use super::plumbing::*; use super::ParallelIterator; use super::Try; use std::ops::ControlFlow::{self, Break, Continue}; use std::sync::atomic::{AtomicBool, Ordering}; pub(super) fn try_reduce_with(pi: PI, reduce_op: R) -> Option where PI: ParallelIterator, R: Fn(T::Output, T::Output) -> T + Sync, T: Try + Send, { let full = AtomicBool::new(false); let consumer = TryReduceWithConsumer { reduce_op: &reduce_op, full: &full, }; pi.drive_unindexed(consumer) } struct TryReduceWithConsumer<'r, R> { reduce_op: &'r R, full: &'r AtomicBool, } impl<'r, R> Copy for TryReduceWithConsumer<'r, R> {} impl<'r, R> Clone for TryReduceWithConsumer<'r, R> { fn clone(&self) -> Self { *self } } impl<'r, R, T> Consumer for TryReduceWithConsumer<'r, R> where R: Fn(T::Output, T::Output) -> T + Sync, T: Try + Send, { type Folder = TryReduceWithFolder<'r, R, T>; type Reducer = Self; type Result = Option; fn split_at(self, _index: usize) -> (Self, Self, Self) { (self, self, self) } fn into_folder(self) -> Self::Folder { TryReduceWithFolder { reduce_op: self.reduce_op, opt_control: None, full: self.full, } } fn full(&self) -> bool { self.full.load(Ordering::Relaxed) } } impl<'r, R, T> UnindexedConsumer for TryReduceWithConsumer<'r, R> where R: Fn(T::Output, T::Output) -> T + Sync, T: Try + Send, { fn split_off_left(&self) -> Self { *self } fn to_reducer(&self) -> Self::Reducer { *self } } impl<'r, R, T> Reducer> for TryReduceWithConsumer<'r, R> where R: Fn(T::Output, T::Output) -> T + Sync, T: Try, { fn reduce(self, left: Option, right: Option) -> Option { let reduce_op = self.reduce_op; match (left, right) { (Some(left), Some(right)) => match (left.branch(), right.branch()) { (Continue(left), Continue(right)) => Some(reduce_op(left, right)), (Break(r), _) | (_, Break(r)) => Some(T::from_residual(r)), }, (None, x) | (x, None) => x, } } } struct TryReduceWithFolder<'r, R, T: Try> { reduce_op: &'r R, opt_control: Option>, full: &'r AtomicBool, } impl<'r, R, T> Folder for TryReduceWithFolder<'r, R, T> where R: Fn(T::Output, T::Output) -> T, T: Try, { type Result = Option; fn consume(mut self, item: T) -> Self { let reduce_op = self.reduce_op; let control = match (self.opt_control, item.branch()) { (Some(Continue(left)), Continue(right)) => reduce_op(left, right).branch(), (Some(control @ Break(_)), _) | (_, control) => control, }; if let Break(_) = control { self.full.store(true, Ordering::Relaxed) } self.opt_control = Some(control); self } fn complete(self) -> Option { match self.opt_control { Some(Continue(c)) => Some(T::from_output(c)), Some(Break(r)) => Some(T::from_residual(r)), None => None, } } fn full(&self) -> bool { match self.opt_control { Some(Break(_)) => true, _ => self.full.load(Ordering::Relaxed), } } }