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I have concurrent goroutines which want to append a (pointer to a) struct to the same slice. How do you write that in Go to make it concurrency-safe?

This would be my concurrency-unsafe code, using a wait group:

var wg sync.WaitGroup
MySlice = make([]*MyStruct)
for _, param := range params {
    go func(param string) {
        defer wg.Done()
        OneOfMyStructs := getMyStruct(param)
        MySlice = append(MySlice, &OneOfMyStructs)

I guess you would need to use go channels for concurrency-safety. Anyone can contribute with an example?

many thanks

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I believe the response here answers that question well: stackoverflow.com/questions/18467445/… –  Gustavo Niemeyer Aug 28 '13 at 23:02

2 Answers 2

A channel is the best way to tackle this. Here is an example which can be run on go playground.

package main

import "fmt"
import "sync"
import "runtime"

type T int

func main() {
    var slice []T
    var wg sync.WaitGroup

    queue := make(chan T, 1)

    // Create our data and send it into the queue.
    for i := 0; i < 100; i++ {
        go func(i int) {
            defer wg.Done()

            // Do stuff.

            queue <- T(i)

    // Poll the queue for data and append it to the slice.
    // Since this happens synchronously and in the same
    // goroutine/thread, this can be considered safe.
    go func() {
        defer wg.Done()
        for t := range queue {
            slice = append(slice, t)

    // Wait for everything to finish.


Note: The runtime.Gosched() call is there because those goroutines do not yield to the scheduler. Which would cause a deadlock if we do not explicitly do something to trigger said scheduler. Another option could have been to perform some I/O (e.g.: print to stdout). But I find a runtime.Gosched() to be easier and clearer in its intent.

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There is nothing wrong with guarding the MySlice = append(MySlice, &OneOfMyStructs) with a sync.Mutex. But of course you can have a result channel with buffer size len(params) all goroutines send their answers and once your work is finished you collect from this result channel.

If your params has a fixed size:

MySlice = make([]*MyStruct, len(params))
for i, param := range params {
    go func(i int, param string) {
         defer wg.Done()
         OneOfMyStructs := getMyStruct(param)
         MySlice[i] = &OneOfMyStructs
     }(i, param)

As all goroutines write to different memory this isn't racy.

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It's very interesting your last consideration: in case the size of the slice is known and you are just dealing with pointers to the objects, you don't need to use a concurrency mechanism at all –  Daniele B Aug 28 '13 at 23:23
This does not depend on "slice of pointers": It would work also for "slice of MyStruct". Again the code never writes to the same memory. –  Volker Aug 28 '13 at 23:35
I was assuming that the memory allocation for a pointer is fixed, while the memory allocation for a struct is not fixed. I suppose I am wrong then. –  Daniele B Aug 29 '13 at 1:10
Hu? What is "fixed"? Any type in Go has a certain memory layout which is determined completely a compile time. No difference between a pointer and something else. –  Volker Aug 29 '13 at 4:59
yes, I looked up and you are completely right –  Daniele B Aug 29 '13 at 12:34

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