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Add quantile aggregator.
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@ -1076,6 +1076,10 @@ func (ev *evaluator) aggregation(op itemType, grouping model.LabelNames, without
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return vector{}
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}
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}
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var q float64
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if op == itemQuantile {
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q = ev.evalFloat(param)
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}
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var valueLabel model.LabelName
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if op == itemCountValues {
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valueLabel = model.LabelName(ev.evalString(param).Value)
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@ -1133,7 +1137,7 @@ func (ev *evaluator) aggregation(op itemType, grouping model.LabelNames, without
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valuesSquaredSum: s.Value * s.Value,
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groupCount: 1,
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}
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if op == itemTopK {
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if op == itemTopK || op == itemQuantile {
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result[groupingKey].heap = make(vectorByValueHeap, 0, k)
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heap.Push(&result[groupingKey].heap, &sample{Value: s.Value, Metric: s.Metric})
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} else if op == itemBottomK {
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@ -1181,6 +1185,8 @@ func (ev *evaluator) aggregation(op itemType, grouping model.LabelNames, without
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}
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heap.Push(&groupedResult.reverseHeap, &sample{Value: s.Value, Metric: s.Metric})
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}
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case itemQuantile:
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groupedResult.heap = append(groupedResult.heap, s)
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default:
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panic(fmt.Errorf("expected aggregation operator but got %q", op))
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}
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@ -1223,6 +1229,8 @@ func (ev *evaluator) aggregation(op itemType, grouping model.LabelNames, without
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})
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}
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continue // Bypass default append.
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case itemQuantile:
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aggr.value = model.SampleValue(quantile(q, aggr.heap))
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default:
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// For other aggregations, we already have the right value.
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}
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@ -490,9 +490,9 @@ func funcQuantileOverTime(ev *evaluator, args Expressions) model.Value {
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}
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el.Metric.Del(model.MetricNameLabel)
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values := make([]float64, 0, len(el.Values))
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values := make(vectorByValueHeap, 0, len(el.Values))
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for _, v := range el.Values {
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values = append(values, float64(v.Value))
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values = append(values, &sample{Value: v.Value})
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}
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resultVector = append(resultVector, &sample{
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Metric: el.Metric,
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@ -529,7 +529,7 @@ func funcStdvarOverTime(ev *evaluator, args Expressions) model.Value {
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avg := sum / count
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return squaredSum/count - avg*avg
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})
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}
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// === abs(vector model.ValVector) Vector ===
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func funcAbs(ev *evaluator, args Expressions) model.Value {
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@ -59,7 +59,7 @@ func (i itemType) isAggregator() bool { return i > aggregatorsStart && i < aggre
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// isAggregator returns true if the item is an aggregator that takes a parameter.
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// Returns false otherwise
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func (i itemType) isAggregatorWithParam() bool {
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return i == itemTopK || i == itemBottomK || i == itemCountValues
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return i == itemTopK || i == itemBottomK || i == itemCountValues || i == itemQuantile
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}
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// isKeyword returns true if the item corresponds to a keyword.
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@ -177,6 +177,7 @@ const (
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itemTopK
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itemBottomK
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itemCountValues
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itemQuantile
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aggregatorsEnd
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keywordsStart
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@ -215,6 +216,7 @@ var key = map[string]itemType{
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"topk": itemTopK,
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"bottomk": itemBottomK,
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"count_values": itemCountValues,
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"quantile": itemQuantile,
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// Keywords.
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"alert": itemAlert,
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@ -1042,7 +1042,7 @@ func (p *parser) checkType(node Node) (typ model.ValueType) {
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p.errorf("aggregation operator expected in aggregation expression but got %q", n.Op)
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}
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p.expectType(n.Expr, model.ValVector, "aggregation expression")
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if n.Op == itemTopK || n.Op == itemBottomK {
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if n.Op == itemTopK || n.Op == itemBottomK || n.Op == itemQuantile {
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p.expectType(n.Param, model.ValScalar, "aggregation parameter")
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}
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if n.Op == itemCountValues {
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@ -107,16 +107,23 @@ func bucketQuantile(q model.SampleValue, buckets buckets) float64 {
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return bucketStart + (bucketEnd-bucketStart)*float64(rank/count)
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}
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// qauntile calculates the given quantile of a slice of floats.
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// The slice will be sorted.
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func quantile(q float64, values []float64) float64 {
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// qauntile calculates the given quantile of a vector of samples.
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//
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// The vector will be sorted.
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// If 'values' has zero elements, NaN is returned.
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// If q<0, -Inf is returned.
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// If q>1, +Inf is returned.
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func quantile(q float64, values vectorByValueHeap) float64 {
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if len(values) == 0 {
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return math.NaN()
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}
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if q < 0 {
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return math.Inf(-1)
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}
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if q > 1 {
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return math.Inf(+1)
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}
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sort.Float64s(values)
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sort.Sort(values)
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n := float64(len(values))
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// When the quantile lies between two samples,
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@ -127,5 +134,5 @@ func quantile(q float64, values []float64) float64 {
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upperIndex := math.Min(n-1, lowerIndex+1)
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weight := rank - math.Floor(rank)
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return values[int(lowerIndex)]*(1-weight) + values[int(upperIndex)]*weight
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return float64(values[int(lowerIndex)].Value)*(1-weight) + float64(values[int(upperIndex)].Value)*weight
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}
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19
promql/testdata/aggregators.test
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19
promql/testdata/aggregators.test
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@ -220,3 +220,22 @@ eval instant at 5m count_values by (job, group)("job", version)
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{job="6", group="production"} 5
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{job="8", group="canary"} 2
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{job="7", group="canary"} 2
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# Tests for quantile.
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clear
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load 10s
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data{test="two samples",point="a"} 0
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data{test="two samples",point="b"} 1
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data{test="three samples",point="a"} 0
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data{test="three samples",point="b"} 1
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data{test="three samples",point="c"} 2
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data{test="uneven samples",point="a"} 0
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data{test="uneven samples",point="b"} 1
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data{test="uneven samples",point="c"} 4
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eval instant at 1m quantile without(point)(0.8, data)
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{test="two samples"} 0.8
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{test="three samples"} 1.6
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{test="uneven samples"} 2.8
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1
promql/testdata/functions.test
vendored
1
promql/testdata/functions.test
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@ -329,4 +329,3 @@ eval instant at 1m quantile_over_time(2, data[1m])
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{test="two samples"} +Inf
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{test="three samples"} +Inf
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{test="uneven samples"} +Inf
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>>>>>>> Add quantile_over_time function
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