In Go, what is the difference between var s []int and s := make([]int, 0)?

I find that both works, but which one is better?

  • The first one creates a nil slice, whereas the second creates an empty slice (this is the terminology used by the "Go in action book"). To avoid posting the same answer here too, you can check stackoverflow.com/a/45997533/1561148
    – tgogos
    Sep 1 '17 at 10:30

Simple declaration

var s []int

does not allocate memory and s points to nil, while

s := make([]int, 0)

allocates memory and s points to memory to a slice with 0 elements.

Usually, the first one is more idiomatic if you don't know the exact size of your use case.

  • Can i say the same for map? var m map[string]int vs m:= make(map[string]int) ? Thanks.
    – joshua
    Mar 6 '15 at 7:46
  • 15
    Nah, you need to make maps, because even an empty map needs space allocated for some bookkeeping.
    – twotwotwo
    Aug 7 '15 at 20:09
  • 11
    If you need to return a slice with 0 elements (instead of 'nil'), make is the correct usage.
    – Jess
    Apr 21 '16 at 15:28
  • 6
    If you're building an API and return an array as the response, using the declarative form will return nil in case your slice doesn't have any element, rather than an empty array. However, if make is used to create the slice, an empty array will be returned instead, which is generally the desired effect.
    – robinmitra
    Nov 21 '17 at 18:19
  • 7
    As mentioned in a comment on this answer: stackoverflow.com/a/29164565/1311538, there are differences when attempting to do things like json marshaling. Marshaling the nil slice (var s []int) will produce null, while marshaling the empty slice (s := make([]int, 0)) will produce the expected []
    – asgaines
    Aug 26 '18 at 19:01

In addition to fabriziom's answer, you can see more examples at "Go Slices: usage and internals", where a use for []int is mentioned:

Since the zero value of a slice (nil) acts like a zero-length slice, you can declare a slice variable and then append to it in a loop:

// Filter returns a new slice holding only
// the elements of s that satisfy f()
func Filter(s []int, fn func(int) bool) []int {
    var p []int // == nil
    for _, v := range s {
        if fn(v) {
            p = append(p, v)
    return p

It means that, to append to a slice, you don't have to allocate memory first: the nil slice p int[] is enough as a slice to add to.

  • Why you think it would do an allocation? Cap is zero so nothing is allocated with or without make. Apr 21 '20 at 14:19
  • 1
    @ArmanOrdookhani Agreed. I just find the declaration var p []int easier than using make (which I associate more with allocation, even though with a 0 cap, it would not allocate anything). In term of readability, I prefer not using make here.
    – VonC
    Apr 21 '20 at 14:24
  • 1
    I'm more toward using literals everywhere (e.g. p := []int{}). Since we usually use := syntax to declare most variables, it's more natural to have it everywhere instead of having an exceptions for slices. Other than this trying to think of allocations usually push people toward premature optimizations. Apr 21 '20 at 14:33

Just found a difference. If you use

var list []MyObjects

and then you encode the output as JSON, you get null.

list := make([]MyObjects, 0)

results in [] as expected.

  • 1
    yah, the latter is quite useful when we want to response with [] array instead of null
    – Nhan Tran
    Feb 19 '20 at 7:33

A bit more completel example (one more argument in .make()):

slice := make([]int, 2, 5)
fmt.Printf("length:  %d - capacity %d - content:  %d", len(slice), cap(slice), slice)


length:  2 - capacity 5 - content:  [0 0]

Or with a dynamic type of slice:

slice := make([]interface{}, 2, 5)
fmt.Printf("length:  %d - capacity %d - content:  %d", len(slice), cap(slice), slice)


length:  2 - capacity 5 - content:  [<nil> <nil>]

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