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The open and composable observability and data visualization platform. Visualize metrics, logs, and traces from multiple sources like Prometheus, Loki, Elasticsearch, InfluxDB, Postgres and many more.
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grafana/pkg/services/alerting/conditions/reducer_test.go

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package conditions
import (
"testing"
. "github.com/smartystreets/goconvey/convey"
"github.com/grafana/grafana/pkg/components/null"
"github.com/grafana/grafana/pkg/tsdb"
)
func TestSimpleReducer(t *testing.T) {
Convey("Test simple reducer by calculating", t, func() {
Convey("sum", func() {
result := testReducer("sum", 1, 2, 3)
So(result, ShouldEqual, float64(6))
})
Convey("min", func() {
result := testReducer("min", 3, 2, 1)
So(result, ShouldEqual, float64(1))
})
Convey("max", func() {
result := testReducer("max", 1, 2, 3)
So(result, ShouldEqual, float64(3))
})
Convey("count", func() {
result := testReducer("count", 1, 2, 3000)
So(result, ShouldEqual, float64(3))
})
Convey("last", func() {
result := testReducer("last", 1, 2, 3000)
So(result, ShouldEqual, float64(3000))
})
Convey("median odd amount of numbers", func() {
result := testReducer("median", 1, 2, 3000)
So(result, ShouldEqual, float64(2))
})
Convey("median even amount of numbers", func() {
result := testReducer("median", 1, 2, 4, 3000)
So(result, ShouldEqual, float64(3))
})
Convey("median with one values", func() {
result := testReducer("median", 1)
So(result, ShouldEqual, float64(1))
})
Convey("median should ignore null values", func() {
reducer := NewSimpleReducer("median")
series := &tsdb.TimeSeries{
Name: "test time serie",
}
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFromPtr(nil), 1))
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFromPtr(nil), 2))
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFromPtr(nil), 3))
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFrom(float64(1)), 4))
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFrom(float64(2)), 5))
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFrom(float64(3)), 6))
result := reducer.Reduce(series)
So(result.Valid, ShouldEqual, true)
So(result.Float64, ShouldEqual, float64(2))
})
Convey("avg", func() {
result := testReducer("avg", 1, 2, 3)
So(result, ShouldEqual, float64(2))
})
Convey("avg with only nulls", func() {
reducer := NewSimpleReducer("avg")
series := &tsdb.TimeSeries{
Name: "test time serie",
}
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFromPtr(nil), 1))
So(reducer.Reduce(series).Valid, ShouldEqual, false)
})
Convey("count_non_null", func() {
Convey("with null values and real values", func() {
reducer := NewSimpleReducer("count_non_null")
series := &tsdb.TimeSeries{
Name: "test time serie",
}
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFromPtr(nil), 1))
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFromPtr(nil), 2))
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFrom(3), 3))
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFrom(3), 4))
So(reducer.Reduce(series).Valid, ShouldEqual, true)
So(reducer.Reduce(series).Float64, ShouldEqual, 2)
})
Convey("with null values", func() {
reducer := NewSimpleReducer("count_non_null")
series := &tsdb.TimeSeries{
Name: "test time serie",
}
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFromPtr(nil), 1))
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFromPtr(nil), 2))
So(reducer.Reduce(series).Valid, ShouldEqual, false)
})
})
Convey("avg of number values and null values should ignore nulls", func() {
reducer := NewSimpleReducer("avg")
series := &tsdb.TimeSeries{
Name: "test time serie",
}
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFrom(3), 1))
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFromPtr(nil), 2))
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFromPtr(nil), 3))
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFrom(3), 4))
So(reducer.Reduce(series).Float64, ShouldEqual, float64(3))
})
Convey("diff one point", func() {
result := testReducer("diff", 30)
So(result, ShouldEqual, float64(0))
})
Convey("diff two points", func() {
result := testReducer("diff", 30, 40)
So(result, ShouldEqual, float64(10))
})
Convey("diff three points", func() {
result := testReducer("diff", 30, 40, 40)
So(result, ShouldEqual, float64(10))
})
Convey("percent_diff one point", func() {
result := testReducer("percent_diff", 40)
So(result, ShouldEqual, float64(0))
})
Convey("percent_diff two points", func() {
result := testReducer("percent_diff", 30, 40)
So(result, ShouldEqual, float64(33.33333333333333))
})
Convey("percent_diff three points", func() {
result := testReducer("percent_diff", 30, 40, 40)
So(result, ShouldEqual, float64(33.33333333333333))
})
})
}
func testReducer(typ string, datapoints ...float64) float64 {
reducer := NewSimpleReducer(typ)
series := &tsdb.TimeSeries{
Name: "test time serie",
}
for idx := range datapoints {
series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFrom(datapoints[idx]), 1234134))
}
return reducer.Reduce(series).Float64
}