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@ -2721,25 +2721,11 @@ func (ev *evaluator) aggregation(e *parser.AggregateExpr, q float64, inputMatrix |
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} |
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} |
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} |
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} |
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for si, series := range inputMatrix { |
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for si := range inputMatrix { |
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var s Sample |
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s, ok := ev.nextSample(enh.Ts, inputMatrix, si) |
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if !ok { |
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switch { |
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case len(series.Floats) > 0 && series.Floats[0].T == enh.Ts: |
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s = Sample{Metric: series.Metric, F: series.Floats[0].F, T: enh.Ts} |
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// Move input vectors forward so we don't have to re-scan the same
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// past points at the next step.
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inputMatrix[si].Floats = series.Floats[1:] |
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case len(series.Histograms) > 0 && series.Histograms[0].T == enh.Ts: |
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s = Sample{Metric: series.Metric, H: series.Histograms[0].H, T: enh.Ts} |
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inputMatrix[si].Histograms = series.Histograms[1:] |
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default: |
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continue |
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continue |
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} |
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} |
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ev.currentSamples++ |
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if ev.currentSamples > ev.maxSamples { |
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ev.error(ErrTooManySamples(env)) |
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} |
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group := orderedResult[seriesToResult[si]] |
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group := orderedResult[seriesToResult[si]] |
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// Initialize this group if it's the first time we've seen it.
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// Initialize this group if it's the first time we've seen it.
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@ -3058,6 +3044,29 @@ func addToSeries(ss *Series, ts int64, f float64, h *histogram.FloatHistogram, n |
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} |
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} |
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} |
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} |
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func (ev *evaluator) nextValues(ts int64, series *Series) (f float64, h *histogram.FloatHistogram, b bool) { |
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switch { |
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case len(series.Floats) > 0 && series.Floats[0].T == ts: |
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f = series.Floats[0].F |
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series.Floats = series.Floats[1:] // Move input vectors forward
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case len(series.Histograms) > 0 && series.Histograms[0].T == ts: |
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h = series.Histograms[0].H |
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series.Histograms = series.Histograms[1:] |
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default: |
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return f, h, false |
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} |
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return f, h, true |
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} |
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func (ev *evaluator) nextSample(ts int64, inputMatrix Matrix, si int) (Sample, bool) { |
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f, h, ok := ev.nextValues(ts, &inputMatrix[si]) |
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ev.currentSamples++ |
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if ev.currentSamples > ev.maxSamples { |
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ev.error(ErrTooManySamples(env)) |
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} |
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return Sample{Metric: inputMatrix[si].Metric, F: f, H: h, T: ts}, ok |
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} |
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// groupingKey builds and returns the grouping key for the given metric and
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// groupingKey builds and returns the grouping key for the given metric and
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// grouping labels.
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// grouping labels.
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func generateGroupingKey(metric labels.Labels, grouping []string, without bool, buf []byte) (uint64, []byte) { |
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func generateGroupingKey(metric labels.Labels, grouping []string, without bool, buf []byte) (uint64, []byte) { |
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Bryan Boreham
8 months ago