I've learned about pointer receivers and value receivers. From what I understand: if you want to modify the object itself, you need to use a pointer receiver. I was reading more about interfaces in the go documentation and found this chunk of code:

type Sequence []int

// Methods required by sort.Interface.
func (s Sequence) Len() int {
    return len(s)
func (s Sequence) Less(i, j int) bool {
    return s[i] < s[j]
func (s Sequence) Swap(i, j int) {
    s[i], s[j] = s[j], s[i]
  • The Less and Len methods are using value receivers and this makes sense, because they are returning data and not modifying the Sequence state.

  • But in the Swap example, I am curious why it is still using a value receiver when it looks like it is trying to modify its state.


Is this a mistake, or is my understanding of value/pointer receivers flawed in some way?

  • 1
    Sequence is a reference type so the Swap function will swap the slice's underlying values. A good article on slices can be seen here: blog.golang.org/go-slices-usage-and-internals – squiguy Jan 20 '17 at 17:15
  • 1
    You're not modifying s. You're modifying s[i] and s[j]. – Kerrek SB Jan 20 '17 at 18:18

To expand a bit on @squiguy's comment, the value of a slice object is itself a reference to an underlying array, including a pointer to the element in the array at which the slice begins, the length of the slice, and the slice's capacity (the number of elements in the underlying array from the beginning of the slice to the end of the array). When you pass a slice to a function, it is the above information that is passed by value, so the slice within the function still refers to the same underlying array. This is how Swap is able to swap elements in the slice even though the slice itself is passed by value.

  • this makes a lot of sense, I didn't understand that slices were always references to arrays. so if this is a special case, are there any other types in Go that are similar? – phouse512 Jan 21 '17 at 3:24
  • 2
    Maps behave in a similar way. If you pass a map to a function and the function makes a change to the map, the caller will see that change. Channels are also in this group (reference types), but it's probably a little more obvious that if you pass a channel to a function, both the function and the caller have a reference to the same channel. – Andy Schweig Jan 21 '17 at 4:48

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