216 lines
5.0 KiB
Go
216 lines
5.0 KiB
Go
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package quantile
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import (
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"math"
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"math/rand"
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"sort"
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"testing"
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)
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var (
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Targets = map[float64]float64{
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0.01: 0.001,
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0.10: 0.01,
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0.50: 0.05,
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0.90: 0.01,
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0.99: 0.001,
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}
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TargetsSmallEpsilon = map[float64]float64{
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0.01: 0.0001,
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0.10: 0.001,
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0.50: 0.005,
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0.90: 0.001,
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0.99: 0.0001,
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}
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LowQuantiles = []float64{0.01, 0.1, 0.5}
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HighQuantiles = []float64{0.99, 0.9, 0.5}
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)
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const RelativeEpsilon = 0.01
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func verifyPercsWithAbsoluteEpsilon(t *testing.T, a []float64, s *Stream) {
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sort.Float64s(a)
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for quantile, epsilon := range Targets {
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n := float64(len(a))
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k := int(quantile * n)
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if k < 1 {
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k = 1
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}
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lower := int((quantile - epsilon) * n)
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if lower < 1 {
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lower = 1
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}
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upper := int(math.Ceil((quantile + epsilon) * n))
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if upper > len(a) {
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upper = len(a)
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}
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w, min, max := a[k-1], a[lower-1], a[upper-1]
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if g := s.Query(quantile); g < min || g > max {
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t.Errorf("q=%f: want %v [%f,%f], got %v", quantile, w, min, max, g)
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}
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}
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}
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func verifyLowPercsWithRelativeEpsilon(t *testing.T, a []float64, s *Stream) {
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sort.Float64s(a)
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for _, qu := range LowQuantiles {
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n := float64(len(a))
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k := int(qu * n)
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lowerRank := int((1 - RelativeEpsilon) * qu * n)
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upperRank := int(math.Ceil((1 + RelativeEpsilon) * qu * n))
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w, min, max := a[k-1], a[lowerRank-1], a[upperRank-1]
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if g := s.Query(qu); g < min || g > max {
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t.Errorf("q=%f: want %v [%f,%f], got %v", qu, w, min, max, g)
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}
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}
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}
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func verifyHighPercsWithRelativeEpsilon(t *testing.T, a []float64, s *Stream) {
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sort.Float64s(a)
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for _, qu := range HighQuantiles {
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n := float64(len(a))
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k := int(qu * n)
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lowerRank := int((1 - (1+RelativeEpsilon)*(1-qu)) * n)
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upperRank := int(math.Ceil((1 - (1-RelativeEpsilon)*(1-qu)) * n))
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w, min, max := a[k-1], a[lowerRank-1], a[upperRank-1]
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if g := s.Query(qu); g < min || g > max {
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t.Errorf("q=%f: want %v [%f,%f], got %v", qu, w, min, max, g)
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}
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}
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}
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func populateStream(s *Stream) []float64 {
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a := make([]float64, 0, 1e5+100)
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for i := 0; i < cap(a); i++ {
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v := rand.NormFloat64()
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// Add 5% asymmetric outliers.
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if i%20 == 0 {
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v = v*v + 1
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}
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s.Insert(v)
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a = append(a, v)
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}
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return a
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}
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func TestTargetedQuery(t *testing.T) {
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rand.Seed(42)
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s := NewTargeted(Targets)
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a := populateStream(s)
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verifyPercsWithAbsoluteEpsilon(t, a, s)
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}
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func TestTargetedQuerySmallSampleSize(t *testing.T) {
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rand.Seed(42)
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s := NewTargeted(TargetsSmallEpsilon)
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a := []float64{1, 2, 3, 4, 5}
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for _, v := range a {
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s.Insert(v)
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}
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verifyPercsWithAbsoluteEpsilon(t, a, s)
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// If not yet flushed, results should be precise:
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if !s.flushed() {
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for φ, want := range map[float64]float64{
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0.01: 1,
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0.10: 1,
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0.50: 3,
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0.90: 5,
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0.99: 5,
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} {
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if got := s.Query(φ); got != want {
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t.Errorf("want %f for φ=%f, got %f", want, φ, got)
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}
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}
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}
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}
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func TestLowBiasedQuery(t *testing.T) {
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rand.Seed(42)
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s := NewLowBiased(RelativeEpsilon)
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a := populateStream(s)
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verifyLowPercsWithRelativeEpsilon(t, a, s)
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}
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func TestHighBiasedQuery(t *testing.T) {
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rand.Seed(42)
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s := NewHighBiased(RelativeEpsilon)
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a := populateStream(s)
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verifyHighPercsWithRelativeEpsilon(t, a, s)
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}
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// BrokenTestTargetedMerge is broken, see Merge doc comment.
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func BrokenTestTargetedMerge(t *testing.T) {
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rand.Seed(42)
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s1 := NewTargeted(Targets)
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s2 := NewTargeted(Targets)
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a := populateStream(s1)
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a = append(a, populateStream(s2)...)
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s1.Merge(s2.Samples())
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verifyPercsWithAbsoluteEpsilon(t, a, s1)
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}
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// BrokenTestLowBiasedMerge is broken, see Merge doc comment.
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func BrokenTestLowBiasedMerge(t *testing.T) {
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rand.Seed(42)
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s1 := NewLowBiased(RelativeEpsilon)
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s2 := NewLowBiased(RelativeEpsilon)
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a := populateStream(s1)
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a = append(a, populateStream(s2)...)
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s1.Merge(s2.Samples())
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verifyLowPercsWithRelativeEpsilon(t, a, s2)
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}
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// BrokenTestHighBiasedMerge is broken, see Merge doc comment.
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func BrokenTestHighBiasedMerge(t *testing.T) {
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rand.Seed(42)
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s1 := NewHighBiased(RelativeEpsilon)
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s2 := NewHighBiased(RelativeEpsilon)
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a := populateStream(s1)
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a = append(a, populateStream(s2)...)
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s1.Merge(s2.Samples())
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verifyHighPercsWithRelativeEpsilon(t, a, s2)
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}
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func TestUncompressed(t *testing.T) {
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q := NewTargeted(Targets)
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for i := 100; i > 0; i-- {
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q.Insert(float64(i))
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}
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if g := q.Count(); g != 100 {
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t.Errorf("want count 100, got %d", g)
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}
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// Before compression, Query should have 100% accuracy.
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for quantile := range Targets {
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w := quantile * 100
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if g := q.Query(quantile); g != w {
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t.Errorf("want %f, got %f", w, g)
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}
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}
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}
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func TestUncompressedSamples(t *testing.T) {
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q := NewTargeted(map[float64]float64{0.99: 0.001})
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for i := 1; i <= 100; i++ {
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q.Insert(float64(i))
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}
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if g := q.Samples().Len(); g != 100 {
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t.Errorf("want count 100, got %d", g)
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}
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}
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func TestUncompressedOne(t *testing.T) {
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q := NewTargeted(map[float64]float64{0.99: 0.01})
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q.Insert(3.14)
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if g := q.Query(0.90); g != 3.14 {
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t.Error("want PI, got", g)
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}
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}
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func TestDefaults(t *testing.T) {
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if g := NewTargeted(map[float64]float64{0.99: 0.001}).Query(0.99); g != 0 {
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t.Errorf("want 0, got %f", g)
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}
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}
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