mirror of
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f34de493d5
This calculates how much a counter increases over a given period of time, which is the area under the curve of it's rate. increase(x[5m]) is equivilent to rate(x[5m]) * 300.
796 lines
21 KiB
Go
796 lines
21 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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"container/heap"
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"math"
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"sort"
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"strconv"
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"time"
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clientmodel "github.com/prometheus/client_golang/model"
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"github.com/prometheus/prometheus/storage/metric"
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)
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// Function represents a function of the expression language and is
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// used by function nodes.
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type Function struct {
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Name string
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ArgTypes []ExprType
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OptionalArgs int
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ReturnType ExprType
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Call func(ev *evaluator, args Expressions) Value
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}
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// === time() clientmodel.SampleValue ===
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func funcTime(ev *evaluator, args Expressions) Value {
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return &Scalar{
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Value: clientmodel.SampleValue(ev.Timestamp.Unix()),
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Timestamp: ev.Timestamp,
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}
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}
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// === delta(matrix ExprMatrix, isCounter=0 ExprScalar) Vector ===
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func funcDelta(ev *evaluator, args Expressions) Value {
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isCounter := len(args) >= 2 && ev.evalInt(args[1]) > 0
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resultVector := Vector{}
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// If we treat these metrics as counters, we need to fetch all values
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// in the interval to find breaks in the timeseries' monotonicity.
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// I.e. if a counter resets, we want to ignore that reset.
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var matrixValue Matrix
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if isCounter {
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matrixValue = ev.evalMatrix(args[0])
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} else {
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matrixValue = ev.evalMatrixBounds(args[0])
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}
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for _, samples := range matrixValue {
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// No sense in trying to compute a delta without at least two points. Drop
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// this vector element.
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if len(samples.Values) < 2 {
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continue
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}
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counterCorrection := clientmodel.SampleValue(0)
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lastValue := clientmodel.SampleValue(0)
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for _, sample := range samples.Values {
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currentValue := sample.Value
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if isCounter && currentValue < lastValue {
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counterCorrection += lastValue - currentValue
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}
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lastValue = currentValue
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}
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resultValue := lastValue - samples.Values[0].Value + counterCorrection
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targetInterval := args[0].(*MatrixSelector).Range
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sampledInterval := samples.Values[len(samples.Values)-1].Timestamp.Sub(samples.Values[0].Timestamp)
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if sampledInterval == 0 {
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// Only found one sample. Cannot compute a rate from this.
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continue
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}
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// Correct for differences in target vs. actual delta interval.
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//
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// Above, we didn't actually calculate the delta for the specified target
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// interval, but for an interval between the first and last found samples
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// under the target interval, which will usually have less time between
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// them. Depending on how many samples are found under a target interval,
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// the delta results are distorted and temporal aliasing occurs (ugly
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// bumps). This effect is corrected for below.
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intervalCorrection := clientmodel.SampleValue(targetInterval) / clientmodel.SampleValue(sampledInterval)
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resultValue *= intervalCorrection
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resultSample := &Sample{
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Metric: samples.Metric,
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Value: resultValue,
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Timestamp: ev.Timestamp,
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}
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resultSample.Metric.Delete(clientmodel.MetricNameLabel)
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resultVector = append(resultVector, resultSample)
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}
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return resultVector
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}
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// === rate(node ExprMatrix) Vector ===
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func funcRate(ev *evaluator, args Expressions) Value {
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args = append(args, &NumberLiteral{1})
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vector := funcDelta(ev, args).(Vector)
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// TODO: could be other type of ExprMatrix in the future (right now, only
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// MatrixSelector exists). Find a better way of getting the duration of a
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// matrix, such as looking at the samples themselves.
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interval := args[0].(*MatrixSelector).Range
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for i := range vector {
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vector[i].Value /= clientmodel.SampleValue(interval / time.Second)
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}
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return vector
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}
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// === increase(node ExprMatrix) Vector ===
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func funcIncrease(ev *evaluator, args Expressions) Value {
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args = append(args, &NumberLiteral{1})
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vector := funcDelta(ev, args).(Vector)
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return vector
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}
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// === sort(node ExprVector) Vector ===
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func funcSort(ev *evaluator, args Expressions) Value {
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byValueSorter := vectorByValueHeap(ev.evalVector(args[0]))
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sort.Sort(byValueSorter)
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return Vector(byValueSorter)
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}
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// === sortDesc(node ExprVector) Vector ===
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func funcSortDesc(ev *evaluator, args Expressions) Value {
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byValueSorter := vectorByValueHeap(ev.evalVector(args[0]))
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sort.Sort(sort.Reverse(byValueSorter))
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return Vector(byValueSorter)
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}
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// === topk(k ExprScalar, node ExprVector) Vector ===
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func funcTopk(ev *evaluator, args Expressions) Value {
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k := ev.evalInt(args[0])
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if k < 1 {
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return Vector{}
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}
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vector := ev.evalVector(args[1])
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topk := make(vectorByValueHeap, 0, k)
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for _, el := range vector {
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if len(topk) < k || topk[0].Value < el.Value {
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if len(topk) == k {
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heap.Pop(&topk)
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}
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heap.Push(&topk, el)
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}
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}
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sort.Sort(sort.Reverse(topk))
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return Vector(topk)
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}
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// === bottomk(k ExprScalar, node ExprVector) Vector ===
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func funcBottomk(ev *evaluator, args Expressions) Value {
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k := ev.evalInt(args[0])
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if k < 1 {
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return Vector{}
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}
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vector := ev.evalVector(args[1])
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bottomk := make(vectorByValueHeap, 0, k)
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bkHeap := reverseHeap{Interface: &bottomk}
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for _, el := range vector {
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if len(bottomk) < k || bottomk[0].Value > el.Value {
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if len(bottomk) == k {
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heap.Pop(&bkHeap)
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}
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heap.Push(&bkHeap, el)
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}
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}
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sort.Sort(bottomk)
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return Vector(bottomk)
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}
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// === drop_common_labels(node ExprVector) Vector ===
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func funcDropCommonLabels(ev *evaluator, args Expressions) Value {
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vector := ev.evalVector(args[0])
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if len(vector) < 1 {
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return Vector{}
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}
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common := clientmodel.LabelSet{}
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for k, v := range vector[0].Metric.Metric {
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// TODO(julius): Should we also drop common metric names?
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if k == clientmodel.MetricNameLabel {
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continue
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}
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common[k] = v
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}
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for _, el := range vector[1:] {
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for k, v := range common {
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if el.Metric.Metric[k] != v {
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// Deletion of map entries while iterating over them is safe.
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// From http://golang.org/ref/spec#For_statements:
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// "If map entries that have not yet been reached are deleted during
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// iteration, the corresponding iteration values will not be produced."
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delete(common, k)
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}
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}
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}
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for _, el := range vector {
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for k := range el.Metric.Metric {
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if _, ok := common[k]; ok {
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el.Metric.Delete(k)
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}
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}
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}
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return vector
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}
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// === round(vector ExprVector, toNearest=1 Scalar) Vector ===
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func funcRound(ev *evaluator, args Expressions) Value {
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// round returns a number rounded to toNearest.
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// Ties are solved by rounding up.
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toNearest := float64(1)
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if len(args) >= 2 {
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toNearest = ev.evalFloat(args[1])
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}
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// Invert as it seems to cause fewer floating point accuracy issues.
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toNearestInverse := 1.0 / toNearest
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vector := ev.evalVector(args[0])
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for _, el := range vector {
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el.Metric.Delete(clientmodel.MetricNameLabel)
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el.Value = clientmodel.SampleValue(math.Floor(float64(el.Value)*toNearestInverse+0.5) / toNearestInverse)
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}
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return vector
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}
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// === scalar(node ExprVector) Scalar ===
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func funcScalar(ev *evaluator, args Expressions) Value {
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v := ev.evalVector(args[0])
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if len(v) != 1 {
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return &Scalar{clientmodel.SampleValue(math.NaN()), ev.Timestamp}
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}
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return &Scalar{clientmodel.SampleValue(v[0].Value), ev.Timestamp}
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}
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// === count_scalar(vector ExprVector) model.SampleValue ===
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func funcCountScalar(ev *evaluator, args Expressions) Value {
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return &Scalar{
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Value: clientmodel.SampleValue(len(ev.evalVector(args[0]))),
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Timestamp: ev.Timestamp,
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}
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}
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func aggrOverTime(ev *evaluator, args Expressions, aggrFn func(metric.Values) clientmodel.SampleValue) Value {
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matrix := ev.evalMatrix(args[0])
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resultVector := Vector{}
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for _, el := range matrix {
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if len(el.Values) == 0 {
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continue
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}
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el.Metric.Delete(clientmodel.MetricNameLabel)
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resultVector = append(resultVector, &Sample{
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Metric: el.Metric,
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Value: aggrFn(el.Values),
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Timestamp: ev.Timestamp,
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})
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}
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return resultVector
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}
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// === avg_over_time(matrix ExprMatrix) Vector ===
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func funcAvgOverTime(ev *evaluator, args Expressions) Value {
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return aggrOverTime(ev, args, func(values metric.Values) clientmodel.SampleValue {
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var sum clientmodel.SampleValue
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for _, v := range values {
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sum += v.Value
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}
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return sum / clientmodel.SampleValue(len(values))
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})
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}
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// === count_over_time(matrix ExprMatrix) Vector ===
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func funcCountOverTime(ev *evaluator, args Expressions) Value {
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return aggrOverTime(ev, args, func(values metric.Values) clientmodel.SampleValue {
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return clientmodel.SampleValue(len(values))
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})
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}
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// === floor(vector ExprVector) Vector ===
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func funcFloor(ev *evaluator, args Expressions) Value {
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vector := ev.evalVector(args[0])
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for _, el := range vector {
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el.Metric.Delete(clientmodel.MetricNameLabel)
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el.Value = clientmodel.SampleValue(math.Floor(float64(el.Value)))
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}
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return vector
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}
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// === max_over_time(matrix ExprMatrix) Vector ===
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func funcMaxOverTime(ev *evaluator, args Expressions) Value {
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return aggrOverTime(ev, args, func(values metric.Values) clientmodel.SampleValue {
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max := math.Inf(-1)
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for _, v := range values {
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max = math.Max(max, float64(v.Value))
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}
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return clientmodel.SampleValue(max)
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})
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}
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// === min_over_time(matrix ExprMatrix) Vector ===
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func funcMinOverTime(ev *evaluator, args Expressions) Value {
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return aggrOverTime(ev, args, func(values metric.Values) clientmodel.SampleValue {
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min := math.Inf(1)
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for _, v := range values {
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min = math.Min(min, float64(v.Value))
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}
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return clientmodel.SampleValue(min)
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})
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}
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// === sum_over_time(matrix ExprMatrix) Vector ===
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func funcSumOverTime(ev *evaluator, args Expressions) Value {
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return aggrOverTime(ev, args, func(values metric.Values) clientmodel.SampleValue {
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var sum clientmodel.SampleValue
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for _, v := range values {
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sum += v.Value
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}
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return sum
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})
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}
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// === abs(vector ExprVector) Vector ===
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func funcAbs(ev *evaluator, args Expressions) Value {
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vector := ev.evalVector(args[0])
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for _, el := range vector {
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el.Metric.Delete(clientmodel.MetricNameLabel)
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el.Value = clientmodel.SampleValue(math.Abs(float64(el.Value)))
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}
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return vector
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}
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// === absent(vector ExprVector) Vector ===
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func funcAbsent(ev *evaluator, args Expressions) Value {
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if len(ev.evalVector(args[0])) > 0 {
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return Vector{}
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}
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m := clientmodel.Metric{}
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if vs, ok := args[0].(*VectorSelector); ok {
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for _, matcher := range vs.LabelMatchers {
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if matcher.Type == metric.Equal && matcher.Name != clientmodel.MetricNameLabel {
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m[matcher.Name] = matcher.Value
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}
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}
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}
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return Vector{
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&Sample{
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Metric: clientmodel.COWMetric{
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Metric: m,
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Copied: true,
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},
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Value: 1,
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Timestamp: ev.Timestamp,
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},
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}
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}
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// === ceil(vector ExprVector) Vector ===
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func funcCeil(ev *evaluator, args Expressions) Value {
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vector := ev.evalVector(args[0])
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for _, el := range vector {
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el.Metric.Delete(clientmodel.MetricNameLabel)
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el.Value = clientmodel.SampleValue(math.Ceil(float64(el.Value)))
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}
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return vector
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}
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// === exp(vector ExprVector) Vector ===
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func funcExp(ev *evaluator, args Expressions) Value {
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vector := ev.evalVector(args[0])
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for _, el := range vector {
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el.Metric.Delete(clientmodel.MetricNameLabel)
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el.Value = clientmodel.SampleValue(math.Exp(float64(el.Value)))
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}
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return vector
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}
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// === sqrt(vector VectorNode) Vector ===
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func funcSqrt(ev *evaluator, args Expressions) Value {
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vector := ev.evalVector(args[0])
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for _, el := range vector {
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el.Metric.Delete(clientmodel.MetricNameLabel)
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el.Value = clientmodel.SampleValue(math.Sqrt(float64(el.Value)))
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}
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return vector
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}
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// === ln(vector ExprVector) Vector ===
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func funcLn(ev *evaluator, args Expressions) Value {
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vector := ev.evalVector(args[0])
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for _, el := range vector {
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el.Metric.Delete(clientmodel.MetricNameLabel)
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el.Value = clientmodel.SampleValue(math.Log(float64(el.Value)))
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}
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return vector
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}
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// === log2(vector ExprVector) Vector ===
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func funcLog2(ev *evaluator, args Expressions) Value {
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vector := ev.evalVector(args[0])
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for _, el := range vector {
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el.Metric.Delete(clientmodel.MetricNameLabel)
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el.Value = clientmodel.SampleValue(math.Log2(float64(el.Value)))
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}
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return vector
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}
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// === log10(vector ExprVector) Vector ===
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func funcLog10(ev *evaluator, args Expressions) Value {
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vector := ev.evalVector(args[0])
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for _, el := range vector {
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el.Metric.Delete(clientmodel.MetricNameLabel)
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el.Value = clientmodel.SampleValue(math.Log10(float64(el.Value)))
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}
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return vector
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}
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// === deriv(node ExprMatrix) Vector ===
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func funcDeriv(ev *evaluator, args Expressions) Value {
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resultVector := Vector{}
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matrix := ev.evalMatrix(args[0])
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for _, samples := range matrix {
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// No sense in trying to compute a derivative without at least two points.
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// Drop this vector element.
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if len(samples.Values) < 2 {
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continue
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}
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// Least squares.
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n := clientmodel.SampleValue(0)
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sumY := clientmodel.SampleValue(0)
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sumX := clientmodel.SampleValue(0)
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sumXY := clientmodel.SampleValue(0)
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sumX2 := clientmodel.SampleValue(0)
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for _, sample := range samples.Values {
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x := clientmodel.SampleValue(sample.Timestamp.UnixNano() / 1e9)
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n += 1.0
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sumY += sample.Value
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sumX += x
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sumXY += x * sample.Value
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sumX2 += x * x
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}
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numerator := sumXY - sumX*sumY/n
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denominator := sumX2 - (sumX*sumX)/n
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resultValue := numerator / denominator
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resultSample := &Sample{
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Metric: samples.Metric,
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Value: resultValue,
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Timestamp: ev.Timestamp,
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}
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resultSample.Metric.Delete(clientmodel.MetricNameLabel)
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resultVector = append(resultVector, resultSample)
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}
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return resultVector
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}
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// === histogram_quantile(k ExprScalar, vector ExprVector) Vector ===
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func funcHistogramQuantile(ev *evaluator, args Expressions) Value {
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q := clientmodel.SampleValue(ev.evalFloat(args[0]))
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inVec := ev.evalVector(args[1])
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outVec := Vector{}
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signatureToMetricWithBuckets := map[uint64]*metricWithBuckets{}
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for _, el := range inVec {
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upperBound, err := strconv.ParseFloat(
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string(el.Metric.Metric[clientmodel.BucketLabel]), 64,
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)
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if err != nil {
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// Oops, no bucket label or malformed label value. Skip.
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// TODO(beorn7): Issue a warning somehow.
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continue
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}
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signature := clientmodel.SignatureWithoutLabels(el.Metric.Metric, excludedLabels)
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mb, ok := signatureToMetricWithBuckets[signature]
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if !ok {
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el.Metric.Delete(clientmodel.BucketLabel)
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el.Metric.Delete(clientmodel.MetricNameLabel)
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mb = &metricWithBuckets{el.Metric, nil}
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signatureToMetricWithBuckets[signature] = mb
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}
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mb.buckets = append(mb.buckets, bucket{upperBound, el.Value})
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}
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for _, mb := range signatureToMetricWithBuckets {
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outVec = append(outVec, &Sample{
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Metric: mb.metric,
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Value: clientmodel.SampleValue(quantile(q, mb.buckets)),
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Timestamp: ev.Timestamp,
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})
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}
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return outVec
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}
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// === resets(matrix ExprMatrix) Vector ===
|
|
func funcResets(ev *evaluator, args Expressions) Value {
|
|
in := ev.evalMatrix(args[0])
|
|
out := make(Vector, 0, len(in))
|
|
|
|
for _, samples := range in {
|
|
resets := 0
|
|
prev := clientmodel.SampleValue(samples.Values[0].Value)
|
|
for _, sample := range samples.Values[1:] {
|
|
current := sample.Value
|
|
if current < prev {
|
|
resets++
|
|
}
|
|
prev = current
|
|
}
|
|
|
|
rs := &Sample{
|
|
Metric: samples.Metric,
|
|
Value: clientmodel.SampleValue(resets),
|
|
Timestamp: ev.Timestamp,
|
|
}
|
|
rs.Metric.Delete(clientmodel.MetricNameLabel)
|
|
out = append(out, rs)
|
|
}
|
|
return out
|
|
}
|
|
|
|
// === changes(matrix ExprMatrix) Vector ===
|
|
func funcChanges(ev *evaluator, args Expressions) Value {
|
|
in := ev.evalMatrix(args[0])
|
|
out := make(Vector, 0, len(in))
|
|
|
|
for _, samples := range in {
|
|
changes := 0
|
|
prev := clientmodel.SampleValue(samples.Values[0].Value)
|
|
for _, sample := range samples.Values[1:] {
|
|
current := sample.Value
|
|
if current != prev {
|
|
changes++
|
|
}
|
|
prev = current
|
|
}
|
|
|
|
rs := &Sample{
|
|
Metric: samples.Metric,
|
|
Value: clientmodel.SampleValue(changes),
|
|
Timestamp: ev.Timestamp,
|
|
}
|
|
rs.Metric.Delete(clientmodel.MetricNameLabel)
|
|
out = append(out, rs)
|
|
}
|
|
return out
|
|
}
|
|
|
|
var functions = map[string]*Function{
|
|
"abs": {
|
|
Name: "abs",
|
|
ArgTypes: []ExprType{ExprVector},
|
|
ReturnType: ExprVector,
|
|
Call: funcAbs,
|
|
},
|
|
"absent": {
|
|
Name: "absent",
|
|
ArgTypes: []ExprType{ExprVector},
|
|
ReturnType: ExprVector,
|
|
Call: funcAbsent,
|
|
},
|
|
"increase": {
|
|
Name: "increase",
|
|
ArgTypes: []ExprType{ExprMatrix},
|
|
ReturnType: ExprVector,
|
|
Call: funcIncrease,
|
|
},
|
|
"avg_over_time": {
|
|
Name: "avg_over_time",
|
|
ArgTypes: []ExprType{ExprMatrix},
|
|
ReturnType: ExprVector,
|
|
Call: funcAvgOverTime,
|
|
},
|
|
"bottomk": {
|
|
Name: "bottomk",
|
|
ArgTypes: []ExprType{ExprScalar, ExprVector},
|
|
ReturnType: ExprVector,
|
|
Call: funcBottomk,
|
|
},
|
|
"ceil": {
|
|
Name: "ceil",
|
|
ArgTypes: []ExprType{ExprVector},
|
|
ReturnType: ExprVector,
|
|
Call: funcCeil,
|
|
},
|
|
"changes": {
|
|
Name: "changes",
|
|
ArgTypes: []ExprType{ExprMatrix},
|
|
ReturnType: ExprVector,
|
|
Call: funcChanges,
|
|
},
|
|
"count_over_time": {
|
|
Name: "count_over_time",
|
|
ArgTypes: []ExprType{ExprMatrix},
|
|
ReturnType: ExprVector,
|
|
Call: funcCountOverTime,
|
|
},
|
|
"count_scalar": {
|
|
Name: "count_scalar",
|
|
ArgTypes: []ExprType{ExprVector},
|
|
ReturnType: ExprScalar,
|
|
Call: funcCountScalar,
|
|
},
|
|
"delta": {
|
|
Name: "delta",
|
|
ArgTypes: []ExprType{ExprMatrix, ExprScalar},
|
|
OptionalArgs: 1, // The 2nd argument is deprecated.
|
|
ReturnType: ExprVector,
|
|
Call: funcDelta,
|
|
},
|
|
"deriv": {
|
|
Name: "deriv",
|
|
ArgTypes: []ExprType{ExprMatrix},
|
|
ReturnType: ExprVector,
|
|
Call: funcDeriv,
|
|
},
|
|
"drop_common_labels": {
|
|
Name: "drop_common_labels",
|
|
ArgTypes: []ExprType{ExprVector},
|
|
ReturnType: ExprVector,
|
|
Call: funcDropCommonLabels,
|
|
},
|
|
"exp": {
|
|
Name: "exp",
|
|
ArgTypes: []ExprType{ExprVector},
|
|
ReturnType: ExprVector,
|
|
Call: funcExp,
|
|
},
|
|
"floor": {
|
|
Name: "floor",
|
|
ArgTypes: []ExprType{ExprVector},
|
|
ReturnType: ExprVector,
|
|
Call: funcFloor,
|
|
},
|
|
"histogram_quantile": {
|
|
Name: "histogram_quantile",
|
|
ArgTypes: []ExprType{ExprScalar, ExprVector},
|
|
ReturnType: ExprVector,
|
|
Call: funcHistogramQuantile,
|
|
},
|
|
"ln": {
|
|
Name: "ln",
|
|
ArgTypes: []ExprType{ExprVector},
|
|
ReturnType: ExprVector,
|
|
Call: funcLn,
|
|
},
|
|
"log10": {
|
|
Name: "log10",
|
|
ArgTypes: []ExprType{ExprVector},
|
|
ReturnType: ExprVector,
|
|
Call: funcLog10,
|
|
},
|
|
"log2": {
|
|
Name: "log2",
|
|
ArgTypes: []ExprType{ExprVector},
|
|
ReturnType: ExprVector,
|
|
Call: funcLog2,
|
|
},
|
|
"max_over_time": {
|
|
Name: "max_over_time",
|
|
ArgTypes: []ExprType{ExprMatrix},
|
|
ReturnType: ExprVector,
|
|
Call: funcMaxOverTime,
|
|
},
|
|
"min_over_time": {
|
|
Name: "min_over_time",
|
|
ArgTypes: []ExprType{ExprMatrix},
|
|
ReturnType: ExprVector,
|
|
Call: funcMinOverTime,
|
|
},
|
|
"rate": {
|
|
Name: "rate",
|
|
ArgTypes: []ExprType{ExprMatrix},
|
|
ReturnType: ExprVector,
|
|
Call: funcRate,
|
|
},
|
|
"resets": {
|
|
Name: "resets",
|
|
ArgTypes: []ExprType{ExprMatrix},
|
|
ReturnType: ExprVector,
|
|
Call: funcResets,
|
|
},
|
|
"round": {
|
|
Name: "round",
|
|
ArgTypes: []ExprType{ExprVector, ExprScalar},
|
|
OptionalArgs: 1,
|
|
ReturnType: ExprVector,
|
|
Call: funcRound,
|
|
},
|
|
"scalar": {
|
|
Name: "scalar",
|
|
ArgTypes: []ExprType{ExprVector},
|
|
ReturnType: ExprScalar,
|
|
Call: funcScalar,
|
|
},
|
|
"sort": {
|
|
Name: "sort",
|
|
ArgTypes: []ExprType{ExprVector},
|
|
ReturnType: ExprVector,
|
|
Call: funcSort,
|
|
},
|
|
"sort_desc": {
|
|
Name: "sort_desc",
|
|
ArgTypes: []ExprType{ExprVector},
|
|
ReturnType: ExprVector,
|
|
Call: funcSortDesc,
|
|
},
|
|
"sqrt": {
|
|
Name: "sqrt",
|
|
ArgTypes: []ExprType{ExprVector},
|
|
ReturnType: ExprVector,
|
|
Call: funcSqrt,
|
|
},
|
|
"sum_over_time": {
|
|
Name: "sum_over_time",
|
|
ArgTypes: []ExprType{ExprMatrix},
|
|
ReturnType: ExprVector,
|
|
Call: funcSumOverTime,
|
|
},
|
|
"time": {
|
|
Name: "time",
|
|
ArgTypes: []ExprType{},
|
|
ReturnType: ExprScalar,
|
|
Call: funcTime,
|
|
},
|
|
"topk": {
|
|
Name: "topk",
|
|
ArgTypes: []ExprType{ExprScalar, ExprVector},
|
|
ReturnType: ExprVector,
|
|
Call: funcTopk,
|
|
},
|
|
}
|
|
|
|
// getFunction returns a predefined Function object for the given name.
|
|
func getFunction(name string) (*Function, bool) {
|
|
function, ok := functions[name]
|
|
return function, ok
|
|
}
|
|
|
|
type vectorByValueHeap Vector
|
|
|
|
func (s vectorByValueHeap) Len() int {
|
|
return len(s)
|
|
}
|
|
|
|
func (s vectorByValueHeap) Less(i, j int) bool {
|
|
if math.IsNaN(float64(s[i].Value)) {
|
|
return true
|
|
}
|
|
return s[i].Value < s[j].Value
|
|
}
|
|
|
|
func (s vectorByValueHeap) Swap(i, j int) {
|
|
s[i], s[j] = s[j], s[i]
|
|
}
|
|
|
|
func (s *vectorByValueHeap) Push(x interface{}) {
|
|
*s = append(*s, x.(*Sample))
|
|
}
|
|
|
|
func (s *vectorByValueHeap) Pop() interface{} {
|
|
old := *s
|
|
n := len(old)
|
|
el := old[n-1]
|
|
*s = old[0 : n-1]
|
|
return el
|
|
}
|
|
|
|
type reverseHeap struct {
|
|
heap.Interface
|
|
}
|
|
|
|
func (s reverseHeap) Less(i, j int) bool {
|
|
return s.Interface.Less(j, i)
|
|
}
|