fparkan/vendor/rayon/tests/producer_split_at.rs

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use rayon::iter::plumbing::*;
use rayon::prelude::*;
/// Stress-test indexes for `Producer::split_at`.
fn check<F, I>(expected: &[I::Item], mut f: F)
where
F: FnMut() -> I,
I: IntoParallelIterator,
I::Iter: IndexedParallelIterator,
I::Item: PartialEq + std::fmt::Debug,
{
map_triples(expected.len() + 1, |i, j, k| {
Split::forward(f(), i, j, k, expected);
Split::reverse(f(), i, j, k, expected);
});
}
fn map_triples<F>(end: usize, mut f: F)
where
F: FnMut(usize, usize, usize),
{
for i in 0..end {
for j in i..end {
for k in j..end {
f(i, j, k);
}
}
}
}
#[derive(Debug)]
struct Split {
i: usize,
j: usize,
k: usize,
reverse: bool,
}
impl Split {
fn forward<I>(iter: I, i: usize, j: usize, k: usize, expected: &[I::Item])
where
I: IntoParallelIterator,
I::Iter: IndexedParallelIterator,
I::Item: PartialEq + std::fmt::Debug,
{
let result = iter.into_par_iter().with_producer(Split {
i,
j,
k,
reverse: false,
});
assert_eq!(result, expected);
}
fn reverse<I>(iter: I, i: usize, j: usize, k: usize, expected: &[I::Item])
where
I: IntoParallelIterator,
I::Iter: IndexedParallelIterator,
I::Item: PartialEq + std::fmt::Debug,
{
let result = iter.into_par_iter().with_producer(Split {
i,
j,
k,
reverse: true,
});
assert!(result.iter().eq(expected.iter().rev()));
}
}
impl<T> ProducerCallback<T> for Split {
type Output = Vec<T>;
fn callback<P>(self, producer: P) -> Self::Output
where
P: Producer<Item = T>,
{
println!("{:?}", self);
// Splitting the outer indexes first gets us an arbitrary mid section,
// which we then split further to get full test coverage.
let (left, d) = producer.split_at(self.k);
let (a, mid) = left.split_at(self.i);
let (b, c) = mid.split_at(self.j - self.i);
let a = a.into_iter();
let b = b.into_iter();
let c = c.into_iter();
let d = d.into_iter();
check_len(&a, self.i);
check_len(&b, self.j - self.i);
check_len(&c, self.k - self.j);
let chain = a.chain(b).chain(c).chain(d);
if self.reverse {
chain.rev().collect()
} else {
chain.collect()
}
}
}
fn check_len<I: ExactSizeIterator>(iter: &I, len: usize) {
assert_eq!(iter.size_hint(), (len, Some(len)));
assert_eq!(iter.len(), len);
}
// **** Base Producers ****
#[test]
fn array() {
let a = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9];
check(&a, || a);
}
#[test]
fn empty() {
let v = vec![42];
check(&v[..0], rayon::iter::empty);
}
#[test]
fn once() {
let v = vec![42];
check(&v, || rayon::iter::once(42));
}
#[test]
fn option() {
let v = vec![42];
check(&v, || Some(42));
}
#[test]
fn range() {
let v: Vec<_> = (0..10).collect();
check(&v, || 0..10);
}
#[test]
fn range_inclusive() {
let v: Vec<_> = (0u16..=10).collect();
check(&v, || 0u16..=10);
}
#[test]
fn repeatn() {
let v: Vec<_> = std::iter::repeat(1).take(5).collect();
check(&v, || rayon::iter::repeatn(1, 5));
}
#[test]
fn slice_iter() {
let s: Vec<_> = (0..10).collect();
let v: Vec<_> = s.iter().collect();
check(&v, || &s);
}
#[test]
fn slice_iter_mut() {
let mut s: Vec<_> = (0..10).collect();
let mut v: Vec<_> = s.clone();
let expected: Vec<_> = v.iter_mut().collect();
map_triples(expected.len() + 1, |i, j, k| {
Split::forward(s.par_iter_mut(), i, j, k, &expected);
Split::reverse(s.par_iter_mut(), i, j, k, &expected);
});
}
#[test]
fn slice_chunks() {
let s: Vec<_> = (0..10).collect();
for len in 1..s.len() + 2 {
let v: Vec<_> = s.chunks(len).collect();
check(&v, || s.par_chunks(len));
}
}
#[test]
fn slice_chunks_exact() {
let s: Vec<_> = (0..10).collect();
for len in 1..s.len() + 2 {
let v: Vec<_> = s.chunks_exact(len).collect();
check(&v, || s.par_chunks_exact(len));
}
}
#[test]
fn slice_chunks_mut() {
let mut s: Vec<_> = (0..10).collect();
let mut v: Vec<_> = s.clone();
for len in 1..s.len() + 2 {
let expected: Vec<_> = v.chunks_mut(len).collect();
map_triples(expected.len() + 1, |i, j, k| {
Split::forward(s.par_chunks_mut(len), i, j, k, &expected);
Split::reverse(s.par_chunks_mut(len), i, j, k, &expected);
});
}
}
#[test]
fn slice_chunks_exact_mut() {
let mut s: Vec<_> = (0..10).collect();
let mut v: Vec<_> = s.clone();
for len in 1..s.len() + 2 {
let expected: Vec<_> = v.chunks_exact_mut(len).collect();
map_triples(expected.len() + 1, |i, j, k| {
Split::forward(s.par_chunks_exact_mut(len), i, j, k, &expected);
Split::reverse(s.par_chunks_exact_mut(len), i, j, k, &expected);
});
}
}
#[test]
fn slice_rchunks() {
let s: Vec<_> = (0..10).collect();
for len in 1..s.len() + 2 {
let v: Vec<_> = s.rchunks(len).collect();
check(&v, || s.par_rchunks(len));
}
}
#[test]
fn slice_rchunks_exact() {
let s: Vec<_> = (0..10).collect();
for len in 1..s.len() + 2 {
let v: Vec<_> = s.rchunks_exact(len).collect();
check(&v, || s.par_rchunks_exact(len));
}
}
#[test]
fn slice_rchunks_mut() {
let mut s: Vec<_> = (0..10).collect();
let mut v: Vec<_> = s.clone();
for len in 1..s.len() + 2 {
let expected: Vec<_> = v.rchunks_mut(len).collect();
map_triples(expected.len() + 1, |i, j, k| {
Split::forward(s.par_rchunks_mut(len), i, j, k, &expected);
Split::reverse(s.par_rchunks_mut(len), i, j, k, &expected);
});
}
}
#[test]
fn slice_rchunks_exact_mut() {
let mut s: Vec<_> = (0..10).collect();
let mut v: Vec<_> = s.clone();
for len in 1..s.len() + 2 {
let expected: Vec<_> = v.rchunks_exact_mut(len).collect();
map_triples(expected.len() + 1, |i, j, k| {
Split::forward(s.par_rchunks_exact_mut(len), i, j, k, &expected);
Split::reverse(s.par_rchunks_exact_mut(len), i, j, k, &expected);
});
}
}
#[test]
fn slice_windows() {
let s: Vec<_> = (0..10).collect();
let v: Vec<_> = s.windows(2).collect();
check(&v, || s.par_windows(2));
}
#[test]
fn vec() {
let v: Vec<_> = (0..10).collect();
check(&v, || v.clone());
}
// **** Adaptors ****
#[test]
fn chain() {
let v: Vec<_> = (0..10).collect();
check(&v, || (0..5).into_par_iter().chain(5..10));
}
#[test]
fn cloned() {
let v: Vec<_> = (0..10).collect();
check(&v, || v.par_iter().cloned());
}
#[test]
fn copied() {
let v: Vec<_> = (0..10).collect();
check(&v, || v.par_iter().copied());
}
#[test]
fn enumerate() {
let v: Vec<_> = (0..10).enumerate().collect();
check(&v, || (0..10).into_par_iter().enumerate());
}
#[test]
fn step_by() {
let v: Vec<_> = (0..10).step_by(2).collect();
check(&v, || (0..10).into_par_iter().step_by(2))
}
#[test]
fn step_by_unaligned() {
let v: Vec<_> = (0..10).step_by(3).collect();
check(&v, || (0..10).into_par_iter().step_by(3))
}
#[test]
fn inspect() {
let v: Vec<_> = (0..10).collect();
check(&v, || (0..10).into_par_iter().inspect(|_| ()));
}
#[test]
fn update() {
let v: Vec<_> = (0..10).collect();
check(&v, || (0..10).into_par_iter().update(|_| ()));
}
#[test]
fn interleave() {
let v = [0, 10, 1, 11, 2, 12, 3, 4];
check(&v, || (0..5).into_par_iter().interleave(10..13));
check(&v[..6], || (0..3).into_par_iter().interleave(10..13));
let v = [0, 10, 1, 11, 2, 12, 13, 14];
check(&v, || (0..3).into_par_iter().interleave(10..15));
}
#[test]
fn intersperse() {
let v = [0, -1, 1, -1, 2, -1, 3, -1, 4];
check(&v, || (0..5).into_par_iter().intersperse(-1));
}
#[test]
fn chunks() {
let s: Vec<_> = (0..10).collect();
let v: Vec<_> = s.chunks(2).map(|c| c.to_vec()).collect();
check(&v, || s.par_iter().cloned().chunks(2));
}
#[test]
fn map() {
let v: Vec<_> = (0..10).collect();
check(&v, || v.par_iter().map(Clone::clone));
}
#[test]
fn map_with() {
let v: Vec<_> = (0..10).collect();
check(&v, || v.par_iter().map_with(vec![0], |_, &x| x));
}
#[test]
fn map_init() {
let v: Vec<_> = (0..10).collect();
check(&v, || v.par_iter().map_init(|| vec![0], |_, &x| x));
}
#[test]
fn panic_fuse() {
let v: Vec<_> = (0..10).collect();
check(&v, || (0..10).into_par_iter().panic_fuse());
}
#[test]
fn rev() {
let v: Vec<_> = (0..10).rev().collect();
check(&v, || (0..10).into_par_iter().rev());
}
#[test]
fn with_max_len() {
let v: Vec<_> = (0..10).collect();
check(&v, || (0..10).into_par_iter().with_max_len(1));
}
#[test]
fn with_min_len() {
let v: Vec<_> = (0..10).collect();
check(&v, || (0..10).into_par_iter().with_min_len(1));
}
#[test]
fn zip() {
let v: Vec<_> = (0..10).zip(10..20).collect();
check(&v, || (0..10).into_par_iter().zip(10..20));
check(&v[..5], || (0..5).into_par_iter().zip(10..20));
check(&v[..5], || (0..10).into_par_iter().zip(10..15));
}