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I have a struct in one package that has private fields:

package foo

type Foo struct {
    x int
    y *Foo

And another package (for example, a white-box testing package) needs access to them:

package bar

import "../foo"

func change_foo(f *Foo) {
    f.y = nil

Is there a way to declare bar to be a sort of "friend" package or any other way to be able to access foo.Foo's private members from bar, but still keep them private for all other packages (perhaps something in unsafe)?

share|improve this question
Can you not fork the existing library and expose the fields that you need to modify? (note that you should assume they're unexposed for a good reason) –  elithrar Aug 1 '13 at 0:51
@elithrar All of it is my code. So... yes, they are unexposed for a good reason; and yes, I do need to access them. –  Matt Aug 1 '13 at 13:33

1 Answer 1

up vote 10 down vote accepted

There is a way to read unexported members using reflect

func read_foo(f *Foo) {
    v := reflect.ValueOf(*f)
    y := v.FieldByName("y")

However, trying to use y.Set, or otherwise set the field with reflect will result in the code panicking that you're trying to set an unexported field outside the package.

In short: unexported fields should be unexported for a reason, if you need to alter them either put the thing that needs to alter it in the same package, or expose/export some safe way to alter it.

That said, in the interest of fully answering the question, you can do this

func change_foo(f *Foo) {
    // Since structs are organized in memory order, we can advance the pointer
    // by field size until we're at the desired member. For y, we advance by 8
    // since it's the size of an int on a 64-bit machine and the int "x" is first
    // in the representation of Foo.
    // If you wanted to alter x, you wouldn't advance the pointer at all, and simply
    // would need to convert ptrTof to the type (*int)
    ptrTof := unsafe.Pointer(f)
    ptrTof = unsafe.Pointer(uintptr(ptrTof) + uintptr(8)) // Or 4, if this is 32-bit

    ptrToy := (**Foo)(ptrTof)
    *ptrToy = nil // or *ptrToy = &Foo{} or whatever you want


This is a really, really bad idea. It's not portable, if int ever changes in size it will fail, if you ever rearrange the order of the fields in Foo, change their types, or their sizes, or add new fields before the pre-existing ones this function will merrily change the new representation to random gibberish data without telling you. I also think it might break garbage collection for this block.

Please, if you need to alter a field from outside the package either write the functionality to change it from within the package or export it.

Edit: Here's a slightly safer way to do it:

func change_foo(f *Foo) {
    // Note, simply doing reflect.ValueOf(*f) won't work, need to do this
    pointerVal := reflect.ValueOf(f)
    val := reflect.Indirect(pointerVal)

    member := val.FieldByName("y")
    ptrToY := unsafe.Pointer(member.UnsafeAddr())
    realPtrToY := (**Foo)(ptrToY)
    *realPtrToY = nil // or &Foo{} or whatever


This is safer, as it will always find the correct named field, but it's still unfriendly, probably slow, and I'm not sure if it messes with garbage collection. It will also fail to warn you if you're doing something weird (you could make this code a little safer by adding a few checks, but I won't bother, this gets the gist across well enough).

Also keep in mind that FieldByName is susceptible to the package developer changing the name of the variable. As a package developer, I can tell you that I have absolutely no qualms about changing the names of things users should be unaware of. You could use Field, but then you're susceptible to the developer changing the order of the fields with no warning, which is something I also have no qualms about doing. Keep in mind that this combination of reflect and unsafe is... unsafe, unlike normal name changes this won't give you a compile time error. Instead, the program will just suddenly panic or do something weird and undefined because it got the wrong field, meaning even if YOU are the package developer that did the name change, you still may not remember everywhere you did this trick and spend a while tracking down why your tests suddenly broke because the compiler doesn't complain. Did I mention that this is a bad idea?

Edit2: Since you mention White Box testing, note that if you name a file in your directory <whatever>_test.go it won't compile unless you use go test, so if you want to do white box testing, at the top declare package <yourpackage> which will give you access to unexported fields, and if you want to do black box testing then you use package <yourpackage>_test.

If you need to white box test two packages at the same time, however, I think you may be stuck and may need to rethink your design.

share|improve this answer
Great answer, and +1000 on "[...] no qualms about changing the names of things users should be unaware of". It is unexported for a reason. –  PuerkitoBio Aug 1 '13 at 13:20
Just to be clear, all these packages are my own, so if I change the name of a field, I would know about it. I had two potential uses in mind: White box testing, which your solution definitely works for, but also a parser, which converts strings to the objects in the other package, whose efficiency would benefit from bypassing the usual constructors for the structs but your solution would defeat the purpose of that. Of course, I could put the parser in the same package, but I wanted to keep the various parts of the program separate (maybe that's not very Go-like?). –  Matt Aug 1 '13 at 13:48
White box testing is easily done by putting your *_test.go files in the same package as the one under test, so you have access to unexported fields. The Go tools correctly support this use-case and will not compile your tests with your package code except when running go test. –  PuerkitoBio Aug 1 '13 at 14:27
@Matt -- Sure, you know you changed it, but do you remember all the places you referenced it in your tests? When I make name changes, my tests fail to compile and tell me the lines I need to change. Unsafe won't do that, at best it will quietly panic when you try to get the UnsafeAddr of the zero value, at worst you'll change the wrong field and have to spend an hour tracking down the fact that you're subtly overwriting the wrong data with gibberish. –  Jsor Aug 1 '13 at 20:13
@PuerkitoBio -- I'll add the info about white box testing since the OP specifically mentioned it. –  Jsor Aug 1 '13 at 20:13

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