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go/internal/event/export/ocagent/metrics.go
Ian Cottrell c81623a0cb internal/event: move event/core.Tag to event/label.Label
Also moves core.Key to label.Key, but leaves the implementations
behind for now.
After using for a while, the word Tag conveys slightly the wrong
concept, tagging implies the entire set of information, label maps
better to a single named piece of information.
A label is just a named key/value pair, it is not really tied to the
event package, separating it makes it much easier to understand the
public symbols of the event and core packages, and allows us to also
move the key implementations somewhere else, which otherwise dominate
the API.

Change-Id: I46275d531cec91e28af6ab1e74a2713505d52533
Reviewed-on: https://go-review.googlesource.com/c/tools/+/229239
Run-TryBot: Ian Cottrell <iancottrell@google.com>
Reviewed-by: Robert Findley <rfindley@google.com>
TryBot-Result: Gobot Gobot <gobot@golang.org>
2020-04-23 18:13:33 +00:00

214 lines
5.3 KiB
Go

// Copyright 2019 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package ocagent
import (
"time"
"golang.org/x/tools/internal/event/export/metric"
"golang.org/x/tools/internal/event/export/ocagent/wire"
"golang.org/x/tools/internal/event/label"
)
// dataToMetricDescriptor return a *wire.MetricDescriptor based on data.
func dataToMetricDescriptor(data metric.Data) *wire.MetricDescriptor {
if data == nil {
return nil
}
descriptor := &wire.MetricDescriptor{
Name: data.Handle(),
Description: getDescription(data),
// TODO: Unit?
Type: dataToMetricDescriptorType(data),
LabelKeys: getLabelKeys(data),
}
return descriptor
}
// getDescription returns the description of data.
func getDescription(data metric.Data) string {
switch d := data.(type) {
case *metric.Int64Data:
return d.Info.Description
case *metric.Float64Data:
return d.Info.Description
case *metric.HistogramInt64Data:
return d.Info.Description
case *metric.HistogramFloat64Data:
return d.Info.Description
}
return ""
}
// getLabelKeys returns a slice of *wire.LabelKeys based on the keys
// in data.
func getLabelKeys(data metric.Data) []*wire.LabelKey {
switch d := data.(type) {
case *metric.Int64Data:
return infoKeysToLabelKeys(d.Info.Keys)
case *metric.Float64Data:
return infoKeysToLabelKeys(d.Info.Keys)
case *metric.HistogramInt64Data:
return infoKeysToLabelKeys(d.Info.Keys)
case *metric.HistogramFloat64Data:
return infoKeysToLabelKeys(d.Info.Keys)
}
return nil
}
// dataToMetricDescriptorType returns a wire.MetricDescriptor_Type based on the
// underlying type of data.
func dataToMetricDescriptorType(data metric.Data) wire.MetricDescriptor_Type {
switch d := data.(type) {
case *metric.Int64Data:
if d.IsGauge {
return wire.MetricDescriptor_GAUGE_INT64
}
return wire.MetricDescriptor_CUMULATIVE_INT64
case *metric.Float64Data:
if d.IsGauge {
return wire.MetricDescriptor_GAUGE_DOUBLE
}
return wire.MetricDescriptor_CUMULATIVE_DOUBLE
case *metric.HistogramInt64Data:
return wire.MetricDescriptor_CUMULATIVE_DISTRIBUTION
case *metric.HistogramFloat64Data:
return wire.MetricDescriptor_CUMULATIVE_DISTRIBUTION
}
return wire.MetricDescriptor_UNSPECIFIED
}
// dataToTimeseries returns a slice of *wire.TimeSeries based on the
// points in data.
func dataToTimeseries(data metric.Data, start time.Time) []*wire.TimeSeries {
if data == nil {
return nil
}
numRows := numRows(data)
startTimestamp := convertTimestamp(start)
timeseries := make([]*wire.TimeSeries, 0, numRows)
for i := 0; i < numRows; i++ {
timeseries = append(timeseries, &wire.TimeSeries{
StartTimestamp: &startTimestamp,
// TODO: labels?
Points: dataToPoints(data, i),
})
}
return timeseries
}
// numRows returns the number of rows in data.
func numRows(data metric.Data) int {
switch d := data.(type) {
case *metric.Int64Data:
return len(d.Rows)
case *metric.Float64Data:
return len(d.Rows)
case *metric.HistogramInt64Data:
return len(d.Rows)
case *metric.HistogramFloat64Data:
return len(d.Rows)
}
return 0
}
// dataToPoints returns an array of *wire.Points based on the point(s)
// in data at index i.
func dataToPoints(data metric.Data, i int) []*wire.Point {
switch d := data.(type) {
case *metric.Int64Data:
timestamp := convertTimestamp(d.EndTime)
return []*wire.Point{
{
Value: wire.PointInt64Value{
Int64Value: d.Rows[i],
},
Timestamp: &timestamp,
},
}
case *metric.Float64Data:
timestamp := convertTimestamp(d.EndTime)
return []*wire.Point{
{
Value: wire.PointDoubleValue{
DoubleValue: d.Rows[i],
},
Timestamp: &timestamp,
},
}
case *metric.HistogramInt64Data:
row := d.Rows[i]
bucketBounds := make([]float64, len(d.Info.Buckets))
for i, val := range d.Info.Buckets {
bucketBounds[i] = float64(val)
}
return distributionToPoints(row.Values, row.Count, float64(row.Sum), bucketBounds, d.EndTime)
case *metric.HistogramFloat64Data:
row := d.Rows[i]
return distributionToPoints(row.Values, row.Count, row.Sum, d.Info.Buckets, d.EndTime)
}
return nil
}
// distributionToPoints returns an array of *wire.Points containing a
// wire.PointDistributionValue representing a distribution with the
// supplied counts, count, and sum.
func distributionToPoints(counts []int64, count int64, sum float64, bucketBounds []float64, end time.Time) []*wire.Point {
buckets := make([]*wire.Bucket, len(counts))
for i := 0; i < len(counts); i++ {
buckets[i] = &wire.Bucket{
Count: counts[i],
}
}
timestamp := convertTimestamp(end)
return []*wire.Point{
{
Value: wire.PointDistributionValue{
DistributionValue: &wire.DistributionValue{
Count: count,
Sum: sum,
// TODO: SumOfSquaredDeviation?
Buckets: buckets,
BucketOptions: &wire.BucketOptionsExplicit{
Bounds: bucketBounds,
},
},
},
Timestamp: &timestamp,
},
}
}
// infoKeysToLabelKeys returns an array of *wire.LabelKeys containing the
// string values of the elements of labelKeys.
func infoKeysToLabelKeys(infoKeys []label.Key) []*wire.LabelKey {
labelKeys := make([]*wire.LabelKey, 0, len(infoKeys))
for _, key := range infoKeys {
labelKeys = append(labelKeys, &wire.LabelKey{
Key: key.Name(),
})
}
return labelKeys
}