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See, $ gometalinter --vendor --disable-all --enable=unconvert --deadline 6m ./... promql/engine.go:1396:26⚠️ unnecessary conversion (unconvert) promql/engine.go:1396:40⚠️ unnecessary conversion (unconvert) promql/engine.go:1398:26⚠️ unnecessary conversion (unconvert) promql/engine.go:1398:40⚠️ unnecessary conversion (unconvert) promql/engine.go:1427:26⚠️ unnecessary conversion (unconvert) promql/engine.go:1427:40⚠️ unnecessary conversion (unconvert) promql/engine.go:1429:26⚠️ unnecessary conversion (unconvert) promql/engine.go:1429:40⚠️ unnecessary conversion (unconvert) promql/engine.go:1505:50⚠️ unnecessary conversion (unconvert) promql/engine.go:1573:46⚠️ unnecessary conversion (unconvert) promql/engine.go:1578:46⚠️ unnecessary conversion (unconvert) promql/engine.go:1591:80⚠️ unnecessary conversion (unconvert) promql/engine.go:1602:94⚠️ unnecessary conversion (unconvert) promql/engine.go:1630:18⚠️ unnecessary conversion (unconvert) promql/engine.go:1631:24⚠️ unnecessary conversion (unconvert) promql/engine.go:1634:18⚠️ unnecessary conversion (unconvert) promql/engine.go:1635:34⚠️ unnecessary conversion (unconvert) promql/functions.go:302:42⚠️ unnecessary conversion (unconvert) promql/functions.go:315:42⚠️ unnecessary conversion (unconvert) promql/functions.go:334:26⚠️ unnecessary conversion (unconvert) promql/functions.go:395:31⚠️ unnecessary conversion (unconvert) promql/functions.go:406:31⚠️ unnecessary conversion (unconvert) promql/functions.go:454:27⚠️ unnecessary conversion (unconvert) promql/functions.go:701:46⚠️ unnecessary conversion (unconvert) promql/functions.go:701:78⚠️ unnecessary conversion (unconvert) promql/functions.go:730:43⚠️ unnecessary conversion (unconvert) promql/functions.go:1220:23⚠️ unnecessary conversion (unconvert) promql/functions.go:1249:23⚠️ unnecessary conversion (unconvert) promql/quantile.go:107:54⚠️ unnecessary conversion (unconvert) promql/quantile.go:182:16⚠️ unnecessary conversion (unconvert) promql/quantile.go:182:64⚠️ unnecessary conversion (unconvert) Signed-off-by: Mario Trangoni <mjtrangoni@gmail.com>
184 lines
5.9 KiB
Go
184 lines
5.9 KiB
Go
// Copyright 2015 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 promql
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import (
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"math"
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"sort"
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"github.com/prometheus/prometheus/pkg/labels"
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)
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// Helpers to calculate quantiles.
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// excludedLabels are the labels to exclude from signature calculation for
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// quantiles.
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var excludedLabels = []string{
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labels.MetricName,
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labels.BucketLabel,
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}
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type bucket struct {
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upperBound float64
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count float64
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}
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// buckets implements sort.Interface.
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type buckets []bucket
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func (b buckets) Len() int { return len(b) }
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func (b buckets) Swap(i, j int) { b[i], b[j] = b[j], b[i] }
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func (b buckets) Less(i, j int) bool { return b[i].upperBound < b[j].upperBound }
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type metricWithBuckets struct {
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metric labels.Labels
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buckets buckets
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}
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// bucketQuantile calculates the quantile 'q' based on the given buckets. The
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// buckets will be sorted by upperBound by this function (i.e. no sorting
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// needed before calling this function). The quantile value is interpolated
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// assuming a linear distribution within a bucket. However, if the quantile
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// falls into the highest bucket, the upper bound of the 2nd highest bucket is
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// returned. A natural lower bound of 0 is assumed if the upper bound of the
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// lowest bucket is greater 0. In that case, interpolation in the lowest bucket
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// happens linearly between 0 and the upper bound of the lowest bucket.
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// However, if the lowest bucket has an upper bound less or equal 0, this upper
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// bound is returned if the quantile falls into the lowest bucket.
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//
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// There are a number of special cases (once we have a way to report errors
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// happening during evaluations of AST functions, we should report those
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// explicitly):
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//
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// If 'buckets' has fewer than 2 elements, NaN is returned.
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//
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// If the highest bucket is not +Inf, NaN is returned.
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//
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// If q<0, -Inf is returned.
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//
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// If q>1, +Inf is returned.
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func bucketQuantile(q float64, buckets buckets) float64 {
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if q < 0 {
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return math.Inf(-1)
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}
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if q > 1 {
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return math.Inf(+1)
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}
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if len(buckets) < 2 {
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return math.NaN()
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}
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sort.Sort(buckets)
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if !math.IsInf(buckets[len(buckets)-1].upperBound, +1) {
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return math.NaN()
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}
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ensureMonotonic(buckets)
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rank := q * buckets[len(buckets)-1].count
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b := sort.Search(len(buckets)-1, func(i int) bool { return buckets[i].count >= rank })
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if b == len(buckets)-1 {
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return buckets[len(buckets)-2].upperBound
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}
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if b == 0 && buckets[0].upperBound <= 0 {
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return buckets[0].upperBound
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}
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var (
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bucketStart float64
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bucketEnd = buckets[b].upperBound
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count = buckets[b].count
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)
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if b > 0 {
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bucketStart = buckets[b-1].upperBound
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count -= buckets[b-1].count
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rank -= buckets[b-1].count
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}
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return bucketStart + (bucketEnd-bucketStart)*(rank/count)
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}
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// The assumption that bucket counts increase monotonically with increasing
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// upperBound may be violated during:
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//
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// * Recording rule evaluation of histogram_quantile, especially when rate()
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// has been applied to the underlying bucket timeseries.
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// * Evaluation of histogram_quantile computed over federated bucket
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// timeseries, especially when rate() has been applied.
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//
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// This is because scraped data is not made available to rule evaluation or
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// federation atomically, so some buckets are computed with data from the
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// most recent scrapes, but the other buckets are missing data from the most
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// recent scrape.
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//
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// Monotonicity is usually guaranteed because if a bucket with upper bound
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// u1 has count c1, then any bucket with a higher upper bound u > u1 must
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// have counted all c1 observations and perhaps more, so that c >= c1.
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//
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// Randomly interspersed partial sampling breaks that guarantee, and rate()
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// exacerbates it. Specifically, suppose bucket le=1000 has a count of 10 from
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// 4 samples but the bucket with le=2000 has a count of 7 from 3 samples. The
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// monotonicity is broken. It is exacerbated by rate() because under normal
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// operation, cumulative counting of buckets will cause the bucket counts to
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// diverge such that small differences from missing samples are not a problem.
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// rate() removes this divergence.)
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//
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// bucketQuantile depends on that monotonicity to do a binary search for the
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// bucket with the φ-quantile count, so breaking the monotonicity
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// guarantee causes bucketQuantile() to return undefined (nonsense) results.
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//
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// As a somewhat hacky solution until ingestion is atomic per scrape, we
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// calculate the "envelope" of the histogram buckets, essentially removing
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// any decreases in the count between successive buckets.
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func ensureMonotonic(buckets buckets) {
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max := buckets[0].count
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for i := range buckets[1:] {
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switch {
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case buckets[i].count > max:
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max = buckets[i].count
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case buckets[i].count < max:
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buckets[i].count = max
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}
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}
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}
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// qauntile calculates the given quantile of a vector of samples.
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//
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// The Vector will be sorted.
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// If 'values' has zero elements, NaN is returned.
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// If q<0, -Inf is returned.
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// If q>1, +Inf is returned.
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func quantile(q float64, values vectorByValueHeap) float64 {
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if len(values) == 0 {
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return math.NaN()
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}
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if q < 0 {
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return math.Inf(-1)
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}
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if q > 1 {
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return math.Inf(+1)
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}
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sort.Sort(values)
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n := float64(len(values))
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// When the quantile lies between two samples,
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// we use a weighted average of the two samples.
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rank := q * (n - 1)
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lowerIndex := math.Max(0, math.Floor(rank))
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upperIndex := math.Min(n-1, lowerIndex+1)
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weight := rank - math.Floor(rank)
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return values[int(lowerIndex)].V*(1-weight) + values[int(upperIndex)].V*weight
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}
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