forked from mirror/client_golang
343 lines
9.6 KiB
Go
343 lines
9.6 KiB
Go
// Copyright (c) 2013, Prometheus Team
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// All rights reserved.
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//
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package prometheus
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import (
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"bytes"
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"encoding/json"
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"fmt"
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"math"
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"strconv"
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"sync"
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dto "github.com/prometheus/client_model/go"
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"code.google.com/p/goprotobuf/proto"
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)
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// This generates count-buckets of equal size distributed along the open
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// interval of lower to upper. For instance, {lower=0, upper=10, count=5}
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// yields the following: [0, 2, 4, 6, 8].
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func EquallySizedBucketsFor(lower, upper float64, count int) []float64 {
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buckets := make([]float64, count)
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partitionSize := (upper - lower) / float64(count)
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for i := 0; i < count; i++ {
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m := float64(i)
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buckets[i] = lower + (m * partitionSize)
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}
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return buckets
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}
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// This generates log2-sized buckets spanning from lower to upper inclusively
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// as well as values beyond it.
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func LogarithmicSizedBucketsFor(lower, upper float64) []float64 {
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bucketCount := int(math.Ceil(math.Log2(upper)))
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buckets := make([]float64, bucketCount)
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for i, j := 0, 0.0; i < bucketCount; i, j = i+1, math.Pow(2, float64(i+1.0)) {
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buckets[i] = j
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}
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return buckets
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}
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// A HistogramSpecification defines how a Histogram is to be built.
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type HistogramSpecification struct {
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BucketBuilder BucketBuilder
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ReportablePercentiles []float64
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Starts []float64
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}
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type Histogram interface {
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Metric
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Add(labels map[string]string, value float64)
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}
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// The histogram is an accumulator for samples. It merely routes into which
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// bucket to capture an event and provides a percentile calculation mechanism.
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type histogram struct {
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bucketMaker BucketBuilder
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// This represents the open interval's start at which values shall be added to
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// the bucket. The interval continues until the beginning of the next bucket
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// exclusive or positive infinity.
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//
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// N.B.
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// - bucketStarts should be sorted in ascending order;
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// - len(bucketStarts) must be equivalent to len(buckets);
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// - The index of a given bucketStarts' element is presumed to
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// correspond to the appropriate element in buckets.
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bucketStarts []float64
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mutex sync.RWMutex
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// These are the buckets that capture samples as they are emitted to the
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// histogram. Please consult the reference interface and its implements for
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// further details about behavior expectations.
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values map[uint64]*histogramVector
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// These are the percentile values that will be reported on marshalling.
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reportablePercentiles []float64
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}
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type histogramVector struct {
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buckets []Bucket
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labels map[string]string
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}
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func (h *histogram) Add(labels map[string]string, value float64) {
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h.mutex.Lock()
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defer h.mutex.Unlock()
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if labels == nil {
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labels = map[string]string{}
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}
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signature := labelsToSignature(labels)
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var histogram *histogramVector = nil
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if original, ok := h.values[signature]; ok {
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histogram = original
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} else {
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bucketCount := len(h.bucketStarts)
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histogram = &histogramVector{
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buckets: make([]Bucket, bucketCount),
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labels: labels,
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}
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for i := 0; i < bucketCount; i++ {
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histogram.buckets[i] = h.bucketMaker()
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}
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h.values[signature] = histogram
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}
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lastIndex := 0
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for i, bucketStart := range h.bucketStarts {
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if value < bucketStart {
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break
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}
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lastIndex = i
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}
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histogram.buckets[lastIndex].Add(value)
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}
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func (h *histogram) String() string {
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h.mutex.RLock()
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defer h.mutex.RUnlock()
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stringBuffer := &bytes.Buffer{}
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stringBuffer.WriteString("[Histogram { ")
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for _, histogram := range h.values {
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fmt.Fprintf(stringBuffer, "Labels: %s ", histogram.labels)
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for i, bucketStart := range h.bucketStarts {
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bucket := histogram.buckets[i]
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fmt.Fprintf(stringBuffer, "[%f, inf) = %s, ", bucketStart, bucket)
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}
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}
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stringBuffer.WriteString("}]")
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return stringBuffer.String()
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}
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// Determine the number of previous observations up to a given index.
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func previousCumulativeObservations(cumulativeObservations []int, bucketIndex int) int {
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if bucketIndex == 0 {
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return 0
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}
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return cumulativeObservations[bucketIndex-1]
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}
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// Determine the index for an element given a percentage of length.
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func prospectiveIndexForPercentile(percentile float64, totalObservations int) int {
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return int(percentile * float64(totalObservations-1))
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}
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// Determine the next bucket element when interim bucket intervals may be empty.
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func (h histogram) nextNonEmptyBucketElement(signature uint64, currentIndex, bucketCount int, observationsByBucket []int) (*Bucket, int) {
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for i := currentIndex; i < bucketCount; i++ {
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if observationsByBucket[i] == 0 {
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continue
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}
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histogram := h.values[signature]
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return &histogram.buckets[i], 0
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}
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panic("Illegal Condition: There were no remaining buckets to provide a value.")
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}
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// Find what bucket and element index contains a given percentile value.
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// If a percentile is requested that results in a corresponding index that is no
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// longer contained by the bucket, the index of the last item is returned. This
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// may occur if the underlying bucket catalogs values and employs an eviction
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// strategy.
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func (h histogram) bucketForPercentile(signature uint64, percentile float64) (*Bucket, int) {
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bucketCount := len(h.bucketStarts)
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// This captures the quantity of samples in a given bucket's range.
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observationsByBucket := make([]int, bucketCount)
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// This captures the cumulative quantity of observations from all preceding
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// buckets up and to the end of this bucket.
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cumulativeObservationsByBucket := make([]int, bucketCount)
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totalObservations := 0
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histogram := h.values[signature]
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for i, bucket := range histogram.buckets {
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observations := bucket.Observations()
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observationsByBucket[i] = observations
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totalObservations += bucket.Observations()
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cumulativeObservationsByBucket[i] = totalObservations
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}
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// This captures the index offset where the given percentile value would be
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// were all submitted samples stored and never down-/re-sampled nor deleted
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// and housed in a singular array.
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prospectiveIndex := prospectiveIndexForPercentile(percentile, totalObservations)
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for i, cumulativeObservation := range cumulativeObservationsByBucket {
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if cumulativeObservation == 0 {
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continue
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}
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// Find the bucket that contains the given index.
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if cumulativeObservation >= prospectiveIndex {
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var subIndex int
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// This calculates the index within the current bucket where the given
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// percentile may be found.
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subIndex = prospectiveIndex - previousCumulativeObservations(cumulativeObservationsByBucket, i)
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// Sometimes the index may be the last item, in which case we need to
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// take this into account.
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if observationsByBucket[i] == subIndex {
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return h.nextNonEmptyBucketElement(signature, i+1, bucketCount, observationsByBucket)
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}
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return &histogram.buckets[i], subIndex
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}
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}
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return &histogram.buckets[0], 0
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}
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// Return the histogram's estimate of the value for a given percentile of
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// collected samples. The requested percentile is expected to be a real
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// value within (0, 1.0].
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func (h histogram) percentile(signature uint64, percentile float64) float64 {
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bucket, index := h.bucketForPercentile(signature, percentile)
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return (*bucket).ValueForIndex(index)
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}
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func formatFloat(value float64) string {
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return strconv.FormatFloat(value, floatFormat, floatPrecision, floatBitCount)
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}
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func (h *histogram) MarshalJSON() ([]byte, error) {
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h.mutex.RLock()
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defer h.mutex.RUnlock()
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values := make([]map[string]interface{}, 0, len(h.values))
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for signature, value := range h.values {
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percentiles := make(map[string]float64, len(h.reportablePercentiles))
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for _, percentile := range h.reportablePercentiles {
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formatted := formatFloat(percentile)
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percentiles[formatted] = h.percentile(signature, percentile)
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}
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values = append(values, map[string]interface{}{
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labelsKey: value.labels,
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valueKey: percentiles,
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})
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}
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return json.Marshal(map[string]interface{}{
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typeKey: histogramTypeValue,
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valueKey: values,
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})
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}
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func (h *histogram) ResetAll() {
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h.mutex.Lock()
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defer h.mutex.Unlock()
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for signature, value := range h.values {
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for _, bucket := range value.buckets {
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bucket.Reset()
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}
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delete(h.values, signature)
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}
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}
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// Produce a histogram from a given specification.
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func NewHistogram(specification *HistogramSpecification) Histogram {
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metric := &histogram{
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bucketMaker: specification.BucketBuilder,
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bucketStarts: specification.Starts,
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reportablePercentiles: specification.ReportablePercentiles,
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values: map[uint64]*histogramVector{},
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}
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return metric
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}
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// Furnish a Histogram with unsensible default values and behaviors that is
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// strictly useful for prototyping purposes.
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func NewDefaultHistogram() Histogram {
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return NewHistogram(
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&HistogramSpecification{
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Starts: LogarithmicSizedBucketsFor(0, 4096),
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BucketBuilder: AccumulatingBucketBuilder(EvictAndReplaceWith(10, AverageReducer), 50),
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ReportablePercentiles: []float64{0.01, 0.05, 0.5, 0.90, 0.99},
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},
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)
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}
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func (metric *histogram) dumpChildren(f *dto.MetricFamily) {
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metric.mutex.RLock()
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defer metric.mutex.RUnlock()
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f.Type = dto.MetricType_SUMMARY.Enum()
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for signature, child := range metric.values {
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c := &dto.Summary{}
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m := &dto.Metric{
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Summary: c,
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}
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for name, value := range child.labels {
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p := &dto.LabelPair{
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Name: proto.String(name),
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Value: proto.String(value),
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}
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m.Label = append(m.Label, p)
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}
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for _, percentile := range metric.reportablePercentiles {
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q := &dto.Quantile{
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Quantile: proto.Float64(percentile),
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Value: proto.Float64(metric.percentile(signature, percentile)),
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}
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c.Quantile = append(c.Quantile, q)
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}
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f.Metric = append(f.Metric, m)
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}
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}
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