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383 lines
12 KiB
383 lines
12 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 chunkenc
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import (
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"fmt"
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"math"
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"sync"
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"github.com/prometheus/prometheus/model/histogram"
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)
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// Encoding is the identifier for a chunk encoding.
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type Encoding uint8
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// The different available chunk encodings.
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const (
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EncNone Encoding = iota
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EncXOR
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EncHistogram
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EncFloatHistogram
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)
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func (e Encoding) String() string {
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switch e {
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case EncNone:
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return "none"
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case EncXOR:
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return "XOR"
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case EncHistogram:
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return "histogram"
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case EncFloatHistogram:
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return "floathistogram"
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}
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return "<unknown>"
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}
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// IsValidEncoding returns true for supported encodings.
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func IsValidEncoding(e Encoding) bool {
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return e == EncXOR || e == EncHistogram || e == EncFloatHistogram
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}
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const (
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// MaxBytesPerXORChunk is the maximum size an XOR chunk can be.
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MaxBytesPerXORChunk = 1024
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// TargetBytesPerHistogramChunk sets a size target for each histogram chunk.
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TargetBytesPerHistogramChunk = 1024
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// MinSamplesPerHistogramChunk sets a minimum sample count for histogram chunks. This is desirable because a single
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// histogram sample can be larger than TargetBytesPerHistogramChunk but we want to avoid too-small sample count
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// chunks so we can achieve some measure of compression advantage even while dealing with really large histograms.
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// Note that this minimum sample count is not enforced across chunk range boundaries (for example, if the chunk
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// range is 100 and the first sample in the chunk range is 99, the next sample will be included in a new chunk
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// resulting in the old chunk containing only a single sample).
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MinSamplesPerHistogramChunk = 10
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)
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// Chunk holds a sequence of sample pairs that can be iterated over and appended to.
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type Chunk interface {
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Iterable
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// Bytes returns the underlying byte slice of the chunk.
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Bytes() []byte
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// Encoding returns the encoding type of the chunk.
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Encoding() Encoding
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// Appender returns an appender to append samples to the chunk.
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Appender() (Appender, error)
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// NumSamples returns the number of samples in the chunk.
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NumSamples() int
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// Compact is called whenever a chunk is expected to be complete (no more
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// samples appended) and the underlying implementation can eventually
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// optimize the chunk.
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// There's no strong guarantee that no samples will be appended once
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// Compact() is called. Implementing this function is optional.
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Compact()
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}
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type Iterable interface {
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// The iterator passed as argument is for re-use.
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// Depending on implementation, the iterator can
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// be re-used or a new iterator can be allocated.
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Iterator(Iterator) Iterator
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}
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// Appender adds sample pairs to a chunk.
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type Appender interface {
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Append(int64, float64)
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// AppendHistogram and AppendFloatHistogram append a histogram sample to a histogram or float histogram chunk.
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// Appending a histogram may require creating a completely new chunk or recoding (changing) the current chunk.
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// The Appender prev is used to determine if there is a counter reset between the previous Appender and the current Appender.
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// The Appender prev is optional and only taken into account when the first sample is being appended.
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// The bool appendOnly governs what happens when a sample cannot be appended to the current chunk. If appendOnly is true, then
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// in such case an error is returned without modifying the chunk. If appendOnly is false, then a new chunk is created or the
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// current chunk is recoded to accommodate the sample.
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// The returned Chunk c is nil if sample could be appended to the current Chunk, otherwise c is the new Chunk.
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// The returned bool isRecoded can be used to distinguish between the new Chunk c being a completely new Chunk
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// or the current Chunk recoded to a new Chunk.
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// The Appender app that can be used for the next append is always returned.
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AppendHistogram(prev *HistogramAppender, t int64, h *histogram.Histogram, appendOnly bool) (c Chunk, isRecoded bool, app Appender, err error)
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AppendFloatHistogram(prev *FloatHistogramAppender, t int64, h *histogram.FloatHistogram, appendOnly bool) (c Chunk, isRecoded bool, app Appender, err error)
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}
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// Iterator is a simple iterator that can only get the next value.
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// Iterator iterates over the samples of a time series, in timestamp-increasing order.
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type Iterator interface {
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// Next advances the iterator by one and returns the type of the value
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// at the new position (or ValNone if the iterator is exhausted).
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Next() ValueType
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// Seek advances the iterator forward to the first sample with a
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// timestamp equal or greater than t. If the current sample found by a
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// previous `Next` or `Seek` operation already has this property, Seek
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// has no effect. If a sample has been found, Seek returns the type of
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// its value. Otherwise, it returns ValNone, after which the iterator is
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// exhausted.
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Seek(t int64) ValueType
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// At returns the current timestamp/value pair if the value is a float.
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// Before the iterator has advanced, the behaviour is unspecified.
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At() (int64, float64)
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// AtHistogram returns the current timestamp/value pair if the value is
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// a histogram with integer counts. Before the iterator has advanced,
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// the behaviour is unspecified.
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AtHistogram() (int64, *histogram.Histogram)
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// AtFloatHistogram returns the current timestamp/value pair if the
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// value is a histogram with floating-point counts. It also works if the
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// value is a histogram with integer counts, in which case a
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// FloatHistogram copy of the histogram is returned. Before the iterator
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// has advanced, the behaviour is unspecified.
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AtFloatHistogram() (int64, *histogram.FloatHistogram)
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// AtT returns the current timestamp.
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// Before the iterator has advanced, the behaviour is unspecified.
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AtT() int64
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// Err returns the current error. It should be used only after the
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// iterator is exhausted, i.e. `Next` or `Seek` have returned ValNone.
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Err() error
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}
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// ValueType defines the type of a value an Iterator points to.
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type ValueType uint8
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// Possible values for ValueType.
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const (
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ValNone ValueType = iota // No value at the current position.
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ValFloat // A simple float, retrieved with At.
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ValHistogram // A histogram, retrieve with AtHistogram, but AtFloatHistogram works, too.
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ValFloatHistogram // A floating-point histogram, retrieve with AtFloatHistogram.
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)
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func (v ValueType) String() string {
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switch v {
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case ValNone:
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return "none"
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case ValFloat:
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return "float"
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case ValHistogram:
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return "histogram"
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case ValFloatHistogram:
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return "floathistogram"
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default:
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return "unknown"
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}
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}
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func (v ValueType) ChunkEncoding() Encoding {
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switch v {
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case ValFloat:
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return EncXOR
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case ValHistogram:
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return EncHistogram
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case ValFloatHistogram:
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return EncFloatHistogram
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default:
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return EncNone
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}
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}
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func (v ValueType) NewChunk() (Chunk, error) {
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switch v {
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case ValFloat:
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return NewXORChunk(), nil
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case ValHistogram:
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return NewHistogramChunk(), nil
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case ValFloatHistogram:
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return NewFloatHistogramChunk(), nil
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default:
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return nil, fmt.Errorf("value type %v unsupported", v)
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}
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}
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// MockSeriesIterator returns an iterator for a mock series with custom timeStamps and values.
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func MockSeriesIterator(timestamps []int64, values []float64) Iterator {
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return &mockSeriesIterator{
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timeStamps: timestamps,
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values: values,
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currIndex: 0,
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}
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}
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type mockSeriesIterator struct {
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timeStamps []int64
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values []float64
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currIndex int
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}
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func (it *mockSeriesIterator) Seek(int64) ValueType { return ValNone }
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func (it *mockSeriesIterator) At() (int64, float64) {
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return it.timeStamps[it.currIndex], it.values[it.currIndex]
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}
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func (it *mockSeriesIterator) AtHistogram() (int64, *histogram.Histogram) { return math.MinInt64, nil }
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func (it *mockSeriesIterator) AtFloatHistogram() (int64, *histogram.FloatHistogram) {
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return math.MinInt64, nil
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}
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func (it *mockSeriesIterator) AtT() int64 {
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return it.timeStamps[it.currIndex]
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}
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func (it *mockSeriesIterator) Next() ValueType {
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if it.currIndex < len(it.timeStamps)-1 {
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it.currIndex++
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return ValFloat
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}
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return ValNone
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}
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func (it *mockSeriesIterator) Err() error { return nil }
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// NewNopIterator returns a new chunk iterator that does not hold any data.
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func NewNopIterator() Iterator {
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return nopIterator{}
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}
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type nopIterator struct{}
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func (nopIterator) Next() ValueType { return ValNone }
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func (nopIterator) Seek(int64) ValueType { return ValNone }
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func (nopIterator) At() (int64, float64) { return math.MinInt64, 0 }
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func (nopIterator) AtHistogram() (int64, *histogram.Histogram) { return math.MinInt64, nil }
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func (nopIterator) AtFloatHistogram() (int64, *histogram.FloatHistogram) { return math.MinInt64, nil }
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func (nopIterator) AtT() int64 { return math.MinInt64 }
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func (nopIterator) Err() error { return nil }
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// Pool is used to create and reuse chunk references to avoid allocations.
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type Pool interface {
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Put(Chunk) error
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Get(e Encoding, b []byte) (Chunk, error)
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}
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// pool is a memory pool of chunk objects.
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type pool struct {
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xor sync.Pool
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histogram sync.Pool
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floatHistogram sync.Pool
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}
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// NewPool returns a new pool.
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func NewPool() Pool {
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return &pool{
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xor: sync.Pool{
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New: func() interface{} {
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return &XORChunk{b: bstream{}}
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},
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},
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histogram: sync.Pool{
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New: func() interface{} {
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return &HistogramChunk{b: bstream{}}
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},
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},
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floatHistogram: sync.Pool{
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New: func() interface{} {
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return &FloatHistogramChunk{b: bstream{}}
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},
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},
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}
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}
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func (p *pool) Get(e Encoding, b []byte) (Chunk, error) {
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switch e {
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case EncXOR:
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c := p.xor.Get().(*XORChunk)
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c.b.stream = b
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c.b.count = 0
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return c, nil
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case EncHistogram:
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c := p.histogram.Get().(*HistogramChunk)
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c.b.stream = b
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c.b.count = 0
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return c, nil
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case EncFloatHistogram:
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c := p.floatHistogram.Get().(*FloatHistogramChunk)
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c.b.stream = b
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c.b.count = 0
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return c, nil
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}
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return nil, fmt.Errorf("invalid chunk encoding %q", e)
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}
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func (p *pool) Put(c Chunk) error {
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switch c.Encoding() {
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case EncXOR:
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xc, ok := c.(*XORChunk)
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// This may happen often with wrapped chunks. Nothing we can really do about
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// it but returning an error would cause a lot of allocations again. Thus,
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// we just skip it.
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if !ok {
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return nil
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}
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xc.b.stream = nil
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xc.b.count = 0
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p.xor.Put(c)
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case EncHistogram:
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sh, ok := c.(*HistogramChunk)
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// This may happen often with wrapped chunks. Nothing we can really do about
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// it but returning an error would cause a lot of allocations again. Thus,
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// we just skip it.
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if !ok {
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return nil
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}
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sh.b.stream = nil
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sh.b.count = 0
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p.histogram.Put(c)
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case EncFloatHistogram:
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sh, ok := c.(*FloatHistogramChunk)
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// This may happen often with wrapped chunks. Nothing we can really do about
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// it but returning an error would cause a lot of allocations again. Thus,
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// we just skip it.
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if !ok {
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return nil
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}
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sh.b.stream = nil
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sh.b.count = 0
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p.floatHistogram.Put(c)
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default:
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return fmt.Errorf("invalid chunk encoding %q", c.Encoding())
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}
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return nil
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}
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// FromData returns a chunk from a byte slice of chunk data.
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// This is there so that users of the library can easily create chunks from
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// bytes.
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func FromData(e Encoding, d []byte) (Chunk, error) {
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switch e {
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case EncXOR:
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return &XORChunk{b: bstream{count: 0, stream: d}}, nil
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case EncHistogram:
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return &HistogramChunk{b: bstream{count: 0, stream: d}}, nil
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case EncFloatHistogram:
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return &FloatHistogramChunk{b: bstream{count: 0, stream: d}}, nil
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}
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return nil, fmt.Errorf("invalid chunk encoding %q", e)
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}
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// NewEmptyChunk returns an empty chunk for the given encoding.
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func NewEmptyChunk(e Encoding) (Chunk, error) {
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switch e {
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case EncXOR:
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return NewXORChunk(), nil
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case EncHistogram:
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return NewHistogramChunk(), nil
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case EncFloatHistogram:
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return NewFloatHistogramChunk(), nil
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}
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return nil, fmt.Errorf("invalid chunk encoding %q", e)
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}
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