In Golang, I am trying to make a scramble slice function for my traveling salesman problem. While doing this I noticed when I started editing the slice I gave the scramble function was different every time I passed it in.

After some debugging I found out it was due to me editing the slice inside the function. But since Golang is supposed to be a "pass by value" language, how is this possible?


I have provided a playground link to show what I mean. By removing line 27 you get a different output than leaving it in, this should not make a difference since the function is supposed to make its own copy of the slice when passed in as an argument.
Can someone explain the phenomenon?


Everything in Go is passed by value, slices too. But a slice value is a header, describing a contiguous section of a backing array, and a slice value only contains a pointer to the array where the elements are actually stored. The slice value does not include its elements (unlike arrays).

So when you pass a slice to a function, a copy will be made from this header, including the pointer, which will point to the same backing array. Modifying the elements of the slice implies modifying the elements of the backing array, and so all slices which share the same backing array will "observe" the change.

To see what's in a slice header, check out the reflect.SliceHeader type:

type SliceHeader struct {
    Data uintptr
    Len  int
    Cap  int

See related / possible duplicate question: Are Golang function parameter passed as copy-on-write?

Read blog post: Go Slices: usage and internals

| improve this answer | |
  • so would a solution be to make a local copy of the slice inside the function. and editing that instead ? – duck Oct 12 '16 at 8:24
  • 2
    @user4901806 If you don't want to modify the elements of the passed slice (the elements of the backing array it points to), then yes, make a copy. – icza Oct 12 '16 at 8:26
  • 10
    @Sahas The slice header contains the length. If you append an element, the length must be increased, so the original slice header will not "see" it even if the backing array has room for this additional element and no new backing array is allocated and existing elements copied over. That's why the builtin append() function has to return a new slice value. Not to mention if a new array has to be allocated... – icza Jun 17 '17 at 14:34
  • 1
    @vas type Container struct {data []byte} is not embedding, it's just a regular field. And if there is only a single field, then the answer is yes. If you have multiple fields, implicit padding may apply so the overall struct size may be bigger. – icza May 21 '19 at 17:44
  • 1
    @vas Yes, whether you use embedding or a named field, they use the same amount of memory. – icza May 23 '19 at 5:42

Slices when its passed it’s passed with the pointer to underlying array, so a slice is a small structure that points to an underlying array. The small structure is copied, but it still points to the same underlying array. the memory block containing the slice elements is passed by "reference". The slice information triplet holding the capacity, the number of element and the pointer to the elements is passed by value.

The best way to handle slices passing to function (if the elements of the slice are manipulated into the function, and we do not want this to be reflected at the elements memory block is to copy them using copy(s, *c) as:

package main

import "fmt"

type Team []Person
type Person struct {
    Name string
    Age  int

func main() {
    team := Team{
        Person{"Hasan", 34}, Person{"Karam", 32},
    fmt.Printf("original before clonning: %v\n", team)
    team_cloned := team.Clone()
    fmt.Printf("original after clonning: %v\n", team)
    fmt.Printf("clones slice: %v\n", team_cloned)

func (c *Team) Clone() Team {
    var s = make(Team, len(*c))
    copy(s, *c)
    for index, _ := range s {
        s[index].Name = "change name"
    return s

But be careful, if this slice is containing a sub slice further copying is required, as we'll still have the sub slice elements sharing pointing to the same memory block elements, an example is:

type Inventories []Inventory
type Inventory struct { //instead of: map[string]map[string]Pairs
    Warehouse string
    Item      string
    Batches   Lots
type Lots []Lot
type Lot struct {
    Date  time.Time
    Key   string
    Value float64

func main() {
ins := Inventory{
        Warehouse: "DMM",
        Item:      "Gloves",
        Batches: Lots{
            Lot{mustTime(time.Parse(custom, "1/7/2020")), "Jan", 50},
            Lot{mustTime(time.Parse(custom, "2/1/2020")), "Feb", 70},

   inv2 := CloneFrom(c Inventories)

func (i *Inventories) CloneFrom(c Inventories) {
    inv := new(Inventories)
    for _, v := range c {
        batches := Lots{}
        for _, b := range v.Batches {
            batches = append(batches, Lot{
                Date:  b.Date,
                Key:   b.Key,
                Value: b.Value,

        *inv = append(*inv, Inventory{
            Warehouse: v.Warehouse,
            Item:      v.Item,
            Batches:   batches,

func (i *Inventories) ReplaceBy(x *Inventories) {
    *i = *x
| improve this answer | |

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.