgPop))
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ms.maxPop.update(s.maxPop)
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ms.total.update(s.total)
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}
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