package timingwheel import ( "sync" "time" ) type TimingWheel struct { sync.Mutex interval time.Duration ticker *time.Ticker quit chan struct{} maxTimeout time.Duration cs []chan struct{} pos int } func NewTimingWheel(interval time.Duration, buckets int) *TimingWheel { w := new(TimingWheel) w.interval = interval w.quit = make(chan struct{}) w.pos = 0 w.maxTimeout = time.Duration(interval * (time.Duration(buckets))) w.cs = make([]chan struct{}, buckets) for i := range w.cs { w.cs[i] = make(chan struct{}) } w.ticker = time.NewTicker(interval) go w.run() return w } func (w *TimingWheel) Stop() { close(w.quit) } func (w *TimingWheel) After(timeout time.Duration) <-chan struct{} { if timeout >= w.maxTimeout { panic("timeout too much, over maxtimeout") } w.Lock() index := (w.pos + int(timeout/w.interval)) % len(w.cs) b := w.cs[index] w.Unlock() return b } func (w *TimingWheel) run() { for { select { case <-w.ticker.C: w.onTicker() case <-w.quit: w.ticker.Stop() return } } } func (w *TimingWheel) onTicker() { w.Lock() lastC := w.cs[w.pos] w.cs[w.pos] = make(chan struct{}) w.pos = (w.pos + 1) % len(w.cs) w.Unlock() close(lastC) }