package gopool import ( "sync" "errors" "fmt" ) var ( HandlerIsExistErr = errors.New("指定的键已存在") WorkerChanClosedErr = errors.New("队列已关闭") ) type ChannelHandler func() type entry struct { handler ChannelHandler key string } type ChannelPool struct { maxWorkerNum int maxPoolNum int wait *sync.WaitGroup cache *sync.Map worker chan *entry limit chan bool isClosed bool once *sync.Once } func NewChannelPool(maxWorkerNum, maxPoolNum int) (*ChannelPool) { if maxWorkerNum <= 0 { maxWorkerNum = 1 } if maxPoolNum <= 0 { maxWorkerNum = 100 } return &ChannelPool{ maxWorkerNum: maxWorkerNum, maxPoolNum: maxPoolNum, wait: &sync.WaitGroup{}, cache: &sync.Map{}, worker: make(chan *entry, maxWorkerNum), limit: make(chan bool, maxWorkerNum), isClosed: false, once: &sync.Once{}, } } func (pool *ChannelPool) LoadOrStore(key string,value ChannelHandler) error { if pool.isClosed { return WorkerChanClosedErr } if _,loaded := pool.cache.LoadOrStore(key,false); loaded { return HandlerIsExistErr }else{ pool.worker <- &entry{handler:value,key:key} return nil } } func (pool *ChannelPool) Start() { pool.once.Do(func() { go func() { for i :=0; i < pool.maxWorkerNum; i ++ { pool.limit <- true } for { actual, isClosed := <-pool.worker //当队列被关闭,则跳出循环 if actual == nil && !isClosed { fmt.Println("工作队列已关闭") break } limit := <-pool.limit if limit { pool.wait.Add(1) go func(actual *entry) { defer func() { pool.cache.Delete(actual.key) pool.limit <- true pool.wait.Done() }() actual.handler() }(actual) } } }() }) } func (pool *ChannelPool) Wait() { close(pool.worker) pool.wait.Wait() }