Struct linkme::DistributedSlice

pub struct DistributedSlice<T: ?Sized + Slice> { /* fields omitted */ }

Collection of static elements that are gathered into a contiguous section of the binary by the linker.

The implementation is based on link_section attributes and platform-specific linker support. It does not involve life-before-main or any other runtime initialization on any platform. This is a zero-cost safe abstraction that operates entirely during compilation and linking.

Declaration

A static distributed slice may be declared by writing #[distributed_slice] on a static item whose type is [T] for some type T. The initializer expression must be [..] to indicate that elements come from elsewhere.

use linkme::distributed_slice;

#[distributed_slice]
pub static BENCHMARKS: [fn(&mut Bencher)] = [..];

The attribute rewrites the [T] type of the static into DistributedSlice<[T]>, so the static in the example technically has type DistributedSlice<[fn(&mut Bencher)]>.

Elements

Slice elements may be registered into a distributed slice by a #[distributed_slice(...)] attribute in which the path to the distributed slice is given in the parentheses. The initializer is required to be a const expression.

Elements may be defined in the same crate that declares the distributed slice, or in any downstream crate. Elements across all crates linked into the final binary will be observed to be present in the slice at runtime.

use linkme::distributed_slice;
use other_crate::BENCHMARKS;

#[distributed_slice(BENCHMARKS)]
static BENCH_DESERIALIZE: fn(&mut Bencher) = bench_deserialize;

fn bench_deserialize(b: &mut Bencher) {
    /* ... */
}

The compiler will require that the static element type matches with the element type of the distributed slice. If the two do not match, the program will not compile.

#[distributed_slice(BENCHMARKS)]
static BENCH_WTF: usize = 999;

error[E0308]: mismatched types
  --> src/distributed_slice.rs:65:19
   |
17 | static BENCH_WTF: usize = 999;
   |                   ^^^^^ expected fn pointer, found usize
   |
   = note: expected type `fn(&mut other_crate::Bencher)`
              found type `usize`

Methods

impl<T> DistributedSlice<[T]>

pub fn static_slice(self) -> &'static [T]

Retrieve a contiguous slice containing all the elements linked into this program.

Note: Ordinarily this method should not need to be called because DistributedSlice<[T]> already behaves like &'static [T] in most ways through the power of Deref. In particular, iteration and indexing and method calls can all happen directly on the static without calling static_slice().

use linkme::distributed_slice;

#[distributed_slice]
static BENCHMARKS: [fn(&mut Bencher)] = [..];

fn main() {
    // Iterate the elements.
    for bench in BENCHMARKS {
        /* ... */
    }

    // Index into the elements.
    let first = BENCHMARKS[0];

    // Slice the elements.
    let except_first = &BENCHMARKS[1..];

    // Invoke methods on the underlying slice.
    let len = BENCHMARKS.len();
}

Trait Implementations

impl<T: 'static> Deref for DistributedSlice<[T]>

type Target = [T]

The resulting type after dereferencing.

fn deref(&self) -> &'static Self::Target

Dereferences the value.

impl<T> Clone for DistributedSlice<[T]>

fn clone(&self) -> Self

Returns a copy of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl<T> Copy for DistributedSlice<[T]>

impl<T: 'static> IntoIterator for DistributedSlice<[T]>

type Item = &'static T

The type of the elements being iterated over.

type IntoIter = Iter<'static, T>

Which kind of iterator are we turning this into?

fn into_iter(self) -> Self::IntoIter

Creates an iterator from a value.