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377 lines
9.9 KiB
377 lines
9.9 KiB
// Copyright 2020 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 storage |
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import ( |
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"fmt" |
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"math" |
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"sort" |
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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/tsdb/chunkenc" |
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"github.com/prometheus/prometheus/tsdb/chunks" |
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"github.com/prometheus/prometheus/tsdb/tsdbutil" |
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) |
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type SeriesEntry struct { |
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Lset labels.Labels |
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SampleIteratorFn func() chunkenc.Iterator |
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} |
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func (s *SeriesEntry) Labels() labels.Labels { return s.Lset } |
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func (s *SeriesEntry) Iterator() chunkenc.Iterator { return s.SampleIteratorFn() } |
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type ChunkSeriesEntry struct { |
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Lset labels.Labels |
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ChunkIteratorFn func() chunks.Iterator |
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} |
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func (s *ChunkSeriesEntry) Labels() labels.Labels { return s.Lset } |
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func (s *ChunkSeriesEntry) Iterator() chunks.Iterator { return s.ChunkIteratorFn() } |
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// NewListSeries returns series entry with iterator that allows to iterate over provided samples. |
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func NewListSeries(lset labels.Labels, s []tsdbutil.Sample) *SeriesEntry { |
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return &SeriesEntry{ |
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Lset: lset, |
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SampleIteratorFn: func() chunkenc.Iterator { |
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return NewListSeriesIterator(samples(s)) |
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}, |
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} |
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} |
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// NewListChunkSeriesFromSamples returns chunk series entry that allows to iterate over provided samples. |
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// NOTE: It uses inefficient chunks encoding implementation, not caring about chunk size. |
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func NewListChunkSeriesFromSamples(lset labels.Labels, samples ...[]tsdbutil.Sample) *ChunkSeriesEntry { |
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return &ChunkSeriesEntry{ |
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Lset: lset, |
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ChunkIteratorFn: func() chunks.Iterator { |
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chks := make([]chunks.Meta, 0, len(samples)) |
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for _, s := range samples { |
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chks = append(chks, tsdbutil.ChunkFromSamples(s)) |
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} |
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return NewListChunkSeriesIterator(chks...) |
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}, |
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} |
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} |
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type listSeriesIterator struct { |
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samples Samples |
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idx int |
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} |
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type samples []tsdbutil.Sample |
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func (s samples) Get(i int) tsdbutil.Sample { return s[i] } |
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func (s samples) Len() int { return len(s) } |
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// Samples interface allows to work on arrays of types that are compatible with tsdbutil.Sample. |
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type Samples interface { |
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Get(i int) tsdbutil.Sample |
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Len() int |
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} |
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// NewListSeriesIterator returns listSeriesIterator that allows to iterate over provided samples. |
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func NewListSeriesIterator(samples Samples) chunkenc.Iterator { |
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return &listSeriesIterator{samples: samples, idx: -1} |
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} |
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func (it *listSeriesIterator) At() (int64, float64) { |
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s := it.samples.Get(it.idx) |
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return s.T(), s.V() |
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} |
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func (it *listSeriesIterator) AtHistogram() (int64, *histogram.Histogram) { |
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s := it.samples.Get(it.idx) |
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return s.T(), s.H() |
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} |
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func (it *listSeriesIterator) AtFloatHistogram() (int64, *histogram.FloatHistogram) { |
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s := it.samples.Get(it.idx) |
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return s.T(), s.FH() |
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} |
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func (it *listSeriesIterator) AtT() int64 { |
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s := it.samples.Get(it.idx) |
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return s.T() |
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} |
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func (it *listSeriesIterator) Next() chunkenc.ValueType { |
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it.idx++ |
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if it.idx >= it.samples.Len() { |
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return chunkenc.ValNone |
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} |
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return it.samples.Get(it.idx).Type() |
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} |
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func (it *listSeriesIterator) Seek(t int64) chunkenc.ValueType { |
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if it.idx == -1 { |
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it.idx = 0 |
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} |
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if it.idx >= it.samples.Len() { |
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return chunkenc.ValNone |
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} |
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// No-op check. |
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if s := it.samples.Get(it.idx); s.T() >= t { |
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return s.Type() |
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} |
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// Do binary search between current position and end. |
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it.idx += sort.Search(it.samples.Len()-it.idx, func(i int) bool { |
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s := it.samples.Get(i + it.idx) |
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return s.T() >= t |
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}) |
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if it.idx >= it.samples.Len() { |
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return chunkenc.ValNone |
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} |
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return it.samples.Get(it.idx).Type() |
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} |
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func (it *listSeriesIterator) Err() error { return nil } |
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type listChunkSeriesIterator struct { |
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chks []chunks.Meta |
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idx int |
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} |
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// NewListChunkSeriesIterator returns listChunkSeriesIterator that allows to iterate over provided chunks. |
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func NewListChunkSeriesIterator(chks ...chunks.Meta) chunks.Iterator { |
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return &listChunkSeriesIterator{chks: chks, idx: -1} |
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} |
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func (it *listChunkSeriesIterator) At() chunks.Meta { |
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return it.chks[it.idx] |
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} |
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func (it *listChunkSeriesIterator) Next() bool { |
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it.idx++ |
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return it.idx < len(it.chks) |
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} |
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func (it *listChunkSeriesIterator) Err() error { return nil } |
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type chunkSetToSeriesSet struct { |
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ChunkSeriesSet |
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chkIterErr error |
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sameSeriesChunks []Series |
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} |
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// NewSeriesSetFromChunkSeriesSet converts ChunkSeriesSet to SeriesSet by decoding chunks one by one. |
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func NewSeriesSetFromChunkSeriesSet(chk ChunkSeriesSet) SeriesSet { |
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return &chunkSetToSeriesSet{ChunkSeriesSet: chk} |
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} |
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func (c *chunkSetToSeriesSet) Next() bool { |
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if c.Err() != nil || !c.ChunkSeriesSet.Next() { |
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return false |
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} |
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iter := c.ChunkSeriesSet.At().Iterator() |
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c.sameSeriesChunks = c.sameSeriesChunks[:0] |
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for iter.Next() { |
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c.sameSeriesChunks = append( |
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c.sameSeriesChunks, |
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newChunkToSeriesDecoder(c.ChunkSeriesSet.At().Labels(), iter.At()), |
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) |
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} |
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if iter.Err() != nil { |
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c.chkIterErr = iter.Err() |
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return false |
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} |
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return true |
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} |
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func (c *chunkSetToSeriesSet) At() Series { |
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// Series composed of same chunks for the same series. |
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return ChainedSeriesMerge(c.sameSeriesChunks...) |
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} |
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func (c *chunkSetToSeriesSet) Err() error { |
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if c.chkIterErr != nil { |
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return c.chkIterErr |
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} |
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return c.ChunkSeriesSet.Err() |
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} |
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func newChunkToSeriesDecoder(labels labels.Labels, chk chunks.Meta) Series { |
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return &SeriesEntry{ |
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Lset: labels, |
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SampleIteratorFn: func() chunkenc.Iterator { |
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// TODO(bwplotka): Can we provide any chunkenc buffer? |
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return chk.Chunk.Iterator(nil) |
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}, |
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} |
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} |
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type seriesSetToChunkSet struct { |
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SeriesSet |
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} |
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// NewSeriesSetToChunkSet converts SeriesSet to ChunkSeriesSet by encoding chunks from samples. |
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func NewSeriesSetToChunkSet(chk SeriesSet) ChunkSeriesSet { |
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return &seriesSetToChunkSet{SeriesSet: chk} |
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} |
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func (c *seriesSetToChunkSet) Next() bool { |
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if c.Err() != nil || !c.SeriesSet.Next() { |
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return false |
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} |
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return true |
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} |
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func (c *seriesSetToChunkSet) At() ChunkSeries { |
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return NewSeriesToChunkEncoder(c.SeriesSet.At()) |
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} |
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func (c *seriesSetToChunkSet) Err() error { |
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return c.SeriesSet.Err() |
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} |
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type seriesToChunkEncoder struct { |
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Series |
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} |
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const seriesToChunkEncoderSplit = 120 |
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// NewSeriesToChunkEncoder encodes samples to chunks with 120 samples limit. |
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func NewSeriesToChunkEncoder(series Series) ChunkSeries { |
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return &seriesToChunkEncoder{series} |
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} |
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func (s *seriesToChunkEncoder) Iterator() chunks.Iterator { |
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var ( |
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chk chunkenc.Chunk |
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app chunkenc.Appender |
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err error |
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) |
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mint := int64(math.MaxInt64) |
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maxt := int64(math.MinInt64) |
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chks := []chunks.Meta{} |
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i := 0 |
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seriesIter := s.Series.Iterator() |
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lastType := chunkenc.ValNone |
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for typ := seriesIter.Next(); typ != chunkenc.ValNone; typ = seriesIter.Next() { |
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if typ != lastType || i >= seriesToChunkEncoderSplit { |
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// Create a new chunk if the sample type changed or too many samples in the current one. |
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if chk != nil { |
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chks = append(chks, chunks.Meta{ |
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MinTime: mint, |
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MaxTime: maxt, |
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Chunk: chk, |
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}) |
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} |
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chk, err = chunkenc.NewEmptyChunk(typ.ChunkEncoding()) |
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if err != nil { |
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return errChunksIterator{err: err} |
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} |
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app, err = chk.Appender() |
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if err != nil { |
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return errChunksIterator{err: err} |
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} |
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mint = int64(math.MaxInt64) |
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// maxt is immediately overwritten below which is why setting it here won't make a difference. |
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i = 0 |
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} |
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lastType = typ |
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var ( |
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t int64 |
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v float64 |
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h *histogram.Histogram |
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) |
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switch typ { |
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case chunkenc.ValFloat: |
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t, v = seriesIter.At() |
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app.Append(t, v) |
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case chunkenc.ValHistogram: |
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t, h = seriesIter.AtHistogram() |
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app.AppendHistogram(t, h) |
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default: |
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return errChunksIterator{err: fmt.Errorf("unknown sample type %s", typ.String())} |
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} |
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maxt = t |
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if mint == math.MaxInt64 { |
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mint = t |
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} |
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i++ |
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} |
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if err := seriesIter.Err(); err != nil { |
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return errChunksIterator{err: err} |
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} |
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if chk != nil { |
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chks = append(chks, chunks.Meta{ |
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MinTime: mint, |
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MaxTime: maxt, |
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Chunk: chk, |
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}) |
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} |
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return NewListChunkSeriesIterator(chks...) |
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} |
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type errChunksIterator struct { |
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err error |
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} |
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func (e errChunksIterator) At() chunks.Meta { return chunks.Meta{} } |
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func (e errChunksIterator) Next() bool { return false } |
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func (e errChunksIterator) Err() error { return e.err } |
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// ExpandSamples iterates over all samples in the iterator, buffering all in slice. |
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// Optionally it takes samples constructor, useful when you want to compare sample slices with different |
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// sample implementations. if nil, sample type from this package will be used. |
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func ExpandSamples(iter chunkenc.Iterator, newSampleFn func(t int64, v float64, h *histogram.Histogram, fh *histogram.FloatHistogram) tsdbutil.Sample) ([]tsdbutil.Sample, error) { |
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if newSampleFn == nil { |
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newSampleFn = func(t int64, v float64, h *histogram.Histogram, fh *histogram.FloatHistogram) tsdbutil.Sample { |
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return sample{t, v, h, fh} |
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} |
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} |
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var result []tsdbutil.Sample |
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for { |
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switch iter.Next() { |
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case chunkenc.ValNone: |
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return result, iter.Err() |
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case chunkenc.ValFloat: |
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t, v := iter.At() |
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// NaNs can't be compared normally, so substitute for another value. |
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if math.IsNaN(v) { |
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v = -42 |
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} |
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result = append(result, newSampleFn(t, v, nil, nil)) |
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case chunkenc.ValHistogram: |
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t, h := iter.AtHistogram() |
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result = append(result, newSampleFn(t, 0, h, nil)) |
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case chunkenc.ValFloatHistogram: |
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t, fh := iter.AtFloatHistogram() |
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result = append(result, newSampleFn(t, 0, nil, fh)) |
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} |
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} |
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} |
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// ExpandChunks iterates over all chunks in the iterator, buffering all in slice. |
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func ExpandChunks(iter chunks.Iterator) ([]chunks.Meta, error) { |
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var result []chunks.Meta |
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for iter.Next() { |
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result = append(result, iter.At()) |
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} |
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return result, iter.Err() |
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}
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