grafana/pkg/expr/mathexp/reduce.go
Kyle Brandt 01ef899753
SSE/Alerting: Support prom instant vector responses (#44865)
* SSE/Alerting: (Draft) Support prom instant vector responses
fixes #35663
* reduce\classic expressions to handle mathexp.Number
* use Notice for warning

Co-authored-by: Yuriy Tseretyan <yuriy.tseretyan@grafana.com>
2022-05-23 10:08:14 -04:00

197 lines
4.3 KiB
Go

package mathexp
import (
"fmt"
"math"
"strings"
"github.com/grafana/grafana-plugin-sdk-go/data"
)
type ReducerFunc = func(fv *Float64Field) *float64
func Sum(fv *Float64Field) *float64 {
var sum float64
for i := 0; i < fv.Len(); i++ {
f := fv.GetValue(i)
if f == nil || math.IsNaN(*f) {
nan := math.NaN()
return &nan
}
sum += *f
}
return &sum
}
func Avg(fv *Float64Field) *float64 {
sum := Sum(fv)
f := *sum / float64(fv.Len())
return &f
}
func Min(fv *Float64Field) *float64 {
var f float64
if fv.Len() == 0 {
nan := math.NaN()
return &nan
}
for i := 0; i < fv.Len(); i++ {
v := fv.GetValue(i)
if v == nil || math.IsNaN(*v) {
nan := math.NaN()
return &nan
}
if i == 0 || *v < f {
f = *v
}
}
return &f
}
func Max(fv *Float64Field) *float64 {
var f float64
if fv.Len() == 0 {
nan := math.NaN()
return &nan
}
for i := 0; i < fv.Len(); i++ {
v := fv.GetValue(i)
if v == nil || math.IsNaN(*v) {
nan := math.NaN()
return &nan
}
if i == 0 || *v > f {
f = *v
}
}
return &f
}
func Count(fv *Float64Field) *float64 {
f := float64(fv.Len())
return &f
}
func Last(fv *Float64Field) *float64 {
var f float64
if fv.Len() == 0 {
f = math.NaN()
return &f
}
return fv.GetValue(fv.Len() - 1)
}
func GetReduceFunc(rFunc string) (ReducerFunc, error) {
switch strings.ToLower(rFunc) {
case "sum":
return Sum, nil
case "mean":
return Avg, nil
case "min":
return Min, nil
case "max":
return Max, nil
case "count":
return Count, nil
case "last":
return Last, nil
default:
return nil, fmt.Errorf("reduction %v not implemented", rFunc)
}
}
// GetSupportedReduceFuncs returns collection of supported function names
func GetSupportedReduceFuncs() []string {
return []string{"sum", "mean", "min", "max", "count", "last"}
}
// Reduce turns the Series into a Number based on the given reduction function
// if ReduceMapper is defined it applies it to the provided series and performs reduction of the resulting series.
// Otherwise, the reduction operation is done against the original series.
func (s Series) Reduce(refID, rFunc string, mapper ReduceMapper) (Number, error) {
var l data.Labels
if s.GetLabels() != nil {
l = s.GetLabels().Copy()
}
number := NewNumber(refID, l)
var f *float64
series := s
if mapper != nil {
series = mapSeries(s, mapper)
}
fVec := series.Frame.Fields[seriesTypeValIdx]
floatField := Float64Field(*fVec)
reduceFunc, err := GetReduceFunc(rFunc)
if err != nil {
return number, err
}
f = reduceFunc(&floatField)
if f != nil && mapper != nil {
f = mapper.MapOutput(f)
}
number.SetValue(f)
return number, nil
}
type ReduceMapper interface {
MapInput(s *float64) *float64
MapOutput(v *float64) *float64
}
// mapSeries creates a series where all points are mapped using the provided map function ReduceMapper.MapInput
func mapSeries(s Series, mapper ReduceMapper) Series {
newSeries := NewSeries(s.Frame.RefID, s.GetLabels(), 0)
for i := 0; i < s.Len(); i++ {
f := s.GetValue(i)
f = mapper.MapInput(f)
if f == nil {
continue
}
newFloat := *f
newSeries.AppendPoint(s.GetTime(i), &newFloat)
}
return newSeries
}
type DropNonNumber struct {
}
// MapInput returns nil if the input parameter is nil or point to either a NaN or a Inf
func (d DropNonNumber) MapInput(s *float64) *float64 {
if s == nil || math.IsNaN(*s) || math.IsInf(*s, 0) {
return nil
}
return s
}
// MapOutput returns nil if the input parameter is nil or point to either a NaN or a Inf
func (d DropNonNumber) MapOutput(s *float64) *float64 {
if s != nil && math.IsNaN(*s) {
return nil
}
return s
}
type ReplaceNonNumberWithValue struct {
Value float64
}
// MapInput returns a pointer to ReplaceNonNumberWithValue.Value if input parameter is nil or points to either a NaN or an Inf.
// Otherwise, returns the input pointer as is.
func (r ReplaceNonNumberWithValue) MapInput(v *float64) *float64 {
if v == nil || math.IsNaN(*v) || math.IsInf(*v, 0) {
return &r.Value
} else {
return v
}
}
// MapOutput returns a pointer to ReplaceNonNumberWithValue.Value if input parameter is nil or points to either a NaN or an Inf.
// Otherwise, returns the input pointer as is.
func (r ReplaceNonNumberWithValue) MapOutput(s *float64) *float64 {
if s != nil && math.IsNaN(*s) {
return &r.Value
}
return s
}