mirror of
https://github.com/prometheus/prometheus.git
synced 2024-11-09 23:24:05 -08:00
583f3e587c
Optimize histogram iterators Histogram iterators allocate new objects in the AtHistogram and AtFloatHistogram methods, which makes calculating rates over long ranges expensive. In #13215 we allowed an existing object to be reused when converting an integer histogram to a float histogram. This commit follows the same idea and allows injecting an existing object in the AtHistogram and AtFloatHistogram methods. When the injected value is nil, iterators allocate new histograms, otherwise they populate and return the injected object. The commit also adds a CopyTo method to Histogram and FloatHistogram which is used in the BufferedIterator to overwrite items in the ring instead of making new copies. Note that a specialized HPoint pool is needed for all of this to work (`matrixSelectorHPool`). --------- Signed-off-by: Filip Petkovski <filip.petkovsky@gmail.com> Co-authored-by: George Krajcsovits <krajorama@users.noreply.github.com>
530 lines
14 KiB
Go
530 lines
14 KiB
Go
// Copyright 2017 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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"encoding/json"
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"errors"
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"fmt"
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"math"
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"strconv"
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"strings"
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"github.com/prometheus/prometheus/model/histogram"
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"github.com/prometheus/prometheus/model/labels"
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"github.com/prometheus/prometheus/promql/parser"
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"github.com/prometheus/prometheus/tsdb/chunkenc"
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"github.com/prometheus/prometheus/util/annotations"
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)
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func (Matrix) Type() parser.ValueType { return parser.ValueTypeMatrix }
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func (Vector) Type() parser.ValueType { return parser.ValueTypeVector }
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func (Scalar) Type() parser.ValueType { return parser.ValueTypeScalar }
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func (String) Type() parser.ValueType { return parser.ValueTypeString }
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// String represents a string value.
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type String struct {
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T int64
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V string
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}
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func (s String) String() string {
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return s.V
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}
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func (s String) MarshalJSON() ([]byte, error) {
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return json.Marshal([...]interface{}{float64(s.T) / 1000, s.V})
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}
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// Scalar is a data point that's explicitly not associated with a metric.
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type Scalar struct {
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T int64
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V float64
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}
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func (s Scalar) String() string {
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v := strconv.FormatFloat(s.V, 'f', -1, 64)
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return fmt.Sprintf("scalar: %v @[%v]", v, s.T)
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}
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func (s Scalar) MarshalJSON() ([]byte, error) {
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v := strconv.FormatFloat(s.V, 'f', -1, 64)
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return json.Marshal([...]interface{}{float64(s.T) / 1000, v})
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}
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// Series is a stream of data points belonging to a metric.
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type Series struct {
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Metric labels.Labels `json:"metric"`
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Floats []FPoint `json:"values,omitempty"`
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Histograms []HPoint `json:"histograms,omitempty"`
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}
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func (s Series) String() string {
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// TODO(beorn7): This currently renders floats first and then
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// histograms, each sorted by timestamp. Maybe, in mixed series, that's
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// fine. Maybe, however, primary sorting by timestamp is preferred, in
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// which case this has to be changed.
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vals := make([]string, 0, len(s.Floats)+len(s.Histograms))
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for _, f := range s.Floats {
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vals = append(vals, f.String())
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}
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for _, h := range s.Histograms {
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vals = append(vals, h.String())
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}
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return fmt.Sprintf("%s =>\n%s", s.Metric, strings.Join(vals, "\n"))
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}
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// FPoint represents a single float data point for a given timestamp.
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type FPoint struct {
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T int64
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F float64
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}
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func (p FPoint) String() string {
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s := strconv.FormatFloat(p.F, 'f', -1, 64)
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return fmt.Sprintf("%s @[%v]", s, p.T)
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}
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// MarshalJSON implements json.Marshaler.
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//
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// JSON marshaling is only needed for the HTTP API. Since FPoint is such a
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// frequently marshaled type, it gets an optimized treatment directly in
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// web/api/v1/api.go. Therefore, this method is unused within Prometheus. It is
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// still provided here as convenience for debugging and for other users of this
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// code. Also note that the different marshaling implementations might lead to
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// slightly different results in terms of formatting and rounding of the
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// timestamp.
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func (p FPoint) MarshalJSON() ([]byte, error) {
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v := strconv.FormatFloat(p.F, 'f', -1, 64)
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return json.Marshal([...]interface{}{float64(p.T) / 1000, v})
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}
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// HPoint represents a single histogram data point for a given timestamp.
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// H must never be nil.
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type HPoint struct {
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T int64
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H *histogram.FloatHistogram
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}
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func (p HPoint) String() string {
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return fmt.Sprintf("%s @[%v]", p.H.String(), p.T)
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}
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// MarshalJSON implements json.Marshaler.
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//
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// JSON marshaling is only needed for the HTTP API. Since HPoint is such a
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// frequently marshaled type, it gets an optimized treatment directly in
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// web/api/v1/api.go. Therefore, this method is unused within Prometheus. It is
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// still provided here as convenience for debugging and for other users of this
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// code. Also note that the different marshaling implementations might lead to
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// slightly different results in terms of formatting and rounding of the
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// timestamp.
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func (p HPoint) MarshalJSON() ([]byte, error) {
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h := struct {
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Count string `json:"count"`
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Sum string `json:"sum"`
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Buckets [][]interface{} `json:"buckets,omitempty"`
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}{
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Count: strconv.FormatFloat(p.H.Count, 'f', -1, 64),
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Sum: strconv.FormatFloat(p.H.Sum, 'f', -1, 64),
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}
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it := p.H.AllBucketIterator()
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for it.Next() {
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bucket := it.At()
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if bucket.Count == 0 {
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continue // No need to expose empty buckets in JSON.
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}
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boundaries := 2 // Exclusive on both sides AKA open interval.
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if bucket.LowerInclusive {
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if bucket.UpperInclusive {
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boundaries = 3 // Inclusive on both sides AKA closed interval.
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} else {
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boundaries = 1 // Inclusive only on lower end AKA right open.
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}
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} else {
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if bucket.UpperInclusive {
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boundaries = 0 // Inclusive only on upper end AKA left open.
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}
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}
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bucketToMarshal := []interface{}{
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boundaries,
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strconv.FormatFloat(bucket.Lower, 'f', -1, 64),
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strconv.FormatFloat(bucket.Upper, 'f', -1, 64),
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strconv.FormatFloat(bucket.Count, 'f', -1, 64),
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}
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h.Buckets = append(h.Buckets, bucketToMarshal)
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}
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return json.Marshal([...]interface{}{float64(p.T) / 1000, h})
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}
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// size returns the size of the HPoint compared to the size of an FPoint.
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// The total size is calculated considering the histogram timestamp (p.T - 8 bytes),
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// and then a number of bytes in the histogram.
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// This sum is divided by 16, as samples are 16 bytes.
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func (p HPoint) size() int {
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return (p.H.Size() + 8) / 16
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}
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// totalHPointSize returns the total number of samples in the given slice of HPoints.
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func totalHPointSize(histograms []HPoint) int {
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var total int
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for _, h := range histograms {
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total += h.size()
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}
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return total
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}
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// Sample is a single sample belonging to a metric. It represents either a float
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// sample or a histogram sample. If H is nil, it is a float sample. Otherwise,
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// it is a histogram sample.
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type Sample struct {
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T int64
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F float64
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H *histogram.FloatHistogram
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Metric labels.Labels
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}
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func (s Sample) String() string {
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var str string
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if s.H == nil {
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p := FPoint{T: s.T, F: s.F}
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str = p.String()
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} else {
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p := HPoint{T: s.T, H: s.H}
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str = p.String()
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}
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return fmt.Sprintf("%s => %s", s.Metric, str)
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}
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// MarshalJSON is mirrored in web/api/v1/api.go with jsoniter because FPoint and
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// HPoint wouldn't be marshaled with jsoniter otherwise.
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func (s Sample) MarshalJSON() ([]byte, error) {
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if s.H == nil {
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f := struct {
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M labels.Labels `json:"metric"`
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F FPoint `json:"value"`
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}{
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M: s.Metric,
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F: FPoint{T: s.T, F: s.F},
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}
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return json.Marshal(f)
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}
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h := struct {
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M labels.Labels `json:"metric"`
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H HPoint `json:"histogram"`
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}{
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M: s.Metric,
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H: HPoint{T: s.T, H: s.H},
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}
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return json.Marshal(h)
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}
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// Vector is basically only an alias for []Sample, but the contract is that
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// in a Vector, all Samples have the same timestamp.
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type Vector []Sample
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func (vec Vector) String() string {
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entries := make([]string, len(vec))
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for i, s := range vec {
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entries[i] = s.String()
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}
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return strings.Join(entries, "\n")
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}
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// TotalSamples returns the total number of samples in the series within a vector.
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// Float samples have a weight of 1 in this number, while histogram samples have a higher
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// weight according to their size compared with the size of a float sample.
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// See HPoint.size for details.
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func (vec Vector) TotalSamples() int {
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numSamples := 0
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for _, sample := range vec {
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numSamples++
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if sample.H != nil {
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numSamples += sample.H.Size() / 16
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}
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}
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return numSamples
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}
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// ContainsSameLabelset checks if a vector has samples with the same labelset
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// Such a behavior is semantically undefined
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// https://github.com/prometheus/prometheus/issues/4562
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func (vec Vector) ContainsSameLabelset() bool {
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switch len(vec) {
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case 0, 1:
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return false
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case 2:
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return vec[0].Metric.Hash() == vec[1].Metric.Hash()
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default:
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l := make(map[uint64]struct{}, len(vec))
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for _, ss := range vec {
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hash := ss.Metric.Hash()
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if _, ok := l[hash]; ok {
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return true
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}
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l[hash] = struct{}{}
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}
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return false
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}
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}
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// Matrix is a slice of Series that implements sort.Interface and
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// has a String method.
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type Matrix []Series
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func (m Matrix) String() string {
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// TODO(fabxc): sort, or can we rely on order from the querier?
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strs := make([]string, len(m))
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for i, ss := range m {
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strs[i] = ss.String()
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}
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return strings.Join(strs, "\n")
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}
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// TotalSamples returns the total number of samples in the series within a matrix.
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// Float samples have a weight of 1 in this number, while histogram samples have a higher
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// weight according to their size compared with the size of a float sample.
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// See HPoint.size for details.
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func (m Matrix) TotalSamples() int {
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numSamples := 0
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for _, series := range m {
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numSamples += len(series.Floats) + totalHPointSize(series.Histograms)
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}
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return numSamples
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}
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func (m Matrix) Len() int { return len(m) }
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func (m Matrix) Less(i, j int) bool { return labels.Compare(m[i].Metric, m[j].Metric) < 0 }
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func (m Matrix) Swap(i, j int) { m[i], m[j] = m[j], m[i] }
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// ContainsSameLabelset checks if a matrix has samples with the same labelset.
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// Such a behavior is semantically undefined.
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// https://github.com/prometheus/prometheus/issues/4562
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func (m Matrix) ContainsSameLabelset() bool {
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switch len(m) {
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case 0, 1:
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return false
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case 2:
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return m[0].Metric.Hash() == m[1].Metric.Hash()
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default:
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l := make(map[uint64]struct{}, len(m))
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for _, ss := range m {
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hash := ss.Metric.Hash()
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if _, ok := l[hash]; ok {
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return true
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}
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l[hash] = struct{}{}
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}
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return false
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}
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}
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// Result holds the resulting value of an execution or an error
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// if any occurred.
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type Result struct {
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Err error
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Value parser.Value
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Warnings annotations.Annotations
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}
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// Vector returns a Vector if the result value is one. An error is returned if
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// the result was an error or the result value is not a Vector.
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func (r *Result) Vector() (Vector, error) {
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if r.Err != nil {
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return nil, r.Err
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}
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v, ok := r.Value.(Vector)
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if !ok {
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return nil, errors.New("query result is not a Vector")
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}
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return v, nil
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}
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// Matrix returns a Matrix. An error is returned if
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// the result was an error or the result value is not a Matrix.
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func (r *Result) Matrix() (Matrix, error) {
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if r.Err != nil {
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return nil, r.Err
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}
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v, ok := r.Value.(Matrix)
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if !ok {
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return nil, errors.New("query result is not a range Vector")
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}
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return v, nil
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}
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// Scalar returns a Scalar value. An error is returned if
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// the result was an error or the result value is not a Scalar.
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func (r *Result) Scalar() (Scalar, error) {
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if r.Err != nil {
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return Scalar{}, r.Err
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}
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v, ok := r.Value.(Scalar)
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if !ok {
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return Scalar{}, errors.New("query result is not a Scalar")
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}
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return v, nil
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}
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func (r *Result) String() string {
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if r.Err != nil {
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return r.Err.Error()
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}
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if r.Value == nil {
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return ""
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}
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return r.Value.String()
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}
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// StorageSeries simulates promql.Series as storage.Series.
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type StorageSeries struct {
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series Series
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}
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// NewStorageSeries returns a StorageSeries from a Series.
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func NewStorageSeries(series Series) *StorageSeries {
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return &StorageSeries{
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series: series,
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}
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}
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func (ss *StorageSeries) Labels() labels.Labels {
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return ss.series.Metric
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}
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// Iterator returns a new iterator of the data of the series. In case of
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// multiple samples with the same timestamp, it returns the float samples first.
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func (ss *StorageSeries) Iterator(it chunkenc.Iterator) chunkenc.Iterator {
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if ssi, ok := it.(*storageSeriesIterator); ok {
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ssi.reset(ss.series)
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return ssi
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}
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return newStorageSeriesIterator(ss.series)
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}
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type storageSeriesIterator struct {
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floats []FPoint
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histograms []HPoint
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iFloats, iHistograms int
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currT int64
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currF float64
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currH *histogram.FloatHistogram
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}
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func newStorageSeriesIterator(series Series) *storageSeriesIterator {
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return &storageSeriesIterator{
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floats: series.Floats,
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histograms: series.Histograms,
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iFloats: -1,
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iHistograms: 0,
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currT: math.MinInt64,
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}
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}
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func (ssi *storageSeriesIterator) reset(series Series) {
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ssi.floats = series.Floats
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ssi.histograms = series.Histograms
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ssi.iFloats = -1
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ssi.iHistograms = 0
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ssi.currT = math.MinInt64
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ssi.currF = 0
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ssi.currH = nil
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}
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func (ssi *storageSeriesIterator) Seek(t int64) chunkenc.ValueType {
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if ssi.iFloats >= len(ssi.floats) && ssi.iHistograms >= len(ssi.histograms) {
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return chunkenc.ValNone
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}
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for ssi.currT < t {
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if ssi.Next() == chunkenc.ValNone {
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return chunkenc.ValNone
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}
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}
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if ssi.currH != nil {
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return chunkenc.ValFloatHistogram
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}
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return chunkenc.ValFloat
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}
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func (ssi *storageSeriesIterator) At() (t int64, v float64) {
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return ssi.currT, ssi.currF
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}
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func (ssi *storageSeriesIterator) AtHistogram(*histogram.Histogram) (int64, *histogram.Histogram) {
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panic(errors.New("storageSeriesIterator: AtHistogram not supported"))
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}
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func (ssi *storageSeriesIterator) AtFloatHistogram(*histogram.FloatHistogram) (int64, *histogram.FloatHistogram) {
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return ssi.currT, ssi.currH
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}
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func (ssi *storageSeriesIterator) AtT() int64 {
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return ssi.currT
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}
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func (ssi *storageSeriesIterator) Next() chunkenc.ValueType {
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if ssi.currH != nil {
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ssi.iHistograms++
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} else {
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ssi.iFloats++
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}
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var (
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pickH, pickF = false, false
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floatsExhausted = ssi.iFloats >= len(ssi.floats)
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histogramsExhausted = ssi.iHistograms >= len(ssi.histograms)
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)
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switch {
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case floatsExhausted:
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if histogramsExhausted { // Both exhausted!
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return chunkenc.ValNone
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}
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pickH = true
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case histogramsExhausted: // and floats not exhausted.
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pickF = true
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// From here on, we have to look at timestamps.
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case ssi.histograms[ssi.iHistograms].T < ssi.floats[ssi.iFloats].T:
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// Next histogram comes before next float.
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pickH = true
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default:
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// In all other cases, we pick float so that we first iterate
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// through floats if the timestamp is the same.
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pickF = true
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}
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switch {
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case pickF:
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p := ssi.floats[ssi.iFloats]
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ssi.currT = p.T
|
|
ssi.currF = p.F
|
|
ssi.currH = nil
|
|
return chunkenc.ValFloat
|
|
case pickH:
|
|
p := ssi.histograms[ssi.iHistograms]
|
|
ssi.currT = p.T
|
|
ssi.currF = 0
|
|
ssi.currH = p.H
|
|
return chunkenc.ValFloatHistogram
|
|
default:
|
|
panic("storageSeriesIterater.Next failed to pick value type")
|
|
}
|
|
}
|
|
|
|
func (ssi *storageSeriesIterator) Err() error {
|
|
return nil
|
|
}
|