github.com/sunblockterminal/go-sunblocktediuma@v0.0.0-20210616083421-160a35ed7cfa/metrics/log.go (about) 1 package metrics 2 3 import ( 4 "time" 5 ) 6 7 type Logger interface { 8 Printf(format string, v ...interface{}) 9 } 10 11 func Log(r Registry, freq time.Duration, l Logger) { 12 LogScaled(r, freq, time.Nanosecond, l) 13 } 14 15 // Output each metric in the given registry periodically using the given 16 // logger. Print timings in `scale` units (eg time.Millisecond) rather than nanos. 17 func LogScaled(r Registry, freq time.Duration, scale time.Duration, l Logger) { 18 du := float64(scale) 19 duSuffix := scale.String()[1:] 20 21 for range time.Tick(freq) { 22 r.Each(func(name string, i interface{}) { 23 switch metric := i.(type) { 24 case Counter: 25 l.Printf("counter %s\n", name) 26 l.Printf(" count: %9d\n", metric.Count()) 27 case Gauge: 28 l.Printf("gauge %s\n", name) 29 l.Printf(" value: %9d\n", metric.Value()) 30 case GaugeFloat64: 31 l.Printf("gauge %s\n", name) 32 l.Printf(" value: %f\n", metric.Value()) 33 case Healthcheck: 34 metric.Check() 35 l.Printf("healthcheck %s\n", name) 36 l.Printf(" error: %v\n", metric.Error()) 37 case Histogram: 38 h := metric.Snapshot() 39 ps := h.Percentiles([]float64{0.5, 0.75, 0.95, 0.99, 0.999}) 40 l.Printf("histogram %s\n", name) 41 l.Printf(" count: %9d\n", h.Count()) 42 l.Printf(" min: %9d\n", h.Min()) 43 l.Printf(" max: %9d\n", h.Max()) 44 l.Printf(" mean: %12.2f\n", h.Mean()) 45 l.Printf(" stddev: %12.2f\n", h.StdDev()) 46 l.Printf(" median: %12.2f\n", ps[0]) 47 l.Printf(" 75%%: %12.2f\n", ps[1]) 48 l.Printf(" 95%%: %12.2f\n", ps[2]) 49 l.Printf(" 99%%: %12.2f\n", ps[3]) 50 l.Printf(" 99.9%%: %12.2f\n", ps[4]) 51 case Meter: 52 m := metric.Snapshot() 53 l.Printf("meter %s\n", name) 54 l.Printf(" count: %9d\n", m.Count()) 55 l.Printf(" 1-min rate: %12.2f\n", m.Rate1()) 56 l.Printf(" 5-min rate: %12.2f\n", m.Rate5()) 57 l.Printf(" 15-min rate: %12.2f\n", m.Rate15()) 58 l.Printf(" mean rate: %12.2f\n", m.RateMean()) 59 case Timer: 60 t := metric.Snapshot() 61 ps := t.Percentiles([]float64{0.5, 0.75, 0.95, 0.99, 0.999}) 62 l.Printf("timer %s\n", name) 63 l.Printf(" count: %9d\n", t.Count()) 64 l.Printf(" min: %12.2f%s\n", float64(t.Min())/du, duSuffix) 65 l.Printf(" max: %12.2f%s\n", float64(t.Max())/du, duSuffix) 66 l.Printf(" mean: %12.2f%s\n", t.Mean()/du, duSuffix) 67 l.Printf(" stddev: %12.2f%s\n", t.StdDev()/du, duSuffix) 68 l.Printf(" median: %12.2f%s\n", ps[0]/du, duSuffix) 69 l.Printf(" 75%%: %12.2f%s\n", ps[1]/du, duSuffix) 70 l.Printf(" 95%%: %12.2f%s\n", ps[2]/du, duSuffix) 71 l.Printf(" 99%%: %12.2f%s\n", ps[3]/du, duSuffix) 72 l.Printf(" 99.9%%: %12.2f%s\n", ps[4]/du, duSuffix) 73 l.Printf(" 1-min rate: %12.2f\n", t.Rate1()) 74 l.Printf(" 5-min rate: %12.2f\n", t.Rate5()) 75 l.Printf(" 15-min rate: %12.2f\n", t.Rate15()) 76 l.Printf(" mean rate: %12.2f\n", t.RateMean()) 77 } 78 }) 79 } 80 }