func ExampleConstHistogram() { desc := prometheus.NewDesc( "http_request_duration_seconds", "A histogram of the HTTP request durations.", []string{"code", "method"}, prometheus.Labels{"owner": "example"}, ) // Create a constant histogram from values we got from a 3rd party telemetry system. h := prometheus.MustNewConstHistogram( desc, 4711, 403.34, map[float64]uint64{25: 121, 50: 2403, 100: 3221, 200: 4233}, "200", "get", ) // Just for demonstration, let's check the state of the histogram by // (ab)using its Write method (which is usually only used by Prometheus // internally). metric := &dto.Metric{} h.Write(metric) fmt.Println(proto.MarshalTextString(metric)) // Output: // label: < // name: "code" // value: "200" // > // label: < // name: "method" // value: "get" // > // label: < // name: "owner" // value: "example" // > // histogram: < // sample_count: 4711 // sample_sum: 403.34 // bucket: < // cumulative_count: 121 // upper_bound: 25 // > // bucket: < // cumulative_count: 2403 // upper_bound: 50 // > // bucket: < // cumulative_count: 3221 // upper_bound: 100 // > // bucket: < // cumulative_count: 4233 // upper_bound: 200 // > // > }
func ExampleSelfCollector() { m := NewCallbackMetric( prometheus.NewDesc( "runtime_goroutines_count", "Total number of goroutines that currently exist.", nil, nil, // No labels, these must be nil. ), func() float64 { return float64(runtime.NumGoroutine()) }, ) prometheus.MustRegister(m) }
func ExampleConstSummary() { desc := prometheus.NewDesc( "http_request_duration_seconds", "A summary of the HTTP request durations.", []string{"code", "method"}, prometheus.Labels{"owner": "example"}, ) // Create a constant summary from values we got from a 3rd party telemetry system. s := prometheus.MustNewConstSummary( desc, 4711, 403.34, map[float64]float64{0.5: 42.3, 0.9: 323.3}, "200", "get", ) // Just for demonstration, let's check the state of the summary by // (ab)using its Write method (which is usually only used by Prometheus // internally). metric := &dto.Metric{} s.Write(metric) fmt.Println(proto.MarshalTextString(metric)) // Output: // label: < // name: "code" // value: "200" // > // label: < // name: "method" // value: "get" // > // label: < // name: "owner" // value: "example" // > // summary: < // sample_count: 4711 // sample_sum: 403.34 // quantile: < // quantile: 0.5 // value: 42.3 // > // quantile: < // quantile: 0.9 // value: 323.3 // > // > }
func ExampleExpvarCollector() { expvarCollector := prometheus.NewExpvarCollector(map[string]*prometheus.Desc{ "memstats": prometheus.NewDesc( "expvar_memstats", "All numeric memstats as one metric family. Not a good role-model, actually... ;-)", []string{"type"}, nil, ), "lone-int": prometheus.NewDesc( "expvar_lone_int", "Just an expvar int as an example.", nil, nil, ), "http-request-map": prometheus.NewDesc( "expvar_http_request_total", "How many http requests processed, partitioned by status code and http method.", []string{"code", "method"}, nil, ), }) prometheus.MustRegister(expvarCollector) // The Prometheus part is done here. But to show that this example is // doing anything, we have to manually export something via expvar. In // real-life use-cases, some library would already have exported via // expvar what we want to re-export as Prometheus metrics. expvar.NewInt("lone-int").Set(42) expvarMap := expvar.NewMap("http-request-map") var ( expvarMap1, expvarMap2 expvar.Map expvarInt11, expvarInt12, expvarInt21, expvarInt22 expvar.Int ) expvarMap1.Init() expvarMap2.Init() expvarInt11.Set(3) expvarInt12.Set(13) expvarInt21.Set(11) expvarInt22.Set(212) expvarMap1.Set("POST", &expvarInt11) expvarMap1.Set("GET", &expvarInt12) expvarMap2.Set("POST", &expvarInt21) expvarMap2.Set("GET", &expvarInt22) expvarMap.Set("404", &expvarMap1) expvarMap.Set("200", &expvarMap2) // Results in the following expvar map: // "http-request-count": {"200": {"POST": 11, "GET": 212}, "404": {"POST": 3, "GET": 13}} // Let's see what the scrape would yield, but exclude the memstats metrics. metricStrings := []string{} metric := dto.Metric{} metricChan := make(chan prometheus.Metric) go func() { expvarCollector.Collect(metricChan) close(metricChan) }() for m := range metricChan { if strings.Index(m.Desc().String(), "expvar_memstats") == -1 { metric.Reset() m.Write(&metric) metricStrings = append(metricStrings, metric.String()) } } sort.Strings(metricStrings) for _, s := range metricStrings { fmt.Println(strings.TrimRight(s, " ")) } // Output: // label:<name:"code" value:"200" > label:<name:"method" value:"GET" > untyped:<value:212 > // label:<name:"code" value:"200" > label:<name:"method" value:"POST" > untyped:<value:11 > // label:<name:"code" value:"404" > label:<name:"method" value:"GET" > untyped:<value:13 > // label:<name:"code" value:"404" > label:<name:"method" value:"POST" > untyped:<value:3 > // untyped:<value:42 > }
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package prometheus_test import ( "runtime" "github.com/coreos/etcd/Godeps/_workspace/src/github.com/prometheus/client_golang/prometheus" ) var ( allocDesc = prometheus.NewDesc( prometheus.BuildFQName("", "memstats", "alloc_bytes"), "bytes allocated and still in use", nil, nil, ) totalAllocDesc = prometheus.NewDesc( prometheus.BuildFQName("", "memstats", "total_alloc_bytes"), "bytes allocated (even if freed)", nil, nil, ) numGCDesc = prometheus.NewDesc( prometheus.BuildFQName("", "memstats", "num_gc_total"), "number of GCs run", nil, nil, ) ) // MemStatsCollector is an example for a custom Collector that solves the