use crate::iter::ParallelIterator;
#[derive(Debug)]
pub struct Chain<T, U> {
pub(crate) left: T,
pub(crate) right: U,
pub(crate) left_in_progress: bool,
}
impl<B, T, U> ParallelIterator<B> for Chain<T, U>
where
B: Iterator + Send,
T: ParallelIterator<B>,
U: ParallelIterator<B>,
{
fn next_batch(&mut self) -> Option<B> {
if self.left_in_progress {
match self.left.next_batch() {
b @ Some(_) => return b,
None => self.left_in_progress = false,
}
}
self.right.next_batch()
}
}
#[derive(Debug)]
pub struct Map<P, F> {
pub(crate) iter: P,
pub(crate) f: F,
}
impl<B, U, T, F> ParallelIterator<std::iter::Map<B, F>> for Map<U, F>
where
B: Iterator + Send,
U: ParallelIterator<B>,
F: FnMut(B::Item) -> T + Send + Clone,
{
fn next_batch(&mut self) -> Option<std::iter::Map<B, F>> {
self.iter.next_batch().map(|b| b.map(self.f.clone()))
}
}
#[derive(Debug)]
pub struct Filter<P, F> {
pub(crate) iter: P,
pub(crate) predicate: F,
}
impl<B, P, F> ParallelIterator<std::iter::Filter<B, F>> for Filter<P, F>
where
B: Iterator + Send,
P: ParallelIterator<B>,
F: FnMut(&B::Item) -> bool + Send + Clone,
{
fn next_batch(&mut self) -> Option<std::iter::Filter<B, F>> {
self.iter
.next_batch()
.map(|b| b.filter(self.predicate.clone()))
}
}
#[derive(Debug)]
pub struct FilterMap<P, F> {
pub(crate) iter: P,
pub(crate) f: F,
}
impl<B, P, R, F> ParallelIterator<std::iter::FilterMap<B, F>> for FilterMap<P, F>
where
B: Iterator + Send,
P: ParallelIterator<B>,
F: FnMut(B::Item) -> Option<R> + Send + Clone,
{
fn next_batch(&mut self) -> Option<std::iter::FilterMap<B, F>> {
self.iter.next_batch().map(|b| b.filter_map(self.f.clone()))
}
}
#[derive(Debug)]
pub struct FlatMap<P, F> {
pub(crate) iter: P,
pub(crate) f: F,
}
impl<B, P, U, F> ParallelIterator<std::iter::FlatMap<B, U, F>> for FlatMap<P, F>
where
B: Iterator + Send,
P: ParallelIterator<B>,
F: FnMut(B::Item) -> U + Send + Clone,
U: IntoIterator,
U::IntoIter: Send,
{
fn next_batch(&mut self) -> Option<std::iter::FlatMap<B, U, F>> {
self.iter.next_batch().map(|b| b.flat_map(self.f.clone()))
}
}
#[derive(Debug)]
pub struct Flatten<P> {
pub(crate) iter: P,
}
impl<B, P> ParallelIterator<std::iter::Flatten<B>> for Flatten<P>
where
B: Iterator + Send,
P: ParallelIterator<B>,
B::Item: IntoIterator,
<B::Item as IntoIterator>::IntoIter: Send,
{
fn next_batch(&mut self) -> Option<std::iter::Flatten<B>> {
self.iter.next_batch().map(|b| b.flatten())
}
}
#[derive(Debug)]
pub struct Fuse<P> {
pub(crate) iter: Option<P>,
}
impl<B, P> ParallelIterator<B> for Fuse<P>
where
B: Iterator + Send,
P: ParallelIterator<B>,
{
fn next_batch(&mut self) -> Option<B> {
match &mut self.iter {
Some(iter) => iter.next_batch().or_else(|| {
self.iter = None;
None
}),
None => None,
}
}
}
#[derive(Debug)]
pub struct Inspect<P, F> {
pub(crate) iter: P,
pub(crate) f: F,
}
impl<B, P, F> ParallelIterator<std::iter::Inspect<B, F>> for Inspect<P, F>
where
B: Iterator + Send,
P: ParallelIterator<B>,
F: FnMut(&B::Item) + Send + Clone,
{
fn next_batch(&mut self) -> Option<std::iter::Inspect<B, F>> {
self.iter.next_batch().map(|b| b.inspect(self.f.clone()))
}
}
#[derive(Debug)]
pub struct Copied<P> {
pub(crate) iter: P,
}
impl<'a, B, P, T> ParallelIterator<std::iter::Copied<B>> for Copied<P>
where
B: Iterator<Item = &'a T> + Send,
P: ParallelIterator<B>,
T: 'a + Copy,
{
fn next_batch(&mut self) -> Option<std::iter::Copied<B>> {
self.iter.next_batch().map(|b| b.copied())
}
}
#[derive(Debug)]
pub struct Cloned<P> {
pub(crate) iter: P,
}
impl<'a, B, P, T> ParallelIterator<std::iter::Cloned<B>> for Cloned<P>
where
B: Iterator<Item = &'a T> + Send,
P: ParallelIterator<B>,
T: 'a + Copy,
{
fn next_batch(&mut self) -> Option<std::iter::Cloned<B>> {
self.iter.next_batch().map(|b| b.cloned())
}
}
#[derive(Debug)]
pub struct Cycle<P> {
pub(crate) iter: P,
pub(crate) curr: Option<P>,
}
impl<B, P> ParallelIterator<B> for Cycle<P>
where
B: Iterator + Send,
P: ParallelIterator<B> + Clone,
{
fn next_batch(&mut self) -> Option<B> {
self.curr.as_mut().and_then(|c| c.next_batch()).or_else(|| {
self.curr = Some(self.iter.clone());
self.next_batch()
})
}
}