package metrics import ( "testing" "time" ) func BenchmarkMeter(b *testing.B) { m := NewMeter() b.ResetTimer() for i := 0; i < b.N; i++ { m.Mark(1) } } func TestGetOrRegisterMeter(t *testing.T) { r := NewRegistry() NewRegisteredMeter("foo", r).Mark(47) if m := GetOrRegisterMeter("foo", r); m.Count() != 47 { t.Fatal(m.Count()) } } func TestMeterDecay(t *testing.T) { ma := meterArbiter{ ticker: time.NewTicker(time.Millisecond), meters: make(map[*StandardMeter]struct{}), } defer ma.ticker.Stop() m := newStandardMeter() ma.meters[m] = struct{}{} m.Mark(1) ma.tickMeters() rateMean := m.RateMean() time.Sleep(100 * time.Millisecond) ma.tickMeters() if m.RateMean() >= rateMean { t.Error("m.RateMean() didn't decrease") } } func TestMeterNonzero(t *testing.T) { m := NewMeter() m.Mark(3) if count := m.Count(); count != 3 { t.Errorf("m.Count(): 3 != %v\n", count) } } func TestMeterStop(t *testing.T) { l := len(arbiter.meters) m := NewMeter() if l+1 != len(arbiter.meters) { t.Errorf("arbiter.meters: %d != %d\n", l+1, len(arbiter.meters)) } m.Stop() if l != len(arbiter.meters) { t.Errorf("arbiter.meters: %d != %d\n", l, len(arbiter.meters)) } } func TestMeterSnapshot(t *testing.T) { m := NewMeter() m.Mark(1) if snapshot := m.Snapshot(); m.RateMean() != snapshot.RateMean() { t.Fatal(snapshot) } } func TestMeterZero(t *testing.T) { m := NewMeter() if count := m.Count(); count != 0 { t.Errorf("m.Count(): 0 != %v\n", count) } }