use rayon::prelude::*; fn check(iter: I) where I: ParallelIterator + Clone, I::Item: std::fmt::Debug + PartialEq, { let a: Vec<_> = iter.clone().collect(); let b: Vec<_> = iter.collect(); assert_eq!(a, b); } fn check_count(iter: I) where I: ParallelIterator + Clone, { assert_eq!(iter.clone().count(), iter.count()); } #[test] fn clone_binary_heap() { use std::collections::BinaryHeap; let heap: BinaryHeap<_> = (0..1000).collect(); check(heap.par_iter()); check(heap.into_par_iter()); } #[test] fn clone_btree_map() { use std::collections::BTreeMap; let map: BTreeMap<_, _> = (0..1000).enumerate().collect(); check(map.par_iter()); } #[test] fn clone_btree_set() { use std::collections::BTreeSet; let set: BTreeSet<_> = (0..1000).collect(); check(set.par_iter()); } #[test] fn clone_hash_map() { use std::collections::HashMap; let map: HashMap<_, _> = (0..1000).enumerate().collect(); check(map.par_iter()); } #[test] fn clone_hash_set() { use std::collections::HashSet; let set: HashSet<_> = (0..1000).collect(); check(set.par_iter()); } #[test] fn clone_linked_list() { use std::collections::LinkedList; let list: LinkedList<_> = (0..1000).collect(); check(list.par_iter()); check(list.into_par_iter()); } #[test] fn clone_vec_deque() { use std::collections::VecDeque; let deque: VecDeque<_> = (0..1000).collect(); check(deque.par_iter()); check(deque.into_par_iter()); } #[test] fn clone_option() { let option = Some(0); check(option.par_iter()); check(option.into_par_iter()); } #[test] fn clone_result() { let result = Ok::<_, ()>(0); check(result.par_iter()); check(result.into_par_iter()); } #[test] fn clone_range() { check((0..1000).into_par_iter()); } #[test] fn clone_range_inclusive() { check((0..=1000).into_par_iter()); } #[test] fn clone_str() { let s = include_str!("clones.rs"); check(s.par_chars()); check(s.par_lines()); check(s.par_split('\n')); check(s.par_split_inclusive('\n')); check(s.par_split_terminator('\n')); check(s.par_split_whitespace()); check(s.par_split_ascii_whitespace()); } #[test] fn clone_vec() { let v: Vec<_> = (0..1000).collect(); check(v.par_iter()); check(v.par_chunk_by(i32::eq)); check(v.par_chunks(42)); check(v.par_chunks_exact(42)); check(v.par_rchunks(42)); check(v.par_rchunks_exact(42)); check(v.par_windows(42)); check(v.par_split(|x| x % 3 == 0)); check(v.par_split_inclusive(|x| x % 3 == 0)); check(v.into_par_iter()); } #[test] fn clone_array() { let a = [0i32; 100]; check(a.into_par_iter()); } #[test] fn clone_adaptors() { let v: Vec<_> = (0..1000).map(Some).collect(); check(v.par_iter().by_exponential_blocks()); check(v.par_iter().by_uniform_blocks(100)); check(v.par_iter().chain(&v)); check(v.par_iter().cloned()); check(v.par_iter().copied()); check(v.par_iter().enumerate()); check(v.par_iter().filter(|_| true)); check(v.par_iter().filter_map(|x| *x)); check(v.par_iter().flat_map(|x| *x)); check(v.par_iter().flat_map_iter(|x| *x)); check(v.par_iter().flatten()); check(v.par_iter().flatten_iter()); check(v.par_iter().with_max_len(1).fold(|| 0, |x, _| x)); check(v.par_iter().with_max_len(1).fold_with(0, |x, _| x)); check(v.par_iter().with_max_len(1).fold_chunks(1, || 0, |x, _| x)); check( v.par_iter() .with_max_len(1) .fold_chunks_with(1, 0, |x, _| x), ); check(v.par_iter().with_max_len(1).try_fold(|| 0, |_, &x| x)); check(v.par_iter().with_max_len(1).try_fold_with(0, |_, &x| x)); check(v.par_iter().inspect(|_| ())); check(v.par_iter().update(|_| ())); check(v.par_iter().interleave(&v)); check(v.par_iter().interleave_shortest(&v)); check(v.par_iter().intersperse(&None)); check(v.par_iter().chunks(3)); check(v.par_iter().map(|x| x)); check(v.par_iter().map_with(0, |_, x| x)); check(v.par_iter().map_init(|| 0, |_, x| x)); check(v.par_iter().panic_fuse()); check(v.par_iter().positions(|_| true)); check(v.par_iter().rev()); check(v.par_iter().skip(42)); check(v.par_iter().skip_any_while(|_| false)); check(v.par_iter().take(42)); check(v.par_iter().take_any_while(|_| true)); check(v.par_iter().cloned().while_some()); check(v.par_iter().with_max_len(1)); check(v.par_iter().with_min_len(1)); check(v.par_iter().zip(&v)); check(v.par_iter().zip_eq(&v)); check(v.par_iter().step_by(2)); } #[test] fn clone_counted_adaptors() { let v: Vec<_> = (0..1000).collect(); check_count(v.par_iter().skip_any(42)); check_count(v.par_iter().take_any(42)); } #[test] fn clone_empty() { check(rayon::iter::empty::()); } #[test] fn clone_once() { check(rayon::iter::once(10)); } #[test] fn clone_repeat() { let x: Option = None; check(rayon::iter::repeat(x).while_some()); check(rayon::iter::repeatn(x, 1000)); } #[test] fn clone_splitter() { check(rayon::iter::split(0..1000, |x| (x, None))); } #[test] fn clone_multizip() { let v: &Vec<_> = &(0..1000).collect(); check((v,).into_par_iter()); check((v, v).into_par_iter()); check((v, v, v).into_par_iter()); check((v, v, v, v).into_par_iter()); check((v, v, v, v, v).into_par_iter()); check((v, v, v, v, v, v).into_par_iter()); check((v, v, v, v, v, v, v).into_par_iter()); check((v, v, v, v, v, v, v, v).into_par_iter()); check((v, v, v, v, v, v, v, v, v).into_par_iter()); check((v, v, v, v, v, v, v, v, v, v).into_par_iter()); check((v, v, v, v, v, v, v, v, v, v, v).into_par_iter()); check((v, v, v, v, v, v, v, v, v, v, v, v).into_par_iter()); }