在这个例子中,我们将看看如何使用goroutines
和channel
实现一个工作池。
这里是工作程序(worker
),我们将运行几个并发实例。这些工作程序(worker
)将在工作渠道上接收工作,并将结果发送相应的结果。将每个工作程序(worker
)睡一秒钟,用来模拟执行的任务。
为了使用工作程序(worker
)池,需要向它们发送工作(或作业)并收集的结果。为此做2
个通道。
这启动了3
个工作程序(worker
),最初被阻止,因为还没有作业。
然后,我们再发送5
个作业,然后关闭该通道,以指示这是所有的工作。
最后,收集作业的所有结果。
运行程序显示了5
个作业正在由各种工作程序执行。该程序只需要约2
秒的时间,尽管做了大约5
秒的总工作,因为有3
个工作程序同时操作。
所有的示例代码,都放在
F:\worksp\golang
目录下。安装Go编程环境请参考:/tutorial/detail-5562.html
timers.go
的完整代码如下所示 -
package main import "fmt" import "time" // Here's the worker, of which we'll run several // concurrent instances. These workers will receive // work on the `jobs` channel and send the corresponding // results on `results`. We'll sleep a second per job to // simulate an expensive task. func worker(id int, jobs <-chan int, results chan<- int) { for j := range jobs { fmt.Println("worker", id, "started job", j) time.Sleep(time.Second) fmt.Println("worker", id, "finished job", j) results <- j * 2 } } func main() { // In order to use our pool of workers we need to send // them work and collect their results. We make 2 // channels for this. jobs := make(chan int, 100) results := make(chan int, 100) // This starts up 3 workers, initially blocked // because there are no jobs yet. for w := 1; w <= 3; w++ { go worker(w, jobs, results) } // Here we send 5 `jobs` and then `close` that // channel to indicate that's all the work we have. for j := 1; j <= 5; j++ { jobs <- j } close(jobs) // Finally we collect all the results of the work. for a := 1; a <= 5; a++ { <-results } }
执行上面代码,将得到以下输出结果 -
F:\worksp\golang>go run worker-pools.go worker 3 started job 2 worker 1 started job 1 worker 2 started job 3 worker 3 finished job 2 worker 3 started job 4 worker 1 finished job 1 worker 1 started job 5 worker 2 finished job 3 worker 3 finished job 4 worker 1 finished job 5