package main import ( "math" "sort" "time" "github.com/pkg/errors" ) type pingHistory []int64 func (s *sparkClient) ExecutePingTest(t *testResult) error { ph := pingHistory{} if err := s.connect(); err != nil { return errors.Wrap(err, "Unable to connect") } if err := s.writeCommand("ECO"); err != nil { return errors.Wrap(err, "Unable to send ECO command") } buf := make([]byte, 1) for i := 0; i < numPings; i++ { start := time.Now() if _, err := s.conn.Write([]byte{46}); err != nil { return err } if _, err := s.conn.Read(buf); err != nil { return err } ph = append(ph, time.Since(start).Nanoseconds()/1000) } ph = ph.toMilli() t.Ping.Min, t.Ping.Max = ph.minMax() t.Ping.Avg = ph.mean() t.Ping.Dev = ph.stdDev() return nil } // toMilli Converts our ping history to milliseconds for display purposes func (h *pingHistory) toMilli() []int64 { var pingMilli []int64 for _, v := range *h { pingMilli = append(pingMilli, v/1000) } return pingMilli } // mean generates a statistical mean of our historical ping times func (h *pingHistory) mean() float64 { var sum uint64 for _, t := range *h { sum = sum + uint64(t) } return float64(sum / uint64(len(*h))) } // variance calculates the variance of our historical ping times func (h *pingHistory) variance() float64 { var sqDevSum float64 mean := h.mean() for _, t := range *h { sqDevSum = sqDevSum + math.Pow((float64(t)-mean), 2) } return sqDevSum / float64(len(*h)) } // stdDev calculates the standard deviation of our historical ping times func (h *pingHistory) stdDev() float64 { return math.Sqrt(h.variance()) } func (h *pingHistory) minMax() (float64, float64) { var hist []int for _, v := range *h { hist = append(hist, int(v)) } sort.Ints(hist) return float64(hist[0]), float64(hist[len(hist)-1]) }