logs-analyzer/signoz/pkg/query-service/app/queryBuilder/functions.go

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2024-09-02 22:47:30 +03:00
package queryBuilder
import (
"math"
"sort"
v3 "go.signoz.io/signoz/pkg/query-service/model/v3"
)
// funcCutOffMin cuts off values below the threshold and replaces them with NaN
func funcCutOffMin(result *v3.Result, threshold float64) *v3.Result {
for _, series := range result.Series {
for idx, point := range series.Points {
if point.Value < threshold {
point.Value = math.NaN()
}
series.Points[idx] = point
}
}
return result
}
// funcCutOffMax cuts off values above the threshold and replaces them with NaN
func funcCutOffMax(result *v3.Result, threshold float64) *v3.Result {
for _, series := range result.Series {
for idx, point := range series.Points {
if point.Value > threshold {
point.Value = math.NaN()
}
series.Points[idx] = point
}
}
return result
}
// funcClampMin cuts off values below the threshold and replaces them with the threshold
func funcClampMin(result *v3.Result, threshold float64) *v3.Result {
for _, series := range result.Series {
for idx, point := range series.Points {
if point.Value < threshold {
point.Value = threshold
}
series.Points[idx] = point
}
}
return result
}
// funcClampMax cuts off values above the threshold and replaces them with the threshold
func funcClampMax(result *v3.Result, threshold float64) *v3.Result {
for _, series := range result.Series {
for idx, point := range series.Points {
if point.Value > threshold {
point.Value = threshold
}
series.Points[idx] = point
}
}
return result
}
// funcAbsolute returns the absolute value of each point
func funcAbsolute(result *v3.Result) *v3.Result {
for _, series := range result.Series {
for idx, point := range series.Points {
point.Value = math.Abs(point.Value)
series.Points[idx] = point
}
}
return result
}
// funcLog2 returns the log2 of each point
func funcLog2(result *v3.Result) *v3.Result {
for _, series := range result.Series {
for idx, point := range series.Points {
point.Value = math.Log2(point.Value)
series.Points[idx] = point
}
}
return result
}
// funcLog10 returns the log10 of each point
func funcLog10(result *v3.Result) *v3.Result {
for _, series := range result.Series {
for idx, point := range series.Points {
point.Value = math.Log10(point.Value)
series.Points[idx] = point
}
}
return result
}
// funcCumSum returns the cumulative sum for each point in a series
func funcCumSum(result *v3.Result) *v3.Result {
for _, series := range result.Series {
var sum float64
for idx, point := range series.Points {
if !math.IsNaN(point.Value) {
sum += point.Value
}
point.Value = sum
series.Points[idx] = point
}
}
return result
}
func funcEWMA(result *v3.Result, alpha float64) *v3.Result {
for _, series := range result.Series {
var ewma float64
var initialized bool
for i, point := range series.Points {
if !initialized {
if !math.IsNaN(point.Value) {
// Initialize EWMA with the first non-NaN value
ewma = point.Value
initialized = true
}
// Continue until the EWMA is initialized
continue
}
if !math.IsNaN(point.Value) {
// Update EWMA with the current value
ewma = alpha*point.Value + (1-alpha)*ewma
}
// Set the EWMA value for the current point
series.Points[i].Value = ewma
}
}
return result
}
// funcMedian3 returns the median of 3 points for each point in a series
func funcMedian3(result *v3.Result) *v3.Result {
for _, series := range result.Series {
median3 := make([]float64, 0)
for i := 1; i < len(series.Points)-1; i++ {
values := make([]float64, 0, 3)
// Add non-NaN values to the slice
for j := -1; j <= 1; j++ {
if !math.IsNaN(series.Points[i+j].Value) {
values = append(values, series.Points[i+j].Value)
}
}
// Handle the case where there are not enough values to calculate a median
if len(values) == 0 {
median3 = append(median3, math.NaN())
continue
}
median3 = append(median3, median(values))
}
// Set the median3 values for the series
for i := 1; i < len(series.Points)-1; i++ {
series.Points[i].Value = median3[i-1]
}
}
return result
}
// funcMedian5 returns the median of 5 points for each point in a series
func funcMedian5(result *v3.Result) *v3.Result {
for _, series := range result.Series {
median5 := make([]float64, 0)
for i := 2; i < len(series.Points)-2; i++ {
values := make([]float64, 0, 5)
// Add non-NaN values to the slice
for j := -2; j <= 2; j++ {
if !math.IsNaN(series.Points[i+j].Value) {
values = append(values, series.Points[i+j].Value)
}
}
// Handle the case where there are not enough values to calculate a median
if len(values) == 0 {
median5 = append(median5, math.NaN())
continue
}
median5 = append(median5, median(values))
}
// Set the median5 values for the series
for i := 2; i < len(series.Points)-2; i++ {
series.Points[i].Value = median5[i-2]
}
}
return result
}
// funcMedian7 returns the median of 7 points for each point in a series
func funcMedian7(result *v3.Result) *v3.Result {
for _, series := range result.Series {
median7 := make([]float64, 0)
for i := 3; i < len(series.Points)-3; i++ {
values := make([]float64, 0, 7)
// Add non-NaN values to the slice
for j := -3; j <= 3; j++ {
if !math.IsNaN(series.Points[i+j].Value) {
values = append(values, series.Points[i+j].Value)
}
}
// Handle the case where there are not enough values to calculate a median
if len(values) == 0 {
median7 = append(median7, math.NaN())
continue
}
median7 = append(median7, median(values))
}
// Set the median7 values for the series
for i := 3; i < len(series.Points)-3; i++ {
series.Points[i].Value = median7[i-3]
}
}
return result
}
func median(values []float64) float64 {
sort.Float64s(values)
medianIndex := len(values) / 2
if len(values)%2 == 0 {
return (values[medianIndex-1] + values[medianIndex]) / 2
}
return values[medianIndex]
}
func ApplyFunction(fn v3.Function, result *v3.Result) *v3.Result {
switch fn.Name {
case v3.FunctionNameCutOffMin, v3.FunctionNameCutOffMax, v3.FunctionNameClampMin, v3.FunctionNameClampMax:
threshold, ok := fn.Args[0].(float64)
if !ok {
return result
}
switch fn.Name {
case v3.FunctionNameCutOffMin:
return funcCutOffMin(result, threshold)
case v3.FunctionNameCutOffMax:
return funcCutOffMax(result, threshold)
case v3.FunctionNameClampMin:
return funcClampMin(result, threshold)
case v3.FunctionNameClampMax:
return funcClampMax(result, threshold)
}
case v3.FunctionNameAbsolute:
return funcAbsolute(result)
case v3.FunctionNameLog2:
return funcLog2(result)
case v3.FunctionNameLog10:
return funcLog10(result)
case v3.FunctionNameCumSum:
return funcCumSum(result)
case v3.FunctionNameEWMA3, v3.FunctionNameEWMA5, v3.FunctionNameEWMA7:
alpha, ok := fn.Args[0].(float64)
if !ok {
// alpha = 2 / (n + 1) where n is the window size
if fn.Name == v3.FunctionNameEWMA3 {
alpha = 0.5 // 2 / (3 + 1)
} else if fn.Name == v3.FunctionNameEWMA5 {
alpha = 1 / float64(3) // 2 / (5 + 1)
} else if fn.Name == v3.FunctionNameEWMA7 {
alpha = 0.25 // 2 / (7 + 1)
}
}
return funcEWMA(result, alpha)
case v3.FunctionNameMedian3:
return funcMedian3(result)
case v3.FunctionNameMedian5:
return funcMedian5(result)
case v3.FunctionNameMedian7:
return funcMedian7(result)
case v3.FunctionNameTimeShift:
shift, ok := fn.Args[0].(float64)
if !ok {
return result
}
return funcTimeShift(result, shift)
}
return result
}
func funcTimeShift(result *v3.Result, shift float64) *v3.Result {
for _, series := range result.Series {
for idx, point := range series.Points {
series.Points[idx].Timestamp = point.Timestamp + int64(shift)*1000
}
}
return result
}