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If type T2 is based on type T1, other than sharing the same data fields, is there any relationship between T1 and T2?

package main
import "fmt"

type T1 struct { s string }
func (v *T1) F1() string { return v.s }

type T2 T1
func (v *T2) F2() string { return v.s }

func main() {
        var t1 = T1{ "xyz" }
        var t2 = T2{ "pdq" }
        s0 := t2.F1()                   // error - expected ok
        s1 := ((*T1)(&t2)).F1()         // ok - expected
        s2 := ((*T2)(&t1)).F2()         // ok - not expected
        fmt.Println( s0, s1, s2 )

My understanding here is lacking

  1. was hoping that T2 would inherit T1's methods, but such is not the case.

  2. was expecting T2 could be coerced into T1, since it was derived from T1

  3. was surprised that T1 could be coerced into T2, but so it is.

  4. it seems that the relationship between T1 and T2 is completely symmetrical - I cannot find anything that breaks the symmetry despite the fact one is actually derived from the other - or is this an illusion?

(NOTE: I am not criticizing or judging - I entirely respect decisions made - just verifying I understand what is there that for me is counter-intuitive - I'm sure I'm not the only one!)

share|improve this question
up vote 3 down vote accepted

Go does not support object-oriented type inheritance.

Is Go an object-oriented language?

Why is there no type inheritance?

A method is bound to a single specific type.

A method declaration binds an identifier to a method. The method is said to be bound to the base type and is visible only within selectors for that type.

You can convert between types T1 and T2.

A value x can be converted to type T [when] x's type and T have identical underlying types.

For example,

package main

import (

type T1 struct{ i int }

func (t T1) String() string { return "T1" }

type T2 T1

func (t T2) String() string { return "T2" }

func main() {
    t1 := T1{1}
    t2 := T2{2}
    fmt.Println(t1, t2)
    c1 := T1(t2)
    c2 := T2(t1)
    fmt.Println(c1, c2)
    t1 = T1(c2)
    t2 = T2(c1)
    fmt.Println(t1, t2)

T1 T2
T1 T2
T1 T2
share|improve this answer
so when you say type T2 T1, what's going on is that the structure of T1 is copied as the structure of T2, and in that they have the same structure they can be recast to each other, and that otherwise T2 has no relationship to T1 – cc young Jun 26 '11 at 17:40
Yes. There are a lot of conversion rules. For this particular rule, the fact that T1 and T2 have the same underlying type means that they also have the same memory size, layout, and contents. – peterSO Jun 26 '11 at 18:01
s2 := ((*T2)(&t1)).F2()         // ok - not expected

works because you cast it to type T2, and it thus allows F2. So it is expected to work. The F2 function is then called on your T2 object t1 which returns t1.s.

s0 := t2.F1()                   // error - expected ok

For this one, I can not tell you for sure but only give you my plausible idea as well:

F1 is a method on type T1. As t2 is not of type T1 you can not call F1 on t2. So, as you noted, only data-fields are shared, not the methods on those types.

Also see Go for C++ programmers, which states:

Methods are defined on named types. If you convert the value to a different type, the new value will have the methods of the new type, not the old type.

share|improve this answer

I can explain why T2 doesn't have methods of T1. Imagine that you need to sort some data of type T in two different ways. One way is default and so you implement Len, Less and Swap methods in T. You can call sort.Sort(data) and sort data in default way. But how to sort data differently?

You write type SortDifferently T and implement Len, Less and Swap methods for type SortDifferently. If SortDifferently had all methods of T, you couldn't do that because Go doesn't have methods overrides. But without inheritance you can now write sort.Sort((SortDifferently)data) to sort data in different way.

This is a Go way of doing things. It is not easy to get used to.

share|improve this answer
"Go doesn't have methods overrides" - I guess that explains it. – cc young Jun 26 '11 at 16:13
The thing is that Go does have method shadowing. If you use type SortDifferently struct { T }, it forwards all the methods from T to SortDifferently, and still allows you to shadow those names with methods written specifically on SortDifferently. You can still call the T versions, even from within the shadowing method. I don't really know why they disallow that on the type SortDifferently T case. – matthias Sep 29 '13 at 0:26

Not sure if it'll help you but look at the "anonymous fields" described for instance in "Go for C++ programmers", under the "Interfaces" section -- it appears they provide something looking like child classes.

But in any case, reading through tutorials on Go, I developed an idea that Go's authors decidedly wanted programmers to steer away from building inheritance chains and use embedding/delegation instead.

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