-5

I have this:

type pair struct {
    a, b int
}

Then I define two variables:

x := pair{ 3, 4 }
var y interface{} = x

I realize that y doesn't store a reference of x but a copy of it via the following code:

x.b = 7
fmt.Println(x)
fmt.Println(y)
// got:
// {3 7}
// {3 4}

Also see: https://github.com/golang/go/blob/master/src/runtime/iface.go#L359

Is there any way to modify pair.y member of the copied struct in y?

Tried this: (fail)

// cannot assign to y.(pair).b
y.(pair).b = 7

Tried this: (also fail)

// panic: reflect: reflect.Value.SetInt using value obtained using unexported field
v := reflect.ValueOf(y).FieldByName("b")
v.SetInt(33)

Change "b" to "B": (also fail)

type pair {
    a, B int
}
// panic: reflect: reflect.Value.SetInt using unaddressable value
v := reflect.ValueOf(y).FieldByName("B")
v.SetInt(33)

Update:

I'm not going to change x.b using y. I want to change y's field b alone.

Thanks for your help, but this is not a simple question about values and references.

5
  • Now that it’s more clear since your update, it’s probably a duplicate of: stackoverflow.com/questions/6395076/…
    – mgagnon
    Nov 1, 2018 at 12:06
  • @mgagnon I don't think so. My question is about what actually happens when you assign a struct value to an empty interface (the struct value gets copied, and has no relationship with the original one) and how to access the copied value. I found this subtle and easy to be misinterpreted. Nov 1, 2018 at 13:03
  • Ok, may be not exactly a duplicate but it shows how to do what you want using reflection. You need to reflect on the address of y, (by using &y)
    – mgagnon
    Nov 1, 2018 at 14:16
  • @mgagnon Why using the address of y allows me setting one field in the value? Nov 2, 2018 at 3:53
  • 1
    Because everything in Go is passed by value so if reflect.ValueOf() works on a copy of y it will not modify your original y variable.
    – mgagnon
    Nov 2, 2018 at 17:20

2 Answers 2

-1

You need to know the pointer and address first.Use the pointer can change the value deeply.If you want y to have the same value as x, they need to point to the same address.

3
  • I don't want to change x.b, I want to change the member of the copied struct stored inside y. Nov 1, 2018 at 5:30
  • @brk x has no reference to y at all. If you only have x in scope and want to modify a member of y, which isn't in your scope you won't be able to AND vice-versa, y has no reference to x etc.
    – dlamblin
    Nov 1, 2018 at 5:48
  • @dlamblin but y has a reference/pointer to the copied struct. Nov 1, 2018 at 5:54
-2

I found a solution:

package main

import (
    "unsafe"
    "fmt"
)

type pair struct {
    a, b int
}

func main() {
    x := pair{ 3, 4 }
    var y interface{} = x
    var z interface{} = y

    // change x.b
    x.b = 7

    // change y.b
    addr := (*(*[2]uintptr)(unsafe.Pointer(&y)))[1]
    pp := (*pair)(unsafe.Pointer(addr))
    pp.b = 8

    fmt.Println(x) // {3 7}
    fmt.Println(y) // {3 8}
    fmt.Println(z) // {3 8}
}

It's really hack.

Can anybody provide a more natural/idiomatic one?


Summary:

  • assigning a concrete value to an empty interface copies the value
  • assigning an empty interface to another empty interface causes them to share the same underlying value
7
  • There is no natural, idiomatic way to do it, because it's not supposed to be done. All assignments in go are copies, so the fact that this even works as it does with y and z sharing the same value is an implementation detail.
    – JimB
    Nov 1, 2018 at 16:01
  • @JimB I agree with you. Maybe my question should be retitled "In golang, should the value held by an empty interface be considered immutable/read-only". But is there any specification which describes this behavior? Nov 2, 2018 at 6:58
  • If you agree then I don't understand the question. Go interfaces are specified, and are operated on like any other value. It's "immutable" just like a string is immutable, and just like with a string, you can get around that immutability with some use of unsafe. Yes, you can bypass or break anything you want with unsafe, but that's doesn't mean it needs to be, or can reasonably be specified.
    – JimB
    Nov 2, 2018 at 15:00
  • @JimB I thought they are something like variant variables which can store objects of any size and are not something like const char * in C++ which points to constant memory. Nov 3, 2018 at 11:44
  • Your unsafe manipulations here indicate that you seem to understand the implementation, which is fairly simple, so I'm not sure what the confusion is about. Interfaces are currently implemented (regardless of method set) as an opaque, 2 word value -- one word to for the dynamic type, and one word for the pointer to the dynamic value. Why are you fighting the language to to access some unspecified behavior, which you could just use a pointer in the first place?
    – JimB
    Nov 5, 2018 at 16:55

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