GoToSocial/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/aggregate.go

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// Copyright The OpenTelemetry Authors
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// SPDX-License-Identifier: Apache-2.0
package aggregate // import "go.opentelemetry.io/otel/sdk/metric/internal/aggregate"
import (
"context"
"time"
"go.opentelemetry.io/otel/attribute"
"go.opentelemetry.io/otel/sdk/metric/internal/exemplar"
"go.opentelemetry.io/otel/sdk/metric/metricdata"
)
// now is used to return the current local time while allowing tests to
// override the default time.Now function.
var now = time.Now
// Measure receives measurements to be aggregated.
type Measure[N int64 | float64] func(context.Context, N, attribute.Set)
// ComputeAggregation stores the aggregate of measurements into dest and
// returns the number of aggregate data-points output.
type ComputeAggregation func(dest *metricdata.Aggregation) int
// Builder builds an aggregate function.
type Builder[N int64 | float64] struct {
// Temporality is the temporality used for the returned aggregate function.
//
// If this is not provided a default of cumulative will be used (except for
// the last-value aggregate function where delta is the only appropriate
// temporality).
Temporality metricdata.Temporality
// Filter is the attribute filter the aggregate function will use on the
// input of measurements.
Filter attribute.Filter
// ReservoirFunc is the factory function used by aggregate functions to
// create new exemplar reservoirs for a new seen attribute set.
//
// If this is not provided a default factory function that returns an
// exemplar.Drop reservoir will be used.
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ReservoirFunc func() exemplar.FilteredReservoir[N]
// AggregationLimit is the cardinality limit of measurement attributes. Any
// measurement for new attributes once the limit has been reached will be
// aggregated into a single aggregate for the "otel.metric.overflow"
// attribute.
//
// If AggregationLimit is less than or equal to zero there will not be an
// aggregation limit imposed (i.e. unlimited attribute sets).
AggregationLimit int
}
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func (b Builder[N]) resFunc() func() exemplar.FilteredReservoir[N] {
if b.ReservoirFunc != nil {
return b.ReservoirFunc
}
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return exemplar.Drop
}
type fltrMeasure[N int64 | float64] func(ctx context.Context, value N, fltrAttr attribute.Set, droppedAttr []attribute.KeyValue)
func (b Builder[N]) filter(f fltrMeasure[N]) Measure[N] {
if b.Filter != nil {
fltr := b.Filter // Copy to make it immutable after assignment.
return func(ctx context.Context, n N, a attribute.Set) {
fAttr, dropped := a.Filter(fltr)
f(ctx, n, fAttr, dropped)
}
}
return func(ctx context.Context, n N, a attribute.Set) {
f(ctx, n, a, nil)
}
}
// LastValue returns a last-value aggregate function input and output.
func (b Builder[N]) LastValue() (Measure[N], ComputeAggregation) {
lv := newLastValue[N](b.AggregationLimit, b.resFunc())
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switch b.Temporality {
case metricdata.DeltaTemporality:
return b.filter(lv.measure), lv.delta
default:
return b.filter(lv.measure), lv.cumulative
}
}
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// PrecomputedLastValue returns a last-value aggregate function input and
// output. The aggregation returned from the returned ComputeAggregation
// function will always only return values from the previous collection cycle.
func (b Builder[N]) PrecomputedLastValue() (Measure[N], ComputeAggregation) {
lv := newPrecomputedLastValue[N](b.AggregationLimit, b.resFunc())
switch b.Temporality {
case metricdata.DeltaTemporality:
return b.filter(lv.measure), lv.delta
default:
return b.filter(lv.measure), lv.cumulative
}
}
// PrecomputedSum returns a sum aggregate function input and output. The
// arguments passed to the input are expected to be the precomputed sum values.
func (b Builder[N]) PrecomputedSum(monotonic bool) (Measure[N], ComputeAggregation) {
s := newPrecomputedSum[N](monotonic, b.AggregationLimit, b.resFunc())
switch b.Temporality {
case metricdata.DeltaTemporality:
return b.filter(s.measure), s.delta
default:
return b.filter(s.measure), s.cumulative
}
}
// Sum returns a sum aggregate function input and output.
func (b Builder[N]) Sum(monotonic bool) (Measure[N], ComputeAggregation) {
s := newSum[N](monotonic, b.AggregationLimit, b.resFunc())
switch b.Temporality {
case metricdata.DeltaTemporality:
return b.filter(s.measure), s.delta
default:
return b.filter(s.measure), s.cumulative
}
}
// ExplicitBucketHistogram returns a histogram aggregate function input and
// output.
func (b Builder[N]) ExplicitBucketHistogram(boundaries []float64, noMinMax, noSum bool) (Measure[N], ComputeAggregation) {
h := newHistogram[N](boundaries, noMinMax, noSum, b.AggregationLimit, b.resFunc())
switch b.Temporality {
case metricdata.DeltaTemporality:
return b.filter(h.measure), h.delta
default:
return b.filter(h.measure), h.cumulative
}
}
// ExponentialBucketHistogram returns a histogram aggregate function input and
// output.
func (b Builder[N]) ExponentialBucketHistogram(maxSize, maxScale int32, noMinMax, noSum bool) (Measure[N], ComputeAggregation) {
h := newExponentialHistogram[N](maxSize, maxScale, noMinMax, noSum, b.AggregationLimit, b.resFunc())
switch b.Temporality {
case metricdata.DeltaTemporality:
return b.filter(h.measure), h.delta
default:
return b.filter(h.measure), h.cumulative
}
}
// reset ensures s has capacity and sets it length. If the capacity of s too
// small, a new slice is returned with the specified capacity and length.
func reset[T any](s []T, length, capacity int) []T {
if cap(s) < capacity {
return make([]T, length, capacity)
}
return s[:length]
}