I often use the newtype pattern, but I am tired of writing my_type.0.call_to_whatever(...). I am tempted to implement the Deref trait because it permits writing simpler code since I can use my newtype as if it were the underlying type in some situations, e.g.:

use std::ops::Deref;

type Underlying = [i32; 256];
struct MyArray(Underlying);

impl Deref for MyArray {
    type Target = Underlying;

    fn deref(&self) -> &Self::Target {
        &self.0
    }
}

fn main() {
    let my_array = MyArray([0; 256]);

    println!("{}", my_array[0]); // I can use my_array just like a regular array
}

Is this a good or bad practice? Why? What can be the downsides?

up vote 12 down vote accepted

I think it's a bad practice.

since I can use my newtype as if it were the underlying type in some situations

That's the problem — it can be implicitly used as the underlying type whenever a reference is. If you implement DerefMut, then it also applies when a mutable reference is needed.

You don't have any control over what is and what is not available from the underlying type; everything is. In your example, do you want to allow people to call as_ptr? What about sort? I sure hope you do, because they can!

About all you can do is attempt to overwrite methods, but they still have to exist:

impl MyArray {
    fn as_ptr(&self) -> *const i32 {
        panic!("No, you don't!")
    }
}

Even then, they can still be called explicitly (<[i32]>::as_ptr(&*my_array);).

I consider it bad practice for the same reason I believe that using inheritance for code reuse is bad practice. In your example, you are essentially inheriting from an array. I'd never write something like the following Ruby:

class MyArray < Array
  # ...
end

This comes back to the is-a and has-a concepts from object-oriented modeling. Is MyArray an array? Should it be able to be used anywhere an array can? Does it have preconditions that the object should uphold that a consumer shouldn't be able to break?

but I am tired of writing my_type.0.call_to_whatever(...)

Like in other languages, I believe the correct solution is composition over inheritance. If you need to forward a call, create a method on the newtype:

impl MyArray {
    fn call_to_whatever(&self) { self.0.call_to_whatever() } 
}

The main thing that makes this painful in Rust is the lack of delegation. A hypothetical delegation syntax could be something like

impl MyArray {
    delegate call_to_whatever -> self.0; 
}

So when should you use Deref / DerefMut? I'd advocate that the only time it makes sense is when you are implementing a smart pointer.


Speaking practically, I do use Deref / DerefMut for newtypes that are not exposed publicly on projects where I am the sole or majority contributor. This is because I trust myself and have good knowledge of what I mean. If delegation syntax existed, I wouldn't.

  • 4
    I have to disagree, at least in regards to Deref – most of my newtypes exist solely as fancy constructors, so that I can pass data around with a static guarantee that it satisfies certain invariants. I.e., once the object is constructed I no longer really care about the newtype, only the underlying data; having to pattern match/.0 everywhere is just noise, and delegating every method I might care about would be as well. I suppose it might be surprising to have a type implement Deref and not DerefMut, but they are separate traits for a reason, after all... – ildjarn Jul 13 '17 at 21:49
  • 1
    @ildjarn with a static guarantee that it satisfies certain invariants — if you implement DerefMut, you can no longer statically guarantee those invariants as anyone can trivially change them, regardless of the visibility of the newtype fields. If you only implement Deref, you still allow people to poke at your data. This shouldn't cause any material harm, but often presents a wider API than you need to expose. – Shepmaster Jul 13 '17 at 21:57
  • 2
    "This shouldn't cause any material harm, but often presents a wider API than you need to expose." No more so than std::str IMO; in protocol work, for example, you're often dealing with sequences of primitive types where it's rather pointless to obscure (/try to abstract away) that fact, but there are strict invariants to maintain (c.f. UTF-8). I don't feel strongly about it; I just feel like "bad practice" is putting it rather strongly. :-] (EDIT: If one could make deref_mut unsafe then I probably would feel strongly as there would be no Deref sans DerefMut conundrum.) – ildjarn Jul 13 '17 at 22:06
  • @ildjarn I think that's an interesting example. std::str does not implement Deref<Target = [u8]> but that's all it is internally. A str is-not-a slice of bytes, but it does have-a slice of bytes. From the sounds of it, I've not done as much as lower-level work as you, but I've found that forcing myself to add the delegation makes me evaluate each and in turn makes me develop higher-level APIs around the details (bit-tricks -> read_le_u8 -> read_msg). – Shepmaster Jul 13 '17 at 22:20

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