20

Why when we reference struct using (*structObj) does Go seem to return a new copy of structObj rather than return the same address of original structObj? This might be some misunderstanding of mine, so I seek clarification

package main

import (
    "fmt"
)

type me struct {
    color string
    total int
}

func study() *me {
    p := me{}
    p.color = "tomato"
    fmt.Printf("%p\n", &p.color)
    return &p
}

func main() {
    p := study()
    fmt.Printf("&p.color = %p\n", &p.color)

    obj := *p
    fmt.Printf("&obj.color = %p\n", &obj.color)
    fmt.Printf("obj = %+v\n", obj)

    p.color = "purple"
    fmt.Printf("p.color = %p\n", &p.color)
    fmt.Printf("p = %+v\n", p)
    fmt.Printf("obj  = %+v\n", obj)

    obj2 := *p
    fmt.Printf("obj2 = %+v\n", obj2)
}

Output

0x10434120
&p.color = 0x10434120
&obj.color = 0x10434140   //different than &p.color!
obj = {color:tomato total:0}
p.color = 0x10434120
p = &{color:purple total:0}
obj  = {color:tomato total:0}
obj2 = {color:purple total:0} // we get purple now when dereference again

Go playground

3 Answers 3

25

When you write

obj := *p

You are copying the value of struct pointed to by p (* dereferences p). It is similar to:

var obj me = *p

So obj is a new variable of type me, being initialized to the value of *p. This causes obj to have a different memory address.

Note that obj if of type me, while p is of type *me. But they are separate values. Changing a value of a field of obj will not affect the value of that field in p (unless the me struct has a reference type in it as a field, i.e. slice, map or channels. See here and here.). If you want to bring about that effect, use:

obj := p
// equivalent to: var obj *me = p

Now obj points to the same object as p. They still have different addresses themselves, but hold within them the same address of the actual me object.

5
  • is there a way to get the same dereferenced pointer to p? as in the main() func, if we are appending the struct as a slice, we will always have to dereference it inside the append itself, i.e. res = append(res, *p).
    – ken
    Jul 18, 2016 at 18:39
  • It not just about "creating" a new variable, assignment to an existing variable via a dereference copies the value, e.g. *a = *b still copied copies *b to *a.
    – JimB
    Jul 18, 2016 at 18:39
  • @jimB yap, is there a way to avoid the repeated copy? as basically the operation just need to deal with the same p struct.
    – ken
    Jul 19, 2016 at 8:44
  • 2
    @ken: I don't understand what you mean. You need some sort of value, so it's either going to be the struct value or a pointer value. If you want to reference the same struct or avoid copying you use a pointer.
    – JimB
    Jul 19, 2016 at 12:47
  • @JimB okay, maybe i am thinking too much ;) I got what you mean, thanks for your replied!
    – ken
    Jul 19, 2016 at 14:03
19

No, "assignment" always creates a copy in Go, including assignment to function and method arguments. The statement obj := *p copies the value of *p to obj.

If you change the statement p.color = "purple" to (*p).color = "purple" you will get the same output, because dereferencing p itself does not create a copy.

2
  • 1
    in fact, coming from c background, this make me confuse. Thanks, think both answer are correct and reach me about the same time, so chose a more details, but upvote this for your answer too!
    – ken
    Jul 18, 2016 at 18:34
  • 3
    dereferencing p itself does not create a copy this clarified my confusion, thanks Apr 13, 2017 at 10:34
7

tl;dr Dereferencing (using the * operator) in Go does not make a copy. It returns the value the pointer points to.

1
  • 1
    True, although an assignment does copy! (Note that for slices and maps it will only copy the header value, not the actual elements, so it may seem like it does not copy) Jan 23, 2020 at 23:45

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