package metrics import ( "testing" "time" ) func TestResettingTimer(t *testing.T) { tests := []struct { values []int64 start int end int wantP50 float64 wantP95 float64 wantP99 float64 wantMean float64 wantMin int64 wantMax int64 }{ { values: []int64{}, start: 1, end: 11, wantP50: 5.5, wantP95: 10, wantP99: 10, wantMin: 1, wantMax: 10, wantMean: 5.5, }, { values: []int64{}, start: 1, end: 101, wantP50: 50.5, wantP95: 95.94999999999999, wantP99: 99.99, wantMin: 1, wantMax: 100, wantMean: 50.5, }, { values: []int64{1}, start: 0, end: 0, wantP50: 1, wantP95: 1, wantP99: 1, wantMin: 1, wantMax: 1, wantMean: 1, }, { values: []int64{0}, start: 0, end: 0, wantP50: 0, wantP95: 0, wantP99: 0, wantMin: 0, wantMax: 0, wantMean: 0, }, { values: []int64{}, start: 0, end: 0, wantP50: 0, wantP95: 0, wantP99: 0, wantMin: 0, wantMax: 0, wantMean: 0, }, { values: []int64{1, 10}, start: 0, end: 0, wantP50: 5.5, wantP95: 10, wantP99: 10, wantMin: 1, wantMax: 10, wantMean: 5.5, }, } for i, tt := range tests { timer := NewResettingTimer() for i := tt.start; i < tt.end; i++ { tt.values = append(tt.values, int64(i)) } for _, v := range tt.values { timer.Update(time.Duration(v)) } snap := timer.Snapshot() ps := snap.Percentiles([]float64{0.50, 0.95, 0.99}) if have, want := snap.Min(), tt.wantMin; have != want { t.Fatalf("%d: min: have %d, want %d", i, have, want) } if have, want := snap.Max(), tt.wantMax; have != want { t.Fatalf("%d: max: have %d, want %d", i, have, want) } if have, want := snap.Mean(), tt.wantMean; have != want { t.Fatalf("%d: mean: have %v, want %v", i, have, want) } if have, want := ps[0], tt.wantP50; have != want { t.Errorf("%d: p50: have %v, want %v", i, have, want) } if have, want := ps[1], tt.wantP95; have != want { t.Errorf("%d: p95: have %v, want %v", i, have, want) } if have, want := ps[2], tt.wantP99; have != want { t.Errorf("%d: p99: have %v, want %v", i, have, want) } } } func TestResettingTimerWithFivePercentiles(t *testing.T) { tests := []struct { values []int64 start int end int wantP05 float64 wantP20 float64 wantP50 float64 wantP95 float64 wantP99 float64 wantMean float64 wantMin int64 wantMax int64 }{ { values: []int64{}, start: 1, end: 11, wantP05: 1, wantP20: 2.2, wantP50: 5.5, wantP95: 10, wantP99: 10, wantMin: 1, wantMax: 10, wantMean: 5.5, }, { values: []int64{}, start: 1, end: 101, wantP05: 5.050000000000001, wantP20: 20.200000000000003, wantP50: 50.5, wantP95: 95.94999999999999, wantP99: 99.99, wantMin: 1, wantMax: 100, wantMean: 50.5, }, { values: []int64{1}, start: 0, end: 0, wantP05: 1, wantP20: 1, wantP50: 1, wantP95: 1, wantP99: 1, wantMin: 1, wantMax: 1, wantMean: 1, }, { values: []int64{0}, start: 0, end: 0, wantP05: 0, wantP20: 0, wantP50: 0, wantP95: 0, wantP99: 0, wantMin: 0, wantMax: 0, wantMean: 0, }, { values: []int64{}, start: 0, end: 0, wantP05: 0, wantP20: 0, wantP50: 0, wantP95: 0, wantP99: 0, wantMin: 0, wantMax: 0, wantMean: 0, }, { values: []int64{1, 10}, start: 0, end: 0, wantP05: 1, wantP20: 1, wantP50: 5.5, wantP95: 10, wantP99: 10, wantMin: 1, wantMax: 10, wantMean: 5.5, }, } for ind, tt := range tests { timer := NewResettingTimer() for i := tt.start; i < tt.end; i++ { tt.values = append(tt.values, int64(i)) } for _, v := range tt.values { timer.Update(time.Duration(v)) } snap := timer.Snapshot() ps := snap.Percentiles([]float64{0.05, 0.20, 0.50, 0.95, 0.99}) if tt.wantMin != snap.Min() { t.Errorf("%d: min: got %d, want %d", ind, snap.Min(), tt.wantMin) } if tt.wantMax != snap.Max() { t.Errorf("%d: max: got %d, want %d", ind, snap.Max(), tt.wantMax) } if tt.wantMean != snap.Mean() { t.Errorf("%d: mean: got %.2f, want %.2f", ind, snap.Mean(), tt.wantMean) } if tt.wantP05 != ps[0] { t.Errorf("%d: p05: got %v, want %v", ind, ps[0], tt.wantP05) } if tt.wantP20 != ps[1] { t.Errorf("%d: p20: got %v, want %v", ind, ps[1], tt.wantP20) } if tt.wantP50 != ps[2] { t.Errorf("%d: p50: got %v, want %v", ind, ps[2], tt.wantP50) } if tt.wantP95 != ps[3] { t.Errorf("%d: p95: got %v, want %v", ind, ps[3], tt.wantP95) } if tt.wantP99 != ps[4] { t.Errorf("%d: p99: got %v, want %v", ind, ps[4], tt.wantP99) } } }