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I'm doing some stream processing in Go and got stuck trying to figure out how to do this the "Go way" without locks.

This contrived example shows the problem I'm facing.

  • We get one thing at a time.
  • There is a goroutine which buffers them into a slice called things.
  • When things becomes full len(things) == 100 then it is processed somehow and reset
  • There are n number of concurrent goroutines that need to access things before it's full
  • Access to the "incomplete" things from other goroutines is not predictable.
  • Neither doSomethingWithPartial nor doSomethingWithComplete needs to mutate things

Code:

var m sync.Mutex
var count int64
things := make([]int64, 0, 100)

// slices of data are constantly being generated and used
go func() {
  for {
    m.Lock()
    if len(things) == 100 {
      // doSomethingWithComplete does not modify things
      doSomethingWithComplete(things)
      things = make([]int64, 0, 100)
    }
    things = append(things, count)
    m.Unlock()
    count++
  }
}()

// doSomethingWithPartial needs to access the things before they're ready
for {
  m.Lock()
  // doSomethingWithPartial does not modify things
  doSomethingWithPartial(things)
  m.Unlock()
}
  1. I know that slices are immutable so does that mean I can remove the mutex and expect it to still work (I assume no).

  2. How can I refactor this to use channels instead of a mutex.

Edit: Here's the solution I came up with that does not use a mutex

package main

import (
    "fmt"
    "sync"
    "time"
)

func Incrementor() chan int {
    ch := make(chan int)
    go func() {
        count := 0
        for {
            ch <- count
            count++
        }
    }()
    return ch
}

type Foo struct {
    things   []int
    requests chan chan []int
    stream   chan int
    C        chan []int
}

func NewFoo() *Foo {
    foo := &Foo{
        things:   make([]int, 0, 100),
        requests: make(chan chan []int),
        stream:   Incrementor(),
        C:        make(chan []int),
    }
    go foo.Launch()
    return foo
}

func (f *Foo) Launch() {
    for {
        select {
        case ch := <-f.requests:
            ch <- f.things
        case thing := <-f.stream:
            if len(f.things) == 100 {
                f.C <- f.things
                f.things = make([]int, 0, 100)
            }
            f.things = append(f.things, thing)
        }
    }
}

func (f *Foo) Things() []int {
    ch := make(chan []int)
    f.requests <- ch
    return <-ch
}

func main() {

    foo := NewFoo()

    var wg sync.WaitGroup
    wg.Add(10)

    for i := 0; i < 10; i++ {
        go func(i int) {
            time.Sleep(time.Millisecond * time.Duration(i) * 100)
            things := foo.Things()
            fmt.Println("got things:", len(things))
            wg.Done()
        }(i)
    }

    go func() {
        for _ = range foo.C {
            // do something with things
        }
    }()

    wg.Wait()
}
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1  
slices are not immutable. Strings are. –  FUZxxl Apr 18 '13 at 16:52
1  
Slices are mutable. Strings are immutable. –  peterSO Apr 18 '13 at 16:53
    
@FUZxxl the array a slice points to is mutable, but the slice itself is not. (AFAIK) –  ilia choly Apr 18 '13 at 16:53
1  
@ilia choly This is somewhat true. Notice that I can do *(&someslice) = someslice[a:b] to overwrite the memory location someslice lies in. Also, if you have a global variable that is a slice, you can of course assign to it and change the slice the global variable contains. –  FUZxxl Apr 18 '13 at 17:00
1  
@iliacholy myslice[5] = new_value? –  cthom06 Apr 18 '13 at 17:04
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1 Answer

It should be noted that the "Go way" is probably just to use a mutex for this. It's fun to work out how to do it with a channel but a mutex is probably simpler and easier to reason about for this particular problem.

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