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Since Go does not have generics, all the premade solutions use type casting which I do not like very much. I also want to implement it on my own and tried the following code. However, sometimes it does not wait for all goroutines, am I closing the jobs channel prematurely? I do not have anything to fetch from them. I might have used a pseudo output channel too and waited to fetch the exact amount from them however I believe the following code should work too. What am I missing?

func jobWorker(id int, jobs <-chan string, wg sync.WaitGroup) {
    wg.Add(1)
    defer wg.Done()

    for job := range jobs {
        item := ParseItem(job)
        item.SaveItem()
        MarkJobCompleted(item.ID)
        log.Println("Saved", item.Title)
    }
}

// ProcessJobs processes the jobs from the list and deletes them
func ProcessJobs() {

    jobs := make(chan string)

    list := GetJobs()
    // Start workers
    var wg sync.WaitGroup
    for w := 0; w < 10; w++ {
        go jobWorker(w, jobs, wg)
    }

    for _, url := range list {
        jobs <- url
    }

    close(jobs)
    wg.Wait()
}
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Call wg.Add outside of the goroutine and pass a pointer to the wait group.

If Add is called from inside the goroutine, it's possible for the main goroutine to call Wait before the goroutines get a chance to run. If Add has not been called, then Wait will return immediately.

Pass a pointer to the goroutine. Otherwise, the goroutines use their own copy of the wait group.

func jobWorker(id int, jobs <-chan string, wg *sync.WaitGroup) {

    defer wg.Done()

    for job := range jobs {
        item := ParseItem(job)
        item.SaveItem()
        MarkJobCompleted(item.ID)
        log.Println("Saved", item.Title)
    }
}

// ProcessJobs processes the jobs from the list and deletes them
func ProcessJobs() {

    jobs := make(chan string)

    list := GetJobs()
    // Start workers
    var wg sync.WaitGroup
    for w := 0; w < 10; w++ {
        wg.Add(1)
        go jobWorker(w, jobs, &wg)
    }

    for _, url := range list {
        jobs <- url
    }

    close(jobs)
    wg.Wait()
}
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  • Yeah, you are absoultely right, and seperating wg.Add(1) to there actually makes more sense and correct.
    – Mustafa
    Feb 21 '16 at 23:51
  • Actually, calling it once with wg.Add(10) makes even more sense ;)
    – fl0cke
    Feb 21 '16 at 23:54
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You need to pass a pointer to the waitgroup, or else every job receives it's own copy.

func jobWorker(id int, jobs <-chan string, wg *sync.WaitGroup) {
    wg.Add(1)
    defer wg.Done()

    for job := range jobs {
        item := ParseItem(job)
        item.SaveItem()
        MarkJobCompleted(item.ID)
        log.Println("Saved", item.Title)
    }
}

// ProcessJobs processes the jobs from the list and deletes them
func ProcessJobs() {

    jobs := make(chan string)

    list := GetJobs()
    // Start workers
    var wg sync.WaitGroup
    for w := 0; w < 10; w++ {
        go jobWorker(w, jobs, &wg)
    }

    for _, url := range list {
        jobs <- url
    }

    close(jobs)
    wg.Wait()
}

See the difference here: without pointer, with pointer.

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