I have a function which takes a generic type and should return a function that always return a pointer. I.e. if you pass it a non-pointer type it should return a pointer to that type, if you pass it a pointer type it should return the same type. I don't want to use reflect.New as it's a performance-critical app.

I don't mind using reflection in the function that returns the factory function, however ideally not even there.

This is what I'm trying to do:

package main

import (

type Ptr[T any] interface {

func makeNewA[T Ptr[U], U any]() any {
    return new(U)

func makeNewB[T any]() any {
    return new(T)

func makeNew[T any](v T) func() any {
    if reflect.TypeOf(v).Kind() == reflect.Ptr {
        return makeNewA[T] // <-- error: T does not match *U
    } else {
        return makeNewB[T]

type Foo struct{}

func main() {
    make1 := makeNew(Foo{})
    make2 := makeNew(&Foo{})

    // should both return &Foo{}

1 Answer 1


This kind of conditional typing isn't nicely solved with generics, because when you instantiate T any with *Foo you lose information about the base type. As matter of fact your code still uses reflection and any (= interface{}), and the return type of the makeN functions will have to be type-asserted to *Foo.

The closest you can get with your current code is:

func makeNew[T any](v T) func() any {
    if typ := reflect.TypeOf(v); typ.Kind() == reflect.Ptr {
        elem := typ.Elem()
        return func() any {
            return reflect.New(elem).Interface() // must use reflect
    } else {
        return func() any { return new(T) } // v is not ptr, alloc with new

Then both maker functions will return an any that wraps a non-nil *Foo value:

fmt.Printf("%T, %v\n", make1(), make1()) // *main.Foo, &{}
fmt.Printf("%T, %v\n", make2(), make2()) // *main.Foo, &{}

Playground: https://gotipplay.golang.org/p/kVUM-qVLLHG

Further considerations:

  • return makeNewA[T] in your first attempt does not work because the condition reflect.TypeOf(v).Kind() == reflect.Ptr is evaluated at runtime, whereas instantiation of makeNewA happens at compile-time. At compile-time T is simply constrained by any and any (= interface{}) doesn't implement Ptr[U]
  • you can't capture information about both the pointer type and the base type with only the argument v. For example makeNew[T Ptr[U], U any](v T) won't compile when called with makeNew(Foo{}) and makeNew[T Ptr[U], U any](v U) will infer T as **Foo when called with *Foo
  • Thank you but I'm trying to create a new variable every time the resulting function is called, not just returning the original one. So is using reflect.New the only way?
    – Adam B
    Mar 11, 2022 at 22:51
  • @AdamB I changed the answer to show returning new values, although I'm afraid that yes, you've gotta use reflect.New for the pointer type. When T any matches *Foo you lose information about the base type. In the function body you only have T, and you can't "dereference" a type. Funnily, this has been asked before
    – blackgreen
    Mar 12, 2022 at 6:50
  • However consider benchmarking your code. I have seen that simple reflection calls don't degrade performance that much. It may be a different story with New though. Otherwise, you may split makeNew in two functions makeNewPtr and makeNewVal, or have users supply func[T any]() T directly and get rid of the maker funcs
    – blackgreen
    Mar 12, 2022 at 6:53
  • 1
    The thing is that it's a library which doesn't know if the value will be a pointer or not in advance. I've benchmarked it using reflect.Newand it adds about 90ns/op, which in the context of processing thousands of records per second really isn't great. I might actually do a proposal for typescript style typeguards so the compiler knows what the type is.
    – Adam B
    Mar 12, 2022 at 10:11

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.