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I have a JSON I need to do some processing on. It uses a slice that I need to reference in some way for the Room-struct to be modified at the end of the function. How can I work with this struct concurrently in a by reference type of way?

http://play.golang.org/p/wRhd1sDqtb

type Window struct {
    Height int64 `json:"Height"`
    Width  int64 `json:"Width"`
}
type Room struct {
    Windows []Window `json:"Windows"`
}

func main() {
    js := []byte(`{"Windows":[{"Height":10,"Width":20},{"Height":10,"Width":20}]}`)
    fmt.Printf("Should have 2 windows: %v\n", string(js))
    var room Room
    _ = json.Unmarshal(js, &room)

    var wg sync.WaitGroup
    // Add many windows to room
    for i := 0; i < 10; i++ {
        wg.Add(1)
        go func() {
            defer wg.Done()
            addWindow(room.Windows)
        }()
    }
    wg.Wait()

    js, _ = json.Marshal(room)
    fmt.Printf("Sould have 12 windows: %v\n", string(js))
}

func addWindow(windows []Window) {
    window := Window{1, 1}
    // Do some expensive calculations
    fmt.Printf("Adding %v to %v\n", window, windows)
    windows = append(windows, window)
}
share|improve this question
    
In your case I think using a sync.Mutex for the Window struct, allowing you to lock/unlock it while adding the window, should do the trick. Of course, you could do a channel kind of solution, but that would not necessarily be better. play.golang.org/p/0dFSHQf9rX –  ANisus Aug 27 '13 at 14:18

2 Answers 2

up vote 6 down vote accepted

There are two different issues in your logic: the first one is how the slice itself is being manipulated, and the second one regards actual concurrency problems.

For the slice manipulation, simply passing the slice by value as a parameter will mean that you won't be able to mutate the slice in a way that the call site will see it when the slice has to be grown or the backing array reallocated to accommodate the new data you're appending. There are two common ways to handle that.

By returning the new slice:

func addWindow(windows []Window) []Window {
    return append(windows, Window{1, 1})
}

room.Windows = addWindow(room.Windows)

Or by providing a mutable parameter that the call site maintains a reference to:

func addWindow(room *Room) {
    room.Windows = append(room.Windows, Window{1, 1})
}

For the second issue, you must make sure values are not being mutated concurrently in an unsafe way. There are many ways to address it as well:

Use a channel

Instead of a manipulating the room directly, you can ask windows to be produced by N goroutines, and have their results reported back to a non-racy control point. For example, you might have:

windows := make(chan Window, N)
for i := 0; i < N; i++ { 
    go createWindow(windows)
}
for i := 0; i < N; i++ {
    room.Windows = append(room.Windows, <-windows)
}

and addWindow would instead look similar to:

func createWindow(windows chan Window) {
    windows <- Window{1, 1}
}

This way the creation is concurrent, but the actual manipulation of the room is not.

Add a mutex field

It's also typical to have a private mutex field in the type itself, such as:

type Room struct {
    m       sync.Mutex
    Windows []Window
}

Then, whenever manipulating concurrency-sensitive fields, protect the exclusive area with the mutex:

room.m.Lock()
room.Windows = append(room.Windows, window)
room.m.Unlock()

Ideally the use of such a mutex should stay encapsulated close to the type itself, so it's easy to spot how it's being used. For that reason, you'll often see the mutex being used from within methods of the type itself (room.addWindow, for example).

If you have panic-prone logic in the exclusive (protected) region, it may be a good idea to defer the Unlock call right after the Lock one. A lot of people simply put one straight after the other, even in simple operations, just so they don't have to figure whether it's safe or not to do so. That may well be a good idea if you're unsure.

VERY IMPORTANT: In most cases it's a bad idea to copy a struct with a mutex field by value. Instead, use a pointer to the original value. The reason for this is that internally the mutex relies on the address of its fields to not change for the atomic operations to work correctly.

Add a global mutex

In more unusual circumstances, which most probably do not apply for the case you're trying to handle, but which is good knowing about, you may choose to protect the logic itself instead of protecting the data. One way to do that is with a global mutex variable, with something around the lines of:

var addWindowMutex sync.Mutex

func addWindow(room *Room) {
    addWindowMutex.Lock()
    room.Windows = append(room.Windows, Window{1, 1})
    addWindowMutex.Unlock()
}

This way addWindow itself is protected, no matter who is calling it. The advantage of that approach is that you don't depend on the implementation of room to do it. A disadvantage is that only a single goroutine will get into the exclusive region, no matter how many rooms are being processed in parallel (that's not the case with the prior solution).

When doing this, remember that reading room.Windows or whatever data is being mutated in the exclusive region should also be protected, in case there's still concurrency going on to change it meanwhile.

Finally, just as some unprompted feedback, do check those error values. Ignoring errors is a really bad practice, whether it's just an example or serious code. Many times you'll catch errors even when building up sample code like that.

share|improve this answer
    
Great feedback, thanks! –  Gustav Aug 27 '13 at 15:53
    
Came here from Google searching for concurrency and data structures. I wish all answers on SO where like this one. Thanks! –  astropanic Mar 19 at 18:10
package main

import (
        "encoding/json"
        "fmt"
        "sync"
)

type Window struct {
        Height int64 `json:"Height"`
        Width  int64 `json:"Width"`
}
type Room struct {
        mu      sync.Mutex
        Windows []Window `json:"Windows"`
}

func main() {
        js := []byte(`{"Windows":[{"Height":10,"Width":20},{"Height":10,"Width":20}]}`)
        fmt.Printf("Should have 2 windows: %v\n", string(js))
        var room Room
        _ = json.Unmarshal(js, &room)

        var wg sync.WaitGroup
        // Add meny windows to room
        for i := 0; i < 10; i++ {
                wg.Add(1)
                go func() {
                        defer wg.Done()
                        addWindow(&room)
                }()
        }
        wg.Wait()

        js, _ = json.Marshal(room)
        fmt.Printf("Sould have 12 windows: %v\n", string(js))
}

func addWindow(r *Room) {
        window := Window{1, 1}
        fmt.Printf("Adding %v to %v\n", window, r.Windows)

        r.mu.Lock()
        defer r.mu.Unlock()
        r.Windows = append(r.Windows, window)

}

Should have 2 windows: {"Windows":[{"Height":10,"Width":20},{"Height":10,"Width":20}]}
Adding {1 1} to [{10 20} {10 20}]
Adding {1 1} to [{10 20} {10 20} {1 1}]
Adding {1 1} to [{10 20} {10 20} {1 1} {1 1}]
Adding {1 1} to [{10 20} {10 20} {1 1} {1 1} {1 1}]
Adding {1 1} to [{10 20} {10 20} {1 1} {1 1} {1 1} {1 1}]
Adding {1 1} to [{10 20} {10 20} {1 1} {1 1} {1 1} {1 1} {1 1}]
Adding {1 1} to [{10 20} {10 20} {1 1} {1 1} {1 1} {1 1} {1 1} {1 1}]
Adding {1 1} to [{10 20} {10 20} {1 1} {1 1} {1 1} {1 1} {1 1} {1 1} {1 1}]
Adding {1 1} to [{10 20} {10 20} {1 1} {1 1} {1 1} {1 1} {1 1} {1 1} {1 1} {1 1}]
Adding {1 1} to [{10 20} {10 20} {1 1} {1 1} {1 1} {1 1} {1 1} {1 1} {1 1} {1 1} {1 1}]
Sould have 12 windows: {"Windows":[{"Height":10,"Width":20},{"Height":10,"Width":20},{"Height":1,"Width":1},{"Height":1,"Width":1},{"Height":1,"Width":1},{"Height":1,"Width":1},{"Height":1,"Width":1},{"Height":1,"Width":1},{"Height":1,"Width":1},{"Height":1,"Width":1},{"Height":1,"Width":1},{"Height":1,"Width":1}]}
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