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author | Valentin Popov <valentin@popov.link> | 2024-01-08 00:21:28 +0300 |
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committer | Valentin Popov <valentin@popov.link> | 2024-01-08 00:21:28 +0300 |
commit | 1b6a04ca5504955c571d1c97504fb45ea0befee4 (patch) | |
tree | 7579f518b23313e8a9748a88ab6173d5e030b227 /vendor/rayon/src/range.rs | |
parent | 5ecd8cf2cba827454317368b68571df0d13d7842 (diff) | |
download | fparkan-1b6a04ca5504955c571d1c97504fb45ea0befee4.tar.xz fparkan-1b6a04ca5504955c571d1c97504fb45ea0befee4.zip |
Initial vendor packages
Signed-off-by: Valentin Popov <valentin@popov.link>
Diffstat (limited to 'vendor/rayon/src/range.rs')
-rw-r--r-- | vendor/rayon/src/range.rs | 462 |
1 files changed, 462 insertions, 0 deletions
diff --git a/vendor/rayon/src/range.rs b/vendor/rayon/src/range.rs new file mode 100644 index 0000000..57b613e --- /dev/null +++ b/vendor/rayon/src/range.rs @@ -0,0 +1,462 @@ +//! Parallel iterator types for [ranges][std::range], +//! the type for values created by `a..b` expressions +//! +//! You will rarely need to interact with this module directly unless you have +//! need to name one of the iterator types. +//! +//! ``` +//! use rayon::prelude::*; +//! +//! let r = (0..100u64).into_par_iter() +//! .sum(); +//! +//! // compare result with sequential calculation +//! assert_eq!((0..100).sum::<u64>(), r); +//! ``` +//! +//! [std::range]: https://doc.rust-lang.org/core/ops/struct.Range.html + +use crate::iter::plumbing::*; +use crate::iter::*; +use std::char; +use std::convert::TryFrom; +use std::ops::Range; +use std::usize; + +/// Parallel iterator over a range, implemented for all integer types and `char`. +/// +/// **Note:** The `zip` operation requires `IndexedParallelIterator` +/// which is not implemented for `u64`, `i64`, `u128`, or `i128`. +/// +/// ``` +/// use rayon::prelude::*; +/// +/// let p = (0..25usize).into_par_iter() +/// .zip(0..25usize) +/// .filter(|&(x, y)| x % 5 == 0 || y % 5 == 0) +/// .map(|(x, y)| x * y) +/// .sum::<usize>(); +/// +/// let s = (0..25usize).zip(0..25) +/// .filter(|&(x, y)| x % 5 == 0 || y % 5 == 0) +/// .map(|(x, y)| x * y) +/// .sum(); +/// +/// assert_eq!(p, s); +/// ``` +#[derive(Debug, Clone)] +pub struct Iter<T> { + range: Range<T>, +} + +/// Implemented for ranges of all primitive integer types and `char`. +impl<T> IntoParallelIterator for Range<T> +where + Iter<T>: ParallelIterator, +{ + type Item = <Iter<T> as ParallelIterator>::Item; + type Iter = Iter<T>; + + fn into_par_iter(self) -> Self::Iter { + Iter { range: self } + } +} + +struct IterProducer<T> { + range: Range<T>, +} + +impl<T> IntoIterator for IterProducer<T> +where + Range<T>: Iterator, +{ + type Item = <Range<T> as Iterator>::Item; + type IntoIter = Range<T>; + + fn into_iter(self) -> Self::IntoIter { + self.range + } +} + +/// These traits help drive integer type inference. Without them, an unknown `{integer}` type only +/// has constraints on `Iter<{integer}>`, which will probably give up and use `i32`. By adding +/// these traits on the item type, the compiler can see a more direct constraint to infer like +/// `{integer}: RangeInteger`, which works better. See `test_issue_833` for an example. +/// +/// They have to be `pub` since they're seen in the public `impl ParallelIterator` constraints, but +/// we put them in a private modules so they're not actually reachable in our public API. +mod private { + use super::*; + + /// Implementation details of `ParallelIterator for Iter<Self>` + pub trait RangeInteger: Sized + Send { + private_decl! {} + + fn drive_unindexed<C>(iter: Iter<Self>, consumer: C) -> C::Result + where + C: UnindexedConsumer<Self>; + + fn opt_len(iter: &Iter<Self>) -> Option<usize>; + } + + /// Implementation details of `IndexedParallelIterator for Iter<Self>` + pub trait IndexedRangeInteger: RangeInteger { + private_decl! {} + + fn drive<C>(iter: Iter<Self>, consumer: C) -> C::Result + where + C: Consumer<Self>; + + fn len(iter: &Iter<Self>) -> usize; + + fn with_producer<CB>(iter: Iter<Self>, callback: CB) -> CB::Output + where + CB: ProducerCallback<Self>; + } +} +use private::{IndexedRangeInteger, RangeInteger}; + +impl<T: RangeInteger> ParallelIterator for Iter<T> { + type Item = T; + + fn drive_unindexed<C>(self, consumer: C) -> C::Result + where + C: UnindexedConsumer<T>, + { + T::drive_unindexed(self, consumer) + } + + #[inline] + fn opt_len(&self) -> Option<usize> { + T::opt_len(self) + } +} + +impl<T: IndexedRangeInteger> IndexedParallelIterator for Iter<T> { + fn drive<C>(self, consumer: C) -> C::Result + where + C: Consumer<T>, + { + T::drive(self, consumer) + } + + #[inline] + fn len(&self) -> usize { + T::len(self) + } + + fn with_producer<CB>(self, callback: CB) -> CB::Output + where + CB: ProducerCallback<T>, + { + T::with_producer(self, callback) + } +} + +macro_rules! indexed_range_impl { + ( $t:ty ) => { + impl RangeInteger for $t { + private_impl! {} + + fn drive_unindexed<C>(iter: Iter<$t>, consumer: C) -> C::Result + where + C: UnindexedConsumer<$t>, + { + bridge(iter, consumer) + } + + fn opt_len(iter: &Iter<$t>) -> Option<usize> { + Some(iter.range.len()) + } + } + + impl IndexedRangeInteger for $t { + private_impl! {} + + fn drive<C>(iter: Iter<$t>, consumer: C) -> C::Result + where + C: Consumer<$t>, + { + bridge(iter, consumer) + } + + fn len(iter: &Iter<$t>) -> usize { + iter.range.len() + } + + fn with_producer<CB>(iter: Iter<$t>, callback: CB) -> CB::Output + where + CB: ProducerCallback<$t>, + { + callback.callback(IterProducer { range: iter.range }) + } + } + + impl Producer for IterProducer<$t> { + type Item = <Range<$t> as Iterator>::Item; + type IntoIter = Range<$t>; + fn into_iter(self) -> Self::IntoIter { + self.range + } + + fn split_at(self, index: usize) -> (Self, Self) { + assert!(index <= self.range.len()); + // For signed $t, the length and requested index could be greater than $t::MAX, and + // then `index as $t` could wrap to negative, so wrapping_add is necessary. + let mid = self.range.start.wrapping_add(index as $t); + let left = self.range.start..mid; + let right = mid..self.range.end; + (IterProducer { range: left }, IterProducer { range: right }) + } + } + }; +} + +trait UnindexedRangeLen<L> { + fn len(&self) -> L; +} + +macro_rules! unindexed_range_impl { + ( $t:ty, $len_t:ty ) => { + impl UnindexedRangeLen<$len_t> for Range<$t> { + fn len(&self) -> $len_t { + let &Range { start, end } = self; + if end > start { + end.wrapping_sub(start) as $len_t + } else { + 0 + } + } + } + + impl RangeInteger for $t { + private_impl! {} + + fn drive_unindexed<C>(iter: Iter<$t>, consumer: C) -> C::Result + where + C: UnindexedConsumer<$t>, + { + #[inline] + fn offset(start: $t) -> impl Fn(usize) -> $t { + move |i| start.wrapping_add(i as $t) + } + + if let Some(len) = iter.opt_len() { + // Drive this in indexed mode for better `collect`. + (0..len) + .into_par_iter() + .map(offset(iter.range.start)) + .drive(consumer) + } else { + bridge_unindexed(IterProducer { range: iter.range }, consumer) + } + } + + fn opt_len(iter: &Iter<$t>) -> Option<usize> { + usize::try_from(iter.range.len()).ok() + } + } + + impl UnindexedProducer for IterProducer<$t> { + type Item = $t; + + fn split(mut self) -> (Self, Option<Self>) { + let index = self.range.len() / 2; + if index > 0 { + let mid = self.range.start.wrapping_add(index as $t); + let right = mid..self.range.end; + self.range.end = mid; + (self, Some(IterProducer { range: right })) + } else { + (self, None) + } + } + + fn fold_with<F>(self, folder: F) -> F + where + F: Folder<Self::Item>, + { + folder.consume_iter(self) + } + } + }; +} + +// all Range<T> with ExactSizeIterator +indexed_range_impl! {u8} +indexed_range_impl! {u16} +indexed_range_impl! {u32} +indexed_range_impl! {usize} +indexed_range_impl! {i8} +indexed_range_impl! {i16} +indexed_range_impl! {i32} +indexed_range_impl! {isize} + +// other Range<T> with just Iterator +unindexed_range_impl! {u64, u64} +unindexed_range_impl! {i64, u64} +unindexed_range_impl! {u128, u128} +unindexed_range_impl! {i128, u128} + +// char is special because of the surrogate range hole +macro_rules! convert_char { + ( $self:ident . $method:ident ( $( $arg:expr ),* ) ) => {{ + let start = $self.range.start as u32; + let end = $self.range.end as u32; + if start < 0xD800 && 0xE000 < end { + // chain the before and after surrogate range fragments + (start..0xD800) + .into_par_iter() + .chain(0xE000..end) + .map(|codepoint| unsafe { char::from_u32_unchecked(codepoint) }) + .$method($( $arg ),*) + } else { + // no surrogate range to worry about + (start..end) + .into_par_iter() + .map(|codepoint| unsafe { char::from_u32_unchecked(codepoint) }) + .$method($( $arg ),*) + } + }}; +} + +impl ParallelIterator for Iter<char> { + type Item = char; + + fn drive_unindexed<C>(self, consumer: C) -> C::Result + where + C: UnindexedConsumer<Self::Item>, + { + convert_char!(self.drive(consumer)) + } + + fn opt_len(&self) -> Option<usize> { + Some(self.len()) + } +} + +impl IndexedParallelIterator for Iter<char> { + // Split at the surrogate range first if we're allowed to + fn drive<C>(self, consumer: C) -> C::Result + where + C: Consumer<Self::Item>, + { + convert_char!(self.drive(consumer)) + } + + fn len(&self) -> usize { + // Taken from <char as Step>::steps_between + let start = self.range.start as u32; + let end = self.range.end as u32; + if start < end { + let mut count = end - start; + if start < 0xD800 && 0xE000 <= end { + count -= 0x800 + } + count as usize + } else { + 0 + } + } + + fn with_producer<CB>(self, callback: CB) -> CB::Output + where + CB: ProducerCallback<Self::Item>, + { + convert_char!(self.with_producer(callback)) + } +} + +#[test] +fn check_range_split_at_overflow() { + // Note, this split index overflows i8! + let producer = IterProducer { range: -100i8..100 }; + let (left, right) = producer.split_at(150); + let r1: i32 = left.range.map(i32::from).sum(); + let r2: i32 = right.range.map(i32::from).sum(); + assert_eq!(r1 + r2, -100); +} + +#[test] +fn test_i128_len_doesnt_overflow() { + use std::{i128, u128}; + + // Using parse because some versions of rust don't allow long literals + let octillion: i128 = "1000000000000000000000000000".parse().unwrap(); + let producer = IterProducer { + range: 0..octillion, + }; + + assert_eq!(octillion as u128, producer.range.len()); + assert_eq!(octillion as u128, (0..octillion).len()); + assert_eq!(2 * octillion as u128, (-octillion..octillion).len()); + + assert_eq!(u128::MAX, (i128::MIN..i128::MAX).len()); +} + +#[test] +fn test_u64_opt_len() { + use std::{u64, usize}; + assert_eq!(Some(100), (0..100u64).into_par_iter().opt_len()); + assert_eq!( + Some(usize::MAX), + (0..usize::MAX as u64).into_par_iter().opt_len() + ); + if (usize::MAX as u64) < u64::MAX { + assert_eq!( + None, + (0..(usize::MAX as u64).wrapping_add(1)) + .into_par_iter() + .opt_len() + ); + assert_eq!(None, (0..u64::MAX).into_par_iter().opt_len()); + } +} + +#[test] +fn test_u128_opt_len() { + use std::{u128, usize}; + assert_eq!(Some(100), (0..100u128).into_par_iter().opt_len()); + assert_eq!( + Some(usize::MAX), + (0..usize::MAX as u128).into_par_iter().opt_len() + ); + assert_eq!(None, (0..1 + usize::MAX as u128).into_par_iter().opt_len()); + assert_eq!(None, (0..u128::MAX).into_par_iter().opt_len()); +} + +// `usize as i64` can overflow, so make sure to wrap it appropriately +// when using the `opt_len` "indexed" mode. +#[test] +#[cfg(target_pointer_width = "64")] +fn test_usize_i64_overflow() { + use crate::ThreadPoolBuilder; + use std::i64; + + let iter = (-2..i64::MAX).into_par_iter(); + assert_eq!(iter.opt_len(), Some(i64::MAX as usize + 2)); + + // always run with multiple threads to split into, or this will take forever... + let pool = ThreadPoolBuilder::new().num_threads(8).build().unwrap(); + pool.install(|| assert_eq!(iter.find_last(|_| true), Some(i64::MAX - 1))); +} + +#[test] +fn test_issue_833() { + fn is_even(n: i64) -> bool { + n % 2 == 0 + } + + // The integer type should be inferred from `is_even` + let v: Vec<_> = (1..100).into_par_iter().filter(|&x| is_even(x)).collect(); + assert!(v.into_iter().eq((2..100).step_by(2))); + + // Try examples with indexed iterators too + let pos = (0..100).into_par_iter().position_any(|x| x == 50i16); + assert_eq!(pos, Some(50usize)); + + assert!((0..100) + .into_par_iter() + .zip(0..100) + .all(|(a, b)| i16::eq(&a, &b))); +} |