Trait rayon::slice::ParallelSlice
source · pub trait ParallelSlice<T: Sync> {
// Required method
fn as_parallel_slice(&self) -> &[T];
// Provided methods
fn par_split<P>(&self, separator: P) -> Split<'_, T, P>
where P: Fn(&T) -> bool + Sync + Send { ... }
fn par_windows(&self, window_size: usize) -> Windows<'_, T> { ... }
fn par_chunks(&self, chunk_size: usize) -> Chunks<'_, T> { ... }
fn par_chunks_exact(&self, chunk_size: usize) -> ChunksExact<'_, T> { ... }
fn par_rchunks(&self, chunk_size: usize) -> RChunks<'_, T> { ... }
fn par_rchunks_exact(&self, chunk_size: usize) -> RChunksExact<'_, T> { ... }
}Expand description
Parallel extensions for slices.
Required Methods§
sourcefn as_parallel_slice(&self) -> &[T]
fn as_parallel_slice(&self) -> &[T]
Returns a plain slice, which is used to implement the rest of the parallel methods.
Provided Methods§
sourcefn par_split<P>(&self, separator: P) -> Split<'_, T, P>where
P: Fn(&T) -> bool + Sync + Send,
fn par_split<P>(&self, separator: P) -> Split<'_, T, P>where P: Fn(&T) -> bool + Sync + Send,
Returns a parallel iterator over subslices separated by elements that match the separator.
Examples
use rayon::prelude::*;
let smallest = [1, 2, 3, 0, 2, 4, 8, 0, 3, 6, 9]
.par_split(|i| *i == 0)
.map(|numbers| numbers.iter().min().unwrap())
.min();
assert_eq!(Some(&1), smallest);sourcefn par_windows(&self, window_size: usize) -> Windows<'_, T>
fn par_windows(&self, window_size: usize) -> Windows<'_, T>
Returns a parallel iterator over all contiguous windows of length
window_size. The windows overlap.
Examples
use rayon::prelude::*;
let windows: Vec<_> = [1, 2, 3].par_windows(2).collect();
assert_eq!(vec![[1, 2], [2, 3]], windows);sourcefn par_chunks(&self, chunk_size: usize) -> Chunks<'_, T>
fn par_chunks(&self, chunk_size: usize) -> Chunks<'_, T>
Returns a parallel iterator over at most chunk_size elements of
self at a time. The chunks do not overlap.
If the number of elements in the iterator is not divisible by
chunk_size, the last chunk may be shorter than chunk_size. All
other chunks will have that exact length.
Examples
use rayon::prelude::*;
let chunks: Vec<_> = [1, 2, 3, 4, 5].par_chunks(2).collect();
assert_eq!(chunks, vec![&[1, 2][..], &[3, 4], &[5]]);sourcefn par_chunks_exact(&self, chunk_size: usize) -> ChunksExact<'_, T>
fn par_chunks_exact(&self, chunk_size: usize) -> ChunksExact<'_, T>
Returns a parallel iterator over chunk_size elements of
self at a time. The chunks do not overlap.
If chunk_size does not divide the length of the slice, then the
last up to chunk_size-1 elements will be omitted and can be
retrieved from the remainder function of the iterator.
Examples
use rayon::prelude::*;
let chunks: Vec<_> = [1, 2, 3, 4, 5].par_chunks_exact(2).collect();
assert_eq!(chunks, vec![&[1, 2][..], &[3, 4]]);sourcefn par_rchunks(&self, chunk_size: usize) -> RChunks<'_, T>
fn par_rchunks(&self, chunk_size: usize) -> RChunks<'_, T>
Returns a parallel iterator over at most chunk_size elements of self at a time,
starting at the end. The chunks do not overlap.
If the number of elements in the iterator is not divisible by
chunk_size, the last chunk may be shorter than chunk_size. All
other chunks will have that exact length.
Examples
use rayon::prelude::*;
let chunks: Vec<_> = [1, 2, 3, 4, 5].par_rchunks(2).collect();
assert_eq!(chunks, vec![&[4, 5][..], &[2, 3], &[1]]);sourcefn par_rchunks_exact(&self, chunk_size: usize) -> RChunksExact<'_, T>
fn par_rchunks_exact(&self, chunk_size: usize) -> RChunksExact<'_, T>
Returns a parallel iterator over chunk_size elements of self at a time,
starting at the end. The chunks do not overlap.
If chunk_size does not divide the length of the slice, then the
last up to chunk_size-1 elements will be omitted and can be
retrieved from the remainder function of the iterator.
Examples
use rayon::prelude::*;
let chunks: Vec<_> = [1, 2, 3, 4, 5].par_rchunks_exact(2).collect();
assert_eq!(chunks, vec![&[4, 5][..], &[2, 3]]);