# Why can't a method be defined both for a struct and its pointer?

Given the setup in the 54th slide of the golang tour:

``````type Abser interface {
Abs() float64
}

type Vertex struct {
X, Y float64
}

func (v *Vertex) Abs() float64 {
return math.Sqrt(v.X*v.X + v.Y*v.Y)
}
``````

Why can't a method also be defined for the struct as well as the pointer to the struct? That is:

``````func (v Vertex) Abs() float64 {
return math.Sqrt(v.X*v.X + v.Y*v.Y)
}
``````

Defining this gives the following error:

``````prog.go:41: method redeclared: Vertex.Abs
method(*Vertex) func() float64
method(Vertex) func() float64
``````
-

It can. Just define it on the struct and not the pointer. It will resolve both ways

Method Sets

The method set of the corresponding pointer type *T is the set of all methods with receiver *T or T (that is, it also contains the method set of T)

Try live: http://play.golang.org/p/PsNUerVyqp

``````package main

import (
"fmt"
"math"
)

type Abser interface {
Abs() float64
}

type Vertex struct {
X, Y float64
}

func (v Vertex) Abs() float64 {
return math.Sqrt(v.X*v.X + v.Y*v.Y)
}

func main() {
v := Vertex{5, 10}
v_ptr := &v
fmt.Println(v.Abs())
fmt.Println(v_ptr.Abs())
}
``````
-

While considering for example:

``````type T U

func (t *T) M() int { return 1 }

var t T
``````

...we can now invoke `M()` on `t` by writing `t.M()` as the language permits to call a method with a pointer receiver even on its underlying (non pointer) typed instances, i.e. it becomes equivalent to `(&t).M()`.

If it will be permitted to now additionaly define:

``````func (t T) M() int { return 2 }
``````

...then there's no way to tell what is now `t.M()` supposed to return.

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