The example below shows what happens when you reflect on an interface {} that is set to an object (g) and a pointer to said object (h). Is this by design, should I expect that my datatype is lost or rather or that I cannot get name of the datatype back when I put my pointer in an interface {}?

package main

import "fmt"
import "reflect"

type Foo struct {
    Bar string

func main() {
    f := Foo{Bar: "FooBar"}
    typeName := reflect.TypeOf(f).Name()
    fmt.Printf("typeName %v\n", typeName)

    var g interface{}
    g = f
    typeName = reflect.TypeOf(g).Name()
    fmt.Printf("typeName %v\n", typeName)

    var h interface{}
    h = &f
    typeName = reflect.TypeOf(h).Name()
    fmt.Printf("typeName %v\n", typeName)


typeName Foo
typeName Foo

Also at:


1 Answer 1


As the Name method's documentation says, unnamed types will return an empty string:

Name returns the type's name within its package. It returns an empty string for unnamed types.

The type of h is an unnamed pointer type whose element type is the named struct type Foo:

v := reflect.TypeOf(h)
fmt.Println(v.Elem().Name()) // prints "Foo"

If you want an identifier for complex unnamed types like this, use the String method:

fmt.Println(v.String()) // prints "*main.Foo"
  • Thanks!. Really interesting. Reading the docs on Elem() is a bit confusing. // Elem returns a type's element type. // It panics if the type's Kind is not Array, Chan, Map, Ptr, or Slice. Elem() Type. So, reflect.TypeOf returned a Type, Elem returns an elements Type. Is the "element" the value that I'm reflecting on?
    – Nate
    Feb 5, 2015 at 7:57
  • Also, it seems that the only reason Elem() isn't panic'ing is because the contained type is a pointer. I find it interesting that Elem().Name() then returns "Foo" instead of *Foo.
    – Nate
    Feb 5, 2015 at 8:03
  • 2
    @Nate: The name Elem is a bit missleading for pointers but it is perfectly sensible for the other types. E.g. if you reflect on a []int the Elem() method gives you the type of the slice elements, here int (and not []int). The same logic applies to pointers:You reflect on a pointer type and Elem() gives you the type of the "element of the pointer type" and thats Name is clearly "Foo" not "*Foo" as the name of the element of a []int is int and not []int.
    – Volker
    Feb 5, 2015 at 8:19
  • For what it is worth, the type of h is interface{} not a pointer type. It is the value of h that has (unnamed) pointer type. This becomes apparent if you pass in &h to reflect.TypeOf instead of h. However, interfaces are passed by value (mostly) in Go, and reflect.TypeOf takes interface{} so it has no way of knowing the type of h if passed by value. This distinction is not super important here, but would be more noticeable if h had a named interface type like io.Reader.
    – kbolino
    Aug 31, 2018 at 0:36

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