Since you are instantiating FruitFactory with a non-pointer type (Apple), you can just declare a typed variable and return its address:
func (f FruitFactory[T]) Create() *T {
var a T
return &a
}
Or:
func (f FruitFactory[T]) Create() *T {
return new(T)
}
Playground: https://gotipplay.golang.org/p/IJErmO1mrJh
If you want to instantiate FruitFactory with a pointer type and still avoid segmentation faults, things get more complicated. Basically you have to take advantage of type inference to declare a variable of the non-pointer type in the method body and convert that to the pointer type.
// constraining a type to its pointer type
type Ptr[T any] interface {
*T
}
// the first type param will match pointer types and infer U
type FruitFactory[T Ptr[U], U any] struct{}
func (f FruitFactory[T,U]) Create() T {
// declare var of non-pointer type. this is not nil!
var a U
// address it and convert to pointer type (still not nil)
return T(&a)
}
type Apple struct {
color string
}
func main() {
// instantiating with ptr type
appleFactory := FruitFactory[*Apple, Apple]{}
apple := appleFactory.Create()
// all good
apple.color = "red"
fmt.Println(apple) // &{red}
}
Playground: https://gotipplay.golang.org/p/07nUGI-xP0O
EDIT, March 2022: type inference for defined types has been disabled, so the second playground doesn't compile anymore. Leaving the original one for reference. You must supply all type parameters: FruitFactory[*Apple, Apple]{}, which does make it quite verbose. Type inference works normally for functions.
