54

I'm confused as to why this fails to compile with:

impossible type assertion: Faz does not implement Foo (Bar method has pointer receiver)

if I make the receiver for Faz.Bar a Faz value rather than a Faz pointer then it compiles fine, but I thought it was always better to have pointer receivers so values aren't being copied around?

package main

import (
    "log"
)

func main() {
    foo := New().(Faz)
    log.Println(foo)
}

type Foo interface {
    Bar() string
}

func New() Foo {
    return &Faz{}
}

type Faz struct {
}

func (f *Faz) Bar() string {
    return `Bar`
}
2
  • 6
    See this post. – Kerrek SB May 22 '15 at 18:42
  • 3
    As sort of a side note: the article referenced by @KerrekSB was helpful for me to understand that when Go complains "MyFoo does not implement Foo (Bar method has pointer receiver)", it doesn't mean that you can't use a pointer receiver. It means that either none of the methods of MyFoo that implement Bar should have pointer receivers, or all of them must. That's a different issue than @0xor1 was having, but others might find this question because they are mixing their receiver types (like I was) and not understanding the error they're getting. – Hephaestus Jun 24 '16 at 21:10
53

Because it's *Faz not Faz.

func main() {
    foo := New().(*Faz)
    log.Println(foo)
}
1
  • 4
    They can be either *Faz or Faz but they all must match. Define them all Faz if you intend to return Faz{} or *Faz if you intend to return &Faz{}. How they maintain state is considered an implementation detail that you are basically hiding from the user. – Frederick F. Kautz IV May 22 '15 at 18:46
4

I think the answer to this question needs to a more retrospective approach towards the grammar, and how would implement it through software engineering. (Excuse the over simplification)


First a quick flashback of what are types?
They are just memory blocks with compiler logic on top. What makes an array different from a string is what the compiler allows us to do with those memory blocks. (Think deeper and you may begin to realize the true difference between strongly typed and dynamically typed languages.)

Now next you need to realize that pointers are their own types per say.
*variable is a different memory block (aka type) than variable. It's just that the compiler always assumes that content of *variable is always going to be an address to a memory block of type to the right of the declaration along with other restriction/features it imposes.

Then let's recap what an interface is.
Pseudo-scientific definition: A set of requirements for any first class citizen to be of a specific type. Translated to software engineering- any block of memory (types) that has the same memory structure (think back to structure packing) associated to it as described in a contract (interface) can be passed around as with the type name that the contract mentions.


Now you may begin to realize that when you say

func (f *Faz) Bar() string is f's block of memory holding a function, where f's type is a pointer to Faz

where areas

func (f Faz) Bar() string is f's block of memory, where f's type is Faz

So when you are saying that a variable of *Faz type is satisfying a contract, then how can you assume that a variable of Faz type will qualify as interface type in the code? Chose who satisfies your contract, and only that type can assume the interface type in your code.

1
  • I don't agree with your explanation, following program works (type *foo satisfies String() defined for type foo):package main import ( "fmt" ) type foo struct{} func (f foo) String() string { return "111" } func main() { f := foo{} a := &foo{} var s fmt.Stringer s = a s = f fmt.Println(f.String(), a.String(), s) } – Helin Wang Mar 15 '17 at 16:16

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