An interface type is simply a set of methods. Notice that the members of an interface definition do not specify whether or not the receiver type is a pointer. That is because the method set of a value type is a subset of the method set of its associated pointer type. That's a mouthful. What I mean is, if you have the following:
type Whatever struct {
Name string
}
and you define the following two methods:
func (w *Whatever) Foo() {
...
}
func (w Whatever) Bar() {
...
}
Then the type Whatever
has only the method Bar()
, while the type *Whatever
has the methods Foo()
and Bar()
. That means if you have the following interface:
type Grits interface {
Foo()
Bar()
}
Then *Whatever
implements Grits
but Whatever
does not, because Whatever
lacks the method Foo()
. When you define the input to a function as an interface type, you have no idea whether it's a pointer or a value type.
The following example illustrates a function that takes an interface type in both ways:
package main
import "fmt"
type Fruit struct {
Name string
}
func (f Fruit) Rename(name string) {
f.Name = name
}
type Candy struct {
Name string
}
func (c *Candy) Rename(name string) {
c.Name = name
}
type Renamable interface {
Rename(string)
}
func Rename(v Renamable, name string) {
v.Rename(name)
// at this point, we don't know if v is a pointer type or not.
}
func main() {
c := Candy{Name: "Snickers"}
f := Fruit{Name: "Apple"}
fmt.Println(f)
fmt.Println(c)
Rename(f, "Zemo Fruit")
Rename(&c, "Zemo Bar")
fmt.Println(f)
fmt.Println(c)
}
you could call Raname(&f, "Jorelli Fruit")
but not Rename(c, "Jorelli Bar")
, because both Fruit
and *Fruit
implement Renamable
, while *Candy
implements Renable
and Candy
does not.
http://play.golang.org/p/Fb-L8Bvuwj