// Adds additional tags to the existing tags of a point func addTagsToPoint(point *influxdb.Point, tags map[string]string) { if point.Tags == nil { point.Tags = tags } else { for k, v := range tags { point.Tags[k] = v } } }
func ReadDB(c *client.Client, sdb, ddb, cmd string) client.BatchPoints { q := client.Query{ Command: cmd, Database: sdb, } //get type client.BatchPoints var batchpoints client.BatchPoints response, err := c.Query(q) if err != nil { fmt.Printf("Fail to get response from database, read database error: %s\n", err.Error()) } res := response.Results if len(res) == 0 { fmt.Printf("The response of database is null, read database error!\n") } else { res_length := len(res) for k := 0; k < res_length; k++ { //show progress of reading series count := len(res[k].Series) bar := pb.StartNew(count) for _, ser := range res[k].Series { //get type client.Point var point client.Point point.Measurement = ser.Name point.Tags = ser.Tags for _, v := range ser.Values { point.Time, _ = time.Parse(time.RFC3339, v[0].(string)) field := make(map[string]interface{}) l := len(v) for i := 1; i < l; i++ { if v[i] != nil { field[ser.Columns[i]] = v[i] } } point.Fields = field point.Precision = "s" batchpoints.Points = append(batchpoints.Points, point) } bar.Increment() time.Sleep(3 * time.Millisecond) } bar.FinishPrint("Read series has finished!\n") } batchpoints.Database = ddb batchpoints.RetentionPolicy = "default" } return batchpoints }
// deepcopy returns a deep copy of the BatchPoints object. This is primarily so // we can do multithreaded output flushing (see Agent.flush) func (bp *BatchPoints) deepcopy() *BatchPoints { bp.mu.Lock() defer bp.mu.Unlock() var bpc BatchPoints bpc.Time = bp.Time bpc.Precision = bp.Precision bpc.Tags = make(map[string]string) for k, v := range bp.Tags { bpc.Tags[k] = v } var pts []client.Point for _, pt := range bp.Points { var ptc client.Point ptc.Measurement = pt.Measurement ptc.Time = pt.Time ptc.Precision = pt.Precision ptc.Raw = pt.Raw ptc.Tags = make(map[string]string) ptc.Fields = make(map[string]interface{}) for k, v := range pt.Tags { ptc.Tags[k] = v } for k, v := range pt.Fields { ptc.Fields[k] = v } pts = append(pts, ptc) } bpc.Points = pts return &bpc }