VictoriaMetrics/app/vmselect/promql/rollup_test.go

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package promql
import (
"math"
"testing"
"github.com/VictoriaMetrics/metricsql"
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)
var (
testValues = []float64{123, 34, 44, 21, 54, 34, 99, 12, 44, 32, 34, 34}
testTimestamps = []int64{5, 15, 24, 36, 49, 60, 78, 80, 97, 115, 120, 130}
)
func TestRollupIderivDuplicateTimestamps(t *testing.T) {
rfa := &rollupFuncArg{
values: []float64{1, 2, 3, 4, 5},
timestamps: []int64{100, 100, 200, 300, 300},
}
n := rollupIderiv(rfa)
if n != 20 {
t.Fatalf("unexpected value; got %v; want %v", n, 20)
}
rfa = &rollupFuncArg{
values: []float64{1, 2, 3, 4, 5},
timestamps: []int64{100, 100, 300, 300, 300},
}
n = rollupIderiv(rfa)
if n != 15 {
t.Fatalf("unexpected value; got %v; want %v", n, 15)
}
rfa = &rollupFuncArg{
prevValue: nan,
values: []float64{},
timestamps: []int64{},
}
n = rollupIderiv(rfa)
if !math.IsNaN(n) {
t.Fatalf("unexpected value; got %v; want %v", n, nan)
}
rfa = &rollupFuncArg{
prevValue: nan,
values: []float64{15},
timestamps: []int64{100},
}
n = rollupIderiv(rfa)
if !math.IsNaN(n) {
t.Fatalf("unexpected value; got %v; want %v", n, nan)
}
rfa = &rollupFuncArg{
prevTimestamp: 90,
prevValue: 10,
values: []float64{15},
timestamps: []int64{100},
}
n = rollupIderiv(rfa)
if n != 500 {
t.Fatalf("unexpected value; got %v; want %v", n, 500)
}
rfa = &rollupFuncArg{
prevTimestamp: 100,
prevValue: 10,
values: []float64{15},
timestamps: []int64{100},
}
n = rollupIderiv(rfa)
if n != inf {
t.Fatalf("unexpected value; got %v; want %v", n, inf)
}
rfa = &rollupFuncArg{
prevTimestamp: 100,
prevValue: 10,
values: []float64{15, 20},
timestamps: []int64{100, 100},
}
n = rollupIderiv(rfa)
if n != inf {
t.Fatalf("unexpected value; got %v; want %v", n, inf)
}
}
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func TestRemoveCounterResets(t *testing.T) {
removeCounterResets(nil)
values := append([]float64{}, testValues...)
removeCounterResets(values)
valuesExpected := []float64{123, 157, 167, 188, 221, 255, 320, 332, 364, 396, 398, 398}
testRowsEqual(t, values, testTimestamps, valuesExpected, testTimestamps)
// removeCounterResets doesn't expect negative values, so it doesn't work properly with them.
values = []float64{-100, -200, -300, -400}
removeCounterResets(values)
valuesExpected = []float64{-100, -300, -600, -1000}
timestampsExpected := []int64{0, 1, 2, 3}
testRowsEqual(t, values, timestampsExpected, valuesExpected, timestampsExpected)
// verify how jitter from `Prometheus HA pairs` is handled
values = []float64{100, 95, 120, 140, 137, 50}
removeCounterResets(values)
valuesExpected = []float64{100, 100, 120, 140, 140, 190}
timestampsExpected = []int64{0, 1, 2, 3, 4, 5}
testRowsEqual(t, values, timestampsExpected, valuesExpected, timestampsExpected)
}
func TestDeltaValues(t *testing.T) {
deltaValues(nil)
values := []float64{123}
deltaValues(values)
valuesExpected := []float64{0}
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testRowsEqual(t, values, testTimestamps[:1], valuesExpected, testTimestamps[:1])
values = append([]float64{}, testValues...)
deltaValues(values)
valuesExpected = []float64{-89, 10, -23, 33, -20, 65, -87, 32, -12, 2, 0, 0}
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testRowsEqual(t, values, testTimestamps, valuesExpected, testTimestamps)
// remove counter resets
values = append([]float64{}, testValues...)
removeCounterResets(values)
deltaValues(values)
valuesExpected = []float64{34, 10, 21, 33, 34, 65, 12, 32, 32, 2, 0, 0}
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testRowsEqual(t, values, testTimestamps, valuesExpected, testTimestamps)
}
func TestDerivValues(t *testing.T) {
derivValues(nil, nil)
values := []float64{123}
derivValues(values, testTimestamps[:1])
valuesExpected := []float64{0}
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testRowsEqual(t, values, testTimestamps[:1], valuesExpected, testTimestamps[:1])
values = append([]float64{}, testValues...)
derivValues(values, testTimestamps)
valuesExpected = []float64{-8900, 1111.111111111111, -1916.6666666666665, 2538.4615384615386, -1818.1818181818182, 3611.1111111111113,
-43500, 1882.3529411764705, -666.6666666666667, 400, 0, 0}
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testRowsEqual(t, values, testTimestamps, valuesExpected, testTimestamps)
// remove counter resets
values = append([]float64{}, testValues...)
removeCounterResets(values)
derivValues(values, testTimestamps)
valuesExpected = []float64{3400, 1111.111111111111, 1750, 2538.4615384615386, 3090.909090909091, 3611.1111111111113,
6000, 1882.3529411764705, 1777.7777777777778, 400, 0, 0}
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testRowsEqual(t, values, testTimestamps, valuesExpected, testTimestamps)
// duplicate timestamps
values = []float64{1, 2, 3, 4, 5, 6, 7}
timestamps := []int64{100, 100, 200, 200, 300, 400, 400}
derivValues(values, timestamps)
valuesExpected = []float64{0, 20, 20, 20, 10, 10, 10}
testRowsEqual(t, values, timestamps, valuesExpected, timestamps)
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}
func testRollupFunc(t *testing.T, funcName string, args []interface{}, meExpected *metricsql.MetricExpr, vExpected float64) {
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t.Helper()
nrf := getRollupFunc(funcName)
if nrf == nil {
t.Fatalf("cannot obtain %q", funcName)
}
rf, err := nrf(args)
if err != nil {
t.Fatalf("unexpected error: %s", err)
}
var rfa rollupFuncArg
rfa.prevValue = nan
rfa.prevTimestamp = 0
rfa.values = append(rfa.values, testValues...)
rfa.timestamps = append(rfa.timestamps, testTimestamps...)
rfa.window = rfa.timestamps[len(rfa.timestamps)-1] - rfa.timestamps[0]
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if rollupFuncsRemoveCounterResets[funcName] {
removeCounterResets(rfa.values)
}
for i := 0; i < 5; i++ {
v := rf(&rfa)
if math.IsNaN(vExpected) {
if !math.IsNaN(v) {
t.Fatalf("unexpected value; got %v; want %v", v, vExpected)
}
} else {
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eps := math.Abs(v - vExpected)
if eps > 1e-14 {
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t.Fatalf("unexpected value; got %v; want %v", v, vExpected)
}
}
}
}
func TestRollupShareLEOverTime(t *testing.T) {
f := func(le, vExpected float64) {
t.Helper()
les := []*timeseries{{
Values: []float64{le},
Timestamps: []int64{123},
}}
var me metricsql.MetricExpr
args := []interface{}{&metricsql.RollupExpr{Expr: &me}, les}
testRollupFunc(t, "share_le_over_time", args, &me, vExpected)
}
f(-123, 0)
f(0, 0)
f(10, 0)
f(12, 0.08333333333333333)
f(30, 0.16666666666666666)
f(50, 0.75)
f(100, 0.9166666666666666)
f(123, 1)
f(1000, 1)
}
func TestRollupShareGTOverTime(t *testing.T) {
f := func(gt, vExpected float64) {
t.Helper()
gts := []*timeseries{{
Values: []float64{gt},
Timestamps: []int64{123},
}}
var me metricsql.MetricExpr
args := []interface{}{&metricsql.RollupExpr{Expr: &me}, gts}
testRollupFunc(t, "share_gt_over_time", args, &me, vExpected)
}
f(-123, 1)
f(0, 1)
f(10, 1)
f(12, 0.9166666666666666)
f(30, 0.8333333333333334)
f(50, 0.25)
f(100, 0.08333333333333333)
f(123, 0)
f(1000, 0)
}
func TestRollupCountLEOverTime(t *testing.T) {
f := func(le, vExpected float64) {
t.Helper()
les := []*timeseries{{
Values: []float64{le},
Timestamps: []int64{123},
}}
var me metricsql.MetricExpr
args := []interface{}{&metricsql.RollupExpr{Expr: &me}, les}
testRollupFunc(t, "count_le_over_time", args, &me, vExpected)
}
f(-123, 0)
f(0, 0)
f(10, 0)
f(12, 1)
f(30, 2)
f(50, 9)
f(100, 11)
f(123, 12)
f(1000, 12)
}
func TestRollupCountGTOverTime(t *testing.T) {
f := func(gt, vExpected float64) {
t.Helper()
gts := []*timeseries{{
Values: []float64{gt},
Timestamps: []int64{123},
}}
var me metricsql.MetricExpr
args := []interface{}{&metricsql.RollupExpr{Expr: &me}, gts}
testRollupFunc(t, "count_gt_over_time", args, &me, vExpected)
}
f(-123, 12)
f(0, 12)
f(10, 12)
f(12, 11)
f(30, 10)
f(50, 3)
f(100, 1)
f(123, 0)
f(1000, 0)
}
func TestRollupCountEQOverTime(t *testing.T) {
f := func(eq, vExpected float64) {
t.Helper()
eqs := []*timeseries{{
Values: []float64{eq},
Timestamps: []int64{123},
}}
var me metricsql.MetricExpr
args := []interface{}{&metricsql.RollupExpr{Expr: &me}, eqs}
testRollupFunc(t, "count_eq_over_time", args, &me, vExpected)
}
f(-123, 0)
f(0, 0)
f(34, 4)
f(123, 1)
f(12, 1)
}
func TestRollupCountNEOverTime(t *testing.T) {
f := func(ne, vExpected float64) {
t.Helper()
nes := []*timeseries{{
Values: []float64{ne},
Timestamps: []int64{123},
}}
var me metricsql.MetricExpr
args := []interface{}{&metricsql.RollupExpr{Expr: &me}, nes}
testRollupFunc(t, "count_ne_over_time", args, &me, vExpected)
}
f(-123, 12)
f(0, 12)
f(34, 8)
f(123, 11)
f(12, 11)
}
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func TestRollupQuantileOverTime(t *testing.T) {
f := func(phi, vExpected float64) {
t.Helper()
phis := []*timeseries{{
Values: []float64{phi},
Timestamps: []int64{123},
}}
var me metricsql.MetricExpr
args := []interface{}{phis, &metricsql.RollupExpr{Expr: &me}}
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testRollupFunc(t, "quantile_over_time", args, &me, vExpected)
}
f(-123, 12)
f(-0.5, 12)
f(0, 12)
f(0.1, 21)
f(0.5, 34)
f(0.9, 99)
f(1, 123)
f(234, 123)
}
func TestRollupPredictLinear(t *testing.T) {
f := func(sec, vExpected float64) {
t.Helper()
secs := []*timeseries{{
Values: []float64{sec},
Timestamps: []int64{123},
}}
var me metricsql.MetricExpr
args := []interface{}{&metricsql.RollupExpr{Expr: &me}, secs}
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testRollupFunc(t, "predict_linear", args, &me, vExpected)
}
f(0e-3, 30.382432471845043)
f(50e-3, 17.03950235614201)
f(100e-3, 3.696572240438975)
f(200e-3, -22.989287990967092)
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}
func TestRollupHoltWinters(t *testing.T) {
f := func(sf, tf, vExpected float64) {
t.Helper()
sfs := []*timeseries{{
Values: []float64{sf},
Timestamps: []int64{123},
}}
tfs := []*timeseries{{
Values: []float64{tf},
Timestamps: []int64{123},
}}
var me metricsql.MetricExpr
args := []interface{}{&metricsql.RollupExpr{Expr: &me}, sfs, tfs}
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testRollupFunc(t, "holt_winters", args, &me, vExpected)
}
f(-1, 0.5, nan)
f(0, 0.5, nan)
f(1, 0.5, nan)
f(2, 0.5, nan)
f(0.5, -1, nan)
f(0.5, 0, nan)
f(0.5, 1, nan)
f(0.5, 2, nan)
f(0.5, 0.5, 34.97794532775879)
f(0.1, 0.5, -131.30529492371622)
f(0.1, 0.1, -397.3307790780296)
f(0.5, 0.1, -5.791530520284198)
f(0.5, 0.9, 25.498906408926757)
f(0.9, 0.9, 33.99637566941818)
}
func TestRollupHoeffdingBoundLower(t *testing.T) {
f := func(phi, vExpected float64) {
t.Helper()
phis := []*timeseries{{
Values: []float64{phi},
Timestamps: []int64{123},
}}
var me metricsql.MetricExpr
args := []interface{}{phis, &metricsql.RollupExpr{Expr: &me}}
testRollupFunc(t, "hoeffding_bound_lower", args, &me, vExpected)
}
f(0.5, 28.21949401521037)
f(-1, 47.083333333333336)
f(0, 47.083333333333336)
f(1, -inf)
f(2, -inf)
f(0.1, 39.72878000047643)
f(0.9, 12.701803086472331)
}
func TestRollupHoeffdingBoundUpper(t *testing.T) {
f := func(phi, vExpected float64) {
t.Helper()
phis := []*timeseries{{
Values: []float64{phi},
Timestamps: []int64{123},
}}
var me metricsql.MetricExpr
args := []interface{}{phis, &metricsql.RollupExpr{Expr: &me}}
testRollupFunc(t, "hoeffding_bound_upper", args, &me, vExpected)
}
f(0.5, 65.9471726514563)
f(-1, 47.083333333333336)
f(0, 47.083333333333336)
f(1, inf)
f(2, inf)
f(0.1, 54.43788666619024)
f(0.9, 81.46486358019433)
}
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func TestRollupNewRollupFuncSuccess(t *testing.T) {
f := func(funcName string, vExpected float64) {
t.Helper()
var me metricsql.MetricExpr
args := []interface{}{&metricsql.RollupExpr{Expr: &me}}
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testRollupFunc(t, funcName, args, &me, vExpected)
}
f("default_rollup", 34)
f("changes", 11)
f("delta", 34)
f("deriv", -266.85860231406065)
f("deriv_fast", -712)
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f("idelta", 0)
f("increase", 398)
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f("irate", 0)
f("rate", 2200)
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f("resets", 5)
f("range_over_time", 111)
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f("avg_over_time", 47.083333333333336)
f("min_over_time", 12)
f("max_over_time", 123)
f("tmin_over_time", 0.08)
f("tmax_over_time", 0.005)
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f("sum_over_time", 565)
f("sum2_over_time", 37951)
f("geomean_over_time", 39.33466603189148)
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f("count_over_time", 12)
f("stddev_over_time", 30.752935722554287)
f("stdvar_over_time", 945.7430555555555)
f("first_over_time", 123)
f("last_over_time", 34)
f("integrate", 0.817)
f("distinct_over_time", 8)
f("ideriv", 0)
f("decreases_over_time", 5)
f("increases_over_time", 5)
f("ascent_over_time", 142)
f("descent_over_time", 231)
f("zscore_over_time", -0.4254336383156416)
f("timestamp", 0.13)
f("mode_over_time", 34)
f("rate_over_sum", 4520)
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}
func TestRollupNewRollupFuncError(t *testing.T) {
if nrf := getRollupFunc("non-existing-func"); nrf != nil {
t.Fatalf("expecting nil func; got %p", nrf)
}
f := func(funcName string, args []interface{}) {
t.Helper()
nrf := getRollupFunc(funcName)
rf, err := nrf(args)
if err == nil {
t.Fatalf("expecting non-nil error")
}
if rf != nil {
t.Fatalf("expecting nil rf; got %p", rf)
}
}
// Invalid number of args
f("default_rollup", nil)
f("holt_winters", nil)
f("predict_linear", nil)
f("quantile_over_time", nil)
// Invalid arg type
scalarTs := []*timeseries{{
Values: []float64{321},
Timestamps: []int64{123},
}}
me := &metricsql.MetricExpr{}
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f("holt_winters", []interface{}{123, 123, 321})
f("holt_winters", []interface{}{me, 123, 321})
f("holt_winters", []interface{}{me, scalarTs, 321})
f("predict_linear", []interface{}{123, 123})
f("predict_linear", []interface{}{me, 123})
f("quantile_over_time", []interface{}{123, 123})
}
func TestRollupNoWindowNoPoints(t *testing.T) {
t.Run("beforeStart", func(t *testing.T) {
rc := rollupConfig{
Func: rollupFirst,
Start: 0,
End: 4,
Step: 1,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, nan, nan, nan, nan}
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timestampsExpected := []int64{0, 1, 2, 3, 4}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("afterEnd", func(t *testing.T) {
rc := rollupConfig{
Func: rollupDelta,
Start: 120,
End: 148,
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Step: 4,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{2, 0, 0, 0, nan, nan, nan, nan}
timestampsExpected := []int64{120, 124, 128, 132, 136, 140, 144, 148}
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testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
}
func TestRollupWindowNoPoints(t *testing.T) {
t.Run("beforeStart", func(t *testing.T) {
rc := rollupConfig{
Func: rollupFirst,
Start: 0,
End: 4,
Step: 1,
Window: 3,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, nan, nan, nan, nan}
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timestampsExpected := []int64{0, 1, 2, 3, 4}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("afterEnd", func(t *testing.T) {
rc := rollupConfig{
Func: rollupFirst,
Start: 161,
End: 191,
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Step: 10,
Window: 3,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, nan, nan, nan}
timestampsExpected := []int64{161, 171, 181, 191}
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testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
}
func TestRollupNoWindowPartialPoints(t *testing.T) {
t.Run("beforeStart", func(t *testing.T) {
rc := rollupConfig{
Func: rollupFirst,
Start: 0,
End: 25,
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Step: 5,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 123, nan, 34, nan, 44}
timestampsExpected := []int64{0, 5, 10, 15, 20, 25}
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testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("afterEnd", func(t *testing.T) {
rc := rollupConfig{
Func: rollupFirst,
Start: 100,
End: 160,
Step: 20,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{44, 32, 34, nan}
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timestampsExpected := []int64{100, 120, 140, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("middle", func(t *testing.T) {
rc := rollupConfig{
Func: rollupFirst,
Start: -50,
End: 150,
Step: 50,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, nan, 123, 34, nan}
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timestampsExpected := []int64{-50, 0, 50, 100, 150}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
}
func TestRollupWindowPartialPoints(t *testing.T) {
t.Run("beforeStart", func(t *testing.T) {
rc := rollupConfig{
Func: rollupLast,
Start: 0,
End: 20,
Step: 5,
Window: 8,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 123, 123, 34, 34}
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timestampsExpected := []int64{0, 5, 10, 15, 20}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("afterEnd", func(t *testing.T) {
rc := rollupConfig{
Func: rollupLast,
Start: 100,
End: 160,
Step: 20,
Window: 18,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{44, 34, 34, nan}
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timestampsExpected := []int64{100, 120, 140, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("middle", func(t *testing.T) {
rc := rollupConfig{
Func: rollupLast,
Start: 0,
End: 150,
Step: 50,
Window: 19,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 54, 44, nan}
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timestampsExpected := []int64{0, 50, 100, 150}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
}
func TestRollupFuncsLookbackDelta(t *testing.T) {
t.Run("1", func(t *testing.T) {
rc := rollupConfig{
Func: rollupFirst,
Start: 80,
End: 140,
Step: 10,
LookbackDelta: 1,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{99, nan, 44, nan, 32, 34, nan}
timestampsExpected := []int64{80, 90, 100, 110, 120, 130, 140}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("7", func(t *testing.T) {
rc := rollupConfig{
Func: rollupFirst,
Start: 80,
End: 140,
Step: 10,
LookbackDelta: 7,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{99, nan, 44, nan, 32, 34, nan}
timestampsExpected := []int64{80, 90, 100, 110, 120, 130, 140}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("0", func(t *testing.T) {
rc := rollupConfig{
Func: rollupFirst,
Start: 80,
End: 140,
Step: 10,
LookbackDelta: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{99, nan, 44, nan, 32, 34, nan}
timestampsExpected := []int64{80, 90, 100, 110, 120, 130, 140}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
}
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func TestRollupFuncsNoWindow(t *testing.T) {
t.Run("first", func(t *testing.T) {
rc := rollupConfig{
Func: rollupFirst,
Start: 0,
End: 160,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 123, 54, 44, nan}
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timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("count", func(t *testing.T) {
rc := rollupConfig{
Func: rollupCount,
Start: 0,
End: 160,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 4, 4, 3, nan}
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timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("min", func(t *testing.T) {
rc := rollupConfig{
Func: rollupMin,
Start: 0,
End: 160,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 21, 12, 32, nan}
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timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("max", func(t *testing.T) {
rc := rollupConfig{
Func: rollupMax,
Start: 0,
End: 160,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 123, 99, 44, nan}
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timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("sum", func(t *testing.T) {
rc := rollupConfig{
Func: rollupSum,
Start: 0,
End: 160,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 222, 199, 110, nan}
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timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("delta", func(t *testing.T) {
rc := rollupConfig{
Func: rollupDelta,
Start: 0,
End: 160,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, nan, -9, 22, nan}
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timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("idelta", func(t *testing.T) {
rc := rollupConfig{
Func: rollupIdelta,
Start: 10,
End: 130,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{123, 33, -87, 0}
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timestampsExpected := []int64{10, 50, 90, 130}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("lag", func(t *testing.T) {
rc := rollupConfig{
Func: rollupLag,
Start: 0,
End: 160,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 0.004, 0, 0, nan}
timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("lifetime_1", func(t *testing.T) {
rc := rollupConfig{
Func: rollupLifetime,
Start: 0,
End: 160,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 0.031, 0.044, 0.04, nan}
timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("lifetime_2", func(t *testing.T) {
rc := rollupConfig{
Func: rollupLifetime,
Start: 0,
End: 160,
Step: 40,
Window: 200,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 0.031, 0.075, 0.115, nan}
timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("scrape_interval_1", func(t *testing.T) {
rc := rollupConfig{
Func: rollupScrapeInterval,
Start: 0,
End: 160,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 0.010333333333333333, 0.011, 0.013333333333333334, nan}
timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("scrape_interval_2", func(t *testing.T) {
rc := rollupConfig{
Func: rollupScrapeInterval,
Start: 0,
End: 160,
Step: 40,
Window: 80,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 0.010333333333333333, 0.010714285714285714, 0.012, nan}
timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
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t.Run("changes", func(t *testing.T) {
rc := rollupConfig{
Func: rollupChanges,
Start: 0,
End: 160,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 4, 4, 3, nan}
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timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("changes_small_window", func(t *testing.T) {
rc := rollupConfig{
Func: rollupChanges,
Start: 0,
End: 45,
Step: 9,
Window: 9,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 1, 1, 1, 1, 0}
timestampsExpected := []int64{0, 9, 18, 27, 36, 45}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
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t.Run("resets", func(t *testing.T) {
rc := rollupConfig{
Func: rollupResets,
Start: 0,
End: 160,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 2, 2, 1, nan}
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timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("avg", func(t *testing.T) {
rc := rollupConfig{
Func: rollupAvg,
Start: 0,
End: 160,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 55.5, 49.75, 36.666666666666664, nan}
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timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("deriv", func(t *testing.T) {
rc := rollupConfig{
Func: rollupDerivSlow,
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Start: 0,
End: 160,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{0, -2879.310344827587, 558.0608793686595, 422.84569138276544, nan}
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timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("deriv_fast", func(t *testing.T) {
rc := rollupConfig{
Func: rollupDerivFast,
Start: 0,
End: 20,
Step: 4,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, nan, nan, 0, -8900, 0}
timestampsExpected := []int64{0, 4, 8, 12, 16, 20}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
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t.Run("ideriv", func(t *testing.T) {
rc := rollupConfig{
Func: rollupIderiv,
Start: 0,
End: 160,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, -1916.6666666666665, -43500, 400, nan}
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timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("stddev", func(t *testing.T) {
rc := rollupConfig{
Func: rollupStddev,
Start: 0,
End: 160,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 39.81519810323691, 32.080952292598795, 5.2493385826745405, nan}
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timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("integrate", func(t *testing.T) {
rc := rollupConfig{
Func: rollupIntegrate,
Start: 0,
End: 160,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 2.148, 1.593, 1.156, nan}
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timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("distinct_over_time_1", func(t *testing.T) {
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rc := rollupConfig{
Func: rollupDistinct,
Start: 0,
End: 160,
Step: 40,
Window: 0,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 4, 4, 3, nan}
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timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("distinct_over_time_2", func(t *testing.T) {
rc := rollupConfig{
Func: rollupDistinct,
Start: 0,
End: 160,
Step: 40,
Window: 80,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 4, 7, 6, nan}
timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("mode_over_time", func(t *testing.T) {
rc := rollupConfig{
Func: rollupModeOverTime,
Start: 0,
End: 160,
Step: 40,
Window: 80,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 21, 34, 34, nan}
timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("rate_over_sum", func(t *testing.T) {
rc := rollupConfig{
Func: rollupRateOverSum,
Start: 0,
End: 160,
Step: 40,
Window: 80,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, 2775, 5262.5, 3678.5714285714284, nan}
timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
t.Run("zscore_over_time", func(t *testing.T) {
rc := rollupConfig{
Func: rollupZScoreOverTime,
Start: 0,
End: 160,
Step: 40,
Window: 80,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
values := rc.Do(nil, testValues, testTimestamps)
valuesExpected := []float64{nan, -0.86650328627136, -1.1200838283548589, -0.40035755084856683, nan}
timestampsExpected := []int64{0, 40, 80, 120, 160}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
})
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}
func TestRollupBigNumberOfValues(t *testing.T) {
const srcValuesCount = 1e4
rc := rollupConfig{
Func: rollupDefault,
End: srcValuesCount,
Step: srcValuesCount / 5,
Window: srcValuesCount / 4,
}
rc.Timestamps = getTimestamps(rc.Start, rc.End, rc.Step)
srcValues := make([]float64, srcValuesCount)
srcTimestamps := make([]int64, srcValuesCount)
for i := 0; i < srcValuesCount; i++ {
srcValues[i] = float64(i)
srcTimestamps[i] = int64(i / 2)
}
values := rc.Do(nil, srcValues, srcTimestamps)
valuesExpected := []float64{1, 4001, 8001, nan, nan, nan}
timestampsExpected := []int64{0, 2000, 4000, 6000, 8000, 10000}
testRowsEqual(t, values, rc.Timestamps, valuesExpected, timestampsExpected)
}
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func testRowsEqual(t *testing.T, values []float64, timestamps []int64, valuesExpected []float64, timestampsExpected []int64) {
t.Helper()
if len(values) != len(valuesExpected) {
t.Fatalf("unexpected len(values); got %d; want %d\nvalues=\n%v\nvaluesExpected=\n%v",
len(values), len(valuesExpected), values, valuesExpected)
}
if len(timestamps) != len(timestampsExpected) {
t.Fatalf("unexpected len(timestamps); got %d; want %d\ntimestamps=\n%v\ntimestampsExpected=\n%v",
len(timestamps), len(timestampsExpected), timestamps, timestampsExpected)
}
if len(values) != len(timestamps) {
t.Fatalf("len(values) doesn't match len(timestamps); got %d vs %d", len(values), len(timestamps))
}
for i, v := range values {
ts := timestamps[i]
tsExpected := timestampsExpected[i]
if ts != tsExpected {
t.Fatalf("unexpected timestamp at timestamps[%d]; got %d; want %d\ntimestamps=\n%v\ntimestampsExpected=\n%v",
i, ts, tsExpected, timestamps, timestampsExpected)
}
vExpected := valuesExpected[i]
if math.IsNaN(v) {
if !math.IsNaN(vExpected) {
t.Fatalf("unexpected nan value at values[%d]; want %f\nvalues=\n%v\nvaluesExpected=\n%v",
i, vExpected, values, valuesExpected)
}
continue
}
if math.Abs(v-vExpected) > 1e-15 {
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t.Fatalf("unexpected value at values[%d]; got %f; want %f\nvalues=\n%v\nvaluesExpected=\n%v",
i, v, vExpected, values, valuesExpected)
}
}
}
func TestRollupDelta(t *testing.T) {
f := func(prevValue, realPrevValue, realNextValue float64, values []float64, resultExpected float64) {
t.Helper()
rfa := &rollupFuncArg{
prevValue: prevValue,
values: values,
realPrevValue: realPrevValue,
realNextValue: realNextValue,
}
result := rollupDelta(rfa)
if math.IsNaN(result) {
if !math.IsNaN(resultExpected) {
t.Fatalf("unexpected result; got %v; want %v", result, resultExpected)
}
return
}
if result != resultExpected {
t.Fatalf("unexpected result; got %v; want %v", result, resultExpected)
}
}
f(nan, nan, nan, nil, nan)
// Small initial value
f(nan, nan, nan, []float64{1}, 1)
f(nan, nan, nan, []float64{10}, 10)
f(nan, nan, nan, []float64{100}, 100)
f(nan, nan, nan, []float64{1, 2, 3}, 3)
f(1, nan, nan, []float64{1, 2, 3}, 2)
f(nan, nan, nan, []float64{5, 6, 8}, 8)
f(2, nan, nan, []float64{5, 6, 8}, 6)
// Moderate initial value with zero delta after that.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/962
f(nan, nan, nan, []float64{100}, 100)
f(nan, nan, nan, []float64{100, 100}, 100)
// Big initial value with with zero delta after that.
f(nan, nan, nan, []float64{1000}, 0)
f(nan, nan, nan, []float64{1000, 1000}, 0)
// Big initial value with small delta after that.
f(nan, nan, nan, []float64{1000, 1001, 1002}, 2)
// Non-nan realPrevValue
f(nan, 900, nan, []float64{1000}, 100)
f(nan, 1000, nan, []float64{1000}, 0)
f(nan, 1100, nan, []float64{1000}, -100)
f(nan, 900, nan, []float64{1000, 1001, 1002}, 102)
// Small delta between realNextValue and values
f(nan, nan, 990, []float64{1000}, 0)
f(nan, nan, 1005, []float64{1000}, 0)
// Big delta between relaNextValue and values
f(nan, nan, 800, []float64{1000}, 1000)
f(nan, nan, 1300, []float64{1000}, 1000)
// Empty values
f(1, nan, nan, nil, 0)
f(100, nan, nan, nil, 0)
}