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823 lines
19 KiB
823 lines
19 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 storage |
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|
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import ( |
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"fmt" |
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"math" |
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|
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"github.com/prometheus/prometheus/model/histogram" |
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"github.com/prometheus/prometheus/tsdb/chunkenc" |
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"github.com/prometheus/prometheus/tsdb/chunks" |
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) |
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|
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// BufferedSeriesIterator wraps an iterator with a look-back buffer. |
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type BufferedSeriesIterator struct { |
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hReader histogram.Histogram |
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fhReader histogram.FloatHistogram |
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it chunkenc.Iterator |
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buf *sampleRing |
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delta int64 |
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lastTime int64 |
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valueType chunkenc.ValueType |
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} |
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// NewBuffer returns a new iterator that buffers the values within the time range |
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// of the current element and the duration of delta before, initialized with an |
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// empty iterator. Use Reset() to set an actual iterator to be buffered. |
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func NewBuffer(delta int64) *BufferedSeriesIterator { |
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return NewBufferIterator(chunkenc.NewNopIterator(), delta) |
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} |
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// NewBufferIterator returns a new iterator that buffers the values within the |
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// time range of the current element and the duration of delta before. |
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func NewBufferIterator(it chunkenc.Iterator, delta int64) *BufferedSeriesIterator { |
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bit := &BufferedSeriesIterator{ |
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buf: newSampleRing(delta, 0, chunkenc.ValNone), |
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delta: delta, |
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} |
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bit.Reset(it) |
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return bit |
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} |
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// Reset re-uses the buffer with a new iterator, resetting the buffered time |
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// delta to its original value. |
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func (b *BufferedSeriesIterator) Reset(it chunkenc.Iterator) { |
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b.it = it |
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b.lastTime = math.MinInt64 |
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b.buf.reset() |
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b.buf.delta = b.delta |
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b.valueType = it.Next() |
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} |
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// ReduceDelta lowers the buffered time delta, for the current SeriesIterator only. |
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func (b *BufferedSeriesIterator) ReduceDelta(delta int64) bool { |
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return b.buf.reduceDelta(delta) |
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} |
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// PeekBack returns the nth previous element of the iterator. If there is none buffered, |
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// ok is false. |
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func (b *BufferedSeriesIterator) PeekBack(n int) (sample chunks.Sample, ok bool) { |
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return b.buf.nthLast(n) |
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} |
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// Buffer returns an iterator over the buffered data. Invalidates previously |
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// returned iterators. |
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func (b *BufferedSeriesIterator) Buffer() *SampleRingIterator { |
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return b.buf.iterator() |
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} |
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// Seek advances the iterator to the element at time t or greater. |
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func (b *BufferedSeriesIterator) Seek(t int64) chunkenc.ValueType { |
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t0 := t - b.buf.delta |
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|
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// If the delta would cause us to seek backwards, preserve the buffer |
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// and just continue regular advancement while filling the buffer on the way. |
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if b.valueType != chunkenc.ValNone && t0 > b.lastTime { |
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b.buf.reset() |
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b.valueType = b.it.Seek(t0) |
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switch b.valueType { |
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case chunkenc.ValNone: |
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return chunkenc.ValNone |
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case chunkenc.ValFloat, chunkenc.ValHistogram, chunkenc.ValFloatHistogram: |
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b.lastTime = b.AtT() |
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default: |
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panic(fmt.Errorf("BufferedSeriesIterator: unknown value type %v", b.valueType)) |
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} |
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} |
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if b.lastTime >= t { |
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return b.valueType |
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} |
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for { |
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if b.valueType = b.Next(); b.valueType == chunkenc.ValNone || b.lastTime >= t { |
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return b.valueType |
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} |
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} |
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} |
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// Next advances the iterator to the next element. |
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func (b *BufferedSeriesIterator) Next() chunkenc.ValueType { |
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// Add current element to buffer before advancing. |
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switch b.valueType { |
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case chunkenc.ValNone: |
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return chunkenc.ValNone |
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case chunkenc.ValFloat: |
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t, f := b.it.At() |
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b.buf.addF(fSample{t: t, f: f}) |
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case chunkenc.ValHistogram: |
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t, h := b.it.AtHistogram(&b.hReader) |
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b.buf.addH(hSample{t: t, h: h}) |
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case chunkenc.ValFloatHistogram: |
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t, fh := b.it.AtFloatHistogram(&b.fhReader) |
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b.buf.addFH(fhSample{t: t, fh: fh}) |
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default: |
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panic(fmt.Errorf("BufferedSeriesIterator: unknown value type %v", b.valueType)) |
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} |
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b.valueType = b.it.Next() |
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if b.valueType != chunkenc.ValNone { |
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b.lastTime = b.AtT() |
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} |
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return b.valueType |
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} |
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// At returns the current float element of the iterator. |
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func (b *BufferedSeriesIterator) At() (int64, float64) { |
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return b.it.At() |
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} |
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// AtHistogram returns the current histogram element of the iterator. |
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func (b *BufferedSeriesIterator) AtHistogram(fh *histogram.Histogram) (int64, *histogram.Histogram) { |
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return b.it.AtHistogram(fh) |
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} |
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// AtFloatHistogram returns the current float-histogram element of the iterator. |
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func (b *BufferedSeriesIterator) AtFloatHistogram(fh *histogram.FloatHistogram) (int64, *histogram.FloatHistogram) { |
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return b.it.AtFloatHistogram(fh) |
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} |
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// AtT returns the current timestamp of the iterator. |
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func (b *BufferedSeriesIterator) AtT() int64 { |
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return b.it.AtT() |
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} |
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// Err returns the last encountered error. |
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func (b *BufferedSeriesIterator) Err() error { |
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return b.it.Err() |
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} |
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type fSample struct { |
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t int64 |
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f float64 |
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} |
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func (s fSample) T() int64 { |
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return s.t |
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} |
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func (s fSample) F() float64 { |
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return s.f |
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} |
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func (s fSample) H() *histogram.Histogram { |
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panic("H() called for fSample") |
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} |
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func (s fSample) FH() *histogram.FloatHistogram { |
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panic("FH() called for fSample") |
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} |
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func (s fSample) Type() chunkenc.ValueType { |
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return chunkenc.ValFloat |
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} |
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func (s fSample) Copy() chunks.Sample { |
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return s |
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} |
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type hSample struct { |
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t int64 |
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h *histogram.Histogram |
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} |
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func (s hSample) T() int64 { |
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return s.t |
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} |
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func (s hSample) F() float64 { |
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panic("F() called for hSample") |
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} |
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func (s hSample) H() *histogram.Histogram { |
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return s.h |
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} |
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func (s hSample) FH() *histogram.FloatHistogram { |
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return s.h.ToFloat(nil) |
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} |
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func (s hSample) Type() chunkenc.ValueType { |
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return chunkenc.ValHistogram |
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} |
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func (s hSample) Copy() chunks.Sample { |
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return hSample{t: s.t, h: s.h.Copy()} |
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} |
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type fhSample struct { |
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t int64 |
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fh *histogram.FloatHistogram |
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} |
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func (s fhSample) T() int64 { |
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return s.t |
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} |
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func (s fhSample) F() float64 { |
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panic("F() called for fhSample") |
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} |
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func (s fhSample) H() *histogram.Histogram { |
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panic("H() called for fhSample") |
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} |
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func (s fhSample) FH() *histogram.FloatHistogram { |
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return s.fh |
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} |
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func (s fhSample) Type() chunkenc.ValueType { |
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return chunkenc.ValFloatHistogram |
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} |
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func (s fhSample) Copy() chunks.Sample { |
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return fhSample{t: s.t, fh: s.fh.Copy()} |
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} |
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type sampleRing struct { |
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delta int64 |
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// Lookback buffers. We use iBuf for mixed samples, but one of the three |
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// concrete ones for homogeneous samples. (Only one of the four bufs is |
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// allowed to be populated!) This avoids the overhead of the interface |
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// wrapper for the happy (and by far most common) case of homogeneous |
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// samples. |
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iBuf []chunks.Sample |
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fBuf []fSample |
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hBuf []hSample |
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fhBuf []fhSample |
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bufInUse bufType |
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i int // Position of most recent element in ring buffer. |
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f int // Position of first element in ring buffer. |
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l int // Number of elements in buffer. |
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it SampleRingIterator |
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} |
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type bufType int |
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const ( |
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noBuf bufType = iota // Nothing yet stored in sampleRing. |
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iBuf |
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fBuf |
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hBuf |
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fhBuf |
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) |
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// newSampleRing creates a new sampleRing. If you do not know the preferred |
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// value type yet, use a size of 0 (in which case the provided typ doesn't |
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// matter). On the first add, a buffer of size 16 will be allocated with the |
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// preferred type being the type of the first added sample. |
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func newSampleRing(delta int64, size int, typ chunkenc.ValueType) *sampleRing { |
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r := &sampleRing{delta: delta} |
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r.reset() |
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if size <= 0 { |
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// Will initialize on first add. |
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return r |
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} |
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switch typ { |
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case chunkenc.ValFloat: |
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r.fBuf = make([]fSample, size) |
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case chunkenc.ValHistogram: |
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r.hBuf = make([]hSample, size) |
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case chunkenc.ValFloatHistogram: |
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r.fhBuf = make([]fhSample, size) |
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default: |
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// Do not initialize anything because the 1st sample will be |
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// added to one of the other bufs anyway. |
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} |
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return r |
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} |
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func (r *sampleRing) reset() { |
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r.l = 0 |
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r.i = -1 |
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r.f = 0 |
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r.bufInUse = noBuf |
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// The first sample after the reset will always go to a specialized |
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// buffer. If we later need to change to the interface buffer, we'll |
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// copy from the specialized buffer to the interface buffer. For that to |
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// work properly, we have to reset the interface buffer here, too. |
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r.iBuf = r.iBuf[:0] |
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} |
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// Resets and returns the iterator. Invalidates previously returned iterators. |
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func (r *sampleRing) iterator() *SampleRingIterator { |
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r.it.reset(r) |
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return &r.it |
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} |
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// SampleRingIterator is returned by BufferedSeriesIterator.Buffer() and can be |
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// used to iterate samples buffered in the lookback window. |
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type SampleRingIterator struct { |
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r *sampleRing |
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i int |
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t int64 |
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f float64 |
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h *histogram.Histogram |
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fh *histogram.FloatHistogram |
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} |
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func (it *SampleRingIterator) reset(r *sampleRing) { |
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it.r = r |
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it.i = -1 |
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it.h = nil |
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it.fh = nil |
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} |
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func (it *SampleRingIterator) Next() chunkenc.ValueType { |
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it.i++ |
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if it.i >= it.r.l { |
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return chunkenc.ValNone |
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} |
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switch it.r.bufInUse { |
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case fBuf: |
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s := it.r.atF(it.i) |
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it.t = s.t |
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it.f = s.f |
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return chunkenc.ValFloat |
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case hBuf: |
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s := it.r.atH(it.i) |
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it.t = s.t |
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it.h = s.h |
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return chunkenc.ValHistogram |
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case fhBuf: |
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s := it.r.atFH(it.i) |
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it.t = s.t |
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it.fh = s.fh |
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return chunkenc.ValFloatHistogram |
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} |
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s := it.r.at(it.i) |
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it.t = s.T() |
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switch s.Type() { |
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case chunkenc.ValHistogram: |
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it.h = s.H() |
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it.fh = nil |
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return chunkenc.ValHistogram |
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case chunkenc.ValFloatHistogram: |
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it.fh = s.FH() |
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it.h = nil |
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return chunkenc.ValFloatHistogram |
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default: |
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it.f = s.F() |
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return chunkenc.ValFloat |
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} |
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} |
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// At returns the current float element of the iterator. |
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func (it *SampleRingIterator) At() (int64, float64) { |
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return it.t, it.f |
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} |
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|
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// AtHistogram returns the current histogram element of the iterator. |
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func (it *SampleRingIterator) AtHistogram() (int64, *histogram.Histogram) { |
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return it.t, it.h |
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} |
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// AtFloatHistogram returns the current histogram element of the iterator. If the |
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// current sample is an integer histogram, it will be converted to a float histogram. |
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// An optional histogram.FloatHistogram can be provided to avoid allocating a new |
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// object for the conversion. |
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func (it *SampleRingIterator) AtFloatHistogram(fh *histogram.FloatHistogram) (int64, *histogram.FloatHistogram) { |
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if it.fh == nil { |
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return it.t, it.h.ToFloat(fh) |
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} |
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if fh != nil { |
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it.fh.CopyTo(fh) |
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return it.t, fh |
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} |
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return it.t, it.fh.Copy() |
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} |
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func (it *SampleRingIterator) AtT() int64 { |
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return it.t |
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} |
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func (r *sampleRing) at(i int) chunks.Sample { |
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j := (r.f + i) % len(r.iBuf) |
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return r.iBuf[j] |
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} |
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func (r *sampleRing) atF(i int) fSample { |
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j := (r.f + i) % len(r.fBuf) |
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return r.fBuf[j] |
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} |
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func (r *sampleRing) atH(i int) hSample { |
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j := (r.f + i) % len(r.hBuf) |
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return r.hBuf[j] |
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} |
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func (r *sampleRing) atFH(i int) fhSample { |
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j := (r.f + i) % len(r.fhBuf) |
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return r.fhBuf[j] |
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} |
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// add adds a sample to the ring buffer and frees all samples that fall out of |
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// the delta range. Note that this method works for any sample |
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// implementation. If you know you are dealing with one of the implementations |
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// from this package (fSample, hSample, fhSample), call one of the specialized |
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// methods addF, addH, or addFH for better performance. |
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func (r *sampleRing) add(s chunks.Sample) { |
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if r.bufInUse == noBuf { |
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// First sample. |
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switch s := s.(type) { |
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case fSample: |
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r.bufInUse = fBuf |
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r.fBuf = addF(s, r.fBuf, r) |
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case hSample: |
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r.bufInUse = hBuf |
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r.hBuf = addH(s, r.hBuf, r) |
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case fhSample: |
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r.bufInUse = fhBuf |
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r.fhBuf = addFH(s, r.fhBuf, r) |
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} |
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return |
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} |
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if r.bufInUse != iBuf { |
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// Nothing added to the interface buf yet. Let's check if we can |
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// stay specialized. |
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switch s := s.(type) { |
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case fSample: |
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if r.bufInUse == fBuf { |
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r.fBuf = addF(s, r.fBuf, r) |
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return |
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} |
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case hSample: |
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if r.bufInUse == hBuf { |
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r.hBuf = addH(s, r.hBuf, r) |
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return |
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} |
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case fhSample: |
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if r.bufInUse == fhBuf { |
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r.fhBuf = addFH(s, r.fhBuf, r) |
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return |
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} |
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} |
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// The new sample isn't a fit for the already existing |
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// ones. Copy the latter into the interface buffer where needed. |
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// The interface buffer is assumed to be of length zero at this point. |
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switch r.bufInUse { |
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case fBuf: |
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for _, s := range r.fBuf { |
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r.iBuf = append(r.iBuf, s) |
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} |
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r.fBuf = nil |
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case hBuf: |
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for _, s := range r.hBuf { |
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r.iBuf = append(r.iBuf, s) |
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} |
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r.hBuf = nil |
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case fhBuf: |
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for _, s := range r.fhBuf { |
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r.iBuf = append(r.iBuf, s) |
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} |
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r.fhBuf = nil |
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} |
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r.bufInUse = iBuf |
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} |
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r.iBuf = addSample(s, r.iBuf, r) |
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} |
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|
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// addF is a version of the add method specialized for fSample. |
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func (r *sampleRing) addF(s fSample) { |
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switch r.bufInUse { |
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case fBuf: // Add to existing fSamples. |
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r.fBuf = addF(s, r.fBuf, r) |
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case noBuf: // Add first sample. |
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r.fBuf = addF(s, r.fBuf, r) |
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r.bufInUse = fBuf |
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case iBuf: // Already have interface samples. Add to the interface buf. |
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r.iBuf = addSample(s, r.iBuf, r) |
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default: |
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// Already have specialized samples that are not fSamples. |
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// Need to call the checked add method for conversion. |
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r.add(s) |
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} |
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} |
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|
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// addH is a version of the add method specialized for hSample. |
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func (r *sampleRing) addH(s hSample) { |
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switch r.bufInUse { |
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case hBuf: // Add to existing hSamples. |
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r.hBuf = addH(s, r.hBuf, r) |
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case noBuf: // Add first sample. |
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r.hBuf = addH(s, r.hBuf, r) |
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r.bufInUse = hBuf |
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case iBuf: // Already have interface samples. Add to the interface buf. |
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r.iBuf = addSample(s, r.iBuf, r) |
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default: |
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// Already have specialized samples that are not hSamples. |
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// Need to call the checked add method for conversion. |
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r.add(s) |
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} |
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} |
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|
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// addFH is a version of the add method specialized for fhSample. |
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func (r *sampleRing) addFH(s fhSample) { |
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switch r.bufInUse { |
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case fhBuf: // Add to existing fhSamples. |
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r.fhBuf = addFH(s, r.fhBuf, r) |
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case noBuf: // Add first sample. |
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r.fhBuf = addFH(s, r.fhBuf, r) |
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r.bufInUse = fhBuf |
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case iBuf: // Already have interface samples. Add to the interface buf. |
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r.iBuf = addSample(s, r.iBuf, r) |
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default: |
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// Already have specialized samples that are not fhSamples. |
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// Need to call the checked add method for conversion. |
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r.add(s) |
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} |
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} |
|
|
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// addSample adds a sample to a buffer of chunks.Sample, i.e. the general case |
|
// using an interface as the type. |
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func addSample(s chunks.Sample, buf []chunks.Sample, r *sampleRing) []chunks.Sample { |
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l := len(buf) |
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// Grow the ring buffer if it fits no more elements. |
|
if l == 0 { |
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buf = make([]chunks.Sample, 16) |
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l = 16 |
|
} |
|
if l == r.l { |
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newBuf := make([]chunks.Sample, 2*l) |
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copy(newBuf[l+r.f:], buf[r.f:]) |
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copy(newBuf, buf[:r.f]) |
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|
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buf = newBuf |
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r.i = r.f |
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r.f += l |
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l = 2 * l |
|
} else { |
|
r.i++ |
|
if r.i >= l { |
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r.i -= l |
|
} |
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} |
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|
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buf[r.i] = s.Copy() |
|
r.l++ |
|
|
|
// Free head of the buffer of samples that just fell out of the range. |
|
tmin := s.T() - r.delta |
|
for buf[r.f].T() < tmin { |
|
r.f++ |
|
if r.f >= l { |
|
r.f -= l |
|
} |
|
r.l-- |
|
} |
|
return buf |
|
} |
|
|
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// addF adds an fSample to a (specialized) fSample buffer. |
|
func addF(s fSample, buf []fSample, r *sampleRing) []fSample { |
|
l := len(buf) |
|
// Grow the ring buffer if it fits no more elements. |
|
if l == 0 { |
|
buf = make([]fSample, 16) |
|
l = 16 |
|
} |
|
if l == r.l { |
|
newBuf := make([]fSample, 2*l) |
|
copy(newBuf[l+r.f:], buf[r.f:]) |
|
copy(newBuf, buf[:r.f]) |
|
|
|
buf = newBuf |
|
r.i = r.f |
|
r.f += l |
|
l = 2 * l |
|
} else { |
|
r.i++ |
|
if r.i >= l { |
|
r.i -= l |
|
} |
|
} |
|
|
|
buf[r.i] = s |
|
r.l++ |
|
|
|
// Free head of the buffer of samples that just fell out of the range. |
|
tmin := s.T() - r.delta |
|
for buf[r.f].T() < tmin { |
|
r.f++ |
|
if r.f >= l { |
|
r.f -= l |
|
} |
|
r.l-- |
|
} |
|
return buf |
|
} |
|
|
|
// addF adds an hSample to a (specialized) hSample buffer. |
|
func addH(s hSample, buf []hSample, r *sampleRing) []hSample { |
|
l := len(buf) |
|
// Grow the ring buffer if it fits no more elements. |
|
if l == 0 { |
|
buf = make([]hSample, 16) |
|
l = 16 |
|
} |
|
if l == r.l { |
|
newBuf := make([]hSample, 2*l) |
|
copy(newBuf[l+r.f:], buf[r.f:]) |
|
copy(newBuf, buf[:r.f]) |
|
|
|
buf = newBuf |
|
r.i = r.f |
|
r.f += l |
|
l = 2 * l |
|
} else { |
|
r.i++ |
|
if r.i >= l { |
|
r.i -= l |
|
} |
|
} |
|
|
|
buf[r.i].t = s.t |
|
if buf[r.i].h == nil { |
|
buf[r.i].h = s.h.Copy() |
|
} else { |
|
s.h.CopyTo(buf[r.i].h) |
|
} |
|
r.l++ |
|
|
|
// Free head of the buffer of samples that just fell out of the range. |
|
tmin := s.T() - r.delta |
|
for buf[r.f].T() < tmin { |
|
r.f++ |
|
if r.f >= l { |
|
r.f -= l |
|
} |
|
r.l-- |
|
} |
|
return buf |
|
} |
|
|
|
// addFH adds an fhSample to a (specialized) fhSample buffer. |
|
func addFH(s fhSample, buf []fhSample, r *sampleRing) []fhSample { |
|
l := len(buf) |
|
// Grow the ring buffer if it fits no more elements. |
|
if l == 0 { |
|
buf = make([]fhSample, 16) |
|
l = 16 |
|
} |
|
if l == r.l { |
|
newBuf := make([]fhSample, 2*l) |
|
copy(newBuf[l+r.f:], buf[r.f:]) |
|
copy(newBuf, buf[:r.f]) |
|
|
|
buf = newBuf |
|
r.i = r.f |
|
r.f += l |
|
l = 2 * l |
|
} else { |
|
r.i++ |
|
if r.i >= l { |
|
r.i -= l |
|
} |
|
} |
|
|
|
buf[r.i].t = s.t |
|
if buf[r.i].fh == nil { |
|
buf[r.i].fh = s.fh.Copy() |
|
} else { |
|
s.fh.CopyTo(buf[r.i].fh) |
|
} |
|
r.l++ |
|
|
|
// Free head of the buffer of samples that just fell out of the range. |
|
tmin := s.T() - r.delta |
|
for buf[r.f].T() < tmin { |
|
r.f++ |
|
if r.f >= l { |
|
r.f -= l |
|
} |
|
r.l-- |
|
} |
|
return buf |
|
} |
|
|
|
// reduceDelta lowers the buffered time delta, dropping any samples that are |
|
// out of the new delta range. |
|
func (r *sampleRing) reduceDelta(delta int64) bool { |
|
if delta > r.delta { |
|
return false |
|
} |
|
r.delta = delta |
|
|
|
if r.l == 0 { |
|
return true |
|
} |
|
|
|
switch r.bufInUse { |
|
case fBuf: |
|
genericReduceDelta(r.fBuf, r) |
|
case hBuf: |
|
genericReduceDelta(r.hBuf, r) |
|
case fhBuf: |
|
genericReduceDelta(r.fhBuf, r) |
|
default: |
|
genericReduceDelta(r.iBuf, r) |
|
} |
|
return true |
|
} |
|
|
|
func genericReduceDelta[T chunks.Sample](buf []T, r *sampleRing) { |
|
// Free head of the buffer of samples that just fell out of the range. |
|
l := len(buf) |
|
tmin := buf[r.i].T() - r.delta |
|
for buf[r.f].T() < tmin { |
|
r.f++ |
|
if r.f >= l { |
|
r.f -= l |
|
} |
|
r.l-- |
|
} |
|
} |
|
|
|
// nthLast returns the nth most recent element added to the ring. |
|
func (r *sampleRing) nthLast(n int) (chunks.Sample, bool) { |
|
if n > r.l { |
|
return fSample{}, false |
|
} |
|
i := r.l - n |
|
switch r.bufInUse { |
|
case fBuf: |
|
return r.atF(i), true |
|
case hBuf: |
|
return r.atH(i), true |
|
case fhBuf: |
|
return r.atFH(i), true |
|
default: |
|
return r.at(i), true |
|
} |
|
} |
|
|
|
func (r *sampleRing) samples() []chunks.Sample { |
|
res := make([]chunks.Sample, r.l) |
|
|
|
k := r.f + r.l |
|
var j int |
|
|
|
switch r.bufInUse { |
|
case iBuf: |
|
if k > len(r.iBuf) { |
|
k = len(r.iBuf) |
|
j = r.l - k + r.f |
|
} |
|
n := copy(res, r.iBuf[r.f:k]) |
|
copy(res[n:], r.iBuf[:j]) |
|
case fBuf: |
|
if k > len(r.fBuf) { |
|
k = len(r.fBuf) |
|
j = r.l - k + r.f |
|
} |
|
resF := make([]fSample, r.l) |
|
n := copy(resF, r.fBuf[r.f:k]) |
|
copy(resF[n:], r.fBuf[:j]) |
|
for i, s := range resF { |
|
res[i] = s |
|
} |
|
case hBuf: |
|
if k > len(r.hBuf) { |
|
k = len(r.hBuf) |
|
j = r.l - k + r.f |
|
} |
|
resH := make([]hSample, r.l) |
|
n := copy(resH, r.hBuf[r.f:k]) |
|
copy(resH[n:], r.hBuf[:j]) |
|
for i, s := range resH { |
|
res[i] = s |
|
} |
|
case fhBuf: |
|
if k > len(r.fhBuf) { |
|
k = len(r.fhBuf) |
|
j = r.l - k + r.f |
|
} |
|
resFH := make([]fhSample, r.l) |
|
n := copy(resFH, r.fhBuf[r.f:k]) |
|
copy(resFH[n:], r.fhBuf[:j]) |
|
for i, s := range resFH { |
|
res[i] = s |
|
} |
|
} |
|
|
|
return res |
|
}
|
|
|