bytemuck

Trait TransparentWrapper

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pub unsafe trait TransparentWrapper<Inner: ?Sized> {
    // Provided methods
    fn wrap(s: Inner) -> Self
       where Self: Sized,
             Inner: Sized { ... }
    fn wrap_ref(s: &Inner) -> &Self { ... }
    fn wrap_mut(s: &mut Inner) -> &mut Self { ... }
    fn wrap_slice(s: &[Inner]) -> &[Self]
       where Self: Sized,
             Inner: Sized { ... }
    fn wrap_slice_mut(s: &mut [Inner]) -> &mut [Self]
       where Self: Sized,
             Inner: Sized { ... }
    fn peel(s: Self) -> Inner
       where Self: Sized,
             Inner: Sized { ... }
    fn peel_ref(s: &Self) -> &Inner { ... }
    fn peel_mut(s: &mut Self) -> &mut Inner { ... }
    fn peel_slice(s: &[Self]) -> &[Inner]
       where Self: Sized,
             Inner: Sized { ... }
    fn peel_slice_mut(s: &mut [Self]) -> &mut [Inner]
       where Self: Sized,
             Inner: Sized { ... }
}
Expand description

A trait which indicates that a type is a #[repr(transparent)] wrapper around the Inner value.

This allows safely copy transmuting between the Inner type and the TransparentWrapper type. Functions like wrap_{} convert from the inner type to the wrapper type and peel_{} functions do the inverse conversion from the wrapper type to the inner type. We deliberately do not call the wrapper-removing methods “unwrap” because at this point that word is too strongly tied to the Option/ Result methods.

§Safety

The safety contract of TransparentWrapper is relatively simple:

For a given Wrapper which implements TransparentWrapper<Inner>:

  1. Wrapper must be a wrapper around Inner with an identical data representations. This either means that it must be a #[repr(transparent)] struct which contains a either a field of type Inner (or a field of some other transparent wrapper for Inner) as the only non-ZST field.

  2. Any fields other than the Inner field must be trivially constructable ZSTs, for example PhantomData, PhantomPinned, etc. (When deriving TransparentWrapper on a type with ZST fields, the ZST fields must be Zeroable).

  3. The Wrapper may not impose additional alignment requirements over Inner.

    • Note: this is currently guaranteed by repr(transparent), but there have been discussions of lifting it, so it’s stated here explicitly.
  4. All functions on TransparentWrapper may not be overridden.

§Caveats

If the wrapper imposes additional constraints upon the inner type which are required for safety, it’s responsible for ensuring those still hold – this generally requires preventing access to instances of the inner type, as implementing TransparentWrapper<U> for T means anybody can call T::cast_ref(any_instance_of_u).

For example, it would be invalid to implement TransparentWrapper for str to implement TransparentWrapper around [u8] because of this.

§Examples

§Basic

use bytemuck::TransparentWrapper;

#[repr(transparent)]
struct MyWrapper(SomeStruct);

unsafe impl TransparentWrapper<SomeStruct> for MyWrapper {}

// interpret a reference to &SomeStruct as a &MyWrapper
let thing = SomeStruct::default();
let inner_ref: &MyWrapper = MyWrapper::wrap_ref(&thing);

// Works with &mut too.
let mut mut_thing = SomeStruct::default();
let inner_mut: &mut MyWrapper = MyWrapper::wrap_mut(&mut mut_thing);

§Use with dynamically sized types

use bytemuck::TransparentWrapper;

#[repr(transparent)]
struct Slice<T>([T]);

unsafe impl<T> TransparentWrapper<[T]> for Slice<T> {}

let s = Slice::wrap_ref(&[1u32, 2, 3]);
assert_eq!(&s.0, &[1, 2, 3]);

let mut buf = [1, 2, 3u8];
let sm = Slice::wrap_mut(&mut buf);

§Deriving

When deriving, the non-wrapped fields must uphold all the normal requirements, and must also be Zeroable.

// This example requires the `derive` feature.
use bytemuck::TransparentWrapper;
use std::marker::PhantomData;

#[derive(TransparentWrapper)]
#[repr(transparent)]
#[transparent(usize)]
struct Wrapper<T: ?Sized>(usize, PhantomData<T>); // PhantomData<T> implements Zeroable for all T

Here, an error will occur, because MyZst does not implement Zeroable.

// This example requires the `derive` feature.
use bytemuck::TransparentWrapper;
struct MyZst;

#[derive(TransparentWrapper)]
#[repr(transparent)]
#[transparent(usize)]
struct Wrapper(usize, MyZst); // MyZst does not implement Zeroable

Provided Methods§

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fn wrap(s: Inner) -> Self
where Self: Sized, Inner: Sized,

Convert the inner type into the wrapper type.

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fn wrap_ref(s: &Inner) -> &Self

Convert a reference to the inner type into a reference to the wrapper type.

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fn wrap_mut(s: &mut Inner) -> &mut Self

Convert a mutable reference to the inner type into a mutable reference to the wrapper type.

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fn wrap_slice(s: &[Inner]) -> &[Self]
where Self: Sized, Inner: Sized,

Convert a slice to the inner type into a slice to the wrapper type.

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fn wrap_slice_mut(s: &mut [Inner]) -> &mut [Self]
where Self: Sized, Inner: Sized,

Convert a mutable slice to the inner type into a mutable slice to the wrapper type.

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fn peel(s: Self) -> Inner
where Self: Sized, Inner: Sized,

Convert the wrapper type into the inner type.

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fn peel_ref(s: &Self) -> &Inner

Convert a reference to the wrapper type into a reference to the inner type.

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fn peel_mut(s: &mut Self) -> &mut Inner

Convert a mutable reference to the wrapper type into a mutable reference to the inner type.

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fn peel_slice(s: &[Self]) -> &[Inner]
where Self: Sized, Inner: Sized,

Convert a slice to the wrapped type into a slice to the inner type.

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fn peel_slice_mut(s: &mut [Self]) -> &mut [Inner]
where Self: Sized, Inner: Sized,

Convert a mutable slice to the wrapped type into a mutable slice to the inner type.

Object Safety§

This trait is not object safe.

Implementations on Foreign Types§

source§

impl<T> TransparentWrapper<T> for Wrapping<T>

Implementors§