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530 lines
14 KiB
530 lines
14 KiB
// 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() (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() (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
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ssi.currF = p.F
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ssi.currH = nil
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return chunkenc.ValFloat
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case pickH:
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p := ssi.histograms[ssi.iHistograms]
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ssi.currT = p.T
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ssi.currF = 0
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ssi.currH = p.H
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return chunkenc.ValFloatHistogram
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default:
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panic("storageSeriesIterater.Next failed to pick value type")
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}
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}
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|
func (ssi *storageSeriesIterator) Err() error {
|
|
return nil
|
|
}
|