package vm import ( "fmt" "io" ) type TimeSeries struct { Name string LabelPairs []LabelPair Timestamps []int64 Values []float64 } type LabelPair struct { Name string Value string } func (ts TimeSeries) String() string { s := ts.Name if len(ts.LabelPairs) < 1 { return s } var labels string for i, lp := range ts.LabelPairs { labels += fmt.Sprintf("%s=%q", lp.Name, lp.Value) if i < len(ts.LabelPairs)-1 { labels += "," } } return fmt.Sprintf("%s{%s}", s, labels) } // cWriter used to avoid error checking // while doing Write calls. // cWriter caches the first error if any // and discards all sequential write calls type cWriter struct { w io.Writer n int err error } func (cw *cWriter) printf(format string, args ...interface{}) { if cw.err != nil { return } n, err := fmt.Fprintf(cw.w, format, args...) cw.n += n cw.err = err } //"{"metric":{"__name__":"cpu_usage_guest","arch":"x64","hostname":"host_19",},"timestamps":[1567296000000,1567296010000],"values":[1567296000000,66]} func (ts *TimeSeries) write(w io.Writer) (int, error) { pointsCount := len(ts.Timestamps) if pointsCount == 0 { return 0, nil } cw := &cWriter{w: w} cw.printf(`{"metric":{"__name__":%q`, ts.Name) if len(ts.LabelPairs) > 0 { for _, lp := range ts.LabelPairs { cw.printf(",%q:%q", lp.Name, lp.Value) } } cw.printf(`},"timestamps":[`) for i := 0; i < pointsCount-1; i++ { cw.printf(`%d,`, ts.Timestamps[i]) } cw.printf(`%d],"values":[`, ts.Timestamps[pointsCount-1]) for i := 0; i < pointsCount-1; i++ { cw.printf(`%v,`, ts.Values[i]) } cw.printf("%v]}\n", ts.Values[pointsCount-1]) return cw.n, cw.err }