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+use super::plumbing::*;
+use super::*;
+use std::cell::Cell;
+use std::iter::{self, Fuse};
+
+/// `Intersperse` is an iterator that inserts a particular item between each
+/// item of the adapted iterator. This struct is created by the
+/// [`intersperse()`] method on [`ParallelIterator`]
+///
+/// [`intersperse()`]: trait.ParallelIterator.html#method.intersperse
+/// [`ParallelIterator`]: trait.ParallelIterator.html
+#[must_use = "iterator adaptors are lazy and do nothing unless consumed"]
+#[derive(Clone, Debug)]
+pub struct Intersperse<I>
+where
+ I: ParallelIterator,
+ I::Item: Clone,
+{
+ base: I,
+ item: I::Item,
+}
+
+impl<I> Intersperse<I>
+where
+ I: ParallelIterator,
+ I::Item: Clone,
+{
+ /// Creates a new `Intersperse` iterator
+ pub(super) fn new(base: I, item: I::Item) -> Self {
+ Intersperse { base, item }
+ }
+}
+
+impl<I> ParallelIterator for Intersperse<I>
+where
+ I: ParallelIterator,
+ I::Item: Clone + Send,
+{
+ type Item = I::Item;
+
+ fn drive_unindexed<C>(self, consumer: C) -> C::Result
+ where
+ C: UnindexedConsumer<I::Item>,
+ {
+ let consumer1 = IntersperseConsumer::new(consumer, self.item);
+ self.base.drive_unindexed(consumer1)
+ }
+
+ fn opt_len(&self) -> Option<usize> {
+ match self.base.opt_len()? {
+ 0 => Some(0),
+ len => len.checked_add(len - 1),
+ }
+ }
+}
+
+impl<I> IndexedParallelIterator for Intersperse<I>
+where
+ I: IndexedParallelIterator,
+ I::Item: Clone + Send,
+{
+ fn drive<C>(self, consumer: C) -> C::Result
+ where
+ C: Consumer<Self::Item>,
+ {
+ let consumer1 = IntersperseConsumer::new(consumer, self.item);
+ self.base.drive(consumer1)
+ }
+
+ fn len(&self) -> usize {
+ let len = self.base.len();
+ if len > 0 {
+ len.checked_add(len - 1).expect("overflow")
+ } else {
+ 0
+ }
+ }
+
+ fn with_producer<CB>(self, callback: CB) -> CB::Output
+ where
+ CB: ProducerCallback<Self::Item>,
+ {
+ let len = self.len();
+ return self.base.with_producer(Callback {
+ callback,
+ item: self.item,
+ len,
+ });
+
+ struct Callback<CB, T> {
+ callback: CB,
+ item: T,
+ len: usize,
+ }
+
+ impl<T, CB> ProducerCallback<T> for Callback<CB, T>
+ where
+ CB: ProducerCallback<T>,
+ T: Clone + Send,
+ {
+ type Output = CB::Output;
+
+ fn callback<P>(self, base: P) -> CB::Output
+ where
+ P: Producer<Item = T>,
+ {
+ let producer = IntersperseProducer::new(base, self.item, self.len);
+ self.callback.callback(producer)
+ }
+ }
+ }
+}
+
+struct IntersperseProducer<P>
+where
+ P: Producer,
+{
+ base: P,
+ item: P::Item,
+ len: usize,
+ clone_first: bool,
+}
+
+impl<P> IntersperseProducer<P>
+where
+ P: Producer,
+{
+ fn new(base: P, item: P::Item, len: usize) -> Self {
+ IntersperseProducer {
+ base,
+ item,
+ len,
+ clone_first: false,
+ }
+ }
+}
+
+impl<P> Producer for IntersperseProducer<P>
+where
+ P: Producer,
+ P::Item: Clone + Send,
+{
+ type Item = P::Item;
+ type IntoIter = IntersperseIter<P::IntoIter>;
+
+ fn into_iter(self) -> Self::IntoIter {
+ IntersperseIter {
+ base: self.base.into_iter().fuse(),
+ item: self.item,
+ clone_first: self.len > 0 && self.clone_first,
+
+ // If there's more than one item, then even lengths end the opposite
+ // of how they started with respect to interspersed clones.
+ clone_last: self.len > 1 && ((self.len & 1 == 0) ^ self.clone_first),
+ }
+ }
+
+ fn min_len(&self) -> usize {
+ self.base.min_len()
+ }
+ fn max_len(&self) -> usize {
+ self.base.max_len()
+ }
+
+ fn split_at(self, index: usize) -> (Self, Self) {
+ debug_assert!(index <= self.len);
+
+ // The left needs half of the items from the base producer, and the
+ // other half will be our interspersed item. If we're not leading with
+ // a cloned item, then we need to round up the base number of items,
+ // otherwise round down.
+ let base_index = (index + !self.clone_first as usize) / 2;
+ let (left_base, right_base) = self.base.split_at(base_index);
+
+ let left = IntersperseProducer {
+ base: left_base,
+ item: self.item.clone(),
+ len: index,
+ clone_first: self.clone_first,
+ };
+
+ let right = IntersperseProducer {
+ base: right_base,
+ item: self.item,
+ len: self.len - index,
+
+ // If the index is odd, the right side toggles `clone_first`.
+ clone_first: (index & 1 == 1) ^ self.clone_first,
+ };
+
+ (left, right)
+ }
+
+ fn fold_with<F>(self, folder: F) -> F
+ where
+ F: Folder<Self::Item>,
+ {
+ let folder1 = IntersperseFolder {
+ base: folder,
+ item: self.item,
+ clone_first: self.clone_first,
+ };
+ self.base.fold_with(folder1).base
+ }
+}
+
+struct IntersperseIter<I>
+where
+ I: Iterator,
+{
+ base: Fuse<I>,
+ item: I::Item,
+ clone_first: bool,
+ clone_last: bool,
+}
+
+impl<I> Iterator for IntersperseIter<I>
+where
+ I: DoubleEndedIterator + ExactSizeIterator,
+ I::Item: Clone,
+{
+ type Item = I::Item;
+
+ fn next(&mut self) -> Option<Self::Item> {
+ if self.clone_first {
+ self.clone_first = false;
+ Some(self.item.clone())
+ } else if let next @ Some(_) = self.base.next() {
+ // If there are any items left, we'll need another clone in front.
+ self.clone_first = self.base.len() != 0;
+ next
+ } else if self.clone_last {
+ self.clone_last = false;
+ Some(self.item.clone())
+ } else {
+ None
+ }
+ }
+
+ fn size_hint(&self) -> (usize, Option<usize>) {
+ let len = self.len();
+ (len, Some(len))
+ }
+}
+
+impl<I> DoubleEndedIterator for IntersperseIter<I>
+where
+ I: DoubleEndedIterator + ExactSizeIterator,
+ I::Item: Clone,
+{
+ fn next_back(&mut self) -> Option<Self::Item> {
+ if self.clone_last {
+ self.clone_last = false;
+ Some(self.item.clone())
+ } else if let next_back @ Some(_) = self.base.next_back() {
+ // If there are any items left, we'll need another clone in back.
+ self.clone_last = self.base.len() != 0;
+ next_back
+ } else if self.clone_first {
+ self.clone_first = false;
+ Some(self.item.clone())
+ } else {
+ None
+ }
+ }
+}
+
+impl<I> ExactSizeIterator for IntersperseIter<I>
+where
+ I: DoubleEndedIterator + ExactSizeIterator,
+ I::Item: Clone,
+{
+ fn len(&self) -> usize {
+ let len = self.base.len();
+ len + len.saturating_sub(1) + self.clone_first as usize + self.clone_last as usize
+ }
+}
+
+struct IntersperseConsumer<C, T> {
+ base: C,
+ item: T,
+ clone_first: Cell<bool>,
+}
+
+impl<C, T> IntersperseConsumer<C, T>
+where
+ C: Consumer<T>,
+{
+ fn new(base: C, item: T) -> Self {
+ IntersperseConsumer {
+ base,
+ item,
+ clone_first: false.into(),
+ }
+ }
+}
+
+impl<C, T> Consumer<T> for IntersperseConsumer<C, T>
+where
+ C: Consumer<T>,
+ T: Clone + Send,
+{
+ type Folder = IntersperseFolder<C::Folder, T>;
+ type Reducer = C::Reducer;
+ type Result = C::Result;
+
+ fn split_at(mut self, index: usize) -> (Self, Self, Self::Reducer) {
+ // We'll feed twice as many items to the base consumer, except if we're
+ // not currently leading with a cloned item, then it's one less.
+ let base_index = index + index.saturating_sub(!self.clone_first.get() as usize);
+ let (left, right, reducer) = self.base.split_at(base_index);
+
+ let right = IntersperseConsumer {
+ base: right,
+ item: self.item.clone(),
+ clone_first: true.into(),
+ };
+ self.base = left;
+ (self, right, reducer)
+ }
+
+ fn into_folder(self) -> Self::Folder {
+ IntersperseFolder {
+ base: self.base.into_folder(),
+ item: self.item,
+ clone_first: self.clone_first.get(),
+ }
+ }
+
+ fn full(&self) -> bool {
+ self.base.full()
+ }
+}
+
+impl<C, T> UnindexedConsumer<T> for IntersperseConsumer<C, T>
+where
+ C: UnindexedConsumer<T>,
+ T: Clone + Send,
+{
+ fn split_off_left(&self) -> Self {
+ let left = IntersperseConsumer {
+ base: self.base.split_off_left(),
+ item: self.item.clone(),
+ clone_first: self.clone_first.clone(),
+ };
+ self.clone_first.set(true);
+ left
+ }
+
+ fn to_reducer(&self) -> Self::Reducer {
+ self.base.to_reducer()
+ }
+}
+
+struct IntersperseFolder<C, T> {
+ base: C,
+ item: T,
+ clone_first: bool,
+}
+
+impl<C, T> Folder<T> for IntersperseFolder<C, T>
+where
+ C: Folder<T>,
+ T: Clone,
+{
+ type Result = C::Result;
+
+ fn consume(mut self, item: T) -> Self {
+ if self.clone_first {
+ self.base = self.base.consume(self.item.clone());
+ if self.base.full() {
+ return self;
+ }
+ } else {
+ self.clone_first = true;
+ }
+ self.base = self.base.consume(item);
+ self
+ }
+
+ fn consume_iter<I>(self, iter: I) -> Self
+ where
+ I: IntoIterator<Item = T>,
+ {
+ let mut clone_first = self.clone_first;
+ let between_item = self.item;
+ let base = self.base.consume_iter(iter.into_iter().flat_map(|item| {
+ let first = if clone_first {
+ Some(between_item.clone())
+ } else {
+ clone_first = true;
+ None
+ };
+ first.into_iter().chain(iter::once(item))
+ }));
+ IntersperseFolder {
+ base,
+ item: between_item,
+ clone_first,
+ }
+ }
+
+ fn complete(self) -> C::Result {
+ self.base.complete()
+ }
+
+ fn full(&self) -> bool {
+ self.base.full()
+ }
+}